From: Matt Corallo Date: Mon, 8 Mar 2021 18:47:30 +0000 (-0500) Subject: Initial checkin with no changes from current RL git head X-Git-Tag: v0.0.98~26 X-Git-Url: http://git.bitcoin.ninja/index.cgi?a=commitdiff_plain;h=1495575b517c90da925698da14f627bf0d5b313f;p=ldk-c-bindings Initial checkin with no changes from current RL git head --- 1495575b517c90da925698da14f627bf0d5b313f diff --git a/c-bindings-gen/Cargo.toml b/c-bindings-gen/Cargo.toml new file mode 100644 index 0000000..dedeade --- /dev/null +++ b/c-bindings-gen/Cargo.toml @@ -0,0 +1,15 @@ +[package] +name = "c-bindings-gen" +version = "0.0.1" +authors = ["Matt Corallo"] +edition = "2018" + +[dependencies] +syn = { version = "1", features = ["full", "extra-traits"] } +proc-macro2 = "1" + +[profile.release] +debug = true + +# We're not in the workspace as we're just a binary code generator: +[workspace] diff --git a/c-bindings-gen/README.md b/c-bindings-gen/README.md new file mode 100644 index 0000000..8377adc --- /dev/null +++ b/c-bindings-gen/README.md @@ -0,0 +1,14 @@ +LDK C Bindings Generator +======================== + +This program parses a Rust crate's AST from a single lib.rs passed in on stdin and generates a +second crate which is C-callable (and carries appropriate annotations for cbindgen). It is usually +invoked via the `genbindings.sh` script in the top-level directory, which converts the lightning +crate into a single file with a call to +`RUSTC_BOOTSTRAP=1 cargo rustc --profile=check -- -Zunstable-options --pretty=expanded`. + +`genbindings.sh` requires that you have a rustc installed with the `wasm32-wasi` target available +(eg via the `libstd-rust-dev-wasm32` package on Debian or `rustup target add wasm32-wasi` for those +using rustup), cbindgen installed via `cargo install cbindgen` and in your `PATH`, and `clang`, +`clang++`, `gcc`, and `g++` available in your `PATH`. It uses `valgrind` if it is available to test +the generated bindings thoroughly for memory management issues. diff --git a/c-bindings-gen/src/blocks.rs b/c-bindings-gen/src/blocks.rs new file mode 100644 index 0000000..dd57a82 --- /dev/null +++ b/c-bindings-gen/src/blocks.rs @@ -0,0 +1,601 @@ +//! Printing logic for basic blocks of Rust-mapped code - parts of functions and declarations but +//! not the full mapping logic. + +use std::fs::File; +use std::io::Write; +use proc_macro2::{TokenTree, Span}; + +use crate::types::*; + +/// Writes out a C++ wrapper class for the given type, which contains various utilities to access +/// the underlying C-mapped type safely avoiding some common memory management issues by handling +/// resource-freeing and prevending accidental raw copies. +pub fn write_cpp_wrapper(cpp_header_file: &mut File, ty: &str, has_destructor: bool) { + writeln!(cpp_header_file, "class {} {{", ty).unwrap(); + writeln!(cpp_header_file, "private:").unwrap(); + writeln!(cpp_header_file, "\tLDK{} self;", ty).unwrap(); + writeln!(cpp_header_file, "public:").unwrap(); + writeln!(cpp_header_file, "\t{}(const {}&) = delete;", ty, ty).unwrap(); + writeln!(cpp_header_file, "\t{}({}&& o) : self(o.self) {{ memset(&o, 0, sizeof({})); }}", ty, ty, ty).unwrap(); + writeln!(cpp_header_file, "\t{}(LDK{}&& m_self) : self(m_self) {{ memset(&m_self, 0, sizeof(LDK{})); }}", ty, ty, ty).unwrap(); + writeln!(cpp_header_file, "\toperator LDK{}() && {{ LDK{} res = self; memset(&self, 0, sizeof(LDK{})); return res; }}", ty, ty, ty).unwrap(); + if has_destructor { + writeln!(cpp_header_file, "\t~{}() {{ {}_free(self); }}", ty, ty).unwrap(); + writeln!(cpp_header_file, "\t{}& operator=({}&& o) {{ {}_free(self); self = o.self; memset(&o, 0, sizeof({})); return *this; }}", ty, ty, ty, ty).unwrap(); + } else { + writeln!(cpp_header_file, "\t{}& operator=({}&& o) {{ self = o.self; memset(&o, 0, sizeof({})); return *this; }}", ty, ty, ty).unwrap(); + } + writeln!(cpp_header_file, "\tLDK{}* operator &() {{ return &self; }}", ty).unwrap(); + writeln!(cpp_header_file, "\tLDK{}* operator ->() {{ return &self; }}", ty).unwrap(); + writeln!(cpp_header_file, "\tconst LDK{}* operator &() const {{ return &self; }}", ty).unwrap(); + writeln!(cpp_header_file, "\tconst LDK{}* operator ->() const {{ return &self; }}", ty).unwrap(); + writeln!(cpp_header_file, "}};").unwrap(); +} + +/// Writes out a C-callable concrete Result struct and utility methods +pub fn write_result_block(w: &mut W, mangled_container: &str, ok_type: &str, err_type: &str, clonable: bool) { + writeln!(w, "#[repr(C)]").unwrap(); + writeln!(w, "pub union {}Ptr {{", mangled_container).unwrap(); + if ok_type != "()" { + writeln!(w, "\tpub result: *mut {},", ok_type).unwrap(); + } else { + writeln!(w, "\t/// Note that this value is always NULL, as there are no contents in the OK variant").unwrap(); + writeln!(w, "\tpub result: *mut std::ffi::c_void,").unwrap(); + } + if err_type != "()" { + writeln!(w, "\tpub err: *mut {},", err_type).unwrap(); + } else { + writeln!(w, "\t/// Note that this value is always NULL, as there are no contents in the Err variant").unwrap(); + writeln!(w, "\tpub err: *mut std::ffi::c_void,").unwrap(); + } + writeln!(w, "}}").unwrap(); + writeln!(w, "#[repr(C)]").unwrap(); + writeln!(w, "pub struct {} {{", mangled_container).unwrap(); + writeln!(w, "\tpub contents: {}Ptr,", mangled_container).unwrap(); + writeln!(w, "\tpub result_ok: bool,").unwrap(); + writeln!(w, "}}").unwrap(); + + writeln!(w, "#[no_mangle]").unwrap(); + if ok_type != "()" { + writeln!(w, "pub extern \"C\" fn {}_ok(o: {}) -> {} {{", mangled_container, ok_type, mangled_container).unwrap(); + } else { + writeln!(w, "pub extern \"C\" fn {}_ok() -> {} {{", mangled_container, mangled_container).unwrap(); + } + writeln!(w, "\t{} {{", mangled_container).unwrap(); + writeln!(w, "\t\tcontents: {}Ptr {{", mangled_container).unwrap(); + if ok_type != "()" { + writeln!(w, "\t\t\tresult: Box::into_raw(Box::new(o)),").unwrap(); + } else { + writeln!(w, "\t\t\tresult: std::ptr::null_mut(),").unwrap(); + } + writeln!(w, "\t\t}},").unwrap(); + writeln!(w, "\t\tresult_ok: true,").unwrap(); + writeln!(w, "\t}}").unwrap(); + writeln!(w, "}}").unwrap(); + + writeln!(w, "#[no_mangle]").unwrap(); + if err_type != "()" { + writeln!(w, "pub extern \"C\" fn {}_err(e: {}) -> {} {{", mangled_container, err_type, mangled_container).unwrap(); + } else { + writeln!(w, "pub extern \"C\" fn {}_err() -> {} {{", mangled_container, mangled_container).unwrap(); + } + writeln!(w, "\t{} {{", mangled_container).unwrap(); + writeln!(w, "\t\tcontents: {}Ptr {{", mangled_container).unwrap(); + if err_type != "()" { + writeln!(w, "\t\t\terr: Box::into_raw(Box::new(e)),").unwrap(); + } else { + writeln!(w, "\t\t\terr: std::ptr::null_mut(),").unwrap(); + } + writeln!(w, "\t\t}},").unwrap(); + writeln!(w, "\t\tresult_ok: false,").unwrap(); + writeln!(w, "\t}}").unwrap(); + writeln!(w, "}}").unwrap(); + + writeln!(w, "#[no_mangle]").unwrap(); + writeln!(w, "pub extern \"C\" fn {}_free(_res: {}) {{ }}", mangled_container, mangled_container).unwrap(); + writeln!(w, "impl Drop for {} {{", mangled_container).unwrap(); + writeln!(w, "\tfn drop(&mut self) {{").unwrap(); + writeln!(w, "\t\tif self.result_ok {{").unwrap(); + if ok_type != "()" { + writeln!(w, "\t\t\tif unsafe {{ !(self.contents.result as *mut ()).is_null() }} {{").unwrap(); + writeln!(w, "\t\t\t\tlet _ = unsafe {{ Box::from_raw(self.contents.result) }};").unwrap(); + writeln!(w, "\t\t\t}}").unwrap(); + } + writeln!(w, "\t\t}} else {{").unwrap(); + if err_type != "()" { + writeln!(w, "\t\t\tif unsafe {{ !(self.contents.err as *mut ()).is_null() }} {{").unwrap(); + writeln!(w, "\t\t\t\tlet _ = unsafe {{ Box::from_raw(self.contents.err) }};").unwrap(); + writeln!(w, "\t\t\t}}").unwrap(); + } + writeln!(w, "\t\t}}").unwrap(); + writeln!(w, "\t}}").unwrap(); + writeln!(w, "}}").unwrap(); + + // TODO: Templates should use () now that they can, too + let templ_ok_type = if ok_type != "()" { ok_type } else { "u8" }; + let templ_err_type = if err_type != "()" { err_type } else { "u8" }; + + writeln!(w, "impl From> for {} {{", templ_ok_type, templ_err_type, mangled_container).unwrap(); + writeln!(w, "\tfn from(mut o: crate::c_types::CResultTempl<{}, {}>) -> Self {{", templ_ok_type, templ_err_type).unwrap(); + writeln!(w, "\t\tlet contents = if o.result_ok {{").unwrap(); + if ok_type != "()" { + writeln!(w, "\t\t\tlet result = unsafe {{ o.contents.result }};").unwrap(); + writeln!(w, "\t\t\tunsafe {{ o.contents.result = std::ptr::null_mut() }};").unwrap(); + writeln!(w, "\t\t\t{}Ptr {{ result }}", mangled_container).unwrap(); + } else { + writeln!(w, "\t\t\tlet _ = unsafe {{ Box::from_raw(o.contents.result) }};").unwrap(); + writeln!(w, "\t\t\to.contents.result = std::ptr::null_mut();").unwrap(); + writeln!(w, "\t\t\t{}Ptr {{ result: std::ptr::null_mut() }}", mangled_container).unwrap(); + } + writeln!(w, "\t\t}} else {{").unwrap(); + if err_type != "()" { + writeln!(w, "\t\t\tlet err = unsafe {{ o.contents.err }};").unwrap(); + writeln!(w, "\t\t\tunsafe {{ o.contents.err = std::ptr::null_mut(); }}").unwrap(); + writeln!(w, "\t\t\t{}Ptr {{ err }}", mangled_container).unwrap(); + } else { + writeln!(w, "\t\t\tlet _ = unsafe {{ Box::from_raw(o.contents.err) }};").unwrap(); + writeln!(w, "\t\t\to.contents.err = std::ptr::null_mut();").unwrap(); + writeln!(w, "\t\t\t{}Ptr {{ err: std::ptr::null_mut() }}", mangled_container).unwrap(); + } + writeln!(w, "\t\t}};").unwrap(); + writeln!(w, "\t\tSelf {{").unwrap(); + writeln!(w, "\t\t\tcontents,").unwrap(); + writeln!(w, "\t\t\tresult_ok: o.result_ok,").unwrap(); + writeln!(w, "\t\t}}").unwrap(); + writeln!(w, "\t}}").unwrap(); + writeln!(w, "}}").unwrap(); + + if clonable { + writeln!(w, "impl Clone for {} {{", mangled_container).unwrap(); + writeln!(w, "\tfn clone(&self) -> Self {{").unwrap(); + writeln!(w, "\t\tif self.result_ok {{").unwrap(); + writeln!(w, "\t\t\tSelf {{ result_ok: true, contents: {}Ptr {{", mangled_container).unwrap(); + if ok_type != "()" { + writeln!(w, "\t\t\t\tresult: Box::into_raw(Box::new(<{}>::clone(unsafe {{ &*self.contents.result }})))", ok_type).unwrap(); + } else { + writeln!(w, "\t\t\t\tresult: std::ptr::null_mut()").unwrap(); + } + writeln!(w, "\t\t\t}} }}").unwrap(); + writeln!(w, "\t\t}} else {{").unwrap(); + writeln!(w, "\t\t\tSelf {{ result_ok: false, contents: {}Ptr {{", mangled_container).unwrap(); + if err_type != "()" { + writeln!(w, "\t\t\t\terr: Box::into_raw(Box::new(<{}>::clone(unsafe {{ &*self.contents.err }})))", err_type).unwrap(); + } else { + writeln!(w, "\t\t\t\terr: std::ptr::null_mut()").unwrap(); + } + writeln!(w, "\t\t\t}} }}").unwrap(); + writeln!(w, "\t\t}}").unwrap(); + writeln!(w, "\t}}").unwrap(); + writeln!(w, "}}").unwrap(); + writeln!(w, "#[no_mangle]").unwrap(); + writeln!(w, "pub extern \"C\" fn {}_clone(orig: &{}) -> {} {{ orig.clone() }}", mangled_container, mangled_container, mangled_container).unwrap(); + } +} + +/// Writes out a C-callable concrete Vec struct and utility methods +pub fn write_vec_block(w: &mut W, mangled_container: &str, inner_type: &str, clonable: bool) { + writeln!(w, "#[repr(C)]").unwrap(); + writeln!(w, "pub struct {} {{", mangled_container).unwrap(); + writeln!(w, "\tpub data: *mut {},", inner_type).unwrap(); + writeln!(w, "\tpub datalen: usize").unwrap(); + writeln!(w, "}}").unwrap(); + + writeln!(w, "impl {} {{", mangled_container).unwrap(); + writeln!(w, "\t#[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec<{}> {{", inner_type).unwrap(); + writeln!(w, "\t\tif self.datalen == 0 {{ return Vec::new(); }}").unwrap(); + writeln!(w, "\t\tlet ret = unsafe {{ Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }}.into();").unwrap(); + writeln!(w, "\t\tself.data = std::ptr::null_mut();").unwrap(); + writeln!(w, "\t\tself.datalen = 0;").unwrap(); + writeln!(w, "\t\tret").unwrap(); + writeln!(w, "\t}}").unwrap(); + writeln!(w, "\t#[allow(unused)] pub(crate) fn as_slice(&self) -> &[{}] {{", inner_type).unwrap(); + writeln!(w, "\t\tunsafe {{ std::slice::from_raw_parts_mut(self.data, self.datalen) }}").unwrap(); + writeln!(w, "\t}}").unwrap(); + writeln!(w, "}}").unwrap(); + + writeln!(w, "impl From> for {} {{", inner_type, mangled_container).unwrap(); + writeln!(w, "\tfn from(v: Vec<{}>) -> Self {{", inner_type).unwrap(); + writeln!(w, "\t\tlet datalen = v.len();").unwrap(); + writeln!(w, "\t\tlet data = Box::into_raw(v.into_boxed_slice());").unwrap(); + writeln!(w, "\t\tSelf {{ datalen, data: unsafe {{ (*data).as_mut_ptr() }} }}").unwrap(); + writeln!(w, "\t}}").unwrap(); + writeln!(w, "}}").unwrap(); + + writeln!(w, "#[no_mangle]").unwrap(); + writeln!(w, "pub extern \"C\" fn {}_free(_res: {}) {{ }}", mangled_container, mangled_container).unwrap(); + writeln!(w, "impl Drop for {} {{", mangled_container).unwrap(); + writeln!(w, "\tfn drop(&mut self) {{").unwrap(); + writeln!(w, "\t\tif self.datalen == 0 {{ return; }}").unwrap(); + writeln!(w, "\t\tunsafe {{ Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }};").unwrap(); + writeln!(w, "\t}}").unwrap(); + writeln!(w, "}}").unwrap(); + if clonable { + writeln!(w, "impl Clone for {} {{", mangled_container).unwrap(); + writeln!(w, "\tfn clone(&self) -> Self {{").unwrap(); + writeln!(w, "\t\tlet mut res = Vec::new();").unwrap(); + writeln!(w, "\t\tif self.datalen == 0 {{ return Self::from(res); }}").unwrap(); + writeln!(w, "\t\tres.extend_from_slice(unsafe {{ std::slice::from_raw_parts_mut(self.data, self.datalen) }});").unwrap(); + writeln!(w, "\t\tSelf::from(res)").unwrap(); + writeln!(w, "\t}}").unwrap(); + writeln!(w, "}}").unwrap(); + } +} + +/// Writes out a C-callable concrete (A, B, ...) struct and utility methods +pub fn write_tuple_block(w: &mut W, mangled_container: &str, types: &[String], clonable: bool) { + writeln!(w, "#[repr(C)]").unwrap(); + writeln!(w, "pub struct {} {{", mangled_container).unwrap(); + for (idx, ty) in types.iter().enumerate() { + writeln!(w, "\tpub {}: {},", ('a' as u8 + idx as u8) as char, ty).unwrap(); + } + writeln!(w, "}}").unwrap(); + + let mut tuple_str = "(".to_owned(); + for (idx, ty) in types.iter().enumerate() { + if idx != 0 { tuple_str += ", "; } + tuple_str += ty; + } + tuple_str += ")"; + + writeln!(w, "impl From<{}> for {} {{", tuple_str, mangled_container).unwrap(); + writeln!(w, "\tfn from (tup: {}) -> Self {{", tuple_str).unwrap(); + writeln!(w, "\t\tSelf {{").unwrap(); + for idx in 0..types.len() { + writeln!(w, "\t\t\t{}: tup.{},", ('a' as u8 + idx as u8) as char, idx).unwrap(); + } + writeln!(w, "\t\t}}").unwrap(); + writeln!(w, "\t}}").unwrap(); + writeln!(w, "}}").unwrap(); + writeln!(w, "impl {} {{", mangled_container).unwrap(); + writeln!(w, "\t#[allow(unused)] pub(crate) fn to_rust(mut self) -> {} {{", tuple_str).unwrap(); + write!(w, "\t\t(").unwrap(); + for idx in 0..types.len() { + write!(w, "{}self.{}", if idx != 0 {", "} else {""}, ('a' as u8 + idx as u8) as char).unwrap(); + } + writeln!(w, ")").unwrap(); + writeln!(w, "\t}}").unwrap(); + writeln!(w, "}}").unwrap(); + + if clonable { + writeln!(w, "impl Clone for {} {{", mangled_container).unwrap(); + writeln!(w, "\tfn clone(&self) -> Self {{").unwrap(); + writeln!(w, "\t\tSelf {{").unwrap(); + for idx in 0..types.len() { + writeln!(w, "\t\t\t{}: self.{}.clone(),", ('a' as u8 + idx as u8) as char, ('a' as u8 + idx as u8) as char).unwrap(); + } + writeln!(w, "\t\t}}").unwrap(); + writeln!(w, "\t}}").unwrap(); + writeln!(w, "}}").unwrap(); + writeln!(w, "#[no_mangle]").unwrap(); + writeln!(w, "pub extern \"C\" fn {}_clone(orig: &{}) -> {} {{ orig.clone() }}", mangled_container, mangled_container, mangled_container).unwrap(); + } + + write!(w, "#[no_mangle]\npub extern \"C\" fn {}_new(", mangled_container).unwrap(); + for (idx, gen) in types.iter().enumerate() { + write!(w, "{}{}: ", if idx != 0 { ", " } else { "" }, ('a' as u8 + idx as u8) as char).unwrap(); + //if !self.write_c_type_intern(&mut created_container, gen, generics, false, false, false) { return false; } + write!(w, "{}", gen).unwrap(); + } + writeln!(w, ") -> {} {{", mangled_container).unwrap(); + write!(w, "\t{} {{ ", mangled_container).unwrap(); + for idx in 0..types.len() { + write!(w, "{}, ", ('a' as u8 + idx as u8) as char).unwrap(); + } + writeln!(w, "}}\n}}\n").unwrap(); + + writeln!(w, "#[no_mangle]").unwrap(); + writeln!(w, "pub extern \"C\" fn {}_free(_res: {}) {{ }}", mangled_container, mangled_container).unwrap(); +} + +/// Prints the docs from a given attribute list unless its tagged no export +pub fn writeln_docs(w: &mut W, attrs: &[syn::Attribute], prefix: &str) { + for attr in attrs.iter() { + let tokens_clone = attr.tokens.clone(); + let mut token_iter = tokens_clone.into_iter(); + if let Some(token) = token_iter.next() { + match token { + TokenTree::Punct(c) if c.as_char() == '=' => { + // syn gets '=' from '///' or '//!' as it is syntax for #[doc = ""] + }, + TokenTree::Group(_) => continue, // eg #[derive()] + _ => unimplemented!(), + } + } else { continue; } + match attr.style { + syn::AttrStyle::Inner(_) => { + match token_iter.next().unwrap() { + TokenTree::Literal(lit) => { + // Drop the first and last chars from lit as they are always " + let doc = format!("{}", lit); + writeln!(w, "{}//!{}", prefix, &doc[1..doc.len() - 1]).unwrap(); + }, + _ => unimplemented!(), + } + }, + syn::AttrStyle::Outer => { + match token_iter.next().unwrap() { + TokenTree::Literal(lit) => { + // Drop the first and last chars from lit as they are always " + let doc = format!("{}", lit); + writeln!(w, "{}///{}", prefix, &doc[1..doc.len() - 1]).unwrap(); + }, + _ => unimplemented!(), + } + }, + } + } +} + +/// Print the parameters in a method declaration, starting after the open parenthesis, through and +/// including the closing parenthesis and return value, but not including the open bracket or any +/// trailing semicolons. +/// +/// Usable both for a function definition and declaration. +/// +/// this_param is used when returning Self or accepting a self parameter, and should be the +/// concrete, mapped type. +pub fn write_method_params(w: &mut W, sig: &syn::Signature, this_param: &str, types: &mut TypeResolver, generics: Option<&GenericTypes>, self_ptr: bool, fn_decl: bool) { + if sig.constness.is_some() || sig.asyncness.is_some() || sig.unsafety.is_some() || + sig.abi.is_some() || sig.variadic.is_some() { + unimplemented!(); + } + if sig.generics.lt_token.is_some() { + for generic in sig.generics.params.iter() { + match generic { + syn::GenericParam::Type(_)|syn::GenericParam::Lifetime(_) => { + // We ignore these, if they're not on skipped args, we'll blow up + // later, and lifetimes we just hope the C client enforces. + }, + _ => unimplemented!(), + } + } + } + + let mut first_arg = true; + let mut num_unused = 0; + for inp in sig.inputs.iter() { + match inp { + syn::FnArg::Receiver(recv) => { + if !recv.attrs.is_empty() || recv.reference.is_none() { unimplemented!(); } + write!(w, "this_arg: {}{}", + match (self_ptr, recv.mutability.is_some()) { + (true, true) => "*mut ", + (true, false) => "*const ", + (false, true) => "&mut ", + (false, false) => "&", + }, this_param).unwrap(); + assert!(first_arg); + first_arg = false; + }, + syn::FnArg::Typed(arg) => { + if types.skip_arg(&*arg.ty, generics) { continue; } + if !arg.attrs.is_empty() { unimplemented!(); } + // First get the c type so that we can check if it ends up being a reference: + let mut c_type = Vec::new(); + types.write_c_type(&mut c_type, &*arg.ty, generics, false); + match &*arg.pat { + syn::Pat::Ident(ident) => { + if !ident.attrs.is_empty() || ident.subpat.is_some() { + unimplemented!(); + } + write!(w, "{}{}{}: ", if first_arg { "" } else { ", " }, if !fn_decl || c_type[0] == '&' as u8 || c_type[0] == '*' as u8 { "" } else { "mut " }, ident.ident).unwrap(); + first_arg = false; + }, + syn::Pat::Wild(wild) => { + if !wild.attrs.is_empty() { unimplemented!(); } + write!(w, "{}unused_{}: ", if first_arg { "" } else { ", " }, num_unused).unwrap(); + num_unused += 1; + }, + _ => unimplemented!(), + } + w.write(&c_type).unwrap(); + } + } + } + write!(w, ")").unwrap(); + match &sig.output { + syn::ReturnType::Type(_, rtype) => { + write!(w, " -> ").unwrap(); + if let Some(mut remaining_path) = first_seg_self(&*rtype) { + if remaining_path.next().is_none() { + write!(w, "{}", this_param).unwrap(); + return; + } + } + if let syn::Type::Reference(r) = &**rtype { + // We can't return a reference, cause we allocate things on the stack. + types.write_c_type(w, &*r.elem, generics, true); + } else { + types.write_c_type(w, &*rtype, generics, true); + } + }, + _ => {}, + } +} + +/// Print the main part of a method declaration body, starting with a newline after the function +/// open bracket and converting each function parameter to or from C-mapped types. Ends with "let +/// mut ret = " assuming the next print will be the unmapped Rust function to call followed by the +/// parameters we mapped to/from C here. +pub fn write_method_var_decl_body(w: &mut W, sig: &syn::Signature, extra_indent: &str, types: &TypeResolver, generics: Option<&GenericTypes>, to_c: bool) { + let mut num_unused = 0; + for inp in sig.inputs.iter() { + match inp { + syn::FnArg::Receiver(_) => {}, + syn::FnArg::Typed(arg) => { + if types.skip_arg(&*arg.ty, generics) { continue; } + if !arg.attrs.is_empty() { unimplemented!(); } + macro_rules! write_new_var { + ($ident: expr, $ty: expr) => { + if to_c { + if types.write_to_c_conversion_new_var(w, &$ident, &$ty, generics, false) { + write!(w, "\n\t{}", extra_indent).unwrap(); + } + } else { + if types.write_from_c_conversion_new_var(w, &$ident, &$ty, generics) { + write!(w, "\n\t{}", extra_indent).unwrap(); + } + } + } + } + match &*arg.pat { + syn::Pat::Ident(ident) => { + if !ident.attrs.is_empty() || ident.subpat.is_some() { + unimplemented!(); + } + write_new_var!(ident.ident, *arg.ty); + }, + syn::Pat::Wild(w) => { + if !w.attrs.is_empty() { unimplemented!(); } + write_new_var!(syn::Ident::new(&format!("unused_{}", num_unused), Span::call_site()), *arg.ty); + num_unused += 1; + }, + _ => unimplemented!(), + } + } + } + } + match &sig.output { + syn::ReturnType::Type(_, _) => { + write!(w, "let mut ret = ").unwrap(); + }, + _ => {}, + } +} + +/// Prints the parameters in a method call, starting after the open parenthesis and ending with a +/// final return statement returning the method's result. Should be followed by a single closing +/// bracket. +/// +/// The return value is expected to be bound to a variable named `ret` which is available after a +/// method-call-ending semicolon. +pub fn write_method_call_params(w: &mut W, sig: &syn::Signature, extra_indent: &str, types: &TypeResolver, generics: Option<&GenericTypes>, this_type: &str, to_c: bool) { + let mut first_arg = true; + let mut num_unused = 0; + for inp in sig.inputs.iter() { + match inp { + syn::FnArg::Receiver(recv) => { + if !recv.attrs.is_empty() || recv.reference.is_none() { unimplemented!(); } + if to_c { + write!(w, "self.this_arg").unwrap(); + first_arg = false; + } + }, + syn::FnArg::Typed(arg) => { + if types.skip_arg(&*arg.ty, generics) { + if !to_c { + if !first_arg { + write!(w, ", ").unwrap(); + } + first_arg = false; + types.no_arg_to_rust(w, &*arg.ty, generics); + } + continue; + } + if !arg.attrs.is_empty() { unimplemented!(); } + macro_rules! write_ident { + ($ident: expr) => { + if !first_arg { + write!(w, ", ").unwrap(); + } + first_arg = false; + if to_c { + types.write_to_c_conversion_inline_prefix(w, &*arg.ty, generics, false); + write!(w, "{}", $ident).unwrap(); + types.write_to_c_conversion_inline_suffix(w, &*arg.ty, generics, false); + } else { + types.write_from_c_conversion_prefix(w, &*arg.ty, generics); + write!(w, "{}", $ident).unwrap(); + types.write_from_c_conversion_suffix(w, &*arg.ty, generics); + } + } + } + match &*arg.pat { + syn::Pat::Ident(ident) => { + if !ident.attrs.is_empty() || ident.subpat.is_some() { + unimplemented!(); + } + write_ident!(ident.ident); + }, + syn::Pat::Wild(w) => { + if !w.attrs.is_empty() { unimplemented!(); } + write_ident!(format!("unused_{}", num_unused)); + num_unused += 1; + }, + _ => unimplemented!(), + } + } + } + } + write!(w, ")").unwrap(); + match &sig.output { + syn::ReturnType::Type(_, rtype) => { + write!(w, ";\n\t{}", extra_indent).unwrap(); + + let self_segs_iter = first_seg_self(&*rtype); + if to_c && first_seg_self(&*rtype).is_some() { + // Assume rather blindly that we're returning an associated trait from a C fn call to a Rust trait object. + write!(w, "ret").unwrap(); + } else if !to_c && self_segs_iter.is_some() && self_segs_iter.unwrap().next().is_none() { + // If we're returning "Self" (and not "Self::X"), just do it manually + write!(w, "{} {{ inner: Box::into_raw(Box::new(ret)), is_owned: true }}", this_type).unwrap(); + } else if to_c { + let new_var = types.write_from_c_conversion_new_var(w, &syn::Ident::new("ret", Span::call_site()), rtype, generics); + if new_var { + write!(w, "\n\t{}", extra_indent).unwrap(); + } + types.write_from_c_conversion_prefix(w, &*rtype, generics); + write!(w, "ret").unwrap(); + types.write_from_c_conversion_suffix(w, &*rtype, generics); + } else { + let ret_returned = if let syn::Type::Reference(_) = &**rtype { true } else { false }; + let new_var = types.write_to_c_conversion_new_var(w, &syn::Ident::new("ret", Span::call_site()), &rtype, generics, true); + if new_var { + write!(w, "\n\t{}", extra_indent).unwrap(); + } + types.write_to_c_conversion_inline_prefix(w, &rtype, generics, true); + write!(w, "{}ret", if ret_returned && !new_var { "*" } else { "" }).unwrap(); + types.write_to_c_conversion_inline_suffix(w, &rtype, generics, true); + } + } + _ => {}, + } +} + +/// Prints concrete generic parameters for a struct/trait/function, including the less-than and +/// greater-than symbols, if any generic parameters are defined. +pub fn maybe_write_generics(w: &mut W, generics: &syn::Generics, types: &TypeResolver, concrete_lifetimes: bool) { + let mut gen_types = GenericTypes::new(); + assert!(gen_types.learn_generics(generics, types)); + if !generics.params.is_empty() { + write!(w, "<").unwrap(); + for (idx, generic) in generics.params.iter().enumerate() { + match generic { + syn::GenericParam::Type(type_param) => { + let mut printed_param = false; + for bound in type_param.bounds.iter() { + if let syn::TypeParamBound::Trait(trait_bound) = bound { + assert_simple_bound(&trait_bound); + write!(w, "{}{}", if idx != 0 { ", " } else { "" }, gen_types.maybe_resolve_ident(&type_param.ident).unwrap()).unwrap(); + if printed_param { + unimplemented!("Can't print generic params that have multiple non-lifetime bounds"); + } + printed_param = true; + } + } + }, + syn::GenericParam::Lifetime(lt) => { + if concrete_lifetimes { + write!(w, "'static").unwrap(); + } else { + write!(w, "{}'{}", if idx != 0 { ", " } else { "" }, lt.lifetime.ident).unwrap(); + } + }, + _ => unimplemented!(), + } + } + write!(w, ">").unwrap(); + } +} + + diff --git a/c-bindings-gen/src/main.rs b/c-bindings-gen/src/main.rs new file mode 100644 index 0000000..a0acfc6 --- /dev/null +++ b/c-bindings-gen/src/main.rs @@ -0,0 +1,1615 @@ +//! Converts a rust crate into a rust crate containing a number of C-exported wrapper functions and +//! classes (which is exportable using cbindgen). +//! In general, supports convering: +//! * structs as a pointer to the underlying type (either owned or not owned), +//! * traits as a void-ptr plus a jump table, +//! * enums as an equivalent enum with all the inner fields mapped to the mapped types, +//! * certain containers (tuples, slices, Vecs, Options, and Results currently) to a concrete +//! version of a defined container template. +//! +//! It also generates relevant memory-management functions and free-standing functions with +//! parameters mapped. + +use std::collections::{HashMap, hash_map, HashSet}; +use std::env; +use std::fs::File; +use std::io::{Read, Write}; +use std::process; + +use proc_macro2::{TokenTree, TokenStream, Span}; + +mod types; +mod blocks; +use types::*; +use blocks::*; + +// ************************************* +// *** Manually-expanded conversions *** +// ************************************* + +/// Because we don't expand macros, any code that we need to generated based on their contents has +/// to be completely manual. In this case its all just serialization, so its not too hard. +fn convert_macro(w: &mut W, macro_path: &syn::Path, stream: &TokenStream, types: &TypeResolver) { + assert_eq!(macro_path.segments.len(), 1); + match &format!("{}", macro_path.segments.iter().next().unwrap().ident) as &str { + "impl_writeable" | "impl_writeable_len_match" => { + let struct_for = if let TokenTree::Ident(i) = stream.clone().into_iter().next().unwrap() { i } else { unimplemented!(); }; + if let Some(s) = types.maybe_resolve_ident(&struct_for) { + if !types.crate_types.opaques.get(&s).is_some() { return; } + writeln!(w, "#[no_mangle]").unwrap(); + writeln!(w, "pub extern \"C\" fn {}_write(obj: &{}) -> crate::c_types::derived::CVec_u8Z {{", struct_for, struct_for).unwrap(); + writeln!(w, "\tcrate::c_types::serialize_obj(unsafe {{ &(*(*obj).inner) }})").unwrap(); + writeln!(w, "}}").unwrap(); + writeln!(w, "#[no_mangle]").unwrap(); + writeln!(w, "pub(crate) extern \"C\" fn {}_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z {{", struct_for).unwrap(); + writeln!(w, "\tcrate::c_types::serialize_obj(unsafe {{ &*(obj as *const native{}) }})", struct_for).unwrap(); + writeln!(w, "}}").unwrap(); + writeln!(w, "#[no_mangle]").unwrap(); + writeln!(w, "pub extern \"C\" fn {}_read(ser: crate::c_types::u8slice) -> {} {{", struct_for, struct_for).unwrap(); + writeln!(w, "\tif let Ok(res) = crate::c_types::deserialize_obj(ser) {{").unwrap(); + writeln!(w, "\t\t{} {{ inner: Box::into_raw(Box::new(res)), is_owned: true }}", struct_for).unwrap(); + writeln!(w, "\t}} else {{").unwrap(); + writeln!(w, "\t\t{} {{ inner: std::ptr::null_mut(), is_owned: true }}", struct_for).unwrap(); + writeln!(w, "\t}}\n}}").unwrap(); + } + }, + _ => {}, + } +} + +/// Convert "impl trait_path for for_ty { .. }" for manually-mapped types (ie (de)serialization) +fn maybe_convert_trait_impl(w: &mut W, trait_path: &syn::Path, for_ty: &syn::Type, types: &mut TypeResolver, generics: &GenericTypes) { + if let Some(t) = types.maybe_resolve_path(&trait_path, Some(generics)) { + let for_obj; + let full_obj_path; + let mut has_inner = false; + if let syn::Type::Path(ref p) = for_ty { + if let Some(ident) = single_ident_generic_path_to_ident(&p.path) { + for_obj = format!("{}", ident); + full_obj_path = for_obj.clone(); + has_inner = types.c_type_has_inner_from_path(&types.resolve_path(&p.path, Some(generics))); + } else { return; } + } else { + // We assume that anything that isn't a Path is somehow a generic that ends up in our + // derived-types module. + let mut for_obj_vec = Vec::new(); + types.write_c_type(&mut for_obj_vec, for_ty, Some(generics), false); + full_obj_path = String::from_utf8(for_obj_vec).unwrap(); + assert!(full_obj_path.starts_with(TypeResolver::generated_container_path())); + for_obj = full_obj_path[TypeResolver::generated_container_path().len() + 2..].into(); + } + + match &t as &str { + "util::ser::Writeable" => { + writeln!(w, "#[no_mangle]").unwrap(); + writeln!(w, "pub extern \"C\" fn {}_write(obj: &{}) -> crate::c_types::derived::CVec_u8Z {{", for_obj, full_obj_path).unwrap(); + + let ref_type = syn::Type::Reference(syn::TypeReference { + and_token: syn::Token!(&)(Span::call_site()), lifetime: None, mutability: None, + elem: Box::new(for_ty.clone()) }); + assert!(!types.write_from_c_conversion_new_var(w, &syn::Ident::new("obj", Span::call_site()), &ref_type, Some(generics))); + + write!(w, "\tcrate::c_types::serialize_obj(").unwrap(); + types.write_from_c_conversion_prefix(w, &ref_type, Some(generics)); + write!(w, "unsafe {{ &*obj }}").unwrap(); + types.write_from_c_conversion_suffix(w, &ref_type, Some(generics)); + writeln!(w, ")").unwrap(); + + writeln!(w, "}}").unwrap(); + if has_inner { + writeln!(w, "#[no_mangle]").unwrap(); + writeln!(w, "pub(crate) extern \"C\" fn {}_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z {{", for_obj).unwrap(); + writeln!(w, "\tcrate::c_types::serialize_obj(unsafe {{ &*(obj as *const native{}) }})", for_obj).unwrap(); + writeln!(w, "}}").unwrap(); + } + }, + "util::ser::Readable"|"util::ser::ReadableArgs" => { + // Create the Result syn::Type + let mut err_segs = syn::punctuated::Punctuated::new(); + err_segs.push(syn::PathSegment { ident: syn::Ident::new("ln", Span::call_site()), arguments: syn::PathArguments::None }); + err_segs.push(syn::PathSegment { ident: syn::Ident::new("msgs", Span::call_site()), arguments: syn::PathArguments::None }); + err_segs.push(syn::PathSegment { ident: syn::Ident::new("DecodeError", Span::call_site()), arguments: syn::PathArguments::None }); + let mut args = syn::punctuated::Punctuated::new(); + args.push(syn::GenericArgument::Type(for_ty.clone())); + args.push(syn::GenericArgument::Type(syn::Type::Path(syn::TypePath { + qself: None, path: syn::Path { + leading_colon: Some(syn::Token![::](Span::call_site())), segments: err_segs, + } + }))); + let mut res_segs = syn::punctuated::Punctuated::new(); + res_segs.push(syn::PathSegment { + ident: syn::Ident::new("Result", Span::call_site()), + arguments: syn::PathArguments::AngleBracketed(syn::AngleBracketedGenericArguments { + colon2_token: None, lt_token: syn::Token![<](Span::call_site()), args, gt_token: syn::Token![>](Span::call_site()), + }) + }); + let res_ty = syn::Type::Path(syn::TypePath { qself: None, path: syn::Path { + leading_colon: None, segments: res_segs } }); + + writeln!(w, "#[no_mangle]").unwrap(); + write!(w, "pub extern \"C\" fn {}_read(ser: crate::c_types::u8slice", for_obj).unwrap(); + + let mut arg_conv = Vec::new(); + if t == "util::ser::ReadableArgs" { + write!(w, ", arg: ").unwrap(); + assert!(trait_path.leading_colon.is_none()); + let args_seg = trait_path.segments.iter().last().unwrap(); + assert_eq!(format!("{}", args_seg.ident), "ReadableArgs"); + if let syn::PathArguments::AngleBracketed(args) = &args_seg.arguments { + assert_eq!(args.args.len(), 1); + if let syn::GenericArgument::Type(args_ty) = args.args.iter().next().unwrap() { + types.write_c_type(w, args_ty, Some(generics), false); + + assert!(!types.write_from_c_conversion_new_var(&mut arg_conv, &syn::Ident::new("arg", Span::call_site()), &args_ty, Some(generics))); + + write!(&mut arg_conv, "\tlet arg_conv = ").unwrap(); + types.write_from_c_conversion_prefix(&mut arg_conv, &args_ty, Some(generics)); + write!(&mut arg_conv, "arg").unwrap(); + types.write_from_c_conversion_suffix(&mut arg_conv, &args_ty, Some(generics)); + } else { unreachable!(); } + } else { unreachable!(); } + } + write!(w, ") -> ").unwrap(); + types.write_c_type(w, &res_ty, Some(generics), false); + writeln!(w, " {{").unwrap(); + + if t == "util::ser::ReadableArgs" { + w.write(&arg_conv).unwrap(); + write!(w, ";\n\tlet res: ").unwrap(); + // At least in one case we need type annotations here, so provide them. + types.write_rust_type(w, Some(generics), &res_ty); + writeln!(w, " = crate::c_types::deserialize_obj_arg(ser, arg_conv);").unwrap(); + } else { + writeln!(w, "\tlet res = crate::c_types::deserialize_obj(ser);").unwrap(); + } + write!(w, "\t").unwrap(); + if types.write_to_c_conversion_new_var(w, &syn::Ident::new("res", Span::call_site()), &res_ty, Some(generics), false) { + write!(w, "\n\t").unwrap(); + } + types.write_to_c_conversion_inline_prefix(w, &res_ty, Some(generics), false); + write!(w, "res").unwrap(); + types.write_to_c_conversion_inline_suffix(w, &res_ty, Some(generics), false); + writeln!(w, "\n}}").unwrap(); + }, + _ => {}, + } + } +} + +/// Convert "TraitA : TraitB" to a single function name and return type. +/// +/// This is (obviously) somewhat over-specialized and only useful for TraitB's that only require a +/// single function (eg for serialization). +fn convert_trait_impl_field(trait_path: &str) -> (String, &'static str) { + match trait_path { + "util::ser::Writeable" => ("write".to_owned(), "crate::c_types::derived::CVec_u8Z"), + _ => unimplemented!(), + } +} + +/// Companion to convert_trait_impl_field, write an assignment for the function defined by it for +/// `for_obj` which implements the the trait at `trait_path`. +fn write_trait_impl_field_assign(w: &mut W, trait_path: &str, for_obj: &syn::Ident) { + match trait_path { + "util::ser::Writeable" => { + writeln!(w, "\t\twrite: {}_write_void,", for_obj).unwrap(); + }, + _ => unimplemented!(), + } +} + +/// Write out the impl block for a defined trait struct which has a supertrait +fn do_write_impl_trait(w: &mut W, trait_path: &str, trait_name: &syn::Ident, for_obj: &str) { + match trait_path { + "util::events::MessageSendEventsProvider" => { + writeln!(w, "impl lightning::{} for {} {{", trait_path, for_obj).unwrap(); + writeln!(w, "\tfn get_and_clear_pending_msg_events(&self) -> Vec {{").unwrap(); + writeln!(w, "\t\t::get_and_clear_pending_msg_events(&self.{})", trait_path, trait_path, trait_name).unwrap(); + writeln!(w, "\t}}\n}}").unwrap(); + }, + "util::ser::Writeable" => { + writeln!(w, "impl lightning::{} for {} {{", trait_path, for_obj).unwrap(); + writeln!(w, "\tfn write(&self, w: &mut W) -> Result<(), ::std::io::Error> {{").unwrap(); + writeln!(w, "\t\tlet vec = (self.write)(self.this_arg);").unwrap(); + writeln!(w, "\t\tw.write_all(vec.as_slice())").unwrap(); + writeln!(w, "\t}}\n}}").unwrap(); + }, + _ => panic!(), + } +} + +// ******************************* +// *** Per-Type Printing Logic *** +// ******************************* + +macro_rules! walk_supertraits { ($t: expr, $types: expr, ($( $pat: pat => $e: expr),*) ) => { { + if $t.colon_token.is_some() { + for st in $t.supertraits.iter() { + match st { + syn::TypeParamBound::Trait(supertrait) => { + if supertrait.paren_token.is_some() || supertrait.lifetimes.is_some() { + unimplemented!(); + } + // First try to resolve path to find in-crate traits, but if that doesn't work + // assume its a prelude trait (eg Clone, etc) and just use the single ident. + let types_opt: Option<&TypeResolver> = $types; + if let Some(types) = types_opt { + if let Some(path) = types.maybe_resolve_path(&supertrait.path, None) { + match (&path as &str, &supertrait.path.segments.iter().last().unwrap().ident) { + $( $pat => $e, )* + } + continue; + } + } + if let Some(ident) = supertrait.path.get_ident() { + match (&format!("{}", ident) as &str, &ident) { + $( $pat => $e, )* + } + } else if types_opt.is_some() { + panic!("Supertrait unresolvable and not single-ident"); + } + }, + syn::TypeParamBound::Lifetime(_) => unimplemented!(), + } + } + } +} } } + +/// Prints a C-mapped trait object containing a void pointer and a jump table for each function in +/// the original trait. +/// Implements the native Rust trait and relevant parent traits for the new C-mapped trait. +/// +/// Finally, implements Deref for MappedTrait which allows its use in types which need +/// a concrete Deref to the Rust trait. +fn writeln_trait<'a, 'b, W: std::io::Write>(w: &mut W, t: &'a syn::ItemTrait, types: &mut TypeResolver<'b, 'a>, extra_headers: &mut File, cpp_headers: &mut File) { + let trait_name = format!("{}", t.ident); + match export_status(&t.attrs) { + ExportStatus::Export => {}, + ExportStatus::NoExport|ExportStatus::TestOnly => return, + } + writeln_docs(w, &t.attrs, ""); + + let mut gen_types = GenericTypes::new(); + assert!(gen_types.learn_generics(&t.generics, types)); + gen_types.learn_associated_types(&t, types); + + writeln!(w, "#[repr(C)]\npub struct {} {{", trait_name).unwrap(); + writeln!(w, "\tpub this_arg: *mut c_void,").unwrap(); + let mut generated_fields = Vec::new(); // Every field's name except this_arg, used in Clone generation + for item in t.items.iter() { + match item { + &syn::TraitItem::Method(ref m) => { + match export_status(&m.attrs) { + ExportStatus::NoExport => { + // NoExport in this context means we'll hit an unimplemented!() at runtime, + // so bail out. + unimplemented!(); + }, + ExportStatus::Export => {}, + ExportStatus::TestOnly => continue, + } + if m.default.is_some() { unimplemented!(); } + + gen_types.push_ctx(); + assert!(gen_types.learn_generics(&m.sig.generics, types)); + + writeln_docs(w, &m.attrs, "\t"); + + if let syn::ReturnType::Type(_, rtype) = &m.sig.output { + if let syn::Type::Reference(r) = &**rtype { + // We have to do quite a dance for trait functions which return references + // - they ultimately require us to have a native Rust object stored inside + // our concrete trait to return a reference to. However, users may wish to + // update the value to be returned each time the function is called (or, to + // make C copies of Rust impls equivalent, we have to be able to). + // + // Thus, we store a copy of the C-mapped type (which is just a pointer to + // the Rust type and a flag to indicate whether deallocation needs to + // happen) as well as provide an Option<>al function pointer which is + // called when the trait method is called which allows updating on the fly. + write!(w, "\tpub {}: ", m.sig.ident).unwrap(); + generated_fields.push(format!("{}", m.sig.ident)); + types.write_c_type(w, &*r.elem, Some(&gen_types), false); + writeln!(w, ",").unwrap(); + writeln!(w, "\t/// Fill in the {} field as a reference to it will be given to Rust after this returns", m.sig.ident).unwrap(); + writeln!(w, "\t/// Note that this takes a pointer to this object, not the this_ptr like other methods do").unwrap(); + writeln!(w, "\t/// This function pointer may be NULL if {} is filled in when this object is created and never needs updating.", m.sig.ident).unwrap(); + writeln!(w, "\tpub set_{}: Option,", m.sig.ident, trait_name).unwrap(); + generated_fields.push(format!("set_{}", m.sig.ident)); + // Note that cbindgen will now generate + // typedef struct Thing {..., set_thing: (const Thing*), ...} Thing; + // which does not compile since Thing is not defined before it is used. + writeln!(extra_headers, "struct LDK{};", trait_name).unwrap(); + writeln!(extra_headers, "typedef struct LDK{} LDK{};", trait_name, trait_name).unwrap(); + gen_types.pop_ctx(); + continue; + } + // Sadly, this currently doesn't do what we want, but it should be easy to get + // cbindgen to support it. See https://github.com/eqrion/cbindgen/issues/531 + writeln!(w, "\t#[must_use]").unwrap(); + } + + write!(w, "\tpub {}: extern \"C\" fn (", m.sig.ident).unwrap(); + generated_fields.push(format!("{}", m.sig.ident)); + write_method_params(w, &m.sig, "c_void", types, Some(&gen_types), true, false); + writeln!(w, ",").unwrap(); + + gen_types.pop_ctx(); + }, + &syn::TraitItem::Type(_) => {}, + _ => unimplemented!(), + } + } + // Add functions which may be required for supertrait implementations. + walk_supertraits!(t, Some(&types), ( + ("Clone", _) => { + writeln!(w, "\tpub clone: Option *mut c_void>,").unwrap(); + generated_fields.push("clone".to_owned()); + }, + ("std::cmp::Eq", _) => { + writeln!(w, "\tpub eq: extern \"C\" fn (this_arg: *const c_void, other_arg: &{}) -> bool,", trait_name).unwrap(); + writeln!(extra_headers, "typedef struct LDK{} LDK{};", trait_name, trait_name).unwrap(); + generated_fields.push("eq".to_owned()); + }, + ("std::hash::Hash", _) => { + writeln!(w, "\tpub hash: extern \"C\" fn (this_arg: *const c_void) -> u64,").unwrap(); + generated_fields.push("hash".to_owned()); + }, + ("Send", _) => {}, ("Sync", _) => {}, + (s, i) => { + generated_fields.push(if types.crate_types.traits.get(s).is_none() { + let (name, ret) = convert_trait_impl_field(s); + writeln!(w, "\tpub {}: extern \"C\" fn (this_arg: *const c_void) -> {},", name, ret).unwrap(); + name + } else { + // For in-crate supertraits, just store a C-mapped copy of the supertrait as a member. + writeln!(w, "\tpub {}: crate::{},", i, s).unwrap(); + format!("{}", i) + }); + } + ) ); + writeln!(w, "\tpub free: Option,").unwrap(); + generated_fields.push("free".to_owned()); + writeln!(w, "}}").unwrap(); + // Implement supertraits for the C-mapped struct. + walk_supertraits!(t, Some(&types), ( + ("Send", _) => writeln!(w, "unsafe impl Send for {} {{}}", trait_name).unwrap(), + ("Sync", _) => writeln!(w, "unsafe impl Sync for {} {{}}", trait_name).unwrap(), + ("std::cmp::Eq", _) => { + writeln!(w, "impl std::cmp::Eq for {} {{}}", trait_name).unwrap(); + writeln!(w, "impl std::cmp::PartialEq for {} {{", trait_name).unwrap(); + writeln!(w, "\tfn eq(&self, o: &Self) -> bool {{ (self.eq)(self.this_arg, o) }}\n}}").unwrap(); + }, + ("std::hash::Hash", _) => { + writeln!(w, "impl std::hash::Hash for {} {{", trait_name).unwrap(); + writeln!(w, "\tfn hash(&self, hasher: &mut H) {{ hasher.write_u64((self.hash)(self.this_arg)) }}\n}}").unwrap(); + }, + ("Clone", _) => { + writeln!(w, "#[no_mangle]").unwrap(); + writeln!(w, "pub extern \"C\" fn {}_clone(orig: &{}) -> {} {{", trait_name, trait_name, trait_name).unwrap(); + writeln!(w, "\t{} {{", trait_name).unwrap(); + writeln!(w, "\t\tthis_arg: if let Some(f) = orig.clone {{ (f)(orig.this_arg) }} else {{ orig.this_arg }},").unwrap(); + for field in generated_fields.iter() { + writeln!(w, "\t\t{}: orig.{}.clone(),", field, field).unwrap(); + } + writeln!(w, "\t}}\n}}").unwrap(); + writeln!(w, "impl Clone for {} {{", trait_name).unwrap(); + writeln!(w, "\tfn clone(&self) -> Self {{").unwrap(); + writeln!(w, "\t\t{}_clone(self)", trait_name).unwrap(); + writeln!(w, "\t}}\n}}").unwrap(); + }, + (s, i) => { + do_write_impl_trait(w, s, i, &trait_name); + } + ) ); + + // Finally, implement the original Rust trait for the newly created mapped trait. + writeln!(w, "\nuse {}::{}::{} as rust{};", types.orig_crate, types.module_path, t.ident, trait_name).unwrap(); + write!(w, "impl rust{}", t.ident).unwrap(); + maybe_write_generics(w, &t.generics, types, false); + writeln!(w, " for {} {{", trait_name).unwrap(); + for item in t.items.iter() { + match item { + syn::TraitItem::Method(m) => { + if let ExportStatus::TestOnly = export_status(&m.attrs) { continue; } + if m.default.is_some() { unimplemented!(); } + if m.sig.constness.is_some() || m.sig.asyncness.is_some() || m.sig.unsafety.is_some() || + m.sig.abi.is_some() || m.sig.variadic.is_some() { + unimplemented!(); + } + gen_types.push_ctx(); + assert!(gen_types.learn_generics(&m.sig.generics, types)); + write!(w, "\tfn {}", m.sig.ident).unwrap(); + types.write_rust_generic_param(w, Some(&gen_types), m.sig.generics.params.iter()); + write!(w, "(").unwrap(); + for inp in m.sig.inputs.iter() { + match inp { + syn::FnArg::Receiver(recv) => { + if !recv.attrs.is_empty() || recv.reference.is_none() { unimplemented!(); } + write!(w, "&").unwrap(); + if let Some(lft) = &recv.reference.as_ref().unwrap().1 { + write!(w, "'{} ", lft.ident).unwrap(); + } + if recv.mutability.is_some() { + write!(w, "mut self").unwrap(); + } else { + write!(w, "self").unwrap(); + } + }, + syn::FnArg::Typed(arg) => { + if !arg.attrs.is_empty() { unimplemented!(); } + match &*arg.pat { + syn::Pat::Ident(ident) => { + if !ident.attrs.is_empty() || ident.by_ref.is_some() || + ident.mutability.is_some() || ident.subpat.is_some() { + unimplemented!(); + } + write!(w, ", {}{}: ", if types.skip_arg(&*arg.ty, Some(&gen_types)) { "_" } else { "" }, ident.ident).unwrap(); + } + _ => unimplemented!(), + } + types.write_rust_type(w, Some(&gen_types), &*arg.ty); + } + } + } + write!(w, ")").unwrap(); + match &m.sig.output { + syn::ReturnType::Type(_, rtype) => { + write!(w, " -> ").unwrap(); + types.write_rust_type(w, Some(&gen_types), &*rtype) + }, + _ => {}, + } + write!(w, " {{\n\t\t").unwrap(); + match export_status(&m.attrs) { + ExportStatus::NoExport => { + unimplemented!(); + }, + _ => {}, + } + if let syn::ReturnType::Type(_, rtype) = &m.sig.output { + if let syn::Type::Reference(r) = &**rtype { + assert_eq!(m.sig.inputs.len(), 1); // Must only take self! + writeln!(w, "if let Some(f) = self.set_{} {{", m.sig.ident).unwrap(); + writeln!(w, "\t\t\t(f)(self);").unwrap(); + write!(w, "\t\t}}\n\t\t").unwrap(); + types.write_from_c_conversion_to_ref_prefix(w, &*r.elem, Some(&gen_types)); + write!(w, "self.{}", m.sig.ident).unwrap(); + types.write_from_c_conversion_to_ref_suffix(w, &*r.elem, Some(&gen_types)); + writeln!(w, "\n\t}}").unwrap(); + gen_types.pop_ctx(); + continue; + } + } + write_method_var_decl_body(w, &m.sig, "\t", types, Some(&gen_types), true); + write!(w, "(self.{})(", m.sig.ident).unwrap(); + write_method_call_params(w, &m.sig, "\t", types, Some(&gen_types), "", true); + + writeln!(w, "\n\t}}").unwrap(); + gen_types.pop_ctx(); + }, + &syn::TraitItem::Type(ref t) => { + if t.default.is_some() || t.generics.lt_token.is_some() { unimplemented!(); } + let mut bounds_iter = t.bounds.iter(); + match bounds_iter.next().unwrap() { + syn::TypeParamBound::Trait(tr) => { + writeln!(w, "\ttype {} = crate::{};", t.ident, types.resolve_path(&tr.path, Some(&gen_types))).unwrap(); + }, + _ => unimplemented!(), + } + if bounds_iter.next().is_some() { unimplemented!(); } + }, + _ => unimplemented!(), + } + } + writeln!(w, "}}\n").unwrap(); + writeln!(w, "// We're essentially a pointer already, or at least a set of pointers, so allow us to be used").unwrap(); + writeln!(w, "// directly as a Deref trait in higher-level structs:").unwrap(); + writeln!(w, "impl std::ops::Deref for {} {{\n\ttype Target = Self;", trait_name).unwrap(); + writeln!(w, "\tfn deref(&self) -> &Self {{\n\t\tself\n\t}}\n}}").unwrap(); + + writeln!(w, "/// Calls the free function if one is set").unwrap(); + writeln!(w, "#[no_mangle]\npub extern \"C\" fn {}_free(this_ptr: {}) {{ }}", trait_name, trait_name).unwrap(); + writeln!(w, "impl Drop for {} {{", trait_name).unwrap(); + writeln!(w, "\tfn drop(&mut self) {{").unwrap(); + writeln!(w, "\t\tif let Some(f) = self.free {{").unwrap(); + writeln!(w, "\t\t\tf(self.this_arg);").unwrap(); + writeln!(w, "\t\t}}\n\t}}\n}}").unwrap(); + + write_cpp_wrapper(cpp_headers, &trait_name, true); +} + +/// Write out a simple "opaque" type (eg structs) which contain a pointer to the native Rust type +/// and a flag to indicate whether Drop'ing the mapped struct drops the underlying Rust type. +/// +/// Also writes out a _free function and a C++ wrapper which handles calling _free. +fn writeln_opaque(w: &mut W, ident: &syn::Ident, struct_name: &str, generics: &syn::Generics, attrs: &[syn::Attribute], types: &TypeResolver, extra_headers: &mut File, cpp_headers: &mut File) { + // If we directly read the original type by its original name, cbindgen hits + // https://github.com/eqrion/cbindgen/issues/286 Thus, instead, we import it as a temporary + // name and then reference it by that name, which works around the issue. + write!(w, "\nuse {}::{}::{} as native{}Import;\ntype native{} = native{}Import", types.orig_crate, types.module_path, ident, ident, ident, ident).unwrap(); + maybe_write_generics(w, &generics, &types, true); + writeln!(w, ";\n").unwrap(); + writeln!(extra_headers, "struct native{}Opaque;\ntypedef struct native{}Opaque LDKnative{};", ident, ident, ident).unwrap(); + writeln_docs(w, &attrs, ""); + writeln!(w, "#[must_use]\n#[repr(C)]\npub struct {} {{\n\t/// Nearly everywhere, inner must be non-null, however in places where", struct_name).unwrap(); + writeln!(w, "\t/// the Rust equivalent takes an Option, it may be set to null to indicate None.").unwrap(); + writeln!(w, "\tpub inner: *mut native{},\n\tpub is_owned: bool,\n}}\n", ident).unwrap(); + writeln!(w, "impl Drop for {} {{\n\tfn drop(&mut self) {{", struct_name).unwrap(); + writeln!(w, "\t\tif self.is_owned && !<*mut native{}>::is_null(self.inner) {{", ident).unwrap(); + writeln!(w, "\t\t\tlet _ = unsafe {{ Box::from_raw(self.inner) }};\n\t\t}}\n\t}}\n}}").unwrap(); + writeln!(w, "#[no_mangle]\npub extern \"C\" fn {}_free(this_ptr: {}) {{ }}", struct_name, struct_name).unwrap(); + writeln!(w, "#[allow(unused)]").unwrap(); + writeln!(w, "/// Used only if an object of this type is returned as a trait impl by a method").unwrap(); + writeln!(w, "extern \"C\" fn {}_free_void(this_ptr: *mut c_void) {{", struct_name).unwrap(); + writeln!(w, "\tunsafe {{ let _ = Box::from_raw(this_ptr as *mut native{}); }}\n}}", struct_name).unwrap(); + writeln!(w, "#[allow(unused)]").unwrap(); + writeln!(w, "/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy").unwrap(); + writeln!(w, "impl {} {{", struct_name).unwrap(); + writeln!(w, "\tpub(crate) fn take_inner(mut self) -> *mut native{} {{", struct_name).unwrap(); + writeln!(w, "\t\tassert!(self.is_owned);").unwrap(); + writeln!(w, "\t\tlet ret = self.inner;").unwrap(); + writeln!(w, "\t\tself.inner = std::ptr::null_mut();").unwrap(); + writeln!(w, "\t\tret").unwrap(); + writeln!(w, "\t}}\n}}").unwrap(); + + write_cpp_wrapper(cpp_headers, &format!("{}", ident), true); +} + +/// Writes out all the relevant mappings for a Rust struct, deferring to writeln_opaque to generate +/// the struct itself, and then writing getters and setters for public, understood-type fields and +/// a constructor if every field is public. +fn writeln_struct<'a, 'b, W: std::io::Write>(w: &mut W, s: &'a syn::ItemStruct, types: &mut TypeResolver<'b, 'a>, extra_headers: &mut File, cpp_headers: &mut File) { + if export_status(&s.attrs) != ExportStatus::Export { return; } + + let struct_name = &format!("{}", s.ident); + writeln_opaque(w, &s.ident, struct_name, &s.generics, &s.attrs, types, extra_headers, cpp_headers); + + if let syn::Fields::Named(fields) = &s.fields { + let mut gen_types = GenericTypes::new(); + assert!(gen_types.learn_generics(&s.generics, types)); + + let mut all_fields_settable = true; + for field in fields.named.iter() { + if let syn::Visibility::Public(_) = field.vis { + let export = export_status(&field.attrs); + match export { + ExportStatus::Export => {}, + ExportStatus::NoExport|ExportStatus::TestOnly => { + all_fields_settable = false; + continue + }, + } + + if let Some(ident) = &field.ident { + let ref_type = syn::Type::Reference(syn::TypeReference { + and_token: syn::Token!(&)(Span::call_site()), lifetime: None, mutability: None, + elem: Box::new(field.ty.clone()) }); + if types.understood_c_type(&ref_type, Some(&gen_types)) { + writeln_docs(w, &field.attrs, ""); + write!(w, "#[no_mangle]\npub extern \"C\" fn {}_get_{}(this_ptr: &{}) -> ", struct_name, ident, struct_name).unwrap(); + types.write_c_type(w, &ref_type, Some(&gen_types), true); + write!(w, " {{\n\tlet mut inner_val = &mut unsafe {{ &mut *this_ptr.inner }}.{};\n\t", ident).unwrap(); + let local_var = types.write_to_c_conversion_new_var(w, &syn::Ident::new("inner_val", Span::call_site()), &ref_type, Some(&gen_types), true); + if local_var { write!(w, "\n\t").unwrap(); } + types.write_to_c_conversion_inline_prefix(w, &ref_type, Some(&gen_types), true); + if local_var { + write!(w, "inner_val").unwrap(); + } else { + write!(w, "(*inner_val)").unwrap(); + } + types.write_to_c_conversion_inline_suffix(w, &ref_type, Some(&gen_types), true); + writeln!(w, "\n}}").unwrap(); + } + + if types.understood_c_type(&field.ty, Some(&gen_types)) { + writeln_docs(w, &field.attrs, ""); + write!(w, "#[no_mangle]\npub extern \"C\" fn {}_set_{}(this_ptr: &mut {}, mut val: ", struct_name, ident, struct_name).unwrap(); + types.write_c_type(w, &field.ty, Some(&gen_types), false); + write!(w, ") {{\n\t").unwrap(); + let local_var = types.write_from_c_conversion_new_var(w, &syn::Ident::new("val", Span::call_site()), &field.ty, Some(&gen_types)); + if local_var { write!(w, "\n\t").unwrap(); } + write!(w, "unsafe {{ &mut *this_ptr.inner }}.{} = ", ident).unwrap(); + types.write_from_c_conversion_prefix(w, &field.ty, Some(&gen_types)); + write!(w, "val").unwrap(); + types.write_from_c_conversion_suffix(w, &field.ty, Some(&gen_types)); + writeln!(w, ";\n}}").unwrap(); + } else { all_fields_settable = false; } + } else { all_fields_settable = false; } + } else { all_fields_settable = false; } + } + + if all_fields_settable { + // Build a constructor! + write!(w, "#[must_use]\n#[no_mangle]\npub extern \"C\" fn {}_new(", struct_name).unwrap(); + for (idx, field) in fields.named.iter().enumerate() { + if idx != 0 { write!(w, ", ").unwrap(); } + write!(w, "mut {}_arg: ", field.ident.as_ref().unwrap()).unwrap(); + types.write_c_type(w, &field.ty, Some(&gen_types), false); + } + write!(w, ") -> {} {{\n\t", struct_name).unwrap(); + for field in fields.named.iter() { + let field_name = format!("{}_arg", field.ident.as_ref().unwrap()); + if types.write_from_c_conversion_new_var(w, &syn::Ident::new(&field_name, Span::call_site()), &field.ty, Some(&gen_types)) { + write!(w, "\n\t").unwrap(); + } + } + writeln!(w, "{} {{ inner: Box::into_raw(Box::new(native{} {{", struct_name, s.ident).unwrap(); + for field in fields.named.iter() { + write!(w, "\t\t{}: ", field.ident.as_ref().unwrap()).unwrap(); + types.write_from_c_conversion_prefix(w, &field.ty, Some(&gen_types)); + write!(w, "{}_arg", field.ident.as_ref().unwrap()).unwrap(); + types.write_from_c_conversion_suffix(w, &field.ty, Some(&gen_types)); + writeln!(w, ",").unwrap(); + } + writeln!(w, "\t}})), is_owned: true }}\n}}").unwrap(); + } + } +} + +/// Prints a relevant conversion for impl * +/// +/// For simple impl Struct {}s, this just outputs the wrapper functions as Struct_fn_name() { .. }. +/// +/// For impl Trait for Struct{}s, this non-exported generates wrapper functions as +/// Trait_Struct_fn_name and a Struct_as_Trait(&struct) -> Trait function which returns a populated +/// Trait struct containing a pointer to the passed struct's inner field and the wrapper functions. +/// +/// A few non-crate Traits are hard-coded including Default. +fn writeln_impl(w: &mut W, i: &syn::ItemImpl, types: &mut TypeResolver) { + match export_status(&i.attrs) { + ExportStatus::Export => {}, + ExportStatus::NoExport|ExportStatus::TestOnly => return, + } + + if let syn::Type::Tuple(_) = &*i.self_ty { + if types.understood_c_type(&*i.self_ty, None) { + let mut gen_types = GenericTypes::new(); + if !gen_types.learn_generics(&i.generics, types) { + eprintln!("Not implementing anything for `impl (..)` due to not understood generics"); + return; + } + + if i.defaultness.is_some() || i.unsafety.is_some() { unimplemented!(); } + if let Some(trait_path) = i.trait_.as_ref() { + if trait_path.0.is_some() { unimplemented!(); } + if types.understood_c_path(&trait_path.1) { + eprintln!("Not implementing anything for `impl Trait for (..)` - we only support manual defines"); + return; + } else { + // Just do a manual implementation: + maybe_convert_trait_impl(w, &trait_path.1, &*i.self_ty, types, &gen_types); + } + } else { + eprintln!("Not implementing anything for plain `impl (..)` block - we only support `impl Trait for (..)` blocks"); + return; + } + } + return; + } + if let &syn::Type::Path(ref p) = &*i.self_ty { + if p.qself.is_some() { unimplemented!(); } + if let Some(ident) = single_ident_generic_path_to_ident(&p.path) { + if let Some(resolved_path) = types.maybe_resolve_non_ignored_ident(&ident) { + let mut gen_types = GenericTypes::new(); + if !gen_types.learn_generics(&i.generics, types) { + eprintln!("Not implementing anything for impl {} due to not understood generics", ident); + return; + } + + if i.defaultness.is_some() || i.unsafety.is_some() { unimplemented!(); } + if let Some(trait_path) = i.trait_.as_ref() { + if trait_path.0.is_some() { unimplemented!(); } + if types.understood_c_path(&trait_path.1) { + let full_trait_path = types.resolve_path(&trait_path.1, None); + let trait_obj = *types.crate_types.traits.get(&full_trait_path).unwrap(); + // We learn the associated types maping from the original trait object. + // That's great, except that they are unresolved idents, so if we learn + // mappings from a trai defined in a different file, we may mis-resolve or + // fail to resolve the mapped types. + gen_types.learn_associated_types(trait_obj, types); + let mut impl_associated_types = HashMap::new(); + for item in i.items.iter() { + match item { + syn::ImplItem::Type(t) => { + if let syn::Type::Path(p) = &t.ty { + if let Some(id) = single_ident_generic_path_to_ident(&p.path) { + impl_associated_types.insert(&t.ident, id); + } + } + }, + _ => {}, + } + } + + let export = export_status(&trait_obj.attrs); + match export { + ExportStatus::Export => {}, + ExportStatus::NoExport|ExportStatus::TestOnly => return, + } + + // For cases where we have a concrete native object which implements a + // trait and need to return the C-mapped version of the trait, provide a + // From<> implementation which does all the work to ensure free is handled + // properly. This way we can call this method from deep in the + // type-conversion logic without actually knowing the concrete native type. + writeln!(w, "impl From for crate::{} {{", ident, full_trait_path).unwrap(); + writeln!(w, "\tfn from(obj: native{}) -> Self {{", ident).unwrap(); + writeln!(w, "\t\tlet mut rust_obj = {} {{ inner: Box::into_raw(Box::new(obj)), is_owned: true }};", ident).unwrap(); + writeln!(w, "\t\tlet mut ret = {}_as_{}(&rust_obj);", ident, trait_obj.ident).unwrap(); + writeln!(w, "\t\t// We want to free rust_obj when ret gets drop()'d, not rust_obj, so wipe rust_obj's pointer and set ret's free() fn").unwrap(); + writeln!(w, "\t\trust_obj.inner = std::ptr::null_mut();").unwrap(); + writeln!(w, "\t\tret.free = Some({}_free_void);", ident).unwrap(); + writeln!(w, "\t\tret\n\t}}\n}}").unwrap(); + + write!(w, "#[no_mangle]\npub extern \"C\" fn {}_as_{}(this_arg: &{}) -> crate::{} {{\n", ident, trait_obj.ident, ident, full_trait_path).unwrap(); + writeln!(w, "\tcrate::{} {{", full_trait_path).unwrap(); + writeln!(w, "\t\tthis_arg: unsafe {{ (*this_arg).inner as *mut c_void }},").unwrap(); + writeln!(w, "\t\tfree: None,").unwrap(); + + macro_rules! write_meth { + ($m: expr, $trait: expr, $indent: expr) => { + let trait_method = $trait.items.iter().filter_map(|item| { + if let syn::TraitItem::Method(t_m) = item { Some(t_m) } else { None } + }).find(|trait_meth| trait_meth.sig.ident == $m.sig.ident).unwrap(); + match export_status(&trait_method.attrs) { + ExportStatus::Export => {}, + ExportStatus::NoExport => { + write!(w, "{}\t\t//XXX: Need to export {}\n", $indent, $m.sig.ident).unwrap(); + continue; + }, + ExportStatus::TestOnly => continue, + } + + let mut printed = false; + if let syn::ReturnType::Type(_, rtype) = &$m.sig.output { + if let syn::Type::Reference(r) = &**rtype { + write!(w, "\n\t\t{}{}: ", $indent, $m.sig.ident).unwrap(); + types.write_empty_rust_val(Some(&gen_types), w, &*r.elem); + writeln!(w, ",\n{}\t\tset_{}: Some({}_{}_set_{}),", $indent, $m.sig.ident, ident, trait_obj.ident, $m.sig.ident).unwrap(); + printed = true; + } + } + if !printed { + write!(w, "{}\t\t{}: {}_{}_{},\n", $indent, $m.sig.ident, ident, trait_obj.ident, $m.sig.ident).unwrap(); + } + } + } + for item in trait_obj.items.iter() { + match item { + syn::TraitItem::Method(m) => { + write_meth!(m, trait_obj, ""); + }, + _ => {}, + } + } + walk_supertraits!(trait_obj, Some(&types), ( + ("Clone", _) => { + writeln!(w, "\t\tclone: Some({}_clone_void),", ident).unwrap(); + }, + ("Sync", _) => {}, ("Send", _) => {}, + ("std::marker::Sync", _) => {}, ("std::marker::Send", _) => {}, + (s, t) => { + if let Some(supertrait_obj) = types.crate_types.traits.get(s) { + writeln!(w, "\t\t{}: crate::{} {{", t, s).unwrap(); + writeln!(w, "\t\t\tthis_arg: unsafe {{ (*this_arg).inner as *mut c_void }},").unwrap(); + writeln!(w, "\t\t\tfree: None,").unwrap(); + for item in supertrait_obj.items.iter() { + match item { + syn::TraitItem::Method(m) => { + write_meth!(m, supertrait_obj, "\t"); + }, + _ => {}, + } + } + write!(w, "\t\t}},\n").unwrap(); + } else { + write_trait_impl_field_assign(w, s, ident); + } + } + ) ); + writeln!(w, "\t}}\n}}\n").unwrap(); + + macro_rules! impl_meth { + ($m: expr, $trait_path: expr, $trait: expr, $indent: expr) => { + let trait_method = $trait.items.iter().filter_map(|item| { + if let syn::TraitItem::Method(t_m) = item { Some(t_m) } else { None } + }).find(|trait_meth| trait_meth.sig.ident == $m.sig.ident).unwrap(); + match export_status(&trait_method.attrs) { + ExportStatus::Export => {}, + ExportStatus::NoExport|ExportStatus::TestOnly => continue, + } + + if let syn::ReturnType::Type(_, _) = &$m.sig.output { + writeln!(w, "#[must_use]").unwrap(); + } + write!(w, "extern \"C\" fn {}_{}_{}(", ident, trait_obj.ident, $m.sig.ident).unwrap(); + gen_types.push_ctx(); + assert!(gen_types.learn_generics(&$m.sig.generics, types)); + write_method_params(w, &$m.sig, "c_void", types, Some(&gen_types), true, true); + write!(w, " {{\n\t").unwrap(); + write_method_var_decl_body(w, &$m.sig, "", types, Some(&gen_types), false); + let mut takes_self = false; + for inp in $m.sig.inputs.iter() { + if let syn::FnArg::Receiver(_) = inp { + takes_self = true; + } + } + + let mut t_gen_args = String::new(); + for (idx, _) in $trait.generics.params.iter().enumerate() { + if idx != 0 { t_gen_args += ", " }; + t_gen_args += "_" + } + if takes_self { + write!(w, ">::{}(unsafe {{ &mut *(this_arg as *mut native{}) }}, ", ident, types.orig_crate, $trait_path, t_gen_args, $m.sig.ident, ident).unwrap(); + } else { + write!(w, ">::{}(", ident, types.orig_crate, $trait_path, t_gen_args, $m.sig.ident).unwrap(); + } + + let mut real_type = "".to_string(); + match &$m.sig.output { + syn::ReturnType::Type(_, rtype) => { + if let Some(mut remaining_path) = first_seg_self(&*rtype) { + if let Some(associated_seg) = get_single_remaining_path_seg(&mut remaining_path) { + real_type = format!("{}", impl_associated_types.get(associated_seg).unwrap()); + } + } + }, + _ => {}, + } + write_method_call_params(w, &$m.sig, "", types, Some(&gen_types), &real_type, false); + gen_types.pop_ctx(); + write!(w, "\n}}\n").unwrap(); + if let syn::ReturnType::Type(_, rtype) = &$m.sig.output { + if let syn::Type::Reference(r) = &**rtype { + assert_eq!($m.sig.inputs.len(), 1); // Must only take self + writeln!(w, "extern \"C\" fn {}_{}_set_{}(trait_self_arg: &{}) {{", ident, trait_obj.ident, $m.sig.ident, trait_obj.ident).unwrap(); + writeln!(w, "\t// This is a bit race-y in the general case, but for our specific use-cases today, we're safe").unwrap(); + writeln!(w, "\t// Specifically, we must ensure that the first time we're called it can never be in parallel").unwrap(); + write!(w, "\tif ").unwrap(); + types.write_empty_rust_val_check(Some(&gen_types), w, &*r.elem, &format!("trait_self_arg.{}", $m.sig.ident)); + writeln!(w, " {{").unwrap(); + writeln!(w, "\t\tunsafe {{ &mut *(trait_self_arg as *const {} as *mut {}) }}.{} = {}_{}_{}(trait_self_arg.this_arg);", trait_obj.ident, trait_obj.ident, $m.sig.ident, ident, trait_obj.ident, $m.sig.ident).unwrap(); + writeln!(w, "\t}}").unwrap(); + writeln!(w, "}}").unwrap(); + } + } + } + } + + for item in i.items.iter() { + match item { + syn::ImplItem::Method(m) => { + impl_meth!(m, full_trait_path, trait_obj, ""); + }, + syn::ImplItem::Type(_) => {}, + _ => unimplemented!(), + } + } + walk_supertraits!(trait_obj, Some(&types), ( + (s, _) => { + if let Some(supertrait_obj) = types.crate_types.traits.get(s).cloned() { + for item in supertrait_obj.items.iter() { + match item { + syn::TraitItem::Method(m) => { + impl_meth!(m, s, supertrait_obj, "\t"); + }, + _ => {}, + } + } + } + } + ) ); + write!(w, "\n").unwrap(); + } else if path_matches_nongeneric(&trait_path.1, &["From"]) { + } else if path_matches_nongeneric(&trait_path.1, &["Default"]) { + write!(w, "#[must_use]\n#[no_mangle]\npub extern \"C\" fn {}_default() -> {} {{\n", ident, ident).unwrap(); + write!(w, "\t{} {{ inner: Box::into_raw(Box::new(Default::default())), is_owned: true }}\n", ident).unwrap(); + write!(w, "}}\n").unwrap(); + } else if path_matches_nongeneric(&trait_path.1, &["core", "cmp", "PartialEq"]) { + } else if (path_matches_nongeneric(&trait_path.1, &["core", "clone", "Clone"]) || path_matches_nongeneric(&trait_path.1, &["Clone"])) && + types.c_type_has_inner_from_path(&resolved_path) { + writeln!(w, "impl Clone for {} {{", ident).unwrap(); + writeln!(w, "\tfn clone(&self) -> Self {{").unwrap(); + writeln!(w, "\t\tSelf {{").unwrap(); + writeln!(w, "\t\t\tinner: if <*mut native{}>::is_null(self.inner) {{ std::ptr::null_mut() }} else {{", ident).unwrap(); + writeln!(w, "\t\t\t\tBox::into_raw(Box::new(unsafe {{ &*self.inner }}.clone())) }},").unwrap(); + writeln!(w, "\t\t\tis_owned: true,").unwrap(); + writeln!(w, "\t\t}}\n\t}}\n}}").unwrap(); + writeln!(w, "#[allow(unused)]").unwrap(); + writeln!(w, "/// Used only if an object of this type is returned as a trait impl by a method").unwrap(); + writeln!(w, "pub(crate) extern \"C\" fn {}_clone_void(this_ptr: *const c_void) -> *mut c_void {{", ident).unwrap(); + writeln!(w, "\tBox::into_raw(Box::new(unsafe {{ (*(this_ptr as *mut native{})).clone() }})) as *mut c_void", ident).unwrap(); + writeln!(w, "}}").unwrap(); + writeln!(w, "#[no_mangle]").unwrap(); + writeln!(w, "pub extern \"C\" fn {}_clone(orig: &{}) -> {} {{", ident, ident, ident).unwrap(); + writeln!(w, "\torig.clone()").unwrap(); + writeln!(w, "}}").unwrap(); + } else { + //XXX: implement for other things like ToString + // If we have no generics, try a manual implementation: + maybe_convert_trait_impl(w, &trait_path.1, &*i.self_ty, types, &gen_types); + } + } else { + let declared_type = (*types.get_declared_type(&ident).unwrap()).clone(); + for item in i.items.iter() { + match item { + syn::ImplItem::Method(m) => { + if let syn::Visibility::Public(_) = m.vis { + match export_status(&m.attrs) { + ExportStatus::Export => {}, + ExportStatus::NoExport|ExportStatus::TestOnly => continue, + } + if m.defaultness.is_some() { unimplemented!(); } + writeln_docs(w, &m.attrs, ""); + if let syn::ReturnType::Type(_, _) = &m.sig.output { + writeln!(w, "#[must_use]").unwrap(); + } + write!(w, "#[no_mangle]\npub extern \"C\" fn {}_{}(", ident, m.sig.ident).unwrap(); + let ret_type = match &declared_type { + DeclType::MirroredEnum => format!("{}", ident), + DeclType::StructImported => format!("{}", ident), + _ => unimplemented!(), + }; + gen_types.push_ctx(); + assert!(gen_types.learn_generics(&m.sig.generics, types)); + write_method_params(w, &m.sig, &ret_type, types, Some(&gen_types), false, true); + write!(w, " {{\n\t").unwrap(); + write_method_var_decl_body(w, &m.sig, "", types, Some(&gen_types), false); + let mut takes_self = false; + let mut takes_mut_self = false; + for inp in m.sig.inputs.iter() { + if let syn::FnArg::Receiver(r) = inp { + takes_self = true; + if r.mutability.is_some() { takes_mut_self = true; } + } + } + if takes_mut_self { + write!(w, "unsafe {{ &mut (*(this_arg.inner as *mut native{})) }}.{}(", ident, m.sig.ident).unwrap(); + } else if takes_self { + write!(w, "unsafe {{ &*this_arg.inner }}.{}(", m.sig.ident).unwrap(); + } else { + write!(w, "{}::{}::{}(", types.orig_crate, resolved_path, m.sig.ident).unwrap(); + } + write_method_call_params(w, &m.sig, "", types, Some(&gen_types), &ret_type, false); + gen_types.pop_ctx(); + writeln!(w, "\n}}\n").unwrap(); + } + }, + _ => {}, + } + } + } + } else if let Some(resolved_path) = types.maybe_resolve_ident(&ident) { + if let Some(aliases) = types.crate_types.reverse_alias_map.get(&resolved_path).cloned() { + 'alias_impls: for (alias, arguments) in aliases { + let alias_resolved = types.resolve_path(&alias, None); + for (idx, gen) in i.generics.params.iter().enumerate() { + match gen { + syn::GenericParam::Type(type_param) => { + 'bounds_check: for bound in type_param.bounds.iter() { + if let syn::TypeParamBound::Trait(trait_bound) = bound { + if let syn::PathArguments::AngleBracketed(ref t) = &arguments { + assert!(idx < t.args.len()); + if let syn::GenericArgument::Type(syn::Type::Path(p)) = &t.args[idx] { + let generic_arg = types.resolve_path(&p.path, None); + let generic_bound = types.resolve_path(&trait_bound.path, None); + if let Some(traits_impld) = types.crate_types.trait_impls.get(&generic_arg) { + for trait_impld in traits_impld { + if *trait_impld == generic_bound { continue 'bounds_check; } + } + eprintln!("struct {}'s generic arg {} didn't match bound {}", alias_resolved, generic_arg, generic_bound); + continue 'alias_impls; + } else { + eprintln!("struct {}'s generic arg {} didn't match bound {}", alias_resolved, generic_arg, generic_bound); + continue 'alias_impls; + } + } else { unimplemented!(); } + } else { unimplemented!(); } + } else { unimplemented!(); } + } + }, + syn::GenericParam::Lifetime(_) => {}, + syn::GenericParam::Const(_) => unimplemented!(), + } + } + let aliased_impl = syn::ItemImpl { + attrs: i.attrs.clone(), + brace_token: syn::token::Brace(Span::call_site()), + defaultness: None, + generics: syn::Generics { + lt_token: None, + params: syn::punctuated::Punctuated::new(), + gt_token: None, + where_clause: None, + }, + impl_token: syn::Token![impl](Span::call_site()), + items: i.items.clone(), + self_ty: Box::new(syn::Type::Path(syn::TypePath { qself: None, path: alias.clone() })), + trait_: i.trait_.clone(), + unsafety: None, + }; + writeln_impl(w, &aliased_impl, types); + } + } else { + eprintln!("Not implementing anything for {} due to it being marked not exported", ident); + } + } else { + eprintln!("Not implementing anything for {} due to no-resolve (probably the type isn't pub)", ident); + } + } + } +} + + +/// Print a mapping of an enum. If all of the enum's fields are C-mapped in some form (or the enum +/// is unitary), we generate an equivalent enum with all types replaced with their C mapped +/// versions followed by conversion functions which map between the Rust version and the C mapped +/// version. +fn writeln_enum<'a, 'b, W: std::io::Write>(w: &mut W, e: &'a syn::ItemEnum, types: &mut TypeResolver<'b, 'a>, extra_headers: &mut File, cpp_headers: &mut File) { + match export_status(&e.attrs) { + ExportStatus::Export => {}, + ExportStatus::NoExport|ExportStatus::TestOnly => return, + } + + if is_enum_opaque(e) { + eprintln!("Skipping enum {} as it contains non-unit fields", e.ident); + writeln_opaque(w, &e.ident, &format!("{}", e.ident), &e.generics, &e.attrs, types, extra_headers, cpp_headers); + return; + } + writeln_docs(w, &e.attrs, ""); + + if e.generics.lt_token.is_some() { + unimplemented!(); + } + + let mut needs_free = false; + + writeln!(w, "#[must_use]\n#[derive(Clone)]\n#[repr(C)]\npub enum {} {{", e.ident).unwrap(); + for var in e.variants.iter() { + assert_eq!(export_status(&var.attrs), ExportStatus::Export); // We can't partially-export a mirrored enum + writeln_docs(w, &var.attrs, "\t"); + write!(w, "\t{}", var.ident).unwrap(); + if let syn::Fields::Named(fields) = &var.fields { + needs_free = true; + writeln!(w, " {{").unwrap(); + for field in fields.named.iter() { + if export_status(&field.attrs) == ExportStatus::TestOnly { continue; } + write!(w, "\t\t{}: ", field.ident.as_ref().unwrap()).unwrap(); + types.write_c_type(w, &field.ty, None, false); + writeln!(w, ",").unwrap(); + } + write!(w, "\t}}").unwrap(); + } else if let syn::Fields::Unnamed(fields) = &var.fields { + needs_free = true; + write!(w, "(").unwrap(); + for (idx, field) in fields.unnamed.iter().enumerate() { + if export_status(&field.attrs) == ExportStatus::TestOnly { continue; } + types.write_c_type(w, &field.ty, None, false); + if idx != fields.unnamed.len() - 1 { + write!(w, ",").unwrap(); + } + } + write!(w, ")").unwrap(); + } + if var.discriminant.is_some() { unimplemented!(); } + writeln!(w, ",").unwrap(); + } + writeln!(w, "}}\nuse {}::{}::{} as native{};\nimpl {} {{", types.orig_crate, types.module_path, e.ident, e.ident, e.ident).unwrap(); + + macro_rules! write_conv { + ($fn_sig: expr, $to_c: expr, $ref: expr) => { + writeln!(w, "\t#[allow(unused)]\n\tpub(crate) fn {} {{\n\t\tmatch {} {{", $fn_sig, if $to_c { "native" } else { "self" }).unwrap(); + for var in e.variants.iter() { + write!(w, "\t\t\t{}{}::{} ", if $to_c { "native" } else { "" }, e.ident, var.ident).unwrap(); + if let syn::Fields::Named(fields) = &var.fields { + write!(w, "{{").unwrap(); + for field in fields.named.iter() { + if export_status(&field.attrs) == ExportStatus::TestOnly { continue; } + write!(w, "{}{}, ", if $ref { "ref " } else { "mut " }, field.ident.as_ref().unwrap()).unwrap(); + } + write!(w, "}} ").unwrap(); + } else if let syn::Fields::Unnamed(fields) = &var.fields { + write!(w, "(").unwrap(); + for (idx, field) in fields.unnamed.iter().enumerate() { + if export_status(&field.attrs) == ExportStatus::TestOnly { continue; } + write!(w, "{}{}, ", if $ref { "ref " } else { "mut " }, ('a' as u8 + idx as u8) as char).unwrap(); + } + write!(w, ") ").unwrap(); + } + write!(w, "=>").unwrap(); + + macro_rules! handle_field_a { + ($field: expr, $field_ident: expr) => { { + if export_status(&$field.attrs) == ExportStatus::TestOnly { continue; } + let mut sink = ::std::io::sink(); + let mut out: &mut dyn std::io::Write = if $ref { &mut sink } else { w }; + let new_var = if $to_c { + types.write_to_c_conversion_new_var(&mut out, $field_ident, &$field.ty, None, false) + } else { + types.write_from_c_conversion_new_var(&mut out, $field_ident, &$field.ty, None) + }; + if $ref || new_var { + if $ref { + write!(w, "let mut {}_nonref = (*{}).clone();\n\t\t\t\t", $field_ident, $field_ident).unwrap(); + if new_var { + let nonref_ident = syn::Ident::new(&format!("{}_nonref", $field_ident), Span::call_site()); + if $to_c { + types.write_to_c_conversion_new_var(w, &nonref_ident, &$field.ty, None, false); + } else { + types.write_from_c_conversion_new_var(w, &nonref_ident, &$field.ty, None); + } + write!(w, "\n\t\t\t\t").unwrap(); + } + } else { + write!(w, "\n\t\t\t\t").unwrap(); + } + } + } } + } + if let syn::Fields::Named(fields) = &var.fields { + write!(w, " {{\n\t\t\t\t").unwrap(); + for field in fields.named.iter() { + handle_field_a!(field, field.ident.as_ref().unwrap()); + } + } else if let syn::Fields::Unnamed(fields) = &var.fields { + write!(w, " {{\n\t\t\t\t").unwrap(); + for (idx, field) in fields.unnamed.iter().enumerate() { + handle_field_a!(field, &syn::Ident::new(&(('a' as u8 + idx as u8) as char).to_string(), Span::call_site())); + } + } else { write!(w, " ").unwrap(); } + + write!(w, "{}{}::{}", if $to_c { "" } else { "native" }, e.ident, var.ident).unwrap(); + + macro_rules! handle_field_b { + ($field: expr, $field_ident: expr) => { { + if export_status(&$field.attrs) == ExportStatus::TestOnly { continue; } + if $to_c { + types.write_to_c_conversion_inline_prefix(w, &$field.ty, None, false); + } else { + types.write_from_c_conversion_prefix(w, &$field.ty, None); + } + write!(w, "{}{}", $field_ident, + if $ref { "_nonref" } else { "" }).unwrap(); + if $to_c { + types.write_to_c_conversion_inline_suffix(w, &$field.ty, None, false); + } else { + types.write_from_c_conversion_suffix(w, &$field.ty, None); + } + write!(w, ",").unwrap(); + } } + } + + if let syn::Fields::Named(fields) = &var.fields { + write!(w, " {{").unwrap(); + for field in fields.named.iter() { + if export_status(&field.attrs) == ExportStatus::TestOnly { continue; } + write!(w, "\n\t\t\t\t\t{}: ", field.ident.as_ref().unwrap()).unwrap(); + handle_field_b!(field, field.ident.as_ref().unwrap()); + } + writeln!(w, "\n\t\t\t\t}}").unwrap(); + write!(w, "\t\t\t}}").unwrap(); + } else if let syn::Fields::Unnamed(fields) = &var.fields { + write!(w, " (").unwrap(); + for (idx, field) in fields.unnamed.iter().enumerate() { + write!(w, "\n\t\t\t\t\t").unwrap(); + handle_field_b!(field, &syn::Ident::new(&(('a' as u8 + idx as u8) as char).to_string(), Span::call_site())); + } + writeln!(w, "\n\t\t\t\t)").unwrap(); + write!(w, "\t\t\t}}").unwrap(); + } + writeln!(w, ",").unwrap(); + } + writeln!(w, "\t\t}}\n\t}}").unwrap(); + } + } + + write_conv!(format!("to_native(&self) -> native{}", e.ident), false, true); + write_conv!(format!("into_native(self) -> native{}", e.ident), false, false); + write_conv!(format!("from_native(native: &native{}) -> Self", e.ident), true, true); + write_conv!(format!("native_into(native: native{}) -> Self", e.ident), true, false); + writeln!(w, "}}").unwrap(); + + if needs_free { + writeln!(w, "#[no_mangle]\npub extern \"C\" fn {}_free(this_ptr: {}) {{ }}", e.ident, e.ident).unwrap(); + } + writeln!(w, "#[no_mangle]").unwrap(); + writeln!(w, "pub extern \"C\" fn {}_clone(orig: &{}) -> {} {{", e.ident, e.ident, e.ident).unwrap(); + writeln!(w, "\torig.clone()").unwrap(); + writeln!(w, "}}").unwrap(); + write_cpp_wrapper(cpp_headers, &format!("{}", e.ident), needs_free); +} + +fn writeln_fn<'a, 'b, W: std::io::Write>(w: &mut W, f: &'a syn::ItemFn, types: &mut TypeResolver<'b, 'a>) { + match export_status(&f.attrs) { + ExportStatus::Export => {}, + ExportStatus::NoExport|ExportStatus::TestOnly => return, + } + writeln_docs(w, &f.attrs, ""); + + let mut gen_types = GenericTypes::new(); + if !gen_types.learn_generics(&f.sig.generics, types) { return; } + + write!(w, "#[no_mangle]\npub extern \"C\" fn {}(", f.sig.ident).unwrap(); + write_method_params(w, &f.sig, "", types, Some(&gen_types), false, true); + write!(w, " {{\n\t").unwrap(); + write_method_var_decl_body(w, &f.sig, "", types, Some(&gen_types), false); + write!(w, "{}::{}::{}(", types.orig_crate, types.module_path, f.sig.ident).unwrap(); + write_method_call_params(w, &f.sig, "", types, Some(&gen_types), "", false); + writeln!(w, "\n}}\n").unwrap(); +} + +// ******************************** +// *** File/Crate Walking Logic *** +// ******************************** +/// A public module +struct ASTModule { + pub attrs: Vec, + pub items: Vec, + pub submods: Vec, +} +/// A struct containing the syn::File AST for each file in the crate. +struct FullLibraryAST { + modules: HashMap, +} +impl FullLibraryAST { + fn load_module(&mut self, module: String, attrs: Vec, mut items: Vec) { + let mut non_mod_items = Vec::with_capacity(items.len()); + let mut submods = Vec::with_capacity(items.len()); + for item in items.drain(..) { + match item { + syn::Item::Mod(m) if m.content.is_some() => { + if export_status(&m.attrs) == ExportStatus::Export { + if let syn::Visibility::Public(_) = m.vis { + let modident = format!("{}", m.ident); + let modname = if module != "" { + module.clone() + "::" + &modident + } else { + modident.clone() + }; + self.load_module(modname, m.attrs, m.content.unwrap().1); + submods.push(modident); + } else { + non_mod_items.push(syn::Item::Mod(m)); + } + } + }, + syn::Item::Mod(_) => panic!("--pretty=expanded output should never have non-body modules"), + _ => { non_mod_items.push(item); } + } + } + self.modules.insert(module, ASTModule { attrs, items: non_mod_items, submods }); + } + + pub fn load_lib(lib: syn::File) -> Self { + assert_eq!(export_status(&lib.attrs), ExportStatus::Export); + let mut res = Self { modules: HashMap::default() }; + res.load_module("".to_owned(), lib.attrs, lib.items); + res + } +} + +/// Do the Real Work of mapping an original file to C-callable wrappers. Creates a new file at +/// `out_path` and fills it with wrapper structs/functions to allow calling the things in the AST +/// at `module` from C. +fn convert_file<'a, 'b>(libast: &'a FullLibraryAST, crate_types: &mut CrateTypes<'a>, out_dir: &str, orig_crate: &str, header_file: &mut File, cpp_header_file: &mut File) { + for (module, astmod) in libast.modules.iter() { + let ASTModule { ref attrs, ref items, ref submods } = astmod; + assert_eq!(export_status(&attrs), ExportStatus::Export); + + let new_file_path = if submods.is_empty() { + format!("{}/{}.rs", out_dir, module.replace("::", "/")) + } else if module != "" { + format!("{}/{}/mod.rs", out_dir, module.replace("::", "/")) + } else { + format!("{}/lib.rs", out_dir) + }; + let _ = std::fs::create_dir((&new_file_path.as_ref() as &std::path::Path).parent().unwrap()); + let mut out = std::fs::OpenOptions::new().write(true).create(true).truncate(true) + .open(new_file_path).expect("Unable to open new src file"); + + writeln_docs(&mut out, &attrs, ""); + + if module == "" { + // Special-case the top-level lib.rs with various lint allows and a pointer to the c_types + // and bitcoin hand-written modules. + writeln!(out, "#![allow(unknown_lints)]").unwrap(); + writeln!(out, "#![allow(non_camel_case_types)]").unwrap(); + writeln!(out, "#![allow(non_snake_case)]").unwrap(); + writeln!(out, "#![allow(unused_imports)]").unwrap(); + writeln!(out, "#![allow(unused_variables)]").unwrap(); + writeln!(out, "#![allow(unused_mut)]").unwrap(); + writeln!(out, "#![allow(unused_parens)]").unwrap(); + writeln!(out, "#![allow(unused_unsafe)]").unwrap(); + writeln!(out, "#![allow(unused_braces)]").unwrap(); + writeln!(out, "mod c_types;").unwrap(); + writeln!(out, "mod bitcoin;").unwrap(); + } else { + writeln!(out, "\nuse std::ffi::c_void;\nuse bitcoin::hashes::Hash;\nuse crate::c_types::*;\n").unwrap(); + } + + for m in submods { + writeln!(out, "pub mod {};", m).unwrap(); + } + + eprintln!("Converting {} entries...", module); + + let import_resolver = ImportResolver::new(module, items); + let mut type_resolver = TypeResolver::new(orig_crate, module, import_resolver, crate_types); + + for item in items.iter() { + match item { + syn::Item::Use(_) => {}, // Handled above + syn::Item::Static(_) => {}, + syn::Item::Enum(e) => { + if let syn::Visibility::Public(_) = e.vis { + writeln_enum(&mut out, &e, &mut type_resolver, header_file, cpp_header_file); + } + }, + syn::Item::Impl(i) => { + writeln_impl(&mut out, &i, &mut type_resolver); + }, + syn::Item::Struct(s) => { + if let syn::Visibility::Public(_) = s.vis { + writeln_struct(&mut out, &s, &mut type_resolver, header_file, cpp_header_file); + } + }, + syn::Item::Trait(t) => { + if let syn::Visibility::Public(_) = t.vis { + writeln_trait(&mut out, &t, &mut type_resolver, header_file, cpp_header_file); + } + }, + syn::Item::Mod(_) => {}, // We don't have to do anything - the top loop handles these. + syn::Item::Const(c) => { + // Re-export any primitive-type constants. + if let syn::Visibility::Public(_) = c.vis { + if let syn::Type::Path(p) = &*c.ty { + let resolved_path = type_resolver.resolve_path(&p.path, None); + if type_resolver.is_primitive(&resolved_path) { + writeln!(out, "\n#[no_mangle]").unwrap(); + writeln!(out, "pub static {}: {} = {}::{}::{};", c.ident, resolved_path, orig_crate, module, c.ident).unwrap(); + } + } + } + }, + syn::Item::Type(t) => { + if let syn::Visibility::Public(_) = t.vis { + match export_status(&t.attrs) { + ExportStatus::Export => {}, + ExportStatus::NoExport|ExportStatus::TestOnly => continue, + } + + let mut process_alias = true; + for tok in t.generics.params.iter() { + if let syn::GenericParam::Lifetime(_) = tok {} + else { process_alias = false; } + } + if process_alias { + match &*t.ty { + syn::Type::Path(_) => + writeln_opaque(&mut out, &t.ident, &format!("{}", t.ident), &t.generics, &t.attrs, &type_resolver, header_file, cpp_header_file), + _ => {} + } + } + } + }, + syn::Item::Fn(f) => { + if let syn::Visibility::Public(_) = f.vis { + writeln_fn(&mut out, &f, &mut type_resolver); + } + }, + syn::Item::Macro(m) => { + if m.ident.is_none() { // If its not a macro definition + convert_macro(&mut out, &m.mac.path, &m.mac.tokens, &type_resolver); + } + }, + syn::Item::Verbatim(_) => {}, + syn::Item::ExternCrate(_) => {}, + _ => unimplemented!(), + } + } + + out.flush().unwrap(); + } +} + +fn walk_private_mod<'a>(module: String, items: &'a syn::ItemMod, crate_types: &mut CrateTypes<'a>) { + let import_resolver = ImportResolver::new(&module, &items.content.as_ref().unwrap().1); + for item in items.content.as_ref().unwrap().1.iter() { + match item { + syn::Item::Mod(m) => walk_private_mod(format!("{}::{}", module, m.ident), m, crate_types), + syn::Item::Impl(i) => { + if let &syn::Type::Path(ref p) = &*i.self_ty { + if let Some(trait_path) = i.trait_.as_ref() { + if let Some(tp) = import_resolver.maybe_resolve_path(&trait_path.1, None) { + if let Some(sp) = import_resolver.maybe_resolve_path(&p.path, None) { + match crate_types.trait_impls.entry(sp) { + hash_map::Entry::Occupied(mut e) => { e.get_mut().push(tp); }, + hash_map::Entry::Vacant(e) => { e.insert(vec![tp]); }, + } + } + } + } + } + }, + _ => {}, + } + } +} + +/// Walk the FullLibraryAST, deciding how things will be mapped and adding tracking to CrateTypes. +fn walk_ast<'a>(ast_storage: &'a FullLibraryAST, crate_types: &mut CrateTypes<'a>) { + for (module, astmod) in ast_storage.modules.iter() { + let ASTModule { ref attrs, ref items, submods: _ } = astmod; + assert_eq!(export_status(&attrs), ExportStatus::Export); + let import_resolver = ImportResolver::new(module, items); + + for item in items.iter() { + match item { + syn::Item::Struct(s) => { + if let syn::Visibility::Public(_) = s.vis { + match export_status(&s.attrs) { + ExportStatus::Export => {}, + ExportStatus::NoExport|ExportStatus::TestOnly => continue, + } + let struct_path = format!("{}::{}", module, s.ident); + crate_types.opaques.insert(struct_path, &s.ident); + } + }, + syn::Item::Trait(t) => { + if let syn::Visibility::Public(_) = t.vis { + match export_status(&t.attrs) { + ExportStatus::Export => {}, + ExportStatus::NoExport|ExportStatus::TestOnly => continue, + } + let trait_path = format!("{}::{}", module, t.ident); + walk_supertraits!(t, None, ( + ("Clone", _) => { + crate_types.clonable_types.insert("crate::".to_owned() + &trait_path); + }, + (_, _) => {} + ) ); + crate_types.traits.insert(trait_path, &t); + } + }, + syn::Item::Type(t) => { + if let syn::Visibility::Public(_) = t.vis { + match export_status(&t.attrs) { + ExportStatus::Export => {}, + ExportStatus::NoExport|ExportStatus::TestOnly => continue, + } + let type_path = format!("{}::{}", module, t.ident); + let mut process_alias = true; + for tok in t.generics.params.iter() { + if let syn::GenericParam::Lifetime(_) = tok {} + else { process_alias = false; } + } + if process_alias { + match &*t.ty { + syn::Type::Path(p) => { + // If its a path with no generics, assume we don't map the aliased type and map it opaque + let mut segments = syn::punctuated::Punctuated::new(); + segments.push(syn::PathSegment { + ident: t.ident.clone(), + arguments: syn::PathArguments::None, + }); + let path_obj = syn::Path { leading_colon: None, segments }; + let args_obj = p.path.segments.last().unwrap().arguments.clone(); + match crate_types.reverse_alias_map.entry(import_resolver.maybe_resolve_path(&p.path, None).unwrap()) { + hash_map::Entry::Occupied(mut e) => { e.get_mut().push((path_obj, args_obj)); }, + hash_map::Entry::Vacant(e) => { e.insert(vec![(path_obj, args_obj)]); }, + } + + crate_types.opaques.insert(type_path.clone(), &t.ident); + }, + _ => { + crate_types.type_aliases.insert(type_path, import_resolver.resolve_imported_refs((*t.ty).clone())); + } + } + } + } + }, + syn::Item::Enum(e) if is_enum_opaque(e) => { + if let syn::Visibility::Public(_) = e.vis { + match export_status(&e.attrs) { + ExportStatus::Export => {}, + ExportStatus::NoExport|ExportStatus::TestOnly => continue, + } + let enum_path = format!("{}::{}", module, e.ident); + crate_types.opaques.insert(enum_path, &e.ident); + } + }, + syn::Item::Enum(e) => { + if let syn::Visibility::Public(_) = e.vis { + match export_status(&e.attrs) { + ExportStatus::Export => {}, + ExportStatus::NoExport|ExportStatus::TestOnly => continue, + } + let enum_path = format!("{}::{}", module, e.ident); + crate_types.mirrored_enums.insert(enum_path, &e); + } + }, + syn::Item::Impl(i) => { + if let &syn::Type::Path(ref p) = &*i.self_ty { + if let Some(trait_path) = i.trait_.as_ref() { + if path_matches_nongeneric(&trait_path.1, &["core", "clone", "Clone"]) { + if let Some(full_path) = import_resolver.maybe_resolve_path(&p.path, None) { + crate_types.clonable_types.insert("crate::".to_owned() + &full_path); + } + } + if let Some(tp) = import_resolver.maybe_resolve_path(&trait_path.1, None) { + if let Some(sp) = import_resolver.maybe_resolve_path(&p.path, None) { + match crate_types.trait_impls.entry(sp) { + hash_map::Entry::Occupied(mut e) => { e.get_mut().push(tp); }, + hash_map::Entry::Vacant(e) => { e.insert(vec![tp]); }, + } + } + } + } + } + }, + syn::Item::Mod(m) => walk_private_mod(format!("{}::{}", module, m.ident), m, crate_types), + _ => {}, + } + } + } +} + +fn main() { + let args: Vec = env::args().collect(); + if args.len() != 6 { + eprintln!("Usage: target/dir source_crate_name derived_templates.rs extra/includes.h extra/cpp/includes.hpp"); + process::exit(1); + } + + let mut derived_templates = std::fs::OpenOptions::new().write(true).create(true).truncate(true) + .open(&args[3]).expect("Unable to open new header file"); + let mut header_file = std::fs::OpenOptions::new().write(true).create(true).truncate(true) + .open(&args[4]).expect("Unable to open new header file"); + let mut cpp_header_file = std::fs::OpenOptions::new().write(true).create(true).truncate(true) + .open(&args[5]).expect("Unable to open new header file"); + + writeln!(header_file, "#if defined(__GNUC__)").unwrap(); + writeln!(header_file, "#define MUST_USE_STRUCT __attribute__((warn_unused))").unwrap(); + writeln!(header_file, "#define MUST_USE_RES __attribute__((warn_unused_result))").unwrap(); + writeln!(header_file, "#else").unwrap(); + writeln!(header_file, "#define MUST_USE_STRUCT").unwrap(); + writeln!(header_file, "#define MUST_USE_RES").unwrap(); + writeln!(header_file, "#endif").unwrap(); + writeln!(header_file, "#if defined(__clang__)").unwrap(); + writeln!(header_file, "#define NONNULL_PTR _Nonnull").unwrap(); + writeln!(header_file, "#else").unwrap(); + writeln!(header_file, "#define NONNULL_PTR").unwrap(); + writeln!(header_file, "#endif").unwrap(); + writeln!(cpp_header_file, "#include \nnamespace LDK {{").unwrap(); + + // First parse the full crate's ASTs, caching them so that we can hold references to the AST + // objects in other datastructures: + let mut lib_src = String::new(); + std::io::stdin().lock().read_to_string(&mut lib_src).unwrap(); + let lib_syntax = syn::parse_file(&lib_src).expect("Unable to parse file"); + let libast = FullLibraryAST::load_lib(lib_syntax); + + // ...then walk the ASTs tracking what types we will map, and how, so that we can resolve them + // when parsing other file ASTs... + let mut libtypes = CrateTypes { traits: HashMap::new(), opaques: HashMap::new(), mirrored_enums: HashMap::new(), + type_aliases: HashMap::new(), reverse_alias_map: HashMap::new(), templates_defined: HashMap::default(), + template_file: &mut derived_templates, + clonable_types: HashSet::new(), trait_impls: HashMap::new() }; + walk_ast(&libast, &mut libtypes); + + // ... finally, do the actual file conversion/mapping, writing out types as we go. + convert_file(&libast, &mut libtypes, &args[1], &args[2], &mut header_file, &mut cpp_header_file); + + // For container templates which we created while walking the crate, make sure we add C++ + // mapped types so that C++ users can utilize the auto-destructors available. + for (ty, has_destructor) in libtypes.templates_defined.iter() { + write_cpp_wrapper(&mut cpp_header_file, ty, *has_destructor); + } + writeln!(cpp_header_file, "}}").unwrap(); + + header_file.flush().unwrap(); + cpp_header_file.flush().unwrap(); + derived_templates.flush().unwrap(); +} diff --git a/c-bindings-gen/src/types.rs b/c-bindings-gen/src/types.rs new file mode 100644 index 0000000..ad21b4c --- /dev/null +++ b/c-bindings-gen/src/types.rs @@ -0,0 +1,2182 @@ +use std::collections::{HashMap, HashSet}; +use std::fs::File; +use std::io::Write; +use std::hash; + +use crate::blocks::*; + +use proc_macro2::{TokenTree, Span}; + +// The following utils are used purely to build our known types maps - they break down all the +// types we need to resolve to include the given object, and no more. + +pub fn first_seg_self<'a>(t: &'a syn::Type) -> Option + 'a> { + match t { + syn::Type::Path(p) => { + if p.qself.is_some() || p.path.leading_colon.is_some() { + return None; + } + let mut segs = p.path.segments.iter(); + let ty = segs.next().unwrap(); + if !ty.arguments.is_empty() { return None; } + if format!("{}", ty.ident) == "Self" { + Some(segs) + } else { None } + }, + _ => None, + } +} + +pub fn get_single_remaining_path_seg<'a, I: Iterator>(segs: &mut I) -> Option<&'a syn::Ident> { + if let Some(ty) = segs.next() { + if !ty.arguments.is_empty() { unimplemented!(); } + if segs.next().is_some() { return None; } + Some(&ty.ident) + } else { None } +} + +pub fn single_ident_generic_path_to_ident(p: &syn::Path) -> Option<&syn::Ident> { + if p.segments.len() == 1 { + Some(&p.segments.iter().next().unwrap().ident) + } else { None } +} + +pub fn path_matches_nongeneric(p: &syn::Path, exp: &[&str]) -> bool { + if p.segments.len() != exp.len() { return false; } + for (seg, e) in p.segments.iter().zip(exp.iter()) { + if seg.arguments != syn::PathArguments::None { return false; } + if &format!("{}", seg.ident) != *e { return false; } + } + true +} + +#[derive(Debug, PartialEq)] +pub enum ExportStatus { + Export, + NoExport, + TestOnly, +} +/// Gets the ExportStatus of an object (struct, fn, etc) given its attributes. +pub fn export_status(attrs: &[syn::Attribute]) -> ExportStatus { + for attr in attrs.iter() { + let tokens_clone = attr.tokens.clone(); + let mut token_iter = tokens_clone.into_iter(); + if let Some(token) = token_iter.next() { + match token { + TokenTree::Punct(c) if c.as_char() == '=' => { + // Really not sure where syn gets '=' from here - + // it somehow represents '///' or '//!' + }, + TokenTree::Group(g) => { + if format!("{}", single_ident_generic_path_to_ident(&attr.path).unwrap()) == "cfg" { + let mut iter = g.stream().into_iter(); + if let TokenTree::Ident(i) = iter.next().unwrap() { + if i == "any" { + // #[cfg(any(test, feature = ""))] + if let TokenTree::Group(g) = iter.next().unwrap() { + if let TokenTree::Ident(i) = g.stream().into_iter().next().unwrap() { + if i == "test" || i == "feature" { + // If its cfg(feature(...)) we assume its test-only + return ExportStatus::TestOnly; + } + } + } + } else if i == "test" || i == "feature" { + // If its cfg(feature(...)) we assume its test-only + return ExportStatus::TestOnly; + } + } + } + continue; // eg #[derive()] + }, + _ => unimplemented!(), + } + } else { continue; } + match token_iter.next().unwrap() { + TokenTree::Literal(lit) => { + let line = format!("{}", lit); + if line.contains("(C-not exported)") { + return ExportStatus::NoExport; + } + }, + _ => unimplemented!(), + } + } + ExportStatus::Export +} + +pub fn assert_simple_bound(bound: &syn::TraitBound) { + if bound.paren_token.is_some() || bound.lifetimes.is_some() { unimplemented!(); } + if let syn::TraitBoundModifier::Maybe(_) = bound.modifier { unimplemented!(); } +} + +/// Returns true if the enum will be mapped as an opaue (ie struct with a pointer to the underlying +/// type), otherwise it is mapped into a transparent, C-compatible version of itself. +pub fn is_enum_opaque(e: &syn::ItemEnum) -> bool { + for var in e.variants.iter() { + if let syn::Fields::Named(fields) = &var.fields { + for field in fields.named.iter() { + match export_status(&field.attrs) { + ExportStatus::Export|ExportStatus::TestOnly => {}, + ExportStatus::NoExport => return true, + } + } + } else if let syn::Fields::Unnamed(fields) = &var.fields { + for field in fields.unnamed.iter() { + match export_status(&field.attrs) { + ExportStatus::Export|ExportStatus::TestOnly => {}, + ExportStatus::NoExport => return true, + } + } + } + } + false +} + +/// A stack of sets of generic resolutions. +/// +/// This tracks the template parameters for a function, struct, or trait, allowing resolution into +/// a concrete type. By pushing a new context onto the stack, this can track a function's template +/// parameters inside of a generic struct or trait. +/// +/// It maps both direct types as well as Deref, mapping them via the provided +/// TypeResolver's resolve_path function (ie traits map to the concrete jump table, structs to the +/// concrete C container struct, etc). +pub struct GenericTypes<'a> { + typed_generics: Vec)>>, +} +impl<'a> GenericTypes<'a> { + pub fn new() -> Self { + Self { typed_generics: vec![HashMap::new()], } + } + + /// push a new context onto the stack, allowing for a new set of generics to be learned which + /// will override any lower contexts, but which will still fall back to resoltion via lower + /// contexts. + pub fn push_ctx(&mut self) { + self.typed_generics.push(HashMap::new()); + } + /// pop the latest context off the stack. + pub fn pop_ctx(&mut self) { + self.typed_generics.pop(); + } + + /// Learn the generics in generics in the current context, given a TypeResolver. + pub fn learn_generics<'b, 'c>(&mut self, generics: &'a syn::Generics, types: &'b TypeResolver<'a, 'c>) -> bool { + // First learn simple generics... + for generic in generics.params.iter() { + match generic { + syn::GenericParam::Type(type_param) => { + let mut non_lifetimes_processed = false; + for bound in type_param.bounds.iter() { + if let syn::TypeParamBound::Trait(trait_bound) = bound { + if let Some(ident) = single_ident_generic_path_to_ident(&trait_bound.path) { + match &format!("{}", ident) as &str { "Send" => continue, "Sync" => continue, _ => {} } + } + if path_matches_nongeneric(&trait_bound.path, &["core", "clone", "Clone"]) { continue; } + + assert_simple_bound(&trait_bound); + if let Some(mut path) = types.maybe_resolve_path(&trait_bound.path, None) { + if types.skip_path(&path) { continue; } + if non_lifetimes_processed { return false; } + non_lifetimes_processed = true; + let new_ident = if path != "std::ops::Deref" { + path = "crate::".to_string() + &path; + Some(&trait_bound.path) + } else { None }; + self.typed_generics.last_mut().unwrap().insert(&type_param.ident, (path, new_ident)); + } else { return false; } + } + } + }, + _ => {}, + } + } + // Then find generics where we are required to pass a Deref and pretend its just X. + if let Some(wh) = &generics.where_clause { + for pred in wh.predicates.iter() { + if let syn::WherePredicate::Type(t) = pred { + if let syn::Type::Path(p) = &t.bounded_ty { + if p.qself.is_some() { return false; } + if p.path.leading_colon.is_some() { return false; } + let mut p_iter = p.path.segments.iter(); + if let Some(gen) = self.typed_generics.last_mut().unwrap().get_mut(&p_iter.next().unwrap().ident) { + if gen.0 != "std::ops::Deref" { return false; } + if &format!("{}", p_iter.next().unwrap().ident) != "Target" { return false; } + + let mut non_lifetimes_processed = false; + for bound in t.bounds.iter() { + if let syn::TypeParamBound::Trait(trait_bound) = bound { + if non_lifetimes_processed { return false; } + non_lifetimes_processed = true; + assert_simple_bound(&trait_bound); + *gen = ("crate::".to_string() + &types.resolve_path(&trait_bound.path, None), + Some(&trait_bound.path)); + } + } + } else { return false; } + } else { return false; } + } + } + } + for (_, (_, ident)) in self.typed_generics.last().unwrap().iter() { + if ident.is_none() { return false; } + } + true + } + + /// Learn the associated types from the trait in the current context. + pub fn learn_associated_types<'b, 'c>(&mut self, t: &'a syn::ItemTrait, types: &'b TypeResolver<'a, 'c>) { + for item in t.items.iter() { + match item { + &syn::TraitItem::Type(ref t) => { + if t.default.is_some() || t.generics.lt_token.is_some() { unimplemented!(); } + let mut bounds_iter = t.bounds.iter(); + match bounds_iter.next().unwrap() { + syn::TypeParamBound::Trait(tr) => { + assert_simple_bound(&tr); + if let Some(mut path) = types.maybe_resolve_path(&tr.path, None) { + if types.skip_path(&path) { continue; } + // In general we handle Deref as if it were just X (and + // implement Deref for relevant types). We don't + // bother to implement it for associated types, however, so we just + // ignore such bounds. + let new_ident = if path != "std::ops::Deref" { + path = "crate::".to_string() + &path; + Some(&tr.path) + } else { None }; + self.typed_generics.last_mut().unwrap().insert(&t.ident, (path, new_ident)); + } else { unimplemented!(); } + }, + _ => unimplemented!(), + } + if bounds_iter.next().is_some() { unimplemented!(); } + }, + _ => {}, + } + } + } + + /// Attempt to resolve an Ident as a generic parameter and return the full path. + pub fn maybe_resolve_ident<'b>(&'b self, ident: &syn::Ident) -> Option<&'b String> { + for gen in self.typed_generics.iter().rev() { + if let Some(res) = gen.get(ident).map(|(a, _)| a) { + return Some(res); + } + } + None + } + /// Attempt to resolve a Path as a generic parameter and return the full path. as both a string + /// and syn::Path. + pub fn maybe_resolve_path<'b>(&'b self, path: &syn::Path) -> Option<(&'b String, &'a syn::Path)> { + if let Some(ident) = path.get_ident() { + for gen in self.typed_generics.iter().rev() { + if let Some(res) = gen.get(ident).map(|(a, b)| (a, b.unwrap())) { + return Some(res); + } + } + } else { + // Associated types are usually specified as "Self::Generic", so we check for that + // explicitly here. + let mut it = path.segments.iter(); + if path.segments.len() == 2 && format!("{}", it.next().unwrap().ident) == "Self" { + let ident = &it.next().unwrap().ident; + for gen in self.typed_generics.iter().rev() { + if let Some(res) = gen.get(ident).map(|(a, b)| (a, b.unwrap())) { + return Some(res); + } + } + } + } + None + } +} + +#[derive(Clone, PartialEq)] +// The type of declaration and the object itself +pub enum DeclType<'a> { + MirroredEnum, + Trait(&'a syn::ItemTrait), + StructImported, + StructIgnored, + EnumIgnored, +} + +pub struct ImportResolver<'mod_lifetime, 'crate_lft: 'mod_lifetime> { + module_path: &'mod_lifetime str, + imports: HashMap, + declared: HashMap>, + priv_modules: HashSet, +} +impl<'mod_lifetime, 'crate_lft: 'mod_lifetime> ImportResolver<'mod_lifetime, 'crate_lft> { + fn process_use_intern(imports: &mut HashMap, u: &syn::UseTree, partial_path: &str, mut path: syn::punctuated::Punctuated) { + match u { + syn::UseTree::Path(p) => { + let new_path = format!("{}{}::", partial_path, p.ident); + path.push(syn::PathSegment { ident: p.ident.clone(), arguments: syn::PathArguments::None }); + Self::process_use_intern(imports, &p.tree, &new_path, path); + }, + syn::UseTree::Name(n) => { + let full_path = format!("{}{}", partial_path, n.ident); + path.push(syn::PathSegment { ident: n.ident.clone(), arguments: syn::PathArguments::None }); + imports.insert(n.ident.clone(), (full_path, syn::Path { leading_colon: Some(syn::Token![::](Span::call_site())), segments: path })); + }, + syn::UseTree::Group(g) => { + for i in g.items.iter() { + Self::process_use_intern(imports, i, partial_path, path.clone()); + } + }, + syn::UseTree::Rename(r) => { + let full_path = format!("{}{}", partial_path, r.ident); + path.push(syn::PathSegment { ident: r.ident.clone(), arguments: syn::PathArguments::None }); + imports.insert(r.rename.clone(), (full_path, syn::Path { leading_colon: Some(syn::Token![::](Span::call_site())), segments: path })); + }, + syn::UseTree::Glob(_) => { + eprintln!("Ignoring * use for {} - this may result in resolution failures", partial_path); + }, + } + } + + fn process_use(imports: &mut HashMap, u: &syn::ItemUse) { + if let syn::Visibility::Public(_) = u.vis { + // We actually only use these for #[cfg(fuzztarget)] + eprintln!("Ignoring pub(use) tree!"); + return; + } + if u.leading_colon.is_some() { eprintln!("Ignoring leading-colon use!"); return; } + Self::process_use_intern(imports, &u.tree, "", syn::punctuated::Punctuated::new()); + } + + fn insert_primitive(imports: &mut HashMap, id: &str) { + let ident = syn::Ident::new(id, Span::call_site()); + let mut path = syn::punctuated::Punctuated::new(); + path.push(syn::PathSegment { ident: ident.clone(), arguments: syn::PathArguments::None }); + imports.insert(ident, (id.to_owned(), syn::Path { leading_colon: Some(syn::Token![::](Span::call_site())), segments: path })); + } + + pub fn new(module_path: &'mod_lifetime str, contents: &'crate_lft [syn::Item]) -> Self { + let mut imports = HashMap::new(); + // Add primitives to the "imports" list: + Self::insert_primitive(&mut imports, "bool"); + Self::insert_primitive(&mut imports, "u64"); + Self::insert_primitive(&mut imports, "u32"); + Self::insert_primitive(&mut imports, "u16"); + Self::insert_primitive(&mut imports, "u8"); + Self::insert_primitive(&mut imports, "usize"); + Self::insert_primitive(&mut imports, "str"); + Self::insert_primitive(&mut imports, "String"); + + // These are here to allow us to print native Rust types in trait fn impls even if we don't + // have C mappings: + Self::insert_primitive(&mut imports, "Result"); + Self::insert_primitive(&mut imports, "Vec"); + Self::insert_primitive(&mut imports, "Option"); + + let mut declared = HashMap::new(); + let mut priv_modules = HashSet::new(); + + for item in contents.iter() { + match item { + syn::Item::Use(u) => Self::process_use(&mut imports, &u), + syn::Item::Struct(s) => { + if let syn::Visibility::Public(_) = s.vis { + match export_status(&s.attrs) { + ExportStatus::Export => { declared.insert(s.ident.clone(), DeclType::StructImported); }, + ExportStatus::NoExport => { declared.insert(s.ident.clone(), DeclType::StructIgnored); }, + ExportStatus::TestOnly => continue, + } + } + }, + syn::Item::Type(t) if export_status(&t.attrs) == ExportStatus::Export => { + if let syn::Visibility::Public(_) = t.vis { + let mut process_alias = true; + for tok in t.generics.params.iter() { + if let syn::GenericParam::Lifetime(_) = tok {} + else { process_alias = false; } + } + if process_alias { + match &*t.ty { + syn::Type::Path(_) => { declared.insert(t.ident.clone(), DeclType::StructImported); }, + _ => {}, + } + } + } + }, + syn::Item::Enum(e) => { + if let syn::Visibility::Public(_) = e.vis { + match export_status(&e.attrs) { + ExportStatus::Export if is_enum_opaque(e) => { declared.insert(e.ident.clone(), DeclType::EnumIgnored); }, + ExportStatus::Export => { declared.insert(e.ident.clone(), DeclType::MirroredEnum); }, + _ => continue, + } + } + }, + syn::Item::Trait(t) if export_status(&t.attrs) == ExportStatus::Export => { + if let syn::Visibility::Public(_) = t.vis { + declared.insert(t.ident.clone(), DeclType::Trait(t)); + } + }, + syn::Item::Mod(m) => { + priv_modules.insert(m.ident.clone()); + }, + _ => {}, + } + } + + Self { module_path, imports, declared, priv_modules } + } + + pub fn get_declared_type(&self, ident: &syn::Ident) -> Option<&DeclType<'crate_lft>> { + self.declared.get(ident) + } + + pub fn maybe_resolve_declared(&self, id: &syn::Ident) -> Option<&DeclType<'crate_lft>> { + self.declared.get(id) + } + + pub fn maybe_resolve_ident(&self, id: &syn::Ident) -> Option { + if let Some((imp, _)) = self.imports.get(id) { + Some(imp.clone()) + } else if self.declared.get(id).is_some() { + Some(self.module_path.to_string() + "::" + &format!("{}", id)) + } else { None } + } + + pub fn maybe_resolve_non_ignored_ident(&self, id: &syn::Ident) -> Option { + if let Some((imp, _)) = self.imports.get(id) { + Some(imp.clone()) + } else if let Some(decl_type) = self.declared.get(id) { + match decl_type { + DeclType::StructIgnored => None, + _ => Some(self.module_path.to_string() + "::" + &format!("{}", id)), + } + } else { None } + } + + pub fn maybe_resolve_path(&self, p_arg: &syn::Path, generics: Option<&GenericTypes>) -> Option { + let p = if let Some(gen_types) = generics { + if let Some((_, synpath)) = gen_types.maybe_resolve_path(p_arg) { + synpath + } else { p_arg } + } else { p_arg }; + + if p.leading_colon.is_some() { + Some(p.segments.iter().enumerate().map(|(idx, seg)| { + format!("{}{}", if idx == 0 { "" } else { "::" }, seg.ident) + }).collect()) + } else if let Some(id) = p.get_ident() { + self.maybe_resolve_ident(id) + } else { + if p.segments.len() == 1 { + let seg = p.segments.iter().next().unwrap(); + return self.maybe_resolve_ident(&seg.ident); + } + let mut seg_iter = p.segments.iter(); + let first_seg = seg_iter.next().unwrap(); + let remaining: String = seg_iter.map(|seg| { + format!("::{}", seg.ident) + }).collect(); + if let Some((imp, _)) = self.imports.get(&first_seg.ident) { + if remaining != "" { + Some(imp.clone() + &remaining) + } else { + Some(imp.clone()) + } + } else if let Some(_) = self.priv_modules.get(&first_seg.ident) { + Some(format!("{}::{}{}", self.module_path, first_seg.ident, remaining)) + } else { None } + } + } + + /// Map all the Paths in a Type into absolute paths given a set of imports (generated via process_use_intern) + pub fn resolve_imported_refs(&self, mut ty: syn::Type) -> syn::Type { + match &mut ty { + syn::Type::Path(p) => { + if let Some(ident) = p.path.get_ident() { + if let Some((_, newpath)) = self.imports.get(ident) { + p.path = newpath.clone(); + } + } else { unimplemented!(); } + }, + syn::Type::Reference(r) => { + r.elem = Box::new(self.resolve_imported_refs((*r.elem).clone())); + }, + syn::Type::Slice(s) => { + s.elem = Box::new(self.resolve_imported_refs((*s.elem).clone())); + }, + syn::Type::Tuple(t) => { + for e in t.elems.iter_mut() { + *e = self.resolve_imported_refs(e.clone()); + } + }, + _ => unimplemented!(), + } + ty + } +} + +// templates_defined is walked to write the C++ header, so if we use the default hashing it get +// reordered on each genbindings run. Instead, we use SipHasher (which defaults to 0-keys) so that +// the sorting is stable across runs. It is deprecated, but the "replacement" doesn't actually +// accomplish the same goals, so we just ignore it. +#[allow(deprecated)] +pub type NonRandomHash = hash::BuildHasherDefault; + +/// Top-level struct tracking everything which has been defined while walking the crate. +pub struct CrateTypes<'a> { + /// This may contain structs or enums, but only when either is mapped as + /// struct X { inner: *mut originalX, .. } + pub opaques: HashMap, + /// Enums which are mapped as C enums with conversion functions + pub mirrored_enums: HashMap, + /// Traits which are mapped as a pointer + jump table + pub traits: HashMap, + /// Aliases from paths to some other Type + pub type_aliases: HashMap, + /// Value is an alias to Key (maybe with some generics) + pub reverse_alias_map: HashMap>, + /// Template continer types defined, map from mangled type name -> whether a destructor fn + /// exists. + /// + /// This is used at the end of processing to make C++ wrapper classes + pub templates_defined: HashMap, + /// The output file for any created template container types, written to as we find new + /// template containers which need to be defined. + pub template_file: &'a mut File, + /// Set of containers which are clonable + pub clonable_types: HashSet, + /// Key impls Value + pub trait_impls: HashMap>, +} + +/// A struct which tracks resolving rust types into C-mapped equivalents, exists for one specific +/// module but contains a reference to the overall CrateTypes tracking. +pub struct TypeResolver<'mod_lifetime, 'crate_lft: 'mod_lifetime> { + pub orig_crate: &'mod_lifetime str, + pub module_path: &'mod_lifetime str, + pub crate_types: &'mod_lifetime mut CrateTypes<'crate_lft>, + types: ImportResolver<'mod_lifetime, 'crate_lft>, +} + +/// Returned by write_empty_rust_val_check_suffix to indicate what type of dereferencing needs to +/// happen to get the inner value of a generic. +enum EmptyValExpectedTy { + /// A type which has a flag for being empty (eg an array where we treat all-0s as empty). + NonPointer, + /// A pointer that we want to dereference and move out of. + OwnedPointer, + /// A pointer which we want to convert to a reference. + ReferenceAsPointer, +} + +impl<'a, 'c: 'a> TypeResolver<'a, 'c> { + pub fn new(orig_crate: &'a str, module_path: &'a str, types: ImportResolver<'a, 'c>, crate_types: &'a mut CrateTypes<'c>) -> Self { + Self { orig_crate, module_path, types, crate_types } + } + + // ************************************************* + // *** Well know type and conversion definitions *** + // ************************************************* + + /// Returns true we if can just skip passing this to C entirely + fn skip_path(&self, full_path: &str) -> bool { + full_path == "bitcoin::secp256k1::Secp256k1" || + full_path == "bitcoin::secp256k1::Signing" || + full_path == "bitcoin::secp256k1::Verification" + } + /// Returns true we if can just skip passing this to C entirely + fn no_arg_path_to_rust(&self, full_path: &str) -> &str { + if full_path == "bitcoin::secp256k1::Secp256k1" { + "secp256k1::SECP256K1" + } else { unimplemented!(); } + } + + /// Returns true if the object is a primitive and is mapped as-is with no conversion + /// whatsoever. + pub fn is_primitive(&self, full_path: &str) -> bool { + match full_path { + "bool" => true, + "u64" => true, + "u32" => true, + "u16" => true, + "u8" => true, + "usize" => true, + _ => false, + } + } + pub fn is_clonable(&self, ty: &str) -> bool { + if self.crate_types.clonable_types.contains(ty) { return true; } + if self.is_primitive(ty) { return true; } + match ty { + "()" => true, + "crate::c_types::Signature" => true, + "crate::c_types::TxOut" => true, + _ => false, + } + } + /// Gets the C-mapped type for types which are outside of the crate, or which are manually + /// ignored by for some reason need mapping anyway. + fn c_type_from_path<'b>(&self, full_path: &'b str, is_ref: bool, _ptr_for_ref: bool) -> Option<&'b str> { + if self.is_primitive(full_path) { + return Some(full_path); + } + match full_path { + "Result" => Some("crate::c_types::derived::CResult"), + "Vec" if !is_ref => Some("crate::c_types::derived::CVec"), + "Option" => Some(""), + + // Note that no !is_ref types can map to an array because Rust and C's call semantics + // for arrays are different (https://github.com/eqrion/cbindgen/issues/528) + + "[u8; 32]" if !is_ref => Some("crate::c_types::ThirtyTwoBytes"), + "[u8; 16]" if !is_ref => Some("crate::c_types::SixteenBytes"), + "[u8; 10]" if !is_ref => Some("crate::c_types::TenBytes"), + "[u8; 4]" if !is_ref => Some("crate::c_types::FourBytes"), + "[u8; 3]" if !is_ref => Some("crate::c_types::ThreeBytes"), // Used for RGB values + + "str" if is_ref => Some("crate::c_types::Str"), + "String" if !is_ref => Some("crate::c_types::derived::CVec_u8Z"), + "String" if is_ref => Some("crate::c_types::Str"), + + "std::time::Duration" => Some("u64"), + + "bitcoin::secp256k1::key::PublicKey" => Some("crate::c_types::PublicKey"), + "bitcoin::secp256k1::Signature" => Some("crate::c_types::Signature"), + "bitcoin::secp256k1::key::SecretKey" if is_ref => Some("*const [u8; 32]"), + "bitcoin::secp256k1::key::SecretKey" if !is_ref => Some("crate::c_types::SecretKey"), + "bitcoin::secp256k1::Error" if !is_ref => Some("crate::c_types::Secp256k1Error"), + "bitcoin::blockdata::script::Script" if is_ref => Some("crate::c_types::u8slice"), + "bitcoin::blockdata::script::Script" if !is_ref => Some("crate::c_types::derived::CVec_u8Z"), + "bitcoin::blockdata::transaction::OutPoint" => Some("crate::chain::transaction::OutPoint"), + "bitcoin::blockdata::transaction::Transaction" => Some("crate::c_types::Transaction"), + "bitcoin::blockdata::transaction::TxOut" if !is_ref => Some("crate::c_types::TxOut"), + "bitcoin::network::constants::Network" => Some("crate::bitcoin::network::Network"), + "bitcoin::blockdata::block::BlockHeader" if is_ref => Some("*const [u8; 80]"), + "bitcoin::blockdata::block::Block" if is_ref => Some("crate::c_types::u8slice"), + + // Newtypes that we just expose in their original form. + "bitcoin::hash_types::Txid" if is_ref => Some("*const [u8; 32]"), + "bitcoin::hash_types::Txid" if !is_ref => Some("crate::c_types::ThirtyTwoBytes"), + "bitcoin::hash_types::BlockHash" if is_ref => Some("*const [u8; 32]"), + "bitcoin::hash_types::BlockHash" if !is_ref => Some("crate::c_types::ThirtyTwoBytes"), + "bitcoin::secp256k1::Message" if !is_ref => Some("crate::c_types::ThirtyTwoBytes"), + "ln::channelmanager::PaymentHash" if is_ref => Some("*const [u8; 32]"), + "ln::channelmanager::PaymentHash" if !is_ref => Some("crate::c_types::ThirtyTwoBytes"), + "ln::channelmanager::PaymentPreimage" if is_ref => Some("*const [u8; 32]"), + "ln::channelmanager::PaymentPreimage" if !is_ref => Some("crate::c_types::ThirtyTwoBytes"), + "ln::channelmanager::PaymentSecret" if is_ref => Some("crate::c_types::ThirtyTwoBytes"), + "ln::channelmanager::PaymentSecret" if !is_ref => Some("crate::c_types::ThirtyTwoBytes"), + + // Override the default since Records contain an fmt with a lifetime: + "util::logger::Record" => Some("*const std::os::raw::c_char"), + + _ => None, + } + } + + fn from_c_conversion_new_var_from_path<'b>(&self, _full_path: &str, _is_ref: bool) -> Option<(&'b str, &'b str)> { + None + } + fn from_c_conversion_prefix_from_path<'b>(&self, full_path: &str, is_ref: bool) -> Option { + if self.is_primitive(full_path) { + return Some("".to_owned()); + } + match full_path { + "Vec" if !is_ref => Some("local_"), + "Result" if !is_ref => Some("local_"), + "Option" if is_ref => Some("&local_"), + "Option" => Some("local_"), + + "[u8; 32]" if is_ref => Some("unsafe { &*"), + "[u8; 32]" if !is_ref => Some(""), + "[u8; 16]" if !is_ref => Some(""), + "[u8; 10]" if !is_ref => Some(""), + "[u8; 4]" if !is_ref => Some(""), + "[u8; 3]" if !is_ref => Some(""), + + "[u8]" if is_ref => Some(""), + "[usize]" if is_ref => Some(""), + + "str" if is_ref => Some(""), + "String" if !is_ref => Some("String::from_utf8("), + // Note that we'll panic for String if is_ref, as we only have non-owned memory, we + // cannot create a &String. + + "std::time::Duration" => Some("std::time::Duration::from_secs("), + + "bitcoin::secp256k1::key::PublicKey" if is_ref => Some("&"), + "bitcoin::secp256k1::key::PublicKey" => Some(""), + "bitcoin::secp256k1::Signature" if is_ref => Some("&"), + "bitcoin::secp256k1::Signature" => Some(""), + "bitcoin::secp256k1::key::SecretKey" if is_ref => Some("&::bitcoin::secp256k1::key::SecretKey::from_slice(&unsafe { *"), + "bitcoin::secp256k1::key::SecretKey" if !is_ref => Some(""), + "bitcoin::blockdata::script::Script" if is_ref => Some("&::bitcoin::blockdata::script::Script::from(Vec::from("), + "bitcoin::blockdata::script::Script" if !is_ref => Some("::bitcoin::blockdata::script::Script::from("), + "bitcoin::blockdata::transaction::Transaction" if is_ref => Some("&"), + "bitcoin::blockdata::transaction::Transaction" => Some(""), + "bitcoin::blockdata::transaction::TxOut" if !is_ref => Some(""), + "bitcoin::network::constants::Network" => Some(""), + "bitcoin::blockdata::block::BlockHeader" => Some("&::bitcoin::consensus::encode::deserialize(unsafe { &*"), + "bitcoin::blockdata::block::Block" if is_ref => Some("&::bitcoin::consensus::encode::deserialize("), + + // Newtypes that we just expose in their original form. + "bitcoin::hash_types::Txid" if is_ref => Some("&::bitcoin::hash_types::Txid::from_slice(&unsafe { &*"), + "bitcoin::hash_types::Txid" if !is_ref => Some("::bitcoin::hash_types::Txid::from_slice(&"), + "bitcoin::hash_types::BlockHash" => Some("::bitcoin::hash_types::BlockHash::from_slice(&"), + "ln::channelmanager::PaymentHash" if !is_ref => Some("::lightning::ln::channelmanager::PaymentHash("), + "ln::channelmanager::PaymentHash" if is_ref => Some("&::lightning::ln::channelmanager::PaymentHash(unsafe { *"), + "ln::channelmanager::PaymentPreimage" if !is_ref => Some("::lightning::ln::channelmanager::PaymentPreimage("), + "ln::channelmanager::PaymentPreimage" if is_ref => Some("&::lightning::ln::channelmanager::PaymentPreimage(unsafe { *"), + "ln::channelmanager::PaymentSecret" => Some("::lightning::ln::channelmanager::PaymentSecret("), + + // List of traits we map (possibly during processing of other files): + "crate::util::logger::Logger" => Some(""), + + _ => None, + }.map(|s| s.to_owned()) + } + fn from_c_conversion_suffix_from_path<'b>(&self, full_path: &str, is_ref: bool) -> Option { + if self.is_primitive(full_path) { + return Some("".to_owned()); + } + match full_path { + "Vec" if !is_ref => Some(""), + "Option" => Some(""), + "Result" if !is_ref => Some(""), + + "[u8; 32]" if is_ref => Some("}"), + "[u8; 32]" if !is_ref => Some(".data"), + "[u8; 16]" if !is_ref => Some(".data"), + "[u8; 10]" if !is_ref => Some(".data"), + "[u8; 4]" if !is_ref => Some(".data"), + "[u8; 3]" if !is_ref => Some(".data"), + + "[u8]" if is_ref => Some(".to_slice()"), + "[usize]" if is_ref => Some(".to_slice()"), + + "str" if is_ref => Some(".into()"), + "String" if !is_ref => Some(".into_rust()).unwrap()"), + + "std::time::Duration" => Some(")"), + + "bitcoin::secp256k1::key::PublicKey" => Some(".into_rust()"), + "bitcoin::secp256k1::Signature" => Some(".into_rust()"), + "bitcoin::secp256k1::key::SecretKey" if !is_ref => Some(".into_rust()"), + "bitcoin::secp256k1::key::SecretKey" if is_ref => Some("}[..]).unwrap()"), + "bitcoin::blockdata::script::Script" if is_ref => Some(".to_slice()))"), + "bitcoin::blockdata::script::Script" if !is_ref => Some(".into_rust())"), + "bitcoin::blockdata::transaction::Transaction" => Some(".into_bitcoin()"), + "bitcoin::blockdata::transaction::TxOut" if !is_ref => Some(".into_rust()"), + "bitcoin::network::constants::Network" => Some(".into_bitcoin()"), + "bitcoin::blockdata::block::BlockHeader" => Some(" }).unwrap()"), + "bitcoin::blockdata::block::Block" => Some(".to_slice()).unwrap()"), + + // Newtypes that we just expose in their original form. + "bitcoin::hash_types::Txid" if is_ref => Some(" }[..]).unwrap()"), + "bitcoin::hash_types::Txid" => Some(".data[..]).unwrap()"), + "bitcoin::hash_types::BlockHash" if !is_ref => Some(".data[..]).unwrap()"), + "ln::channelmanager::PaymentHash" if !is_ref => Some(".data)"), + "ln::channelmanager::PaymentHash" if is_ref => Some(" })"), + "ln::channelmanager::PaymentPreimage" if !is_ref => Some(".data)"), + "ln::channelmanager::PaymentPreimage" if is_ref => Some(" })"), + "ln::channelmanager::PaymentSecret" => Some(".data)"), + + // List of traits we map (possibly during processing of other files): + "crate::util::logger::Logger" => Some(""), + + _ => None, + }.map(|s| s.to_owned()) + } + + fn to_c_conversion_new_var_from_path<'b>(&self, full_path: &str, is_ref: bool) -> Option<(&'b str, &'b str)> { + if self.is_primitive(full_path) { + return None; + } + match full_path { + "[u8]" if is_ref => Some(("crate::c_types::u8slice::from_slice(", ")")), + "[usize]" if is_ref => Some(("crate::c_types::usizeslice::from_slice(", ")")), + + "bitcoin::blockdata::transaction::Transaction" if is_ref => Some(("::bitcoin::consensus::encode::serialize(", ")")), + "bitcoin::blockdata::transaction::Transaction" if !is_ref => Some(("::bitcoin::consensus::encode::serialize(&", ")")), + "bitcoin::blockdata::block::BlockHeader" if is_ref => Some(("{ let mut s = [0u8; 80]; s[..].copy_from_slice(&::bitcoin::consensus::encode::serialize(", ")); s }")), + "bitcoin::blockdata::block::Block" if is_ref => Some(("::bitcoin::consensus::encode::serialize(", ")")), + "bitcoin::hash_types::Txid" => None, + + // Override the default since Records contain an fmt with a lifetime: + // TODO: We should include the other record fields + "util::logger::Record" => Some(("std::ffi::CString::new(format!(\"{}\", ", ".args)).unwrap()")), + _ => None, + }.map(|s| s.to_owned()) + } + fn to_c_conversion_inline_prefix_from_path(&self, full_path: &str, is_ref: bool, _ptr_for_ref: bool) -> Option { + if self.is_primitive(full_path) { + return Some("".to_owned()); + } + match full_path { + "Result" if !is_ref => Some("local_"), + "Vec" if !is_ref => Some("local_"), + "Option" => Some("local_"), + + "[u8; 32]" if !is_ref => Some("crate::c_types::ThirtyTwoBytes { data: "), + "[u8; 32]" if is_ref => Some("&"), + "[u8; 16]" if !is_ref => Some("crate::c_types::SixteenBytes { data: "), + "[u8; 10]" if !is_ref => Some("crate::c_types::TenBytes { data: "), + "[u8; 4]" if !is_ref => Some("crate::c_types::FourBytes { data: "), + "[u8; 3]" if is_ref => Some("&"), + + "[u8]" if is_ref => Some("local_"), + "[usize]" if is_ref => Some("local_"), + + "str" if is_ref => Some(""), + "String" => Some(""), + + "std::time::Duration" => Some(""), + + "bitcoin::secp256k1::key::PublicKey" => Some("crate::c_types::PublicKey::from_rust(&"), + "bitcoin::secp256k1::Signature" => Some("crate::c_types::Signature::from_rust(&"), + "bitcoin::secp256k1::key::SecretKey" if is_ref => Some(""), + "bitcoin::secp256k1::key::SecretKey" if !is_ref => Some("crate::c_types::SecretKey::from_rust("), + "bitcoin::secp256k1::Error" if !is_ref => Some("crate::c_types::Secp256k1Error::from_rust("), + "bitcoin::blockdata::script::Script" if is_ref => Some("crate::c_types::u8slice::from_slice(&"), + "bitcoin::blockdata::script::Script" if !is_ref => Some(""), + "bitcoin::blockdata::transaction::Transaction" => Some("crate::c_types::Transaction::from_vec(local_"), + "bitcoin::blockdata::transaction::OutPoint" => Some("crate::c_types::bitcoin_to_C_outpoint("), + "bitcoin::blockdata::transaction::TxOut" if !is_ref => Some("crate::c_types::TxOut::from_rust("), + "bitcoin::network::constants::Network" => Some("crate::bitcoin::network::Network::from_bitcoin("), + "bitcoin::blockdata::block::BlockHeader" if is_ref => Some("&local_"), + "bitcoin::blockdata::block::Block" if is_ref => Some("crate::c_types::u8slice::from_slice(&local_"), + + "bitcoin::hash_types::Txid" if !is_ref => Some("crate::c_types::ThirtyTwoBytes { data: "), + + // Newtypes that we just expose in their original form. + "bitcoin::hash_types::Txid" if is_ref => Some(""), + "bitcoin::hash_types::BlockHash" if is_ref => Some(""), + "bitcoin::hash_types::BlockHash" => Some("crate::c_types::ThirtyTwoBytes { data: "), + "bitcoin::secp256k1::Message" if !is_ref => Some("crate::c_types::ThirtyTwoBytes { data: "), + "ln::channelmanager::PaymentHash" if is_ref => Some("&"), + "ln::channelmanager::PaymentHash" if !is_ref => Some("crate::c_types::ThirtyTwoBytes { data: "), + "ln::channelmanager::PaymentPreimage" if is_ref => Some("&"), + "ln::channelmanager::PaymentPreimage" => Some("crate::c_types::ThirtyTwoBytes { data: "), + "ln::channelmanager::PaymentSecret" if !is_ref => Some("crate::c_types::ThirtyTwoBytes { data: "), + + // Override the default since Records contain an fmt with a lifetime: + "util::logger::Record" => Some("local_"), + + _ => None, + }.map(|s| s.to_owned()) + } + fn to_c_conversion_inline_suffix_from_path(&self, full_path: &str, is_ref: bool, _ptr_for_ref: bool) -> Option { + if self.is_primitive(full_path) { + return Some("".to_owned()); + } + match full_path { + "Result" if !is_ref => Some(""), + "Vec" if !is_ref => Some(".into()"), + "Option" => Some(""), + + "[u8; 32]" if !is_ref => Some(" }"), + "[u8; 32]" if is_ref => Some(""), + "[u8; 16]" if !is_ref => Some(" }"), + "[u8; 10]" if !is_ref => Some(" }"), + "[u8; 4]" if !is_ref => Some(" }"), + "[u8; 3]" if is_ref => Some(""), + + "[u8]" if is_ref => Some(""), + "[usize]" if is_ref => Some(""), + + "str" if is_ref => Some(".into()"), + "String" if !is_ref => Some(".into_bytes().into()"), + "String" if is_ref => Some(".as_str().into()"), + + "std::time::Duration" => Some(".as_secs()"), + + "bitcoin::secp256k1::key::PublicKey" => Some(")"), + "bitcoin::secp256k1::Signature" => Some(")"), + "bitcoin::secp256k1::key::SecretKey" if !is_ref => Some(")"), + "bitcoin::secp256k1::key::SecretKey" if is_ref => Some(".as_ref()"), + "bitcoin::secp256k1::Error" if !is_ref => Some(")"), + "bitcoin::blockdata::script::Script" if is_ref => Some("[..])"), + "bitcoin::blockdata::script::Script" if !is_ref => Some(".into_bytes().into()"), + "bitcoin::blockdata::transaction::Transaction" => Some(")"), + "bitcoin::blockdata::transaction::OutPoint" => Some(")"), + "bitcoin::blockdata::transaction::TxOut" if !is_ref => Some(")"), + "bitcoin::network::constants::Network" => Some(")"), + "bitcoin::blockdata::block::BlockHeader" if is_ref => Some(""), + "bitcoin::blockdata::block::Block" if is_ref => Some(")"), + + "bitcoin::hash_types::Txid" if !is_ref => Some(".into_inner() }"), + + // Newtypes that we just expose in their original form. + "bitcoin::hash_types::Txid" if is_ref => Some(".as_inner()"), + "bitcoin::hash_types::BlockHash" if is_ref => Some(".as_inner()"), + "bitcoin::hash_types::BlockHash" => Some(".into_inner() }"), + "bitcoin::secp256k1::Message" if !is_ref => Some(".as_ref().clone() }"), + "ln::channelmanager::PaymentHash" if is_ref => Some(".0"), + "ln::channelmanager::PaymentHash" => Some(".0 }"), + "ln::channelmanager::PaymentPreimage" if is_ref => Some(".0"), + "ln::channelmanager::PaymentPreimage" => Some(".0 }"), + "ln::channelmanager::PaymentSecret" if !is_ref => Some(".0 }"), + + // Override the default since Records contain an fmt with a lifetime: + "util::logger::Record" => Some(".as_ptr()"), + + _ => None, + }.map(|s| s.to_owned()) + } + + fn empty_val_check_suffix_from_path(&self, full_path: &str) -> Option<&str> { + match full_path { + "ln::channelmanager::PaymentSecret" => Some(".data == [0; 32]"), + "bitcoin::secp256k1::key::PublicKey" => Some(".is_null()"), + "bitcoin::secp256k1::Signature" => Some(".is_null()"), + _ => None + } + } + + // **************************** + // *** Container Processing *** + // **************************** + + /// Returns the module path in the generated mapping crate to the containers which we generate + /// when writing to CrateTypes::template_file. + pub fn generated_container_path() -> &'static str { + "crate::c_types::derived" + } + /// Returns the module path in the generated mapping crate to the container templates, which + /// are then concretized and put in the generated container path/template_file. + fn container_templ_path() -> &'static str { + "crate::c_types" + } + + /// Returns true if this is a "transparent" container, ie an Option or a container which does + /// not require a generated continer class. + fn is_transparent_container(&self, full_path: &str, _is_ref: bool) -> bool { + full_path == "Option" + } + /// Returns true if this is a known, supported, non-transparent container. + fn is_known_container(&self, full_path: &str, is_ref: bool) -> bool { + (full_path == "Result" && !is_ref) || (full_path == "Vec" && !is_ref) || full_path.ends_with("Tuple") + } + fn to_c_conversion_container_new_var<'b>(&self, generics: Option<&GenericTypes>, full_path: &str, is_ref: bool, single_contained: Option<&syn::Type>, var_name: &syn::Ident, var_access: &str) + // Returns prefix + Vec<(prefix, var-name-to-inline-convert)> + suffix + // expecting one element in the vec per generic type, each of which is inline-converted + -> Option<(&'b str, Vec<(String, String)>, &'b str)> { + match full_path { + "Result" if !is_ref => { + Some(("match ", + vec![(" { Ok(mut o) => crate::c_types::CResultTempl::ok(".to_string(), "o".to_string()), + (").into(), Err(mut e) => crate::c_types::CResultTempl::err(".to_string(), "e".to_string())], + ").into() }")) + }, + "Vec" if !is_ref => { + Some(("Vec::new(); for mut item in ", vec![(format!(".drain(..) {{ local_{}.push(", var_name), "item".to_string())], "); }")) + }, + "Slice" => { + Some(("Vec::new(); for item in ", vec![(format!(".iter() {{ local_{}.push(", var_name), "**item".to_string())], "); }")) + }, + "Option" => { + if let Some(syn::Type::Path(p)) = single_contained { + if self.c_type_has_inner_from_path(&self.resolve_path(&p.path, generics)) { + if is_ref { + return Some(("if ", vec![ + (".is_none() { std::ptr::null() } else { ".to_owned(), format!("({}.as_ref().unwrap())", var_access)) + ], " }")); + } else { + return Some(("if ", vec![ + (".is_none() { std::ptr::null_mut() } else { ".to_owned(), format!("({}.unwrap())", var_access)) + ], " }")); + } + } + } + if let Some(t) = single_contained { + let mut v = Vec::new(); + self.write_empty_rust_val(generics, &mut v, t); + let s = String::from_utf8(v).unwrap(); + return Some(("if ", vec![ + (format!(".is_none() {{ {} }} else {{ ", s), format!("({}.unwrap())", var_access)) + ], " }")); + } else { unreachable!(); } + }, + _ => None, + } + } + + /// only_contained_has_inner implies that there is only one contained element in the container + /// and it has an inner field (ie is an "opaque" type we've defined). + fn from_c_conversion_container_new_var<'b>(&self, generics: Option<&GenericTypes>, full_path: &str, is_ref: bool, single_contained: Option<&syn::Type>, var_name: &syn::Ident, var_access: &str) + // Returns prefix + Vec<(prefix, var-name-to-inline-convert)> + suffix + // expecting one element in the vec per generic type, each of which is inline-converted + -> Option<(&'b str, Vec<(String, String)>, &'b str)> { + match full_path { + "Result" if !is_ref => { + Some(("match ", + vec![(".result_ok { true => Ok(".to_string(), format!("(*unsafe {{ Box::from_raw(<*mut _>::take_ptr(&mut {}.contents.result)) }})", var_access)), + ("), false => Err(".to_string(), format!("(*unsafe {{ Box::from_raw(<*mut _>::take_ptr(&mut {}.contents.err)) }})", var_access))], + ")}")) + }, + "Vec"|"Slice" if !is_ref => { + Some(("Vec::new(); for mut item in ", vec![(format!(".into_rust().drain(..) {{ local_{}.push(", var_name), "item".to_string())], "); }")) + }, + "Slice" if is_ref => { + Some(("Vec::new(); for mut item in ", vec![(format!(".as_slice().iter() {{ local_{}.push(", var_name), "item".to_string())], "); }")) + }, + "Option" => { + if let Some(syn::Type::Path(p)) = single_contained { + if self.c_type_has_inner_from_path(&self.resolve_path(&p.path, generics)) { + if is_ref { + return Some(("if ", vec![(".inner.is_null() { None } else { Some((*".to_string(), format!("{}", var_access))], ").clone()) }")) + } else { + return Some(("if ", vec![(".inner.is_null() { None } else { Some(".to_string(), format!("{}", var_access))], ") }")); + } + } + } + + if let Some(t) = single_contained { + let mut v = Vec::new(); + let ret_ref = self.write_empty_rust_val_check_suffix(generics, &mut v, t); + let s = String::from_utf8(v).unwrap(); + match ret_ref { + EmptyValExpectedTy::ReferenceAsPointer => + return Some(("if ", vec![ + (format!("{} {{ None }} else {{ Some(", s), format!("unsafe {{ &mut *{} }}", var_access)) + ], ") }")), + EmptyValExpectedTy::OwnedPointer => + return Some(("if ", vec![ + (format!("{} {{ None }} else {{ Some(", s), format!("unsafe {{ *Box::from_raw({}) }}", var_access)) + ], ") }")), + EmptyValExpectedTy::NonPointer => + return Some(("if ", vec![ + (format!("{} {{ None }} else {{ Some(", s), format!("{}", var_access)) + ], ") }")), + } + } else { unreachable!(); } + }, + _ => None, + } + } + + // ************************************************* + // *** Type definition during main.rs processing *** + // ************************************************* + + pub fn get_declared_type(&'a self, ident: &syn::Ident) -> Option<&'a DeclType<'c>> { + self.types.get_declared_type(ident) + } + /// Returns true if the object at the given path is mapped as X { inner: *mut origX, .. }. + pub fn c_type_has_inner_from_path(&self, full_path: &str) -> bool{ + self.crate_types.opaques.get(full_path).is_some() + } + + pub fn maybe_resolve_ident(&self, id: &syn::Ident) -> Option { + self.types.maybe_resolve_ident(id) + } + + pub fn maybe_resolve_non_ignored_ident(&self, id: &syn::Ident) -> Option { + self.types.maybe_resolve_non_ignored_ident(id) + } + + pub fn maybe_resolve_path(&self, p_arg: &syn::Path, generics: Option<&GenericTypes>) -> Option { + self.types.maybe_resolve_path(p_arg, generics) + } + pub fn resolve_path(&self, p: &syn::Path, generics: Option<&GenericTypes>) -> String { + self.maybe_resolve_path(p, generics).unwrap() + } + + // *********************************** + // *** Original Rust Type Printing *** + // *********************************** + + fn in_rust_prelude(resolved_path: &str) -> bool { + match resolved_path { + "Vec" => true, + "Result" => true, + "Option" => true, + _ => false, + } + } + + fn write_rust_path(&self, w: &mut W, generics_resolver: Option<&GenericTypes>, path: &syn::Path) { + if let Some(resolved) = self.maybe_resolve_path(&path, generics_resolver) { + if self.is_primitive(&resolved) { + write!(w, "{}", path.get_ident().unwrap()).unwrap(); + } else { + // TODO: We should have a generic "is from a dependency" check here instead of + // checking for "bitcoin" explicitly. + if resolved.starts_with("bitcoin::") || Self::in_rust_prelude(&resolved) { + write!(w, "{}", resolved).unwrap(); + // If we're printing a generic argument, it needs to reference the crate, otherwise + // the original crate: + } else if self.maybe_resolve_path(&path, None).as_ref() == Some(&resolved) { + write!(w, "{}::{}", self.orig_crate, resolved).unwrap(); + } else { + write!(w, "crate::{}", resolved).unwrap(); + } + } + if let syn::PathArguments::AngleBracketed(args) = &path.segments.iter().last().unwrap().arguments { + self.write_rust_generic_arg(w, generics_resolver, args.args.iter()); + } + } else { + if path.leading_colon.is_some() { + write!(w, "::").unwrap(); + } + for (idx, seg) in path.segments.iter().enumerate() { + if idx != 0 { write!(w, "::").unwrap(); } + write!(w, "{}", seg.ident).unwrap(); + if let syn::PathArguments::AngleBracketed(args) = &seg.arguments { + self.write_rust_generic_arg(w, generics_resolver, args.args.iter()); + } + } + } + } + pub fn write_rust_generic_param<'b, W: std::io::Write>(&self, w: &mut W, generics_resolver: Option<&GenericTypes>, generics: impl Iterator) { + let mut had_params = false; + for (idx, arg) in generics.enumerate() { + if idx != 0 { write!(w, ", ").unwrap(); } else { write!(w, "<").unwrap(); } + had_params = true; + match arg { + syn::GenericParam::Lifetime(lt) => write!(w, "'{}", lt.lifetime.ident).unwrap(), + syn::GenericParam::Type(t) => { + write!(w, "{}", t.ident).unwrap(); + if t.colon_token.is_some() { write!(w, ":").unwrap(); } + for (idx, bound) in t.bounds.iter().enumerate() { + if idx != 0 { write!(w, " + ").unwrap(); } + match bound { + syn::TypeParamBound::Trait(tb) => { + if tb.paren_token.is_some() || tb.lifetimes.is_some() { unimplemented!(); } + self.write_rust_path(w, generics_resolver, &tb.path); + }, + _ => unimplemented!(), + } + } + if t.eq_token.is_some() || t.default.is_some() { unimplemented!(); } + }, + _ => unimplemented!(), + } + } + if had_params { write!(w, ">").unwrap(); } + } + + pub fn write_rust_generic_arg<'b, W: std::io::Write>(&self, w: &mut W, generics_resolver: Option<&GenericTypes>, generics: impl Iterator) { + write!(w, "<").unwrap(); + for (idx, arg) in generics.enumerate() { + if idx != 0 { write!(w, ", ").unwrap(); } + match arg { + syn::GenericArgument::Type(t) => self.write_rust_type(w, generics_resolver, t), + _ => unimplemented!(), + } + } + write!(w, ">").unwrap(); + } + pub fn write_rust_type(&self, w: &mut W, generics: Option<&GenericTypes>, t: &syn::Type) { + match t { + syn::Type::Path(p) => { + if p.qself.is_some() { + unimplemented!(); + } + self.write_rust_path(w, generics, &p.path); + }, + syn::Type::Reference(r) => { + write!(w, "&").unwrap(); + if let Some(lft) = &r.lifetime { + write!(w, "'{} ", lft.ident).unwrap(); + } + if r.mutability.is_some() { + write!(w, "mut ").unwrap(); + } + self.write_rust_type(w, generics, &*r.elem); + }, + syn::Type::Array(a) => { + write!(w, "[").unwrap(); + self.write_rust_type(w, generics, &a.elem); + if let syn::Expr::Lit(l) = &a.len { + if let syn::Lit::Int(i) = &l.lit { + write!(w, "; {}]", i).unwrap(); + } else { unimplemented!(); } + } else { unimplemented!(); } + } + syn::Type::Slice(s) => { + write!(w, "[").unwrap(); + self.write_rust_type(w, generics, &s.elem); + write!(w, "]").unwrap(); + }, + syn::Type::Tuple(s) => { + write!(w, "(").unwrap(); + for (idx, t) in s.elems.iter().enumerate() { + if idx != 0 { write!(w, ", ").unwrap(); } + self.write_rust_type(w, generics, &t); + } + write!(w, ")").unwrap(); + }, + _ => unimplemented!(), + } + } + + /// Prints a constructor for something which is "uninitialized" (but obviously not actually + /// unint'd memory). + pub fn write_empty_rust_val(&self, generics: Option<&GenericTypes>, w: &mut W, t: &syn::Type) { + match t { + syn::Type::Path(p) => { + let resolved = self.resolve_path(&p.path, generics); + if self.crate_types.opaques.get(&resolved).is_some() { + write!(w, "crate::{} {{ inner: std::ptr::null_mut(), is_owned: true }}", resolved).unwrap(); + } else { + // Assume its a manually-mapped C type, where we can just define an null() fn + write!(w, "{}::null()", self.c_type_from_path(&resolved, false, false).unwrap()).unwrap(); + } + }, + syn::Type::Array(a) => { + if let syn::Expr::Lit(l) = &a.len { + if let syn::Lit::Int(i) = &l.lit { + if i.base10_digits().parse::().unwrap() < 32 { + // Blindly assume that if we're trying to create an empty value for an + // array < 32 entries that all-0s may be a valid state. + unimplemented!(); + } + let arrty = format!("[u8; {}]", i.base10_digits()); + write!(w, "{}", self.to_c_conversion_inline_prefix_from_path(&arrty, false, false).unwrap()).unwrap(); + write!(w, "[0; {}]", i.base10_digits()).unwrap(); + write!(w, "{}", self.to_c_conversion_inline_suffix_from_path(&arrty, false, false).unwrap()).unwrap(); + } else { unimplemented!(); } + } else { unimplemented!(); } + } + _ => unimplemented!(), + } + } + + /// Prints a suffix to determine if a variable is empty (ie was set by write_empty_rust_val). + /// See EmptyValExpectedTy for information on return types. + fn write_empty_rust_val_check_suffix(&self, generics: Option<&GenericTypes>, w: &mut W, t: &syn::Type) -> EmptyValExpectedTy { + match t { + syn::Type::Path(p) => { + let resolved = self.resolve_path(&p.path, generics); + if self.crate_types.opaques.get(&resolved).is_some() { + write!(w, ".inner.is_null()").unwrap(); + EmptyValExpectedTy::NonPointer + } else { + if let Some(suffix) = self.empty_val_check_suffix_from_path(&resolved) { + write!(w, "{}", suffix).unwrap(); + // We may eventually need to allow empty_val_check_suffix_from_path to specify if we need a deref or not + EmptyValExpectedTy::NonPointer + } else { + write!(w, " == std::ptr::null_mut()").unwrap(); + EmptyValExpectedTy::OwnedPointer + } + } + }, + syn::Type::Array(a) => { + if let syn::Expr::Lit(l) = &a.len { + if let syn::Lit::Int(i) = &l.lit { + write!(w, " == [0; {}]", i.base10_digits()).unwrap(); + EmptyValExpectedTy::NonPointer + } else { unimplemented!(); } + } else { unimplemented!(); } + }, + syn::Type::Slice(_) => { + // Option<[]> always implies that we want to treat len() == 0 differently from + // None, so we always map an Option<[]> into a pointer. + write!(w, " == std::ptr::null_mut()").unwrap(); + EmptyValExpectedTy::ReferenceAsPointer + }, + _ => unimplemented!(), + } + } + + /// Prints a suffix to determine if a variable is empty (ie was set by write_empty_rust_val). + pub fn write_empty_rust_val_check(&self, generics: Option<&GenericTypes>, w: &mut W, t: &syn::Type, var_access: &str) { + match t { + syn::Type::Path(_) => { + write!(w, "{}", var_access).unwrap(); + self.write_empty_rust_val_check_suffix(generics, w, t); + }, + syn::Type::Array(a) => { + if let syn::Expr::Lit(l) = &a.len { + if let syn::Lit::Int(i) = &l.lit { + let arrty = format!("[u8; {}]", i.base10_digits()); + // We don't (yet) support a new-var conversion here. + assert!(self.from_c_conversion_new_var_from_path(&arrty, false).is_none()); + write!(w, "{}{}{}", + self.from_c_conversion_prefix_from_path(&arrty, false).unwrap(), + var_access, + self.from_c_conversion_suffix_from_path(&arrty, false).unwrap()).unwrap(); + self.write_empty_rust_val_check_suffix(generics, w, t); + } else { unimplemented!(); } + } else { unimplemented!(); } + } + _ => unimplemented!(), + } + } + + // ******************************** + // *** Type conversion printing *** + // ******************************** + + /// Returns true we if can just skip passing this to C entirely + pub fn skip_arg(&self, t: &syn::Type, generics: Option<&GenericTypes>) -> bool { + match t { + syn::Type::Path(p) => { + if p.qself.is_some() { unimplemented!(); } + if let Some(full_path) = self.maybe_resolve_path(&p.path, generics) { + self.skip_path(&full_path) + } else { false } + }, + syn::Type::Reference(r) => { + self.skip_arg(&*r.elem, generics) + }, + _ => false, + } + } + pub fn no_arg_to_rust(&self, w: &mut W, t: &syn::Type, generics: Option<&GenericTypes>) { + match t { + syn::Type::Path(p) => { + if p.qself.is_some() { unimplemented!(); } + if let Some(full_path) = self.maybe_resolve_path(&p.path, generics) { + write!(w, "{}", self.no_arg_path_to_rust(&full_path)).unwrap(); + } + }, + syn::Type::Reference(r) => { + self.no_arg_to_rust(w, &*r.elem, generics); + }, + _ => {}, + } + } + + fn write_conversion_inline_intern Option, DL: Fn(&mut W, &DeclType, &str, bool, bool), SC: Fn(bool) -> &'static str> + (&self, w: &mut W, t: &syn::Type, generics: Option<&GenericTypes>, is_ref: bool, is_mut: bool, ptr_for_ref: bool, + tupleconv: &str, prefix: bool, sliceconv: SC, path_lookup: LP, decl_lookup: DL) { + match t { + syn::Type::Reference(r) => { + self.write_conversion_inline_intern(w, &*r.elem, generics, true, r.mutability.is_some(), + ptr_for_ref, tupleconv, prefix, sliceconv, path_lookup, decl_lookup); + }, + syn::Type::Path(p) => { + if p.qself.is_some() { + unimplemented!(); + } + + let resolved_path = self.resolve_path(&p.path, generics); + if let Some(aliased_type) = self.crate_types.type_aliases.get(&resolved_path) { + return self.write_conversion_inline_intern(w, aliased_type, None, is_ref, is_mut, ptr_for_ref, tupleconv, prefix, sliceconv, path_lookup, decl_lookup); + } else if let Some(c_type) = path_lookup(&resolved_path, is_ref, ptr_for_ref) { + write!(w, "{}", c_type).unwrap(); + } else if self.crate_types.opaques.get(&resolved_path).is_some() { + decl_lookup(w, &DeclType::StructImported, &resolved_path, is_ref, is_mut); + } else if self.crate_types.mirrored_enums.get(&resolved_path).is_some() { + decl_lookup(w, &DeclType::MirroredEnum, &resolved_path, is_ref, is_mut); + } else if let Some(t) = self.crate_types.traits.get(&resolved_path) { + decl_lookup(w, &DeclType::Trait(t), &resolved_path, is_ref, is_mut); + } else if let Some(ident) = single_ident_generic_path_to_ident(&p.path) { + if let Some(decl_type) = self.types.maybe_resolve_declared(ident) { + decl_lookup(w, decl_type, &self.maybe_resolve_ident(ident).unwrap(), is_ref, is_mut); + } else { unimplemented!(); } + } else { unimplemented!(); } + }, + syn::Type::Array(a) => { + // We assume all arrays contain only [int_literal; X]s. + // This may result in some outputs not compiling. + if let syn::Expr::Lit(l) = &a.len { + if let syn::Lit::Int(i) = &l.lit { + write!(w, "{}", path_lookup(&format!("[u8; {}]", i.base10_digits()), is_ref, ptr_for_ref).unwrap()).unwrap(); + } else { unimplemented!(); } + } else { unimplemented!(); } + }, + syn::Type::Slice(s) => { + // We assume all slices contain only literals or references. + // This may result in some outputs not compiling. + if let syn::Type::Path(p) = &*s.elem { + let resolved = self.resolve_path(&p.path, generics); + assert!(self.is_primitive(&resolved)); + write!(w, "{}", path_lookup("[u8]", is_ref, ptr_for_ref).unwrap()).unwrap(); + } else if let syn::Type::Reference(r) = &*s.elem { + if let syn::Type::Path(p) = &*r.elem { + write!(w, "{}", sliceconv(self.c_type_has_inner_from_path(&self.resolve_path(&p.path, generics)))).unwrap(); + } else { unimplemented!(); } + } else if let syn::Type::Tuple(t) = &*s.elem { + assert!(!t.elems.is_empty()); + if prefix { + write!(w, "&local_").unwrap(); + } else { + let mut needs_map = false; + for e in t.elems.iter() { + if let syn::Type::Reference(_) = e { + needs_map = true; + } + } + if needs_map { + write!(w, ".iter().map(|(").unwrap(); + for i in 0..t.elems.len() { + write!(w, "{}{}", if i != 0 { ", " } else { "" }, ('a' as u8 + i as u8) as char).unwrap(); + } + write!(w, ")| (").unwrap(); + for (idx, e) in t.elems.iter().enumerate() { + if let syn::Type::Reference(_) = e { + write!(w, "{}{}", if idx != 0 { ", " } else { "" }, (idx as u8 + 'a' as u8) as char).unwrap(); + } else if let syn::Type::Path(_) = e { + write!(w, "{}*{}", if idx != 0 { ", " } else { "" }, (idx as u8 + 'a' as u8) as char).unwrap(); + } else { unimplemented!(); } + } + write!(w, ")).collect::>()[..]").unwrap(); + } + } + } else { unimplemented!(); } + }, + syn::Type::Tuple(t) => { + if t.elems.is_empty() { + // cbindgen has poor support for (), see, eg https://github.com/eqrion/cbindgen/issues/527 + // so work around it by just pretending its a 0u8 + write!(w, "{}", tupleconv).unwrap(); + } else { + if prefix { write!(w, "local_").unwrap(); } + } + }, + _ => unimplemented!(), + } + } + + fn write_to_c_conversion_inline_prefix_inner(&self, w: &mut W, t: &syn::Type, generics: Option<&GenericTypes>, is_ref: bool, ptr_for_ref: bool, from_ptr: bool) { + self.write_conversion_inline_intern(w, t, generics, is_ref, false, ptr_for_ref, "0u8 /*", true, |_| "local_", + |a, b, c| self.to_c_conversion_inline_prefix_from_path(a, b, c), + |w, decl_type, decl_path, is_ref, _is_mut| { + match decl_type { + DeclType::MirroredEnum if is_ref && ptr_for_ref => write!(w, "crate::{}::from_native(&", decl_path).unwrap(), + DeclType::MirroredEnum if is_ref => write!(w, "&crate::{}::from_native(&", decl_path).unwrap(), + DeclType::MirroredEnum => write!(w, "crate::{}::native_into(", decl_path).unwrap(), + DeclType::EnumIgnored|DeclType::StructImported if is_ref && ptr_for_ref && from_ptr => + write!(w, "crate::{} {{ inner: unsafe {{ (", decl_path).unwrap(), + DeclType::EnumIgnored|DeclType::StructImported if is_ref && ptr_for_ref => + write!(w, "crate::{} {{ inner: unsafe {{ ( (&(", decl_path).unwrap(), + DeclType::EnumIgnored|DeclType::StructImported if is_ref => + write!(w, "&crate::{} {{ inner: unsafe {{ (", decl_path).unwrap(), + DeclType::EnumIgnored|DeclType::StructImported if !is_ref && from_ptr => + write!(w, "crate::{} {{ inner: ", decl_path).unwrap(), + DeclType::EnumIgnored|DeclType::StructImported if !is_ref => + write!(w, "crate::{} {{ inner: Box::into_raw(Box::new(", decl_path).unwrap(), + DeclType::Trait(_) if is_ref => write!(w, "&").unwrap(), + DeclType::Trait(_) if !is_ref => {}, + _ => panic!("{:?}", decl_path), + } + }); + } + pub fn write_to_c_conversion_inline_prefix(&self, w: &mut W, t: &syn::Type, generics: Option<&GenericTypes>, ptr_for_ref: bool) { + self.write_to_c_conversion_inline_prefix_inner(w, t, generics, false, ptr_for_ref, false); + } + fn write_to_c_conversion_inline_suffix_inner(&self, w: &mut W, t: &syn::Type, generics: Option<&GenericTypes>, is_ref: bool, ptr_for_ref: bool, from_ptr: bool) { + self.write_conversion_inline_intern(w, t, generics, is_ref, false, ptr_for_ref, "*/", false, |_| ".into()", + |a, b, c| self.to_c_conversion_inline_suffix_from_path(a, b, c), + |w, decl_type, _full_path, is_ref, _is_mut| match decl_type { + DeclType::MirroredEnum => write!(w, ")").unwrap(), + DeclType::EnumIgnored|DeclType::StructImported if is_ref && ptr_for_ref && from_ptr => + write!(w, " as *const _) as *mut _ }}, is_owned: false }}").unwrap(), + DeclType::EnumIgnored|DeclType::StructImported if is_ref && ptr_for_ref => + write!(w, ") as *const _) as *mut _) }}, is_owned: false }}").unwrap(), + DeclType::EnumIgnored|DeclType::StructImported if is_ref => + write!(w, " as *const _) as *mut _ }}, is_owned: false }}").unwrap(), + DeclType::EnumIgnored|DeclType::StructImported if !is_ref && from_ptr => + write!(w, ", is_owned: true }}").unwrap(), + DeclType::EnumIgnored|DeclType::StructImported if !is_ref => write!(w, ")), is_owned: true }}").unwrap(), + DeclType::Trait(_) if is_ref => {}, + DeclType::Trait(_) => { + // This is used when we're converting a concrete Rust type into a C trait + // for use when a Rust trait method returns an associated type. + // Because all of our C traits implement From + // we can just call .into() here and be done. + write!(w, ".into()").unwrap() + }, + _ => unimplemented!(), + }); + } + pub fn write_to_c_conversion_inline_suffix(&self, w: &mut W, t: &syn::Type, generics: Option<&GenericTypes>, ptr_for_ref: bool) { + self.write_to_c_conversion_inline_suffix_inner(w, t, generics, false, ptr_for_ref, false); + } + + fn write_from_c_conversion_prefix_inner(&self, w: &mut W, t: &syn::Type, generics: Option<&GenericTypes>, is_ref: bool, ptr_for_ref: bool) { + self.write_conversion_inline_intern(w, t, generics, is_ref, false, false, "() /*", true, |_| "&local_", + |a, b, _c| self.from_c_conversion_prefix_from_path(a, b), + |w, decl_type, _full_path, is_ref, is_mut| match decl_type { + DeclType::StructImported if is_ref && ptr_for_ref => write!(w, "unsafe {{ &*(*").unwrap(), + DeclType::StructImported if is_mut && is_ref => write!(w, "unsafe {{ &mut *").unwrap(), + DeclType::StructImported if is_ref => write!(w, "unsafe {{ &*").unwrap(), + DeclType::StructImported if !is_ref => write!(w, "*unsafe {{ Box::from_raw(").unwrap(), + DeclType::MirroredEnum if is_ref => write!(w, "&").unwrap(), + DeclType::MirroredEnum => {}, + DeclType::Trait(_) => {}, + _ => unimplemented!(), + }); + } + pub fn write_from_c_conversion_prefix(&self, w: &mut W, t: &syn::Type, generics: Option<&GenericTypes>) { + self.write_from_c_conversion_prefix_inner(w, t, generics, false, false); + } + fn write_from_c_conversion_suffix_inner(&self, w: &mut W, t: &syn::Type, generics: Option<&GenericTypes>, is_ref: bool, ptr_for_ref: bool) { + self.write_conversion_inline_intern(w, t, generics, is_ref, false, false, "*/", false, + |has_inner| match has_inner { + false => ".iter().collect::>()[..]", + true => "[..]", + }, + |a, b, _c| self.from_c_conversion_suffix_from_path(a, b), + |w, decl_type, _full_path, is_ref, _is_mut| match decl_type { + DeclType::StructImported if is_ref && ptr_for_ref => write!(w, ").inner }}").unwrap(), + DeclType::StructImported if is_ref => write!(w, ".inner }}").unwrap(), + DeclType::StructImported if !is_ref => write!(w, ".take_inner()) }}").unwrap(), + DeclType::MirroredEnum if is_ref => write!(w, ".to_native()").unwrap(), + DeclType::MirroredEnum => write!(w, ".into_native()").unwrap(), + DeclType::Trait(_) => {}, + _ => unimplemented!(), + }); + } + pub fn write_from_c_conversion_suffix(&self, w: &mut W, t: &syn::Type, generics: Option<&GenericTypes>) { + self.write_from_c_conversion_suffix_inner(w, t, generics, false, false); + } + // Note that compared to the above conversion functions, the following two are generally + // significantly undertested: + pub fn write_from_c_conversion_to_ref_prefix(&self, w: &mut W, t: &syn::Type, generics: Option<&GenericTypes>) { + self.write_conversion_inline_intern(w, t, generics, false, false, false, "() /*", true, |_| "&local_", + |a, b, _c| { + if let Some(conv) = self.from_c_conversion_prefix_from_path(a, b) { + Some(format!("&{}", conv)) + } else { None } + }, + |w, decl_type, _full_path, is_ref, _is_mut| match decl_type { + DeclType::StructImported if !is_ref => write!(w, "unsafe {{ &*").unwrap(), + _ => unimplemented!(), + }); + } + pub fn write_from_c_conversion_to_ref_suffix(&self, w: &mut W, t: &syn::Type, generics: Option<&GenericTypes>) { + self.write_conversion_inline_intern(w, t, generics, false, false, false, "*/", false, + |has_inner| match has_inner { + false => ".iter().collect::>()[..]", + true => "[..]", + }, + |a, b, _c| self.from_c_conversion_suffix_from_path(a, b), + |w, decl_type, _full_path, is_ref, _is_mut| match decl_type { + DeclType::StructImported if !is_ref => write!(w, ".inner }}").unwrap(), + _ => unimplemented!(), + }); + } + + fn write_conversion_new_var_intern<'b, W: std::io::Write, + LP: Fn(&str, bool) -> Option<(&str, &str)>, + LC: Fn(&str, bool, Option<&syn::Type>, &syn::Ident, &str) -> Option<(&'b str, Vec<(String, String)>, &'b str)>, + VP: Fn(&mut W, &syn::Type, Option<&GenericTypes>, bool, bool, bool), + VS: Fn(&mut W, &syn::Type, Option<&GenericTypes>, bool, bool, bool)> + (&self, w: &mut W, ident: &syn::Ident, var: &str, t: &syn::Type, generics: Option<&GenericTypes>, + mut is_ref: bool, mut ptr_for_ref: bool, to_c: bool, + path_lookup: &LP, container_lookup: &LC, var_prefix: &VP, var_suffix: &VS) -> bool { + + macro_rules! convert_container { + ($container_type: expr, $args_len: expr, $args_iter: expr) => { { + // For slices (and Options), we refuse to directly map them as is_ref when they + // aren't opaque types containing an inner pointer. This is due to the fact that, + // in both cases, the actual higher-level type is non-is_ref. + let ty_has_inner = if self.is_transparent_container(&$container_type, is_ref) || $container_type == "Slice" { + let ty = $args_iter().next().unwrap(); + if $container_type == "Slice" && to_c { + // "To C ptr_for_ref" means "return the regular object with is_owned + // set to false", which is totally what we want in a slice if we're about to + // set ty_has_inner. + ptr_for_ref = true; + } + if let syn::Type::Reference(t) = ty { + if let syn::Type::Path(p) = &*t.elem { + self.c_type_has_inner_from_path(&self.resolve_path(&p.path, generics)) + } else { false } + } else if let syn::Type::Path(p) = ty { + self.c_type_has_inner_from_path(&self.resolve_path(&p.path, generics)) + } else { false } + } else { true }; + + // Options get a bunch of special handling, since in general we map Option<>al + // types into the same C type as non-Option-wrapped types. This ends up being + // pretty manual here and most of the below special-cases are for Options. + let mut needs_ref_map = false; + let mut only_contained_type = None; + let mut only_contained_has_inner = false; + let mut contains_slice = false; + if $args_len == 1 && self.is_transparent_container(&$container_type, is_ref) { + only_contained_has_inner = ty_has_inner; + let arg = $args_iter().next().unwrap(); + if let syn::Type::Reference(t) = arg { + only_contained_type = Some(&*t.elem); + if let syn::Type::Path(_) = &*t.elem { + is_ref = true; + } else if let syn::Type::Slice(_) = &*t.elem { + contains_slice = true; + } else { return false; } + needs_ref_map = true; + } else if let syn::Type::Path(_) = arg { + only_contained_type = Some(&arg); + } else { unimplemented!(); } + } + + if let Some((prefix, conversions, suffix)) = container_lookup(&$container_type, is_ref && ty_has_inner, only_contained_type, ident, var) { + assert_eq!(conversions.len(), $args_len); + write!(w, "let mut local_{}{} = ", ident, if !to_c && needs_ref_map {"_base"} else { "" }).unwrap(); + if only_contained_has_inner && to_c { + var_prefix(w, $args_iter().next().unwrap(), generics, is_ref, ptr_for_ref, true); + } + write!(w, "{}{}", prefix, var).unwrap(); + + for ((pfx, var_name), (idx, ty)) in conversions.iter().zip($args_iter().enumerate()) { + let mut var = std::io::Cursor::new(Vec::new()); + write!(&mut var, "{}", var_name).unwrap(); + let var_access = String::from_utf8(var.into_inner()).unwrap(); + + let conv_ty = if needs_ref_map { only_contained_type.as_ref().unwrap() } else { ty }; + + write!(w, "{} {{ ", pfx).unwrap(); + let new_var_name = format!("{}_{}", ident, idx); + let new_var = self.write_conversion_new_var_intern(w, &syn::Ident::new(&new_var_name, Span::call_site()), + &var_access, conv_ty, generics, contains_slice || (is_ref && ty_has_inner), ptr_for_ref, to_c, path_lookup, container_lookup, var_prefix, var_suffix); + if new_var { write!(w, " ").unwrap(); } + if (!only_contained_has_inner || !to_c) && !contains_slice { + var_prefix(w, conv_ty, generics, is_ref && ty_has_inner, ptr_for_ref, false); + } + + if !is_ref && !needs_ref_map && to_c && only_contained_has_inner { + write!(w, "Box::into_raw(Box::new(").unwrap(); + } + write!(w, "{}{}", if contains_slice { "local_" } else { "" }, if new_var { new_var_name } else { var_access }).unwrap(); + if (!only_contained_has_inner || !to_c) && !contains_slice { + var_suffix(w, conv_ty, generics, is_ref && ty_has_inner, ptr_for_ref, false); + } + if !is_ref && !needs_ref_map && to_c && only_contained_has_inner { + write!(w, "))").unwrap(); + } + write!(w, " }}").unwrap(); + } + write!(w, "{}", suffix).unwrap(); + if only_contained_has_inner && to_c { + var_suffix(w, $args_iter().next().unwrap(), generics, is_ref, ptr_for_ref, true); + } + write!(w, ";").unwrap(); + if !to_c && needs_ref_map { + write!(w, " let mut local_{} = local_{}_base.as_ref()", ident, ident).unwrap(); + if contains_slice { + write!(w, ".map(|a| &a[..])").unwrap(); + } + write!(w, ";").unwrap(); + } + return true; + } + } } + } + + match t { + syn::Type::Reference(r) => { + if let syn::Type::Slice(_) = &*r.elem { + self.write_conversion_new_var_intern(w, ident, var, &*r.elem, generics, is_ref, ptr_for_ref, to_c, path_lookup, container_lookup, var_prefix, var_suffix) + } else { + self.write_conversion_new_var_intern(w, ident, var, &*r.elem, generics, true, ptr_for_ref, to_c, path_lookup, container_lookup, var_prefix, var_suffix) + } + }, + syn::Type::Path(p) => { + if p.qself.is_some() { + unimplemented!(); + } + let resolved_path = self.resolve_path(&p.path, generics); + if let Some(aliased_type) = self.crate_types.type_aliases.get(&resolved_path) { + return self.write_conversion_new_var_intern(w, ident, var, aliased_type, None, is_ref, ptr_for_ref, to_c, path_lookup, container_lookup, var_prefix, var_suffix); + } + if self.is_known_container(&resolved_path, is_ref) || self.is_transparent_container(&resolved_path, is_ref) { + if let syn::PathArguments::AngleBracketed(args) = &p.path.segments.iter().next().unwrap().arguments { + convert_container!(resolved_path, args.args.len(), || args.args.iter().map(|arg| { + if let syn::GenericArgument::Type(ty) = arg { + ty + } else { unimplemented!(); } + })); + } else { unimplemented!(); } + } + if self.is_primitive(&resolved_path) { + false + } else if let Some(ty_ident) = single_ident_generic_path_to_ident(&p.path) { + if let Some((prefix, suffix)) = path_lookup(&resolved_path, is_ref) { + write!(w, "let mut local_{} = {}{}{};", ident, prefix, var, suffix).unwrap(); + true + } else if self.types.maybe_resolve_declared(ty_ident).is_some() { + false + } else { false } + } else { false } + }, + syn::Type::Array(_) => { + // We assume all arrays contain only primitive types. + // This may result in some outputs not compiling. + false + }, + syn::Type::Slice(s) => { + if let syn::Type::Path(p) = &*s.elem { + let resolved = self.resolve_path(&p.path, generics); + assert!(self.is_primitive(&resolved)); + let slice_path = format!("[{}]", resolved); + if let Some((prefix, suffix)) = path_lookup(&slice_path, true) { + write!(w, "let mut local_{} = {}{}{};", ident, prefix, var, suffix).unwrap(); + true + } else { false } + } else if let syn::Type::Reference(ty) = &*s.elem { + let tyref = [&*ty.elem]; + is_ref = true; + convert_container!("Slice", 1, || tyref.iter()); + unimplemented!("convert_container should return true as container_lookup should succeed for slices"); + } else if let syn::Type::Tuple(t) = &*s.elem { + // When mapping into a temporary new var, we need to own all the underlying objects. + // Thus, we drop any references inside the tuple and convert with non-reference types. + let mut elems = syn::punctuated::Punctuated::new(); + for elem in t.elems.iter() { + if let syn::Type::Reference(r) = elem { + elems.push((*r.elem).clone()); + } else { + elems.push(elem.clone()); + } + } + let ty = [syn::Type::Tuple(syn::TypeTuple { + paren_token: t.paren_token, elems + })]; + is_ref = false; + ptr_for_ref = true; + convert_container!("Slice", 1, || ty.iter()); + unimplemented!("convert_container should return true as container_lookup should succeed for slices"); + } else { unimplemented!() } + }, + syn::Type::Tuple(t) => { + if !t.elems.is_empty() { + // We don't (yet) support tuple elements which cannot be converted inline + write!(w, "let (").unwrap(); + for idx in 0..t.elems.len() { + if idx != 0 { write!(w, ", ").unwrap(); } + write!(w, "{} orig_{}_{}", if is_ref { "ref" } else { "mut" }, ident, idx).unwrap(); + } + write!(w, ") = {}{}; ", var, if !to_c { ".to_rust()" } else { "" }).unwrap(); + // Like other template types, tuples are always mapped as their non-ref + // versions for types which have different ref mappings. Thus, we convert to + // non-ref versions and handle opaque types with inner pointers manually. + for (idx, elem) in t.elems.iter().enumerate() { + if let syn::Type::Path(p) = elem { + let v_name = format!("orig_{}_{}", ident, idx); + let tuple_elem_ident = syn::Ident::new(&v_name, Span::call_site()); + if self.write_conversion_new_var_intern(w, &tuple_elem_ident, &v_name, elem, generics, + false, ptr_for_ref, to_c, + path_lookup, container_lookup, var_prefix, var_suffix) { + write!(w, " ").unwrap(); + // Opaque types with inner pointers shouldn't ever create new stack + // variables, so we don't handle it and just assert that it doesn't + // here. + assert!(!self.c_type_has_inner_from_path(&self.resolve_path(&p.path, generics))); + } + } + } + write!(w, "let mut local_{} = (", ident).unwrap(); + for (idx, elem) in t.elems.iter().enumerate() { + let ty_has_inner = { + if to_c { + // "To C ptr_for_ref" means "return the regular object with + // is_owned set to false", which is totally what we want + // if we're about to set ty_has_inner. + ptr_for_ref = true; + } + if let syn::Type::Reference(t) = elem { + if let syn::Type::Path(p) = &*t.elem { + self.c_type_has_inner_from_path(&self.resolve_path(&p.path, generics)) + } else { false } + } else if let syn::Type::Path(p) = elem { + self.c_type_has_inner_from_path(&self.resolve_path(&p.path, generics)) + } else { false } + }; + if idx != 0 { write!(w, ", ").unwrap(); } + var_prefix(w, elem, generics, is_ref && ty_has_inner, ptr_for_ref, false); + if is_ref && ty_has_inner { + // For ty_has_inner, the regular var_prefix mapping will take a + // reference, so deref once here to make sure we keep the original ref. + write!(w, "*").unwrap(); + } + write!(w, "orig_{}_{}", ident, idx).unwrap(); + if is_ref && !ty_has_inner { + // If we don't have an inner variable's reference to maintain, just + // hope the type is Clonable and use that. + write!(w, ".clone()").unwrap(); + } + var_suffix(w, elem, generics, is_ref && ty_has_inner, ptr_for_ref, false); + } + write!(w, "){};", if to_c { ".into()" } else { "" }).unwrap(); + true + } else { false } + }, + _ => unimplemented!(), + } + } + + pub fn write_to_c_conversion_new_var_inner(&self, w: &mut W, ident: &syn::Ident, var_access: &str, t: &syn::Type, generics: Option<&GenericTypes>, ptr_for_ref: bool) -> bool { + self.write_conversion_new_var_intern(w, ident, var_access, t, generics, false, ptr_for_ref, true, + &|a, b| self.to_c_conversion_new_var_from_path(a, b), + &|a, b, c, d, e| self.to_c_conversion_container_new_var(generics, a, b, c, d, e), + // We force ptr_for_ref here since we can't generate a ref on one line and use it later + &|a, b, c, d, e, f| self.write_to_c_conversion_inline_prefix_inner(a, b, c, d, e, f), + &|a, b, c, d, e, f| self.write_to_c_conversion_inline_suffix_inner(a, b, c, d, e, f)) + } + pub fn write_to_c_conversion_new_var(&self, w: &mut W, ident: &syn::Ident, t: &syn::Type, generics: Option<&GenericTypes>, ptr_for_ref: bool) -> bool { + self.write_to_c_conversion_new_var_inner(w, ident, &format!("{}", ident), t, generics, ptr_for_ref) + } + pub fn write_from_c_conversion_new_var(&self, w: &mut W, ident: &syn::Ident, t: &syn::Type, generics: Option<&GenericTypes>) -> bool { + self.write_conversion_new_var_intern(w, ident, &format!("{}", ident), t, generics, false, false, false, + &|a, b| self.from_c_conversion_new_var_from_path(a, b), + &|a, b, c, d, e| self.from_c_conversion_container_new_var(generics, a, b, c, d, e), + // We force ptr_for_ref here since we can't generate a ref on one line and use it later + &|a, b, c, d, e, _f| self.write_from_c_conversion_prefix_inner(a, b, c, d, e), + &|a, b, c, d, e, _f| self.write_from_c_conversion_suffix_inner(a, b, c, d, e)) + } + + // ****************************************************** + // *** C Container Type Equivalent and alias Printing *** + // ****************************************************** + + fn write_template_generics<'b, W: std::io::Write>(&mut self, w: &mut W, args: &mut dyn Iterator, generics: Option<&GenericTypes>, is_ref: bool) -> bool { + assert!(!is_ref); // We don't currently support outer reference types + for (idx, t) in args.enumerate() { + if idx != 0 { + write!(w, ", ").unwrap(); + } + if let syn::Type::Reference(r_arg) = t { + if !self.write_c_type_intern(w, &*r_arg.elem, generics, false, false, false) { return false; } + + // While write_c_type_intern, above is correct, we don't want to blindly convert a + // reference to something stupid, so check that the container is either opaque or a + // predefined type (currently only Transaction). + if let syn::Type::Path(p_arg) = &*r_arg.elem { + let resolved = self.resolve_path(&p_arg.path, generics); + assert!(self.crate_types.opaques.get(&resolved).is_some() || + self.c_type_from_path(&resolved, true, true).is_some(), "Template generics should be opaque or have a predefined mapping"); + } else { unimplemented!(); } + } else { + if !self.write_c_type_intern(w, t, generics, false, false, false) { return false; } + } + } + true + } + fn check_create_container(&mut self, mangled_container: String, container_type: &str, args: Vec<&syn::Type>, generics: Option<&GenericTypes>, is_ref: bool) -> bool { + if !self.crate_types.templates_defined.get(&mangled_container).is_some() { + let mut created_container: Vec = Vec::new(); + + if container_type == "Result" { + let mut a_ty: Vec = Vec::new(); + if let syn::Type::Tuple(tup) = args.iter().next().unwrap() { + if tup.elems.is_empty() { + write!(&mut a_ty, "()").unwrap(); + } else { + if !self.write_template_generics(&mut a_ty, &mut args.iter().map(|t| *t).take(1), generics, is_ref) { return false; } + } + } else { + if !self.write_template_generics(&mut a_ty, &mut args.iter().map(|t| *t).take(1), generics, is_ref) { return false; } + } + + let mut b_ty: Vec = Vec::new(); + if let syn::Type::Tuple(tup) = args.iter().skip(1).next().unwrap() { + if tup.elems.is_empty() { + write!(&mut b_ty, "()").unwrap(); + } else { + if !self.write_template_generics(&mut b_ty, &mut args.iter().map(|t| *t).skip(1), generics, is_ref) { return false; } + } + } else { + if !self.write_template_generics(&mut b_ty, &mut args.iter().map(|t| *t).skip(1), generics, is_ref) { return false; } + } + + let ok_str = String::from_utf8(a_ty).unwrap(); + let err_str = String::from_utf8(b_ty).unwrap(); + let is_clonable = self.is_clonable(&ok_str) && self.is_clonable(&err_str); + write_result_block(&mut created_container, &mangled_container, &ok_str, &err_str, is_clonable); + if is_clonable { + self.crate_types.clonable_types.insert(Self::generated_container_path().to_owned() + "::" + &mangled_container); + } + } else if container_type == "Vec" { + let mut a_ty: Vec = Vec::new(); + if !self.write_template_generics(&mut a_ty, &mut args.iter().map(|t| *t), generics, is_ref) { return false; } + let ty = String::from_utf8(a_ty).unwrap(); + let is_clonable = self.is_clonable(&ty); + write_vec_block(&mut created_container, &mangled_container, &ty, is_clonable); + if is_clonable { + self.crate_types.clonable_types.insert(Self::generated_container_path().to_owned() + "::" + &mangled_container); + } + } else if container_type.ends_with("Tuple") { + let mut tuple_args = Vec::new(); + let mut is_clonable = true; + for arg in args.iter() { + let mut ty: Vec = Vec::new(); + if !self.write_template_generics(&mut ty, &mut [arg].iter().map(|t| **t), generics, is_ref) { return false; } + let ty_str = String::from_utf8(ty).unwrap(); + if !self.is_clonable(&ty_str) { + is_clonable = false; + } + tuple_args.push(ty_str); + } + write_tuple_block(&mut created_container, &mangled_container, &tuple_args, is_clonable); + if is_clonable { + self.crate_types.clonable_types.insert(Self::generated_container_path().to_owned() + "::" + &mangled_container); + } + } else { + unreachable!(); + } + self.crate_types.templates_defined.insert(mangled_container.clone(), true); + + self.crate_types.template_file.write(&created_container).unwrap(); + } + true + } + fn path_to_generic_args(path: &syn::Path) -> Vec<&syn::Type> { + if let syn::PathArguments::AngleBracketed(args) = &path.segments.iter().next().unwrap().arguments { + args.args.iter().map(|gen| if let syn::GenericArgument::Type(t) = gen { t } else { unimplemented!() }).collect() + } else { unimplemented!(); } + } + fn write_c_mangled_container_path_intern + (&mut self, w: &mut W, args: Vec<&syn::Type>, generics: Option<&GenericTypes>, ident: &str, is_ref: bool, is_mut: bool, ptr_for_ref: bool, in_type: bool) -> bool { + let mut mangled_type: Vec = Vec::new(); + if !self.is_transparent_container(ident, is_ref) { + write!(w, "C{}_", ident).unwrap(); + write!(mangled_type, "C{}_", ident).unwrap(); + } else { assert_eq!(args.len(), 1); } + for arg in args.iter() { + macro_rules! write_path { + ($p_arg: expr, $extra_write: expr) => { + if let Some(subtype) = self.maybe_resolve_path(&$p_arg.path, generics) { + if self.is_transparent_container(ident, is_ref) { + // We dont (yet) support primitives or containers inside transparent + // containers, so check for that first: + if self.is_primitive(&subtype) { return false; } + if self.is_known_container(&subtype, is_ref) { return false; } + if !in_type { + if self.c_type_has_inner_from_path(&subtype) { + if !self.write_c_path_intern(w, &$p_arg.path, generics, is_ref, is_mut, ptr_for_ref) { return false; } + } else { + // Option needs to be converted to a *mut T, ie mut ptr-for-ref + if !self.write_c_path_intern(w, &$p_arg.path, generics, true, true, true) { return false; } + } + } else { + write!(w, "{}", $p_arg.path.segments.last().unwrap().ident).unwrap(); + } + } else if self.is_known_container(&subtype, is_ref) || self.is_transparent_container(&subtype, is_ref) { + if !self.write_c_mangled_container_path_intern(w, Self::path_to_generic_args(&$p_arg.path), generics, + &subtype, is_ref, is_mut, ptr_for_ref, true) { + return false; + } + self.write_c_mangled_container_path_intern(&mut mangled_type, Self::path_to_generic_args(&$p_arg.path), + generics, &subtype, is_ref, is_mut, ptr_for_ref, true); + if let Some(w2) = $extra_write as Option<&mut Vec> { + self.write_c_mangled_container_path_intern(w2, Self::path_to_generic_args(&$p_arg.path), + generics, &subtype, is_ref, is_mut, ptr_for_ref, true); + } + } else { + let id = subtype.rsplitn(2, ':').next().unwrap(); // Get the "Base" name of the resolved type + write!(w, "{}", id).unwrap(); + write!(mangled_type, "{}", id).unwrap(); + if let Some(w2) = $extra_write as Option<&mut Vec> { + write!(w2, "{}", id).unwrap(); + } + } + } else { return false; } + } + } + if let syn::Type::Tuple(tuple) = arg { + if tuple.elems.len() == 0 { + write!(w, "None").unwrap(); + write!(mangled_type, "None").unwrap(); + } else { + let mut mangled_tuple_type: Vec = Vec::new(); + + // Figure out what the mangled type should look like. To disambiguate + // ((A, B), C) and (A, B, C) we prefix the generic args with a _ and suffix + // them with a Z. Ideally we wouldn't use Z, but not many special chars are + // available for use in type names. + write!(w, "C{}Tuple_", tuple.elems.len()).unwrap(); + write!(mangled_type, "C{}Tuple_", tuple.elems.len()).unwrap(); + write!(mangled_tuple_type, "C{}Tuple_", tuple.elems.len()).unwrap(); + for elem in tuple.elems.iter() { + if let syn::Type::Path(p) = elem { + write_path!(p, Some(&mut mangled_tuple_type)); + } else if let syn::Type::Reference(refelem) = elem { + if let syn::Type::Path(p) = &*refelem.elem { + write_path!(p, Some(&mut mangled_tuple_type)); + } else { return false; } + } else { return false; } + } + write!(w, "Z").unwrap(); + write!(mangled_type, "Z").unwrap(); + write!(mangled_tuple_type, "Z").unwrap(); + if !self.check_create_container(String::from_utf8(mangled_tuple_type).unwrap(), + &format!("{}Tuple", tuple.elems.len()), tuple.elems.iter().collect(), generics, is_ref) { + return false; + } + } + } else if let syn::Type::Path(p_arg) = arg { + write_path!(p_arg, None); + } else if let syn::Type::Reference(refty) = arg { + if let syn::Type::Path(p_arg) = &*refty.elem { + write_path!(p_arg, None); + } else if let syn::Type::Slice(_) = &*refty.elem { + // write_c_type will actually do exactly what we want here, we just need to + // make it a pointer so that its an option. Note that we cannot always convert + // the Vec-as-slice (ie non-ref types) containers, so sometimes need to be able + // to edit it, hence we use *mut here instead of *const. + if args.len() != 1 { return false; } + write!(w, "*mut ").unwrap(); + self.write_c_type(w, arg, None, true); + } else { return false; } + } else if let syn::Type::Array(a) = arg { + if let syn::Type::Path(p_arg) = &*a.elem { + let resolved = self.resolve_path(&p_arg.path, generics); + if !self.is_primitive(&resolved) { return false; } + if let syn::Expr::Lit(syn::ExprLit { lit: syn::Lit::Int(len), .. }) = &a.len { + if self.c_type_from_path(&format!("[{}; {}]", resolved, len.base10_digits()), is_ref, ptr_for_ref).is_none() { return false; } + write!(w, "_{}{}", resolved, len.base10_digits()).unwrap(); + write!(mangled_type, "_{}{}", resolved, len.base10_digits()).unwrap(); + } else { return false; } + } else { return false; } + } else { return false; } + } + if self.is_transparent_container(ident, is_ref) { return true; } + // Push the "end of type" Z + write!(w, "Z").unwrap(); + write!(mangled_type, "Z").unwrap(); + + // Make sure the type is actually defined: + self.check_create_container(String::from_utf8(mangled_type).unwrap(), ident, args, generics, is_ref) + } + fn write_c_mangled_container_path(&mut self, w: &mut W, args: Vec<&syn::Type>, generics: Option<&GenericTypes>, ident: &str, is_ref: bool, is_mut: bool, ptr_for_ref: bool) -> bool { + if !self.is_transparent_container(ident, is_ref) { + write!(w, "{}::", Self::generated_container_path()).unwrap(); + } + self.write_c_mangled_container_path_intern(w, args, generics, ident, is_ref, is_mut, ptr_for_ref, false) + } + + // ********************************** + // *** C Type Equivalent Printing *** + // ********************************** + + fn write_c_path_intern(&self, w: &mut W, path: &syn::Path, generics: Option<&GenericTypes>, is_ref: bool, is_mut: bool, ptr_for_ref: bool) -> bool { + let full_path = match self.maybe_resolve_path(&path, generics) { + Some(path) => path, None => return false }; + if let Some(c_type) = self.c_type_from_path(&full_path, is_ref, ptr_for_ref) { + write!(w, "{}", c_type).unwrap(); + true + } else if self.crate_types.traits.get(&full_path).is_some() { + if is_ref && ptr_for_ref { + write!(w, "*{} crate::{}", if is_mut { "mut" } else { "const" }, full_path).unwrap(); + } else if is_ref { + write!(w, "&{}crate::{}", if is_mut { "mut " } else { "" }, full_path).unwrap(); + } else { + write!(w, "crate::{}", full_path).unwrap(); + } + true + } else if self.crate_types.opaques.get(&full_path).is_some() || self.crate_types.mirrored_enums.get(&full_path).is_some() { + if is_ref && ptr_for_ref { + // ptr_for_ref implies we're returning the object, which we can't really do for + // opaque or mirrored types without box'ing them, which is quite a waste, so return + // the actual object itself (for opaque types we'll set the pointer to the actual + // type and note that its a reference). + write!(w, "crate::{}", full_path).unwrap(); + } else if is_ref { + write!(w, "&{}crate::{}", if is_mut { "mut " } else { "" }, full_path).unwrap(); + } else { + write!(w, "crate::{}", full_path).unwrap(); + } + true + } else { + false + } + } + fn write_c_type_intern(&mut self, w: &mut W, t: &syn::Type, generics: Option<&GenericTypes>, is_ref: bool, is_mut: bool, ptr_for_ref: bool) -> bool { + match t { + syn::Type::Path(p) => { + if p.qself.is_some() { + return false; + } + if let Some(full_path) = self.maybe_resolve_path(&p.path, generics) { + if self.is_known_container(&full_path, is_ref) || self.is_transparent_container(&full_path, is_ref) { + return self.write_c_mangled_container_path(w, Self::path_to_generic_args(&p.path), generics, &full_path, is_ref, is_mut, ptr_for_ref); + } + if let Some(aliased_type) = self.crate_types.type_aliases.get(&full_path).cloned() { + return self.write_c_type_intern(w, &aliased_type, None, is_ref, is_mut, ptr_for_ref); + } + } + self.write_c_path_intern(w, &p.path, generics, is_ref, is_mut, ptr_for_ref) + }, + syn::Type::Reference(r) => { + self.write_c_type_intern(w, &*r.elem, generics, true, r.mutability.is_some(), ptr_for_ref) + }, + syn::Type::Array(a) => { + if is_ref && is_mut { + write!(w, "*mut [").unwrap(); + if !self.write_c_type_intern(w, &a.elem, generics, false, false, ptr_for_ref) { return false; } + } else if is_ref { + write!(w, "*const [").unwrap(); + if !self.write_c_type_intern(w, &a.elem, generics, false, false, ptr_for_ref) { return false; } + } else { + let mut typecheck = Vec::new(); + if !self.write_c_type_intern(&mut typecheck, &a.elem, generics, false, false, ptr_for_ref) { return false; } + if typecheck[..] != ['u' as u8, '8' as u8] { return false; } + } + if let syn::Expr::Lit(l) = &a.len { + if let syn::Lit::Int(i) = &l.lit { + if !is_ref { + if let Some(ty) = self.c_type_from_path(&format!("[u8; {}]", i.base10_digits()), false, ptr_for_ref) { + write!(w, "{}", ty).unwrap(); + true + } else { false } + } else { + write!(w, "; {}]", i).unwrap(); + true + } + } else { false } + } else { false } + } + syn::Type::Slice(s) => { + if !is_ref || is_mut { return false; } + if let syn::Type::Path(p) = &*s.elem { + let resolved = self.resolve_path(&p.path, generics); + if self.is_primitive(&resolved) { + write!(w, "{}::{}slice", Self::container_templ_path(), resolved).unwrap(); + true + } else { false } + } else if let syn::Type::Reference(r) = &*s.elem { + if let syn::Type::Path(p) = &*r.elem { + // Slices with "real types" inside are mapped as the equivalent non-ref Vec + let resolved = self.resolve_path(&p.path, generics); + let mangled_container = if let Some(ident) = self.crate_types.opaques.get(&resolved) { + format!("CVec_{}Z", ident) + } else if let Some(en) = self.crate_types.mirrored_enums.get(&resolved) { + format!("CVec_{}Z", en.ident) + } else if let Some(id) = p.path.get_ident() { + format!("CVec_{}Z", id) + } else { return false; }; + write!(w, "{}::{}", Self::generated_container_path(), mangled_container).unwrap(); + self.check_create_container(mangled_container, "Vec", vec![&*r.elem], generics, false) + } else { false } + } else if let syn::Type::Tuple(_) = &*s.elem { + let mut args = syn::punctuated::Punctuated::new(); + args.push(syn::GenericArgument::Type((*s.elem).clone())); + let mut segments = syn::punctuated::Punctuated::new(); + segments.push(syn::PathSegment { + ident: syn::Ident::new("Vec", Span::call_site()), + arguments: syn::PathArguments::AngleBracketed(syn::AngleBracketedGenericArguments { + colon2_token: None, lt_token: syn::Token![<](Span::call_site()), args, gt_token: syn::Token![>](Span::call_site()), + }) + }); + self.write_c_type_intern(w, &syn::Type::Path(syn::TypePath { qself: None, path: syn::Path { leading_colon: None, segments } }), generics, false, is_mut, ptr_for_ref) + } else { false } + }, + syn::Type::Tuple(t) => { + if t.elems.len() == 0 { + true + } else { + self.write_c_mangled_container_path(w, t.elems.iter().collect(), generics, + &format!("{}Tuple", t.elems.len()), is_ref, is_mut, ptr_for_ref) + } + }, + _ => false, + } + } + pub fn write_c_type(&mut self, w: &mut W, t: &syn::Type, generics: Option<&GenericTypes>, ptr_for_ref: bool) { + assert!(self.write_c_type_intern(w, t, generics, false, false, ptr_for_ref)); + } + pub fn understood_c_path(&mut self, p: &syn::Path) -> bool { + if p.leading_colon.is_some() { return false; } + self.write_c_path_intern(&mut std::io::sink(), p, None, false, false, false) + } + pub fn understood_c_type(&mut self, t: &syn::Type, generics: Option<&GenericTypes>) -> bool { + self.write_c_type_intern(&mut std::io::sink(), t, generics, false, false, false) + } +} diff --git a/genbindings.sh b/genbindings.sh new file mode 100755 index 0000000..241ed3e --- /dev/null +++ b/genbindings.sh @@ -0,0 +1,215 @@ +#!/usr/bin/env bash + +set -e +set -x + +# Generate (and reasonably test) C bindings + +# First build the latest c-bindings-gen binary +cd c-bindings-gen && cargo build --release && cd .. + +# Then wipe all the existing C bindings (because we're being run in the right directory) +# note that we keep the few manually-generated files first: +mv lightning-c-bindings/src/c_types/mod.rs ./ +mv lightning-c-bindings/src/bitcoin ./ + +rm -rf lightning-c-bindings/src + +mkdir -p lightning-c-bindings/src/c_types/ +mv ./mod.rs lightning-c-bindings/src/c_types/ +mv ./bitcoin lightning-c-bindings/src/ + +# Finally, run the c-bindings-gen binary, building fresh bindings. +OUT="$(pwd)/lightning-c-bindings/src" +OUT_TEMPL="$(pwd)/lightning-c-bindings/src/c_types/derived.rs" +OUT_F="$(pwd)/lightning-c-bindings/include/rust_types.h" +OUT_CPP="$(pwd)/lightning-c-bindings/include/lightningpp.hpp" + +cd lightning +RUSTC_BOOTSTRAP=1 cargo rustc --profile=check -- -Zunstable-options --pretty=expanded | + RUST_BACKTRACE=1 ../c-bindings-gen/target/release/c-bindings-gen $OUT/ lightning $OUT_TEMPL $OUT_F $OUT_CPP +cd .. + +# Now cd to lightning-c-bindings, build the generated bindings, and call cbindgen to build a C header file +PATH="$PATH:~/.cargo/bin" +cd lightning-c-bindings +cargo build +cbindgen -v --config cbindgen.toml -o include/lightning.h >/dev/null 2>&1 + +HOST_PLATFORM="$(rustc --version --verbose | grep "host:")" + +# cbindgen is relatively braindead when exporting typedefs - +# it happily exports all our typedefs for private types, even with the +# generics we specified in C mode! So we drop all those types manually here. +if [ "$HOST_PLATFORM" = "host: x86_64-apple-darwin" ]; then + # OSX sed is for some reason not compatible with GNU sed + sed -i '' 's/typedef LDKnative.*Import.*LDKnative.*;//g' include/lightning.h + + # stdlib.h doesn't exist in clang's wasm sysroot, and cbindgen + # doesn't actually use it anyway, so drop the import. + sed -i '' 's/#include //g' include/lightning.h +else + sed -i 's/typedef LDKnative.*Import.*LDKnative.*;//g' include/lightning.h + + # stdlib.h doesn't exist in clang's wasm sysroot, and cbindgen + # doesn't actually use it anyway, so drop the import. + sed -i 's/#include //g' include/lightning.h +fi + +# Finally, sanity-check the generated C and C++ bindings with demo apps: + +CFLAGS="-Wall -Wno-nullability-completeness -pthread" + +# Naively run the C demo app: +gcc $CFLAGS -Wall -g -pthread demo.c target/debug/libldk.a -ldl +./a.out + +# And run the C++ demo app in valgrind to test memory model correctness and lack of leaks. +g++ $CFLAGS -std=c++11 -Wall -g -pthread demo.cpp -Ltarget/debug/ -lldk -ldl +if [ -x "`which valgrind`" ]; then + LD_LIBRARY_PATH=target/debug/ valgrind --error-exitcode=4 --memcheck:leak-check=full --show-leak-kinds=all ./a.out + echo +else + echo "WARNING: Please install valgrind for more testing" +fi + +# Test a statically-linked C++ version, tracking the resulting binary size and runtime +# across debug, LTO, and cross-language LTO builds (using the same compiler each time). +clang++ $CFLAGS -std=c++11 demo.cpp target/debug/libldk.a -ldl +strip ./a.out +echo " C++ Bin size and runtime w/o optimization:" +ls -lha a.out +time ./a.out > /dev/null + +# Then, check with memory sanitizer, if we're on Linux and have rustc nightly +if [ "$HOST_PLATFORM" = "host: x86_64-unknown-linux-gnu" ]; then + if cargo +nightly --version >/dev/null 2>&1; then + LLVM_V=$(rustc +nightly --version --verbose | grep "LLVM version" | awk '{ print substr($3, 0, 2); }') + if [ -x "$(which clang-$LLVM_V)" ]; then + cargo +nightly clean + cargo +nightly rustc -Zbuild-std --target x86_64-unknown-linux-gnu -v -- -Zsanitizer=memory -Zsanitizer-memory-track-origins -Cforce-frame-pointers=yes + mv target/x86_64-unknown-linux-gnu/debug/libldk.* target/debug/ + + # Sadly, std doesn't seem to compile into something that is memsan-safe as of Aug 2020, + # so we'll always fail, not to mention we may be linking against git rustc LLVM which + # may differ from clang-llvm, so just allow everything here to fail. + set +e + + # First the C demo app... + clang-$LLVM_V $CFLAGS -fsanitize=memory -fsanitize-memory-track-origins -g demo.c target/debug/libldk.a -ldl + ./a.out + + # ...then the C++ demo app + clang++-$LLVM_V $CFLAGS -std=c++11 -fsanitize=memory -fsanitize-memory-track-origins -g demo.cpp target/debug/libldk.a -ldl + ./a.out >/dev/null + + # restore exit-on-failure + set -e + else + echo "WARNING: Can't use memory sanitizer without clang-$LLVM_V" + fi + else + echo "WARNING: Can't use memory sanitizer without rustc nightly" + fi +else + echo "WARNING: Can't use memory sanitizer on non-Linux, non-x86 platforms" +fi + +RUSTC_LLVM_V=$(rustc --version --verbose | grep "LLVM version" | awk '{ print substr($3, 0, 2); }' | tr -d '.') + +if [ "$HOST_PLATFORM" = "host: x86_64-apple-darwin" ]; then + # Apple is special, as always, and decided that they must ensure that there is no way to identify + # the LLVM version used. Why? Just to make your life hard. + # This list is taken from https://en.wikipedia.org/wiki/Xcode + APPLE_CLANG_V=$(clang --version | head -n1 | awk '{ print $4 }') + if [ "$APPLE_CLANG_V" = "10.0.0" ]; then + CLANG_LLVM_V="6" + elif [ "$APPLE_CLANG_V" = "10.0.1" ]; then + CLANG_LLVM_V="7" + elif [ "$APPLE_CLANG_V" = "11.0.0" ]; then + CLANG_LLVM_V="8" + elif [ "$APPLE_CLANG_V" = "11.0.3" ]; then + CLANG_LLVM_V="9" + elif [ "$APPLE_CLANG_V" = "12.0.0" ]; then + CLANG_LLVM_V="10" + else + echo "WARNING: Unable to identify Apple clang LLVM version" + CLANG_LLVM_V="0" + fi +else + CLANG_LLVM_V=$(clang --version | head -n1 | awk '{ print substr($4, 0, 2); }' | tr -d '.') +fi + +if [ "$CLANG_LLVM_V" = "$RUSTC_LLVM_V" ]; then + CLANG=clang + CLANGPP=clang++ +elif [ "$(which clang-$RUSTC_LLVM_V)" != "" ]; then + CLANG="$(which clang-$RUSTC_LLVM_V)" + CLANGPP="$(which clang++-$RUSTC_LLVM_V)" +fi + +if [ "$CLANG" != "" -a "$CLANGPP" = "" ]; then + echo "WARNING: It appears you have a clang-$RUSTC_LLVM_V but not clang++-$RUSTC_LLVM_V. This is common, but leaves us unable to compile C++ with LLVM $RUSTC_LLVM_V" + echo "You should create a symlink called clang++-$RUSTC_LLVM_V pointing to $CLANG in $(dirname $CLANG)" +fi + +# Finally, if we're on OSX or on Linux, build the final debug binary with address sanitizer (and leave it there) +if [ "$HOST_PLATFORM" = "host: x86_64-unknown-linux-gnu" -o "$HOST_PLATFORM" = "host: x86_64-apple-darwin" ]; then + if [ "$CLANGPP" != "" ]; then + if [ "$HOST_PLATFORM" = "host: x86_64-apple-darwin" ]; then + # OSX sed is for some reason not compatible with GNU sed + sed -i .bk 's/,"cdylib"]/]/g' Cargo.toml + else + sed -i.bk 's/,"cdylib"]/]/g' Cargo.toml + fi + RUSTC_BOOTSTRAP=1 cargo rustc -v -- -Zsanitizer=address -Cforce-frame-pointers=yes || ( mv Cargo.toml.bk Cargo.toml; exit 1) + mv Cargo.toml.bk Cargo.toml + + # First the C demo app... + $CLANG $CFLAGS -fsanitize=address -g demo.c target/debug/libldk.a -ldl + ASAN_OPTIONS='detect_leaks=1 detect_invalid_pointer_pairs=1 detect_stack_use_after_return=1' ./a.out + + # ...then the C++ demo app + $CLANGPP $CFLAGS -std=c++11 -fsanitize=address -g demo.cpp target/debug/libldk.a -ldl + ASAN_OPTIONS='detect_leaks=1 detect_invalid_pointer_pairs=1 detect_stack_use_after_return=1' ./a.out >/dev/null + else + echo "WARNING: Please install clang-$RUSTC_LLVM_V and clang++-$RUSTC_LLVM_V to build with address sanitizer" + fi +else + echo "WARNING: Can't use address sanitizer on non-Linux, non-OSX non-x86 platforms" +fi + +if [ "$(rustc --print target-list | grep wasm32-wasi)" != "" ]; then + # Test to see if clang supports wasm32 as a target (which is needed to build rust-secp256k1) + echo "int main() {}" > genbindings_wasm_test_file.c + clang -nostdlib -o /dev/null --target=wasm32-wasi -Wl,--no-entry genbindings_wasm_test_file.c > /dev/null 2>&1 && + # And if it does, build a WASM binary without capturing errors + cargo rustc -v --target=wasm32-wasi -- -C embed-bitcode=yes && + CARGO_PROFILE_RELEASE_LTO=true cargo rustc -v --release --target=wasm32-wasi -- -C opt-level=s -C linker-plugin-lto -C lto || + echo "Cannot build WASM lib as clang does not seem to support the wasm32-wasi target" + rm genbindings_wasm_test_file.c +fi + +# Now build with LTO on on both C++ and rust, but without cross-language LTO: +CARGO_PROFILE_RELEASE_LTO=true cargo rustc -v --release -- -C lto +clang++ $CFLAGS -std=c++11 -flto -O2 demo.cpp target/release/libldk.a -ldl +strip ./a.out +echo "C++ Bin size and runtime with only RL (LTO) optimized:" +ls -lha a.out +time ./a.out > /dev/null + +if [ "$HOST_PLATFORM" != "host: x86_64-apple-darwin" -a "$CLANGPP" != "" ]; then + # Finally, test cross-language LTO. Note that this will fail if rustc and clang++ + # build against different versions of LLVM (eg when rustc is installed via rustup + # or Ubuntu packages). This should work fine on Distros which do more involved + # packaging than simply shipping the rustup binaries (eg Debian should Just Work + # here). + CARGO_PROFILE_RELEASE_LTO=true cargo rustc -v --release -- -C linker-plugin-lto -C lto -C link-arg=-fuse-ld=lld + $CLANGPP $CFLAGS -flto -fuse-ld=lld -O2 demo.cpp target/release/libldk.a -ldl + strip ./a.out + echo "C++ Bin size and runtime with cross-language LTO:" + ls -lha a.out + time ./a.out > /dev/null +else + echo "WARNING: Building with cross-language LTO is not avilable on OSX or without clang-$RUSTC_LLVM_V" +fi diff --git a/lightning-c-bindings/Cargo.toml b/lightning-c-bindings/Cargo.toml new file mode 100644 index 0000000..7604731 --- /dev/null +++ b/lightning-c-bindings/Cargo.toml @@ -0,0 +1,36 @@ +[package] +name = "lightning-c-bindings" +version = "0.0.1" +authors = ["Matt Corallo"] +license = "Apache-2.0" +edition = "2018" +description = """ +Utilities to fetch the chain from Bitcoin Core REST/RPC Interfaces and feed them into Rust Lightning. +""" + +[lib] +name = "ldk" +crate-type = ["staticlib" +# Note that the following line is matched exactly by genbindings to turn off dylib creation +,"cdylib"] + +[dependencies] +bitcoin = "0.26" +secp256k1 = { version = "0.20.1", features = ["global-context-less-secure"] } +lightning = { version = "0.0.12", path = "../lightning" } + +[patch.crates-io] +# Rust-Secp256k1 PR 279. Should be dropped once merged. +secp256k1 = { git = 'https://github.com/TheBlueMatt/rust-secp256k1', rev = '15a0d4195a20355f6b1e8f54c84eba56abc15cbd' } + +# Always force panic=abort, further options are set in the genbindings.sh build script +[profile.dev] +panic = "abort" + +[profile.release] +panic = "abort" + +# We eventually want to join the root workspace, but for now, the bindings generation is +# a bit brittle and we don't want to hold up other developers from making changes just +# because they break the bindings +[workspace] diff --git a/lightning-c-bindings/README.md b/lightning-c-bindings/README.md new file mode 100644 index 0000000..0c221c7 --- /dev/null +++ b/lightning-c-bindings/README.md @@ -0,0 +1,238 @@ +The wrapper crate and C/C++ Headers in this folder are auto-generated from the Rust-Lightning +source by the c-bindings-gen crate contained in the source tree and +[cbindgen](https://github.com/eqrion/cbindgen). They are intended to be used as a base for building +language-specific bindings, and are thus incredibly low-level and may be difficult to work with +directly. + +In other words, if you're reading this, you're either writing bindings for a new language, or +you're in the wrong place - individual language bindings should come with their own documentation. + +LDK C Bindings +============== + +The C bindings available at include/lightning.h require inclusion of include/rust_types.h first. + +All of the Rust-Lightning types are mapped into C equivalents which take a few forms, with the C +type getting an `LDK` prefix to their native Rust type names. + +#### Structs +Structs are mapped into a simple wrapper containing a pointer to the native Rust-Lightning object +and a flag to indicate whether the object is owned or only a reference. Such mappings usually +generate a `X_free` function which must be called to release the allocated resources. Note that +calling `X_free` will do nothing if the underlying pointer is NULL or if the `is_owned` flag is not +set. + +You MUST NOT create such wrapper structs manually, relying instead on constructors which have been +mapped from equivalent Rust constructors. + +Note that, thanks to the is-owned flag and the pointer being NULLable, such structs effectively +represent `RustType`, `&RustType`, and `Option`. Check the corresponding Rust +documentation for the function or struct you are using to ensure you use the correct call semantics. +The passed struct must match the call semantics or an assertion failure or NULL pointer dereference +may occur. + +For example, this is the mapping of ChannelManager. +```c +typedef struct MUST_USE_STRUCT LDKChannelManager { + /** ... */ + LDKnativeChannelManager *inner; + bool is_owned; +} LDKChannelManager; +``` + +#### Traits +Traits are mapped into a concrete struct containing a void pointer (named `this_arg` and a jump +table listing the functions which the trait must implement. The void pointer may be set to any value +and is never interpreted (or dereferenced) by the bindings logic in any way. It is passed as the +first argument to all function calls in the trait. You may wish to use it as a pointer to your own +internal data structure, though it may also occasionally make sense to e.g. cast a file descriptor +into a void pointer and use it to track a socket. + +This should remind you of a C++ vtable, only written out by hand and with the class only containing +a pointer, instead of the regular class data. + +Each trait additionally contains `free` and `clone` function pointers, which may be NULL. The `free` +function is passed the void pointer when the object is `Drop`ed in Rust. The `clone` function is +passed the void pointer when the object is `Clone`ed in Rust, returning a new void pointer for the +new object. If the `free` pointer is NULL, you will not receive any notification when the trait +object is no longer needed. If the `clone` pointer is NULL, we assume that the trait object may be +`memcpy()`'d to create copies. Note that if you release resources with `free` without implementing +`clone`, you will likely end up with use-after-free bugs (as copies of the original this_arg value +may still exist, unbeknownst to you). + +For example, `LDKSocketDescriptor` is mapped as follows: +```c +typedef struct LDKSocketDescriptor { + void *this_arg; + /** ... */ + uintptr_t (*send_data)(void *this_arg, LDKu8slice data, bool resume_read); + /** ... */ + void (*disconnect_socket)(void *this_arg); + bool (*eq)(const void *this_arg, const void *other_arg); + uint64_t (*hash)(const void *this_arg); + void *(*clone)(const void *this_arg); + void (*free)(void *this_arg); +} LDKSocketDescriptor; +``` + +##### Rust Trait Implementations +Rust structs that implement a trait result in the generation of an `X_as_Y` function, which takes a +C struct wrapping the Rust native object and returns a generated trait object. Such generated +objects are only valid as long as the original Rust native object has not been `free`'d or moved as +a part of a Rust function call (ie continues to be owned by the C struct). For example, to use an +`LDKInMemoryChannelKeys` as a `ChannelKeys`, `InMemoryChannelKeys_as_ChannelKeys` is exposed: + +```c +LDKChannelKeys InMemoryChannelKeys_as_ChannelKeys(const LDKInMemoryChannelKeys *this_arg); +``` + +#### Enums +Rust "unitary" enums are mapped simply as an equivalent C enum; however, some Rust enums have +variants which contain payloads. Such enums are mapped automatically by cbindgen as a tag which +indicates the type and a union which holds the relevant fields for a given tag. An `X_free` function +is provided for the enum as a whole which automatically frees the correct fields for a give tag, and +a `Sentinel` tag is provided which causes the free function to do nothing (but which must never +appear in an enum when accessed by Rust code). The `Sentinel` tag is used by the C++ wrapper classes +to allow moving the ownership of an enum while invalidating the old copy. + +For example, the unitary enum `LDKChannelMonitorUpdateErr` is mapped as follows: +```c +typedef enum LDKChannelMonitorUpdateErr { + /** .. */ + LDKChannelMonitorUpdateErr_TemporaryFailure, + /** .. */ + LDKChannelMonitorUpdateErr_PermanentFailure, + /** .. */ + LDKChannelMonitorUpdateErr_Sentinel, +} LDKChannelMonitorUpdateErr; +``` + +and the non-unitary enum LDKErrorAction is mapped as follows: +```c +typedef enum LDKErrorAction_Tag { + /** .. */ + LDKErrorAction_DisconnectPeer, + /** .. */ + LDKErrorAction_IgnoreError, + /** .. */ + LDKErrorAction_SendErrorMessage, + /** .. */ + LDKErrorAction_Sentinel, +} LDKErrorAction_Tag; + +typedef struct LDKErrorAction_LDKDisconnectPeer_Body { + LDKErrorMessage msg; +} LDKErrorAction_LDKDisconnectPeer_Body; + +typedef struct LDKErrorAction_LDKSendErrorMessage_Body { + LDKErrorMessage msg; +} LDKErrorAction_LDKSendErrorMessage_Body; + +typedef struct LDKErrorAction { + LDKErrorAction_Tag tag; + union { + LDKErrorAction_LDKDisconnectPeer_Body disconnect_peer; + LDKErrorAction_LDKSendErrorMessage_Body send_error_message; + }; +} LDKErrorAction; +``` + +#### Functions +Struct member functions are mapped as `Struct_function_name` and take a pointer to the mapped struct +as their first argument. Free-standing functions are mapped simply as `function_name` and take the +relevant mapped type arguments. + +Functions which return `&OpaqueRustType` and which return `OpaqueRustType` are both mapped to a +function returning an owned wrapper struct. The `is_owned` flag (see above) will be set to indicate +that the pointed-to Rust object is owned or only a reference. Thus, when implementing a function +which Rust will call or calling a Rust function, you should check the Rust documentation for the +function to determine whether an owned or referenced object is expected or returned. + +Similarly, when a function takes an `Option` as a parameter or a return value, the C type +is the same as if it took only `RustType`, with the `inner` field set to NULL to indicate None. For +example, `ChannelManager_create_channel` takes an `Option` not an `LDKUserConfig`, +but its definition is: +```c +MUST_USE_RES ... ChannelManager_create_channel(const LDKChannelManager *this_arg, ..., LDKUserConfig override_config); +``` + +#### Containers +Various containers (Tuples, Vecs, Results, etc) are mapped into C structs of the form +`LDKCContainerType_ContainerElementsZ`. Inner fields are often pointers, and in the case of +primitive types, these may be allocated in C using the system allocator. See [the Rust docs on your +platform's default System allocator](https://doc.rust-lang.org/std/alloc/struct.System.html) for + which allocator you must use. Recursive containers are possible, and simply replace the +`ContainerElements` part with `InnerContainerType_InnerContainerElementsZ`, eg +`LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ` represents a +`Result<(Signature, Vec), ()>`. + +#### Notes +As the bindings are auto-generated, the best resource for documentation on them is the native Rust +docs available via `cargo doc` or [docs.rs/lightning](https://docs.rs/lightning). + +The memory model is largely the Rust memory model and not a native C-like memory model. Thus, +function parameters are largely only ever passed by reference or by move, with pass-by-copy +semantics only applying to primitive types. However, because the underlying types are largely +pointers, the same function signature may imply two different memory ownership semantics. Thus, you +MUST read the Rust documentation while using the C bindings. For functions which take arguments +where ownership is moved to the function scope, the corresponding `X_free` function MUST NOT be +called on the object, whereas for all other objects, `X_free` MUST be used to free resources. + +LDK C++ Bindings +================ + +The C++ bindings available at include/lightningpp.hpp require extern "C" inclusion of lightning.h +and rust_types.h first. They represent thin wrappers around the C types which provide a few +C++-isms to make memory model correctness easier to achieve. They provide: + * automated destructors which call the relevant `X_free` C functions, + * move constructors both from C++ classes and the original C struct, with the original object + cleared to ensure destruction/`X_free` calls do not cause a double-free. + * Move semantics via the () operator, returning the original C struct and clearing the C++ object. + This allows calls such as `C_function(cpp_object)` which work as expected with move semantics. + +In general, you should prefer to use the C++ bindings if possible, as they make memory leaks and +other violations somewhat easier to avoid. Note that, because the C functions are not redefined in +C++, all functions return the C type. Thus, you must bind returned values to the equivalent C++ type +(replacing `LDKX` with `LDK::X`) to ensure the destructor is properly run. A demonstration of such +usage is available at [demo.cpp](demo.cpp). + +Gotchas +======= + +There are a few gotchas around future changes to Rust-Lightning which the bindings may not support. +These include: + * Any trait method which returns a reference to a struct or inner variable cannot be called in + parallel. This is because such functions always return a local variable stored inside the trait, + with a call through a function pointer to get the local variable set correctly. Automatically + generated setter functions have comments describing the potential race conditions in their + definition. + + For example, the `ChannelKeys::pubkeys() -> &ChannelPublicKeys` function is mapped as this: + + ```c + typedef struct LDKChannelKeys { + ... + LDKChannelPublicKeys pubkeys; + /** ... */ + void (*set_pubkeys)(const LDKChannelKeys*); + ... + } LDKChannelKeys; + ``` + * Private and public keys are asserted valid at the FFI boundary. Thus, before passing any + (untrusted) private or public key material across the boundary, ensure that they represent valid + (ie in-range) keys. + +**It is highly recommended that you test any code which relies on the C (or C++) bindings in +valgrind, AddressSanitizer, MemorySanitizer, or other similar tools to ensure correctness.** + +Process +======= + +`genbindings.sh` is currently a catch-all script for bindings - it generates the latest Rust/C/C++ +code for bindings from the rust-lightning source code, builds it, and then runs various test apps. + +Note that after running `genbindings.sh`, if possible, the static lib in target/debug (eg +target/debug/liblightning.a) will be linked with address sanitizer. In order to build against it, +you will need to link with `clang` with `-fsanitize=address` with the same version of LLVM as +`rustc`'s LLVM. If `genbindings.sh` failed to find a matching `clang` or you are building on an +unsupported platform, a warning noting that address sanitizer is not available will be printed. diff --git a/lightning-c-bindings/cbindgen.toml b/lightning-c-bindings/cbindgen.toml new file mode 100644 index 0000000..9480b86 --- /dev/null +++ b/lightning-c-bindings/cbindgen.toml @@ -0,0 +1,555 @@ +# The language to output bindings in +# +# possible values: "C", "C++" +# +# default: "C++" +language = "C" + + + + +# Options for wrapping the contents of the header: + +# An optional string of text to output at the beginning of the generated file +# default: doesn't emit anything +header = "/* Text to put at the beginning of the generated file. Probably a license. */" + +# An optional string of text to output at the end of the generated file +# default: doesn't emit anything +trailer = "/* Text to put at the end of the generated file */" + +# An optional name to use as an include guard +# default: doesn't emit an include guard +# include_guard = "mozilla_wr_bindings_h" + +# An optional string of text to output between major sections of the generated +# file as a warning against manual editing +# +# default: doesn't emit anything +autogen_warning = "/* Warning, this file is autogenerated by cbindgen. Don't modify this manually. */" + +# Whether to include a comment with the version of cbindgen used to generate the file +# default: false +include_version = true + +# An optional namespace to output around the generated bindings +# default: doesn't emit a namespace +namespace = "LDK" + +# An optional list of namespaces to output around the generated bindings +# default: [] +namespaces = [] + +# An optional list of namespaces to declare as using with "using namespace" +# default: [] +using_namespaces = [] + +# A list of sys headers to #include (with angle brackets) +# default: [] +# sys_includes = ["stdio", "string"] +# sys_includes = ["stdint"] + +# A list of headers to #include (with quotes) +# default: [] +# includes = ["my_great_lib.h"] + +# Whether cbindgen's default C/C++ standard imports should be suppressed. These +# imports are included by default because our generated headers tend to require +# them (e.g. for uint32_t). Currently, the generated imports are: +# +# * for C: , , , , +# +# * for C++: , , , , (depending on config) +# +# default: false +no_includes = false + + + + + +# Code Style Options + +# The style to use for curly braces +# +# possible values: "SameLine", "NextLine" +# +# default: "SameLine" +braces = "SameLine" + +# The desired length of a line to use when formatting lines +# default: 100 +line_length = 80 + +# The amount of spaces to indent by +# default: 2 +tab_width = 3 + +# How the generated documentation should be commented. +# +# possible values: +# * "c": /* like this */ +# * "c99": // like this +# * "c++": /// like this +# * "doxy": like C, but with leading *'s on each line +# * "auto": "c++" if that's the language, "doxy" otherwise +# +# default: "auto" +documentation_style = "doxy" + + + + + +# Codegen Options + +# When generating a C header, the kind of declaration style to use for structs +# or enums. +# +# possible values: +# * "type": typedef struct { ... } MyType; +# * "tag": struct MyType { ... }; +# * "both": typedef struct MyType { ... } MyType; +# +# default: "both" +style = "both" + +# A list of substitutions for converting cfg's to ifdefs. cfgs which aren't +# defined here will just be discarded. +# +# e.g. +# `#[cfg(target = "freebsd")] ...` +# becomes +# `#if defined(DEFINE_FREEBSD) ... #endif` +[defines] +"target_os = freebsd" = "DEFINE_FREEBSD" +"feature = serde" = "DEFINE_SERDE" + + + + + +[export] +# A list of additional items to always include in the generated bindings if they're +# found but otherwise don't appear to be used by the public API. +# +# default: [] +# include = ["MyOrphanStruct", "MyGreatTypeRename"] + +# A list of items to not include in the generated bindings +# default: [] +# exclude = ["Bad"] + +# A prefix to add before the name of every item +# default: no prefix is added +prefix = "LDK" + +# Types of items that we'll generate. If empty, then all types of item are emitted. +# +# possible items: (TODO: explain these in detail) +# * "constants": +# * "globals": +# * "enums": +# * "structs": +# * "unions": +# * "typedefs": +# * "opaque": +# * "functions": +# +# default: [] +item_types = ["constants", "globals", "enums", "structs", "unions", "typedefs", "opaque", "functions"] + +# Whether applying rules in export.rename prevents export.prefix from applying. +# +# e.g. given this toml: +# +# [export] +# prefix = "capi_" +# [export.rename] +# "MyType" = "my_cool_type" +# +# You get the following results: +# +# renaming_overrides_prefixing = true: +# "MyType" => "my_cool_type" +# +# renaming_overrides_prefixing = false: +# "MyType => capi_my_cool_type" +# +# default: false +renaming_overrides_prefixing = true + +# Table of name conversions to apply to item names (lhs becomes rhs) +# [export.rename] +# "MyType" = "my_cool_type" +# "my_function" = "BetterFunctionName" + +# Table of things to prepend to the body of any struct, union, or enum that has the +# given name. This can be used to add things like methods which don't change ABI, +# mark fields private, etc +[export.pre_body] +"MyType" = """ + MyType() = delete; +private: +""" + +# Table of things to append to the body of any struct, union, or enum that has the +# given name. This can be used to add things like methods which don't change ABI. +[export.body] +"MyType" = """ + void cppMethod() const; +""" + +[layout] +# A string that should come before the name of any type which has been marked +# as `#[repr(packed)]`. For instance, "__attribute__((packed))" would be a +# reasonable value if targeting gcc/clang. A more portable solution would +# involve emitting the name of a macro which you define in a platform-specific +# way. e.g. "PACKED" +# +# default: `#[repr(packed)]` types will be treated as opaque, since it would +# be unsafe for C callers to use a incorrectly laid-out union. +packed = "PACKED" + +# A string that should come before the name of any type which has been marked +# as `#[repr(align(n))]`. This string must be a function-like macro which takes +# a single argument (the requested alignment, `n`). For instance, a macro +# `#define`d as `ALIGNED(n)` in `header` which translates to +# `__attribute__((aligned(n)))` would be a reasonable value if targeting +# gcc/clang. +# +# default: `#[repr(align(n))]` types will be treated as opaque, since it +# could be unsafe for C callers to use a incorrectly-aligned union. +aligned_n = "ALIGNED" + + +[fn] +# An optional prefix to put before every function declaration +# default: no prefix added +# prefix = "WR_START_FUNC" + +# An optional postfix to put after any function declaration +# default: no postix added +# postfix = "WR_END_FUNC" + +# How to format function arguments +# +# possible values: +# * "horizontal": place all arguments on the same line +# * "vertical": place each argument on its own line +# * "auto": only use vertical if horizontal would exceed line_length +# +# default: "auto" +args = "horizontal" + +# An optional string that should prefix function declarations which have been +# marked as `#[must_use]`. For instance, "__attribute__((warn_unused_result))" +# would be a reasonable value if targeting gcc/clang. A more portable solution +# would involve emitting the name of a macro which you define in a +# platform-specific way. e.g. "MUST_USE_FUNC" +# default: nothing is emitted for must_use functions +must_use = "MUST_USE_RES" + +# An optional string that, if present, will be used to generate Swift function +# and method signatures for generated functions, for example "CF_SWIFT_NAME". +# If no such macro is available in your toolchain, you can define one using the +# `header` option in cbindgen.toml +# default: no swift_name function attributes are generated +# swift_name_macro = "CF_SWIFT_NAME" + +# A rule to use to rename function argument names. The renaming assumes the input +# is the Rust standard snake_case, however it accepts all the different rename_args +# inputs. This means many options here are no-ops or redundant. +# +# possible values (that actually do something): +# * "CamelCase": my_arg => myArg +# * "PascalCase": my_arg => MyArg +# * "GeckoCase": my_arg => aMyArg +# * "ScreamingSnakeCase": my_arg => MY_ARG +# * "None": apply no renaming +# +# technically possible values (that shouldn't have a purpose here): +# * "SnakeCase": apply no renaming +# * "LowerCase": apply no renaming (actually applies to_lowercase, is this bug?) +# * "UpperCase": same as ScreamingSnakeCase in this context +# * "QualifiedScreamingSnakeCase" => same as ScreamingSnakeCase in this context +# +# default: "None" +rename_args = "None" + +# This rule specifies if the order of functions will be sorted in some way. +# +# "Name": sort by the name of the function +# "None": keep order in which the functions have been parsed +# +# default: "Name" +sort_by = "None" + +[struct] +# A rule to use to rename struct field names. The renaming assumes the input is +# the Rust standard snake_case, however it acccepts all the different rename_args +# inputs. This means many options here are no-ops or redundant. +# +# possible values (that actually do something): +# * "CamelCase": my_arg => myArg +# * "PascalCase": my_arg => MyArg +# * "GeckoCase": my_arg => mMyArg +# * "ScreamingSnakeCase": my_arg => MY_ARG +# * "None": apply no renaming +# +# technically possible values (that shouldn't have a purpose here): +# * "SnakeCase": apply no renaming +# * "LowerCase": apply no renaming (actually applies to_lowercase, is this bug?) +# * "UpperCase": same as ScreamingSnakeCase in this context +# * "QualifiedScreamingSnakeCase" => same as ScreamingSnakeCase in this context +# +# default: "None" +rename_fields = "None" + +# An optional string that should come before the name of any struct which has been +# marked as `#[must_use]`. For instance, "__attribute__((warn_unused))" +# would be a reasonable value if targeting gcc/clang. A more portable solution +# would involve emitting the name of a macro which you define in a +# platform-specific way. e.g. "MUST_USE_STRUCT" +# +# default: nothing is emitted for must_use structs +must_use = "MUST_USE_STRUCT" + +# Whether a Rust type with associated consts should emit those consts inside the +# type's body. Otherwise they will be emitted trailing and with the type's name +# prefixed. This does nothing if the target is C, or if +# [const]allow_static_const = false +# +# default: false +# associated_constants_in_body: false + +# Whether to derive a simple constructor that takes a value for every field. +# default: false +derive_constructor = true + +# Whether to derive an operator== for all structs +# default: false +derive_eq = false + +# Whether to derive an operator!= for all structs +# default: false +derive_neq = false + +# Whether to derive an operator< for all structs +# default: false +derive_lt = false + +# Whether to derive an operator<= for all structs +# default: false +derive_lte = false + +# Whether to derive an operator> for all structs +# default: false +derive_gt = false + +# Whether to derive an operator>= for all structs +# default: false +derive_gte = false + + + + + +[enum] +# A rule to use to rename enum variants, and the names of any fields those +# variants have. This should probably be split up into two separate options, but +# for now, they're the same! See the documentation for `[struct]rename_fields` +# for how this applies to fields. Renaming of the variant assumes that the input +# is the Rust standard PascalCase. In the case of QualifiedScreamingSnakeCase, +# it also assumed that the enum's name is PascalCase. +# +# possible values (that actually do something): +# * "CamelCase": MyVariant => myVariant +# * "SnakeCase": MyVariant => my_variant +# * "ScreamingSnakeCase": MyVariant => MY_VARIANT +# * "QualifiedScreamingSnakeCase": MyVariant => ENUM_NAME_MY_VARIANT +# * "LowerCase": MyVariant => myvariant +# * "UpperCase": MyVariant => MYVARIANT +# * "None": apply no renaming +# +# technically possible values (that shouldn't have a purpose for the variants): +# * "PascalCase": apply no renaming +# * "GeckoCase": apply no renaming +# +# default: "None" +rename_variants = "None" + +# Whether an extra "sentinel" enum variant should be added to all generated enums. +# Firefox uses this for their IPC serialization library. +# +# WARNING: if the sentinel is ever passed into Rust, behaviour will be Undefined. +# Rust does not know about this value, and will assume it cannot happen. +# +# default: false +add_sentinel = true + +# Whether enum variant names should be prefixed with the name of the enum. +# default: false +prefix_with_name = true + +# Whether to emit enums using "enum class" when targeting C++. +# default: true +enum_class = true + +# Whether to generate static `::MyVariant(..)` constructors and `bool IsMyVariant()` +# methods for enums with fields. +# +# default: false +derive_helper_methods = false + +# Whether to generate `const MyVariant& AsMyVariant() const` methods for enums with fields. +# default: false +derive_const_casts = false + +# Whether to generate `MyVariant& AsMyVariant()` methods for enums with fields +# default: false +derive_mut_casts = false + +# The name of the macro/function to use for asserting `IsMyVariant()` in the body of +# derived `AsMyVariant()` cast methods. +# +# default: "assert" (but also causes `` to be included by default) +cast_assert_name = "MOZ_RELEASE_ASSERT" + +# An optional string that should come before the name of any enum which has been +# marked as `#[must_use]`. For instance, "__attribute__((warn_unused))" +# would be a reasonable value if targeting gcc/clang. A more portable solution +# would involve emitting the name of a macro which you define in a +# platform-specific way. e.g. "MUST_USE_ENUM" +# +# Note that this refers to the *output* type. That means this will not apply to an enum +# with fields, as it will be emitted as a struct. `[struct]must_use` will apply there. +# +# default: nothing is emitted for must_use enums +must_use = "MUST_USE_ENUM" + +# Whether enums with fields should generate destructors. This exists so that generic +# enums can be properly instantiated with payloads that are C++ types with +# destructors. This isn't necessary for structs because C++ has rules to +# automatically derive the correct constructors and destructors for those types. +# +# Care should be taken with this option, as Rust and C++ cannot +# properly interoperate with eachother's notions of destructors. Also, this may +# change the ABI for the type. Either your destructor-full enums must live +# exclusively within C++, or they must only be passed by-reference between +# C++ and Rust. +# +# default: false +derive_tagged_enum_destructor = false + +# Whether enums with fields should generate copy-constructor. See the discussion on +# derive_tagged_enum_destructor for why this is both useful and very dangerous. +# +# default: false +derive_tagged_enum_copy_constructor = false +# Whether enums with fields should generate copy-assignment operators. +# +# This depends on also deriving copy-constructors, and it is highly encouraged +# for this to be set to true. +# +# default: false +derive_tagged_enum_copy_assignment = false + +# Whether enums with fields should generate an empty, private destructor. +# This allows the auto-generated constructor functions to compile, if there are +# non-trivially constructible members. This falls in the same family of +# dangerousness as `derive_tagged_enum_copy_constructor` and co. +# +# default: false +private_default_tagged_enum_constructor = false + + + + + +[const] +# Whether a generated constant can be a static const in C++ mode. I have no +# idea why you would turn this off. +# +# default: true +allow_static_const = true + +# Whether a generated constant can be constexpr in C++ mode. +# +# default: false + + + + + +[macro_expansion] +# Whether bindings should be generated for instances of the bitflags! macro. +# default: false +bitflags = true + + + + + + +# Options for how your Rust library should be parsed + +[parse] +# Whether to parse dependent crates and include their types in the output +# default: false +parse_deps = true + +# A white list of crate names that are allowed to be parsed. If this is defined, +# only crates found in this list will ever be parsed. +# +# default: there is no whitelist (NOTE: this is the opposite of []) +include = ["webrender", "webrender_traits"] + +# A black list of crate names that are not allowed to be parsed. +# default: [] +exclude = ["libc"] + +# Whether to use a new temporary target directory when running `rustc --pretty=expanded`. +# This may be required for some build processes. +# +# default: false +clean = false + +# Which crates other than the top-level binding crate we should generate +# bindings for. +# +# default: [] +extra_bindings = ["my_awesome_dep"] + +[parse.expand] +# A list of crate names that should be run through `cargo expand` before +# parsing to expand any macros. Note that if a crate is named here, it +# will always be parsed, even if the blacklist/whitelist says it shouldn't be. +# +# default: [] +crates = ["euclid"] + +# If enabled, use the `--all-features` option when expanding. Ignored when +# `features` is set. For backwards-compatibility, this is forced on if +# `expand = ["euclid"]` shorthand is used. +# +# default: false +all_features = false + +# When `all_features` is disabled and this is also disabled, use the +# `--no-default-features` option when expanding. +# +# default: true +default_features = true + +# A list of feature names that should be used when running `cargo expand`. This +# combines with `default_features` like in your `Cargo.toml`. Note that the features +# listed here are features for the current crate being built, *not* the crates +# being expanded. The crate's `Cargo.toml` must take care of enabling the +# appropriate features in its dependencies +# +# default: [] +features = ["cbindgen"] + +[ptr] +non_null_attribute = "NONNULL_PTR" diff --git a/lightning-c-bindings/demo.c b/lightning-c-bindings/demo.c new file mode 100644 index 0000000..d9508c5 --- /dev/null +++ b/lightning-c-bindings/demo.c @@ -0,0 +1,99 @@ +#include "include/rust_types.h" +#include "include/lightning.h" + +#include +#include +#include + +void print_log(const void *this_arg, const char *record) { + printf("%s", record); +} + +uint32_t get_fee(const void *this_arg, LDKConfirmationTarget target) { + if (target == LDKConfirmationTarget_Background) { + return 253; + } else { + return 507; + } +} + +void broadcast_tx(const void *this_arg, LDKTransaction tx) { + //TODO + Transaction_free(tx); +} + +LDKCResult_NoneChannelMonitorUpdateErrZ add_channel_monitor(const void *this_arg, LDKOutPoint funding_txo, LDKChannelMonitor monitor) { + return CResult_NoneChannelMonitorUpdateErrZ_ok(); +} +LDKCResult_NoneChannelMonitorUpdateErrZ update_channel_monitor(const void *this_arg, LDKOutPoint funding_txo, LDKChannelMonitorUpdate monitor) { + return CResult_NoneChannelMonitorUpdateErrZ_ok(); +} +LDKCVec_MonitorEventZ monitors_pending_monitor_events(const void *this_arg) { + LDKCVec_MonitorEventZ empty_htlc_vec = { + .data = NULL, + .datalen = 0, + }; + return empty_htlc_vec; +} + +int main() { + uint8_t node_seed[32]; + memset(node_seed, 0, 32); + + LDKNetwork net = LDKNetwork_Bitcoin; + + LDKLogger logger = { + .this_arg = NULL, + .log = print_log, + .free = NULL, + }; + + LDKFeeEstimator fee_est = { + .this_arg = NULL, + .get_est_sat_per_1000_weight = get_fee, + .free = NULL + }; + + LDKWatch mon = { + .this_arg = NULL, + .watch_channel = add_channel_monitor, + .update_channel = update_channel_monitor, + .release_pending_monitor_events = monitors_pending_monitor_events, + .free = NULL, + }; + + LDKBroadcasterInterface broadcast = { + broadcast.this_arg = NULL, + broadcast.broadcast_transaction = broadcast_tx, + .free = NULL, + }; + + LDKKeysManager keys = KeysManager_new(&node_seed, 0, 0); + LDKKeysInterface keys_source = KeysManager_as_KeysInterface(&keys); + + LDKUserConfig config = UserConfig_default(); + LDKThirtyTwoBytes chain_tip; + memset(&chain_tip, 0, 32); + LDKChainParameters chain = ChainParameters_new(net, chain_tip, 0); + LDKChannelManager cm = ChannelManager_new(fee_est, mon, broadcast, logger, keys_source, config, chain); + + LDKCVec_ChannelDetailsZ channels = ChannelManager_list_channels(&cm); + assert((unsigned long)channels.data < 4096); // There's an offset, but it should still be an offset against null in the 0 page + assert(channels.datalen == 0); + CVec_ChannelDetailsZ_free(channels); + + LDKEventsProvider prov = ChannelManager_as_EventsProvider(&cm); + LDKCVec_EventZ events = (prov.get_and_clear_pending_events)(prov.this_arg); + assert((unsigned long)events.data < 4096); // There's an offset, but it should still be an offset against null in the 0 page + assert(events.datalen == 0); + + ChannelManager_free(cm); + KeysManager_free(keys); + + // Check that passing empty vecs to rust doesn't blow it up: + LDKCVec_MonitorEventZ empty_htlc_vec = { + .data = NULL, + .datalen = 0, + }; + CVec_MonitorEventZ_free(empty_htlc_vec); +} diff --git a/lightning-c-bindings/demo.cpp b/lightning-c-bindings/demo.cpp new file mode 100644 index 0000000..230d0c0 --- /dev/null +++ b/lightning-c-bindings/demo.cpp @@ -0,0 +1,640 @@ +extern "C" { +#include "include/rust_types.h" +#include "include/lightning.h" +} +#include "include/lightningpp.hpp" + +#include +#include +#include +#include + +#include +#include +#include +#include +#include +#include + +const uint8_t valid_node_announcement[] = { + 0x94, 0xe4, 0xf5, 0x61, 0x41, 0x24, 0x7d, 0x90, 0x23, 0xa0, 0xc8, 0x34, 0x8c, 0xc4, 0xca, 0x51, + 0xd8, 0x17, 0x59, 0xff, 0x7d, 0xac, 0x8c, 0x9b, 0x63, 0x29, 0x1c, 0xe6, 0x12, 0x12, 0x93, 0xbd, + 0x66, 0x4d, 0x6b, 0x9c, 0xfb, 0x35, 0xda, 0x16, 0x06, 0x3d, 0xf0, 0x8f, 0x8a, 0x39, 0x99, 0xa2, + 0xf2, 0x5d, 0x12, 0x0f, 0x2b, 0x42, 0x1b, 0x8b, 0x9a, 0xfe, 0x33, 0x0c, 0xeb, 0x33, 0x5e, 0x52, + 0xee, 0x99, 0xa1, 0x07, 0x06, 0xed, 0xf8, 0x48, 0x7a, 0xc6, 0xe5, 0xf5, 0x5e, 0x01, 0x3a, 0x41, + 0x2f, 0x18, 0x94, 0x8a, 0x3b, 0x0a, 0x52, 0x3f, 0xbf, 0x61, 0xa9, 0xc5, 0x4f, 0x70, 0xee, 0xb8, + 0x79, 0x23, 0xbb, 0x1a, 0x44, 0x7d, 0x91, 0xe6, 0x2a, 0xbc, 0xa1, 0x07, 0xbc, 0x65, 0x3b, 0x02, + 0xd9, 0x1d, 0xb2, 0xf2, 0x3a, 0xcb, 0x75, 0x79, 0xc6, 0x66, 0xd8, 0xc1, 0x71, 0x29, 0xdf, 0x04, + 0x60, 0xf4, 0xbf, 0x07, 0x7b, 0xb9, 0xc2, 0x11, 0x94, 0x6a, 0x28, 0xc2, 0xdd, 0xd8, 0x7b, 0x44, + 0x8f, 0x08, 0xe3, 0xc8, 0xd8, 0xf4, 0x81, 0xb0, 0x9f, 0x94, 0xcb, 0xc8, 0xc1, 0x3c, 0xc2, 0x6e, + 0x31, 0x26, 0xfc, 0x33, 0x16, 0x3b, 0xe0, 0xde, 0xa1, 0x16, 0x21, 0x9f, 0x89, 0xdd, 0x97, 0xa4, + 0x41, 0xf2, 0x9f, 0x19, 0xb1, 0xae, 0x82, 0xf7, 0x85, 0x9a, 0xb7, 0x8f, 0xb7, 0x52, 0x7a, 0x72, + 0xf1, 0x5e, 0x89, 0xe1, 0x8a, 0xcd, 0x40, 0xb5, 0x8e, 0xc3, 0xca, 0x42, 0x76, 0xa3, 0x6e, 0x1b, + 0xf4, 0x87, 0x35, 0x30, 0x58, 0x43, 0x04, 0xd9, 0x2c, 0x50, 0x54, 0x55, 0x47, 0x6f, 0x70, 0x9b, + 0x42, 0x1f, 0x91, 0xfc, 0xa1, 0xdb, 0x72, 0x53, 0x96, 0xc8, 0xe5, 0xcd, 0x0e, 0xcb, 0xa0, 0xfe, + 0x6b, 0x08, 0x77, 0x48, 0xb7, 0xad, 0x4a, 0x69, 0x7c, 0xdc, 0xd8, 0x04, 0x28, 0x35, 0x9b, 0x73, + 0x00, 0x00, 0x43, 0x49, 0x7f, 0xd7, 0xf8, 0x26, 0x95, 0x71, 0x08, 0xf4, 0xa3, 0x0f, 0xd9, 0xce, + 0xc3, 0xae, 0xba, 0x79, 0x97, 0x20, 0x84, 0xe9, 0x0e, 0xad, 0x01, 0xea, 0x33, 0x09, 0x00, 0x00, + 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x03, 0x5b, 0xe5, 0xe9, 0x47, 0x82, + 0x09, 0x67, 0x4a, 0x96, 0xe6, 0x0f, 0x1f, 0x03, 0x7f, 0x61, 0x76, 0x54, 0x0f, 0xd0, 0x01, 0xfa, + 0x1d, 0x64, 0x69, 0x47, 0x70, 0xc5, 0x6a, 0x77, 0x09, 0xc4, 0x2c, 0x03, 0x5c, 0x4e, 0x0d, 0xec, + 0x72, 0x15, 0xe2, 0x68, 0x33, 0x93, 0x87, 0x30, 0xe5, 0xe5, 0x05, 0xaa, 0x62, 0x50, 0x4d, 0xa8, + 0x5b, 0xa5, 0x71, 0x06, 0xa4, 0x6b, 0x5a, 0x24, 0x04, 0xfc, 0x9d, 0x8e, 0x02, 0xba, 0x72, 0xa6, + 0xe8, 0xba, 0x53, 0xe8, 0xb9, 0x71, 0xad, 0x0c, 0x98, 0x23, 0x96, 0x8a, 0xef, 0x4d, 0x78, 0xce, + 0x8a, 0xf2, 0x55, 0xab, 0x43, 0xdf, 0xf8, 0x30, 0x03, 0xc9, 0x02, 0xfb, 0x8d, 0x02, 0x16, 0x34, + 0x5b, 0xf8, 0x31, 0x16, 0x4a, 0x03, 0x75, 0x8e, 0xae, 0xa5, 0xe8, 0xb6, 0x6f, 0xee, 0x2b, 0xe7, + 0x71, 0x0b, 0x8f, 0x19, 0x0e, 0xe8, 0x80, 0x24, 0x90, 0x32, 0xa2, 0x9e, 0xd6, 0x6e +}; + +// A simple block containing only one transaction (which is the channel-open transaction for the +// channel we'll create). This was originally created by printing additional data in a simple +// rust-lightning unit test. +const uint8_t channel_open_header[80] = { + 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, + 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, + 0x00, 0x00, 0x00, 0x00, 0xa2, 0x47, 0xd2, 0xf8, 0xd4, 0xe0, 0x6a, 0x3f, 0xf9, 0x7a, 0x9a, 0x34, + 0xbb, 0xa9, 0x96, 0xde, 0x63, 0x84, 0x5a, 0xce, 0xcf, 0x98, 0xb8, 0xbb, 0x75, 0x4c, 0x4f, 0x7d, + 0xee, 0x4c, 0xa9, 0x5f, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, +}; + +const uint8_t channel_open_tx[] = { + 0x02, 0x00, 0x00, 0x00, 0x00, 0x01, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, + 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, + 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, + 0x01, 0x40, 0x9c, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x22, 0x00, 0x20, 0xd1, 0xd9, 0x13, 0xa9, + 0x76, 0x09, 0x05, 0xa3, 0x4d, 0x13, 0x5b, 0x69, 0xaa, 0xe7, 0x79, 0x71, 0xb9, 0x75, 0xa1, 0xd0, + 0x77, 0xcb, 0xa2, 0xf6, 0x6a, 0x25, 0x37, 0x3a, 0xaf, 0xdc, 0x11, 0x09, 0x01, 0x00, 0x00, 0x00, + 0x00, 0x00 +}; + +// The first transaction in the block is header (80 bytes) + transaction count (1 byte) into the block data. +const uint8_t channel_open_txid[] = { + 0x02, 0xe0, 0x50, 0x05, 0x33, 0xd3, 0x29, 0x66, 0x0c, 0xb2, 0xcb, 0x1e, 0x7a, 0x4a, 0xc7, 0xc7, + 0x8b, 0x02, 0x46, 0x7e, 0x30, 0x2c, 0xe6, 0x19, 0xce, 0x43, 0x3e, 0xdf, 0x43, 0x65, 0xae, 0xf9, +}; + +// Two blocks built on top of channel_open_block: +const uint8_t header_1[80] = { + 0x01, 0x00, 0x00, 0x00, 0x65, 0x8e, 0xf1, 0x90, 0x88, 0xfa, 0x13, 0x9c, 0x6a, 0xea, 0xf7, 0xc1, + 0x5a, 0xdd, 0x52, 0x4d, 0x3c, 0x48, 0x03, 0xb3, 0x9b, 0x25, 0x4f, 0x02, 0x79, 0x05, 0x90, 0xe0, + 0xc4, 0x8d, 0xa0, 0x62, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, + 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, + 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, +}; +const uint8_t header_2[80] = { + 0x01, 0x00, 0x00, 0x00, 0xf2, 0x08, 0x87, 0x51, 0xcb, 0xb1, 0x1a, 0x51, 0x76, 0x01, 0x6c, 0x5d, + 0x76, 0x26, 0x54, 0x6f, 0xd9, 0xbd, 0xa6, 0xa5, 0xe9, 0x4b, 0x21, 0x6e, 0xda, 0xa3, 0x64, 0x23, + 0xcd, 0xf1, 0xe2, 0xe2, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, + 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, + 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, +}; + +const LDKThirtyTwoBytes payment_preimage_1 = { + .data = { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 0, 1 } +}; +const LDKThirtyTwoBytes payment_hash_1 = { + .data = { + 0xdc, 0xb1, 0xac, 0x4a, 0x5d, 0xe3, 0x70, 0xca, 0xd0, 0x91, 0xc1, 0x3f, 0x13, 0xae, 0xe2, 0xf9, + 0x36, 0xc2, 0x78, 0xfa, 0x05, 0xd2, 0x64, 0x65, 0x3c, 0x0c, 0x13, 0x21, 0x85, 0x2a, 0x35, 0xe8 + } +}; + +const LDKThirtyTwoBytes genesis_hash = { // We don't care particularly if this is "right" + .data = { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 0, 1 } +}; + +void print_log(const void *this_arg, const char *record) { + printf("%p - %s\n", this_arg, record); +} + +uint32_t get_fee(const void *this_arg, LDKConfirmationTarget target) { + if (target == LDKConfirmationTarget_Background) { + return 253; + } else { + return 507; + } + // Note that we don't call _free() on target, but that's OK, its unitary +} +// We use the same fee estimator globally: +const LDKFeeEstimator fee_est { + .this_arg = NULL, + .get_est_sat_per_1000_weight = get_fee, + .free = NULL, +}; + +static std::atomic_int num_txs_broadcasted(0); +void broadcast_tx(const void *this_arg, LDKTransaction tx) { + num_txs_broadcasted += 1; + //TODO + Transaction_free(tx); +} + +struct NodeMonitors { + std::mutex mut; + std::vector> mons; + LDKLogger* logger; + + void ConnectBlock(const uint8_t (*header)[80], uint32_t height, LDKCVec_C2Tuple_usizeTransactionZZ tx_data, LDKBroadcasterInterface broadcast, LDKFeeEstimator fee_est) { + std::unique_lock l(mut); + for (auto& mon : mons) { + LDK::CVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ res = ChannelMonitor_block_connected(&mon.second, &header_2, tx_data, height, broadcast, fee_est, *logger); + } + } +}; + +LDKCResult_NoneChannelMonitorUpdateErrZ add_channel_monitor(const void *this_arg, LDKOutPoint funding_txo_arg, LDKChannelMonitor monitor_arg) { + // First bind the args to C++ objects so they auto-free + LDK::ChannelMonitor mon(std::move(monitor_arg)); + LDK::OutPoint funding_txo(std::move(funding_txo_arg)); + + NodeMonitors* arg = (NodeMonitors*) this_arg; + std::unique_lock l(arg->mut); + + arg->mons.push_back(std::make_pair(std::move(funding_txo), std::move(mon))); + return CResult_NoneChannelMonitorUpdateErrZ_ok(); +} +static std::atomic_int mons_updated(0); +LDKCResult_NoneChannelMonitorUpdateErrZ update_channel_monitor(const void *this_arg, LDKOutPoint funding_txo_arg, LDKChannelMonitorUpdate monitor_arg) { + // First bind the args to C++ objects so they auto-free + LDK::ChannelMonitorUpdate update(std::move(monitor_arg)); + LDK::OutPoint funding_txo(std::move(funding_txo_arg)); + + NodeMonitors* arg = (NodeMonitors*) this_arg; + std::unique_lock l(arg->mut); + + bool updated = false; + for (auto& mon : arg->mons) { + if (OutPoint_get_index(&mon.first) == OutPoint_get_index(&funding_txo) && + !memcmp(OutPoint_get_txid(&mon.first), OutPoint_get_txid(&funding_txo), 32)) { + updated = true; + LDKBroadcasterInterface broadcaster = { + .broadcast_transaction = broadcast_tx, + }; + LDK::CResult_NoneMonitorUpdateErrorZ res = ChannelMonitor_update_monitor(&mon.second, &update, &broadcaster, &fee_est, arg->logger); + assert(res->result_ok); + } + } + assert(updated); + + mons_updated += 1; + return CResult_NoneChannelMonitorUpdateErrZ_ok(); +} +LDKCVec_MonitorEventZ monitors_pending_monitor_events(const void *this_arg) { + NodeMonitors* arg = (NodeMonitors*) this_arg; + std::unique_lock l(arg->mut); + + if (arg->mons.size() == 0) { + return LDKCVec_MonitorEventZ { + .data = NULL, + .datalen = 0, + }; + } else { + // We only ever actually have one channel per node, plus concatenating two + // Rust Vecs to each other from C++ will require a bit of effort. + assert(arg->mons.size() == 1); + return ChannelMonitor_get_and_clear_pending_monitor_events(&arg->mons[0].second); + } +} + +uintptr_t sock_send_data(void *this_arg, LDKu8slice data, bool resume_read) { + return write((int)((long)this_arg), data.data, data.datalen); +} +void sock_disconnect_socket(void *this_arg) { + close((int)((long)this_arg)); +} +bool sock_eq(const void *this_arg, const LDKSocketDescriptor *other_arg) { + return this_arg == other_arg->this_arg; +} +uint64_t sock_hash(const void *this_arg) { + return (uint64_t)this_arg; +} +void sock_read_data_thread(int rdfd, LDKSocketDescriptor *peer_descriptor, LDKPeerManager *pm) { + unsigned char buf[1024]; + LDKu8slice data; + data.data = buf; + ssize_t readlen = 0; + while ((readlen = read(rdfd, buf, 1024)) > 0) { + data.datalen = readlen; + LDK::CResult_boolPeerHandleErrorZ res = PeerManager_read_event(&*pm, peer_descriptor, data); + if (!res->result_ok) { + peer_descriptor->disconnect_socket(peer_descriptor->this_arg); + return; + } + PeerManager_process_events(pm); + } + PeerManager_socket_disconnected(&*pm, peer_descriptor); +} + +class PeersConnection { + int pipefds_1_to_2[2]; + int pipefds_2_to_1[2]; + std::thread t1, t2; + LDKSocketDescriptor sock1, sock2; + +public: + PeersConnection(LDK::ChannelManager& cm1, LDK::ChannelManager& cm2, LDK::PeerManager& net1, LDK::PeerManager& net2) { + assert(!pipe(pipefds_1_to_2)); + assert(!pipe(pipefds_2_to_1)); + + sock1 = LDKSocketDescriptor { + .this_arg = (void*)(long)pipefds_1_to_2[1], + .send_data = sock_send_data, + .disconnect_socket = sock_disconnect_socket, + .eq = sock_eq, + .hash = sock_hash, + .clone = NULL, + .free = NULL, + }; + + sock2 = LDKSocketDescriptor { + .this_arg = (void*)(long)pipefds_2_to_1[1], + .send_data = sock_send_data, + .disconnect_socket = sock_disconnect_socket, + .eq = sock_eq, + .hash = sock_hash, + .clone = NULL, + .free = NULL, + }; + + t1 = std::thread(&sock_read_data_thread, pipefds_2_to_1[0], &sock1, &net1); + t2 = std::thread(&sock_read_data_thread, pipefds_1_to_2[0], &sock2, &net2); + + // Note that we have to bind the result to a C++ class to make sure it gets free'd + LDK::CResult_CVec_u8ZPeerHandleErrorZ con_res = PeerManager_new_outbound_connection(&net1, ChannelManager_get_our_node_id(&cm2), sock1); + assert(con_res->result_ok); + LDK::CResult_NonePeerHandleErrorZ con_res2 = PeerManager_new_inbound_connection(&net2, sock2); + assert(con_res2->result_ok); + + auto writelen = write(pipefds_1_to_2[1], con_res->contents.result->data, con_res->contents.result->datalen); + assert(writelen > 0 && uint64_t(writelen) == con_res->contents.result->datalen); + + while (true) { + // Wait for the initial handshakes to complete... + LDK::CVec_PublicKeyZ peers_1 = PeerManager_get_peer_node_ids(&net1); + LDK::CVec_PublicKeyZ peers_2 = PeerManager_get_peer_node_ids(&net2); + if (peers_1->datalen == 1 && peers_2->datalen ==1) { break; } + std::this_thread::yield(); + } + } + + void stop() { + close(pipefds_1_to_2[0]); + close(pipefds_2_to_1[0]); + close(pipefds_1_to_2[1]); + close(pipefds_2_to_1[1]); + t1.join(); + t2.join(); + } +}; + +int main() { + LDKPublicKey null_pk; + memset(&null_pk, 0, sizeof(null_pk)); + + LDKThirtyTwoBytes random_bytes; + LDKThirtyTwoBytes chain_tip; + memset(&chain_tip, 0, sizeof(chain_tip)); // channel_open_header's prev_blockhash is all-0s + + LDKNetwork network = LDKNetwork_Testnet; + + // Trait implementations: + LDKBroadcasterInterface broadcast { + .this_arg = NULL, + .broadcast_transaction = broadcast_tx, + .free = NULL, + }; + + // Instantiate classes for the nodes that don't get reloaded on a ser-des reload + LDKLogger logger1 { + .this_arg = (void*)1, + .log = print_log, + .free = NULL, + }; + + NodeMonitors mons1; + mons1.logger = &logger1; + LDKWatch mon1 { + .this_arg = &mons1, + .watch_channel = add_channel_monitor, + .update_channel = update_channel_monitor, + .release_pending_monitor_events = monitors_pending_monitor_events, + .free = NULL, + }; + + LDK::NetGraphMsgHandler net_graph1 = NetGraphMsgHandler_new(genesis_hash, NULL, logger1); + LDKSecretKey node_secret1; + + LDKLogger logger2 { + .this_arg = (void*)2, + .log = print_log, + .free = NULL, + }; + + NodeMonitors mons2; + mons2.logger = &logger2; + LDKWatch mon2 { + .this_arg = &mons2, + .watch_channel = add_channel_monitor, + .update_channel = update_channel_monitor, + .release_pending_monitor_events = monitors_pending_monitor_events, + .free = NULL, + }; + + LDK::NetGraphMsgHandler net_graph2 = NetGraphMsgHandler_new(genesis_hash, NULL, logger2); + LDKSecretKey node_secret2; + + LDK::CVec_u8Z cm1_ser = LDKCVec_u8Z {}; // ChannelManager 1 serialization at the end of the ser-des scope + LDK::CVec_u8Z cm2_ser = LDKCVec_u8Z {}; // ChannelManager 2 serialization at the end of the ser-des scope + + { // Scope for the ser-des reload + // Instantiate classes for node 1: + uint8_t node_seed[32]; + memset(&node_seed, 0, 32); + LDK::KeysManager keys1 = KeysManager_new(&node_seed, 0, 0); + LDK::KeysInterface keys_source1 = KeysManager_as_KeysInterface(&keys1); + node_secret1 = keys_source1->get_node_secret(keys_source1->this_arg); + + LDK::ChannelManager cm1 = ChannelManager_new(fee_est, mon1, broadcast, logger1, KeysManager_as_KeysInterface(&keys1), UserConfig_default(), ChainParameters_new(network, chain_tip, 0)); + + LDK::CVec_ChannelDetailsZ channels = ChannelManager_list_channels(&cm1); + assert(channels->datalen == 0); + + LDK::MessageHandler msg_handler1 = MessageHandler_new(ChannelManager_as_ChannelMessageHandler(&cm1), NetGraphMsgHandler_as_RoutingMessageHandler(&net_graph1)); + + random_bytes = keys_source1->get_secure_random_bytes(keys_source1->this_arg); + LDK::PeerManager net1 = PeerManager_new(std::move(msg_handler1), node_secret1, &random_bytes.data, logger1); + + // Demo getting a channel key and check that its returning real pubkeys: + LDK::Sign chan_signer1 = keys_source1->get_channel_signer(keys_source1->this_arg, false, 42); + chan_signer1->set_pubkeys(&chan_signer1); // Make sure pubkeys is defined + LDKPublicKey payment_point = ChannelPublicKeys_get_payment_point(&chan_signer1->pubkeys); + assert(memcmp(&payment_point, &null_pk, sizeof(null_pk))); + + // Instantiate classes for node 2: + memset(&node_seed, 1, 32); + LDK::KeysManager keys2 = KeysManager_new(&node_seed, 0, 0); + LDK::KeysInterface keys_source2 = KeysManager_as_KeysInterface(&keys2); + node_secret2 = keys_source2->get_node_secret(keys_source2->this_arg); + + LDK::ChannelHandshakeConfig handshake_config2 = ChannelHandshakeConfig_default(); + ChannelHandshakeConfig_set_minimum_depth(&handshake_config2, 2); + LDK::UserConfig config2 = UserConfig_default(); + UserConfig_set_own_channel_config(&config2, std::move(handshake_config2)); + + LDK::ChannelManager cm2 = ChannelManager_new(fee_est, mon2, broadcast, logger2, KeysManager_as_KeysInterface(&keys2), std::move(config2), ChainParameters_new(network, chain_tip, 0)); + + LDK::CVec_ChannelDetailsZ channels2 = ChannelManager_list_channels(&cm2); + assert(channels2->datalen == 0); + + LDK::RoutingMessageHandler net_msgs2 = NetGraphMsgHandler_as_RoutingMessageHandler(&net_graph2); + LDK::CResult_ChannelAnnouncementDecodeErrorZ chan_ann = ChannelAnnouncement_read(LDKu8slice { .data = valid_node_announcement, .datalen = sizeof(valid_node_announcement) }); + assert(chan_ann->result_ok); + LDK::CResult_boolLightningErrorZ ann_res = net_msgs2->handle_channel_announcement(net_msgs2->this_arg, chan_ann->contents.result); + assert(ann_res->result_ok); + + LDK::MessageHandler msg_handler2 = MessageHandler_new(ChannelManager_as_ChannelMessageHandler(&cm2), std::move(net_msgs2)); + + random_bytes = keys_source2->get_secure_random_bytes(keys_source2->this_arg); + LDK::PeerManager net2 = PeerManager_new(std::move(msg_handler2), node_secret2, &random_bytes.data, logger2); + + // Open a connection! + PeersConnection conn(cm1, cm2, net1, net2); + + // Note that we have to bind the result to a C++ class to make sure it gets free'd + LDK::CResult_NoneAPIErrorZ res = ChannelManager_create_channel(&cm1, ChannelManager_get_our_node_id(&cm2), 40000, 1000, 42, UserConfig_default()); + assert(res->result_ok); + PeerManager_process_events(&net1); + + LDK::CVec_ChannelDetailsZ new_channels = ChannelManager_list_channels(&cm1); + assert(new_channels->datalen == 1); + LDKPublicKey chan_open_pk = ChannelDetails_get_remote_network_id(&new_channels->data[0]); + assert(!memcmp(chan_open_pk.compressed_form, ChannelManager_get_our_node_id(&cm2).compressed_form, 33)); + + while (true) { + LDK::CVec_ChannelDetailsZ new_channels_2 = ChannelManager_list_channels(&cm2); + if (new_channels_2->datalen == 1) { + // Sample getting our counterparty's init features (which used to be hard to do without a memory leak): + const LDK::InitFeatures init_feats = ChannelDetails_get_counterparty_features(&new_channels_2->data[0]); + assert(init_feats->inner != NULL); + break; + } + std::this_thread::yield(); + } + + LDKEventsProvider ev1 = ChannelManager_as_EventsProvider(&cm1); + while (true) { + LDK::CVec_EventZ events = ev1.get_and_clear_pending_events(ev1.this_arg); + if (events->datalen == 1) { + assert(events->data[0].tag == LDKEvent_FundingGenerationReady); + assert(events->data[0].funding_generation_ready.user_channel_id == 42); + assert(events->data[0].funding_generation_ready.channel_value_satoshis == 40000); + assert(events->data[0].funding_generation_ready.output_script.datalen == 34); + assert(!memcmp(events->data[0].funding_generation_ready.output_script.data, channel_open_tx + 58, 34)); + LDKThirtyTwoBytes txid; + for (int i = 0; i < 32; i++) { txid.data[i] = channel_open_txid[31-i]; } + LDK::OutPoint outp = OutPoint_new(txid, 0); + ChannelManager_funding_transaction_generated(&cm1, &events->data[0].funding_generation_ready.temporary_channel_id.data, std::move(outp)); + break; + } + std::this_thread::yield(); + } + + // We observe when the funding signed messages have been exchanged by + // waiting for two monitors to be registered. + PeerManager_process_events(&net1); + while (true) { + LDK::CVec_EventZ events = ev1.get_and_clear_pending_events(ev1.this_arg); + if (events->datalen == 1) { + assert(events->data[0].tag == LDKEvent_FundingBroadcastSafe); + assert(events->data[0].funding_broadcast_safe.user_channel_id == 42); + break; + } + std::this_thread::yield(); + } + + LDKCVec_C2Tuple_usizeTransactionZZ txdata { .data = (LDKC2Tuple_usizeTransactionZ*)malloc(sizeof(LDKC2Tuple_usizeTransactionZ)), .datalen = 1 }; + *txdata.data = C2Tuple_usizeTransactionZ_new(0, LDKTransaction { .data = (uint8_t*)channel_open_tx, .datalen = sizeof(channel_open_tx), .data_is_owned = false }); + ChannelManager_block_connected(&cm1, &channel_open_header, txdata, 1); + + txdata = LDKCVec_C2Tuple_usizeTransactionZZ { .data = (LDKC2Tuple_usizeTransactionZ*)malloc(sizeof(LDKC2Tuple_usizeTransactionZ)), .datalen = 1 }; + *txdata.data = C2Tuple_usizeTransactionZ_new(0, LDKTransaction { .data = (uint8_t*)channel_open_tx, .datalen = sizeof(channel_open_tx), .data_is_owned = false }); + ChannelManager_block_connected(&cm2, &channel_open_header, txdata, 1); + + txdata = LDKCVec_C2Tuple_usizeTransactionZZ { .data = (LDKC2Tuple_usizeTransactionZ*)malloc(sizeof(LDKC2Tuple_usizeTransactionZ)), .datalen = 1 }; + *txdata.data = C2Tuple_usizeTransactionZ_new(0, LDKTransaction { .data = (uint8_t*)channel_open_tx, .datalen = sizeof(channel_open_tx), .data_is_owned = false }); + mons1.ConnectBlock(&channel_open_header, 1, txdata, broadcast, fee_est); + + txdata = LDKCVec_C2Tuple_usizeTransactionZZ { .data = (LDKC2Tuple_usizeTransactionZ*)malloc(sizeof(LDKC2Tuple_usizeTransactionZ)), .datalen = 1 }; + *txdata.data = C2Tuple_usizeTransactionZ_new(0, LDKTransaction { .data = (uint8_t*)channel_open_tx, .datalen = sizeof(channel_open_tx), .data_is_owned = false }); + mons2.ConnectBlock(&channel_open_header, 1, txdata, broadcast, fee_est); + + ChannelManager_block_connected(&cm1, &header_1, LDKCVec_C2Tuple_usizeTransactionZZ { .data = NULL, .datalen = 0 }, 2); + ChannelManager_block_connected(&cm2, &header_1, LDKCVec_C2Tuple_usizeTransactionZZ { .data = NULL, .datalen = 0 }, 2); + mons1.ConnectBlock(&header_1, 2, LDKCVec_C2Tuple_usizeTransactionZZ { .data = NULL, .datalen = 0 }, broadcast, fee_est); + mons2.ConnectBlock(&header_1, 2, LDKCVec_C2Tuple_usizeTransactionZZ { .data = NULL, .datalen = 0 }, broadcast, fee_est); + + ChannelManager_block_connected(&cm1, &header_2, LDKCVec_C2Tuple_usizeTransactionZZ { .data = NULL, .datalen = 0 }, 3); + ChannelManager_block_connected(&cm2, &header_2, LDKCVec_C2Tuple_usizeTransactionZZ { .data = NULL, .datalen = 0 }, 3); + mons1.ConnectBlock(&header_2, 3, LDKCVec_C2Tuple_usizeTransactionZZ { .data = NULL, .datalen = 0 }, broadcast, fee_est); + mons2.ConnectBlock(&header_2, 3, LDKCVec_C2Tuple_usizeTransactionZZ { .data = NULL, .datalen = 0 }, broadcast, fee_est); + + PeerManager_process_events(&net1); + PeerManager_process_events(&net2); + + // Now send funds from 1 to 2! + while (true) { + LDK::CVec_ChannelDetailsZ outbound_channels = ChannelManager_list_usable_channels(&cm1); + if (outbound_channels->datalen == 1) { + const LDKChannelDetails *channel = &outbound_channels->data[0]; + // Note that the channel ID is the same as the channel txid reversed as the output index is 0 + uint8_t expected_chan_id[32]; + for (int i = 0; i < 32; i++) { expected_chan_id[i] = channel_open_txid[31-i]; } + assert(!memcmp(ChannelDetails_get_channel_id(channel), expected_chan_id, 32)); + assert(!memcmp(ChannelDetails_get_remote_network_id(channel).compressed_form, + ChannelManager_get_our_node_id(&cm2).compressed_form, 33)); + assert(ChannelDetails_get_channel_value_satoshis(channel) == 40000); + // We opened the channel with 1000 push_msat: + assert(ChannelDetails_get_outbound_capacity_msat(channel) == 40000*1000 - 1000); + assert(ChannelDetails_get_inbound_capacity_msat(channel) == 1000); + assert(ChannelDetails_get_is_live(channel)); + break; + } + std::this_thread::yield(); + } + + LDK::CVec_ChannelDetailsZ outbound_channels = ChannelManager_list_usable_channels(&cm1); + LDKThirtyTwoBytes payment_secret; + memset(payment_secret.data, 0x42, 32); + { + LDK::LockedNetworkGraph graph_2_locked = NetGraphMsgHandler_read_locked_graph(&net_graph2); + LDK::NetworkGraph graph_2_ref = LockedNetworkGraph_graph(&graph_2_locked); + LDK::CResult_RouteLightningErrorZ route = get_route(ChannelManager_get_our_node_id(&cm1), &graph_2_ref, ChannelManager_get_our_node_id(&cm2), &outbound_channels, LDKCVec_RouteHintZ { + .data = NULL, .datalen = 0 + }, 5000, 10, logger1); + assert(route->result_ok); + LDK::CResult_NonePaymentSendFailureZ send_res = ChannelManager_send_payment(&cm1, route->contents.result, payment_hash_1, payment_secret); + assert(send_res->result_ok); + } + + mons_updated = 0; + PeerManager_process_events(&net1); + while (mons_updated != 4) { + std::this_thread::yield(); + } + + // Check that we received the payment! + LDKEventsProvider ev2 = ChannelManager_as_EventsProvider(&cm2); + while (true) { + LDK::CVec_EventZ events = ev2.get_and_clear_pending_events(ev2.this_arg); + if (events->datalen == 1) { + assert(events->data[0].tag == LDKEvent_PendingHTLCsForwardable); + break; + } + std::this_thread::yield(); + } + ChannelManager_process_pending_htlc_forwards(&cm2); + PeerManager_process_events(&net2); + + mons_updated = 0; + { + LDK::CVec_EventZ events = ev2.get_and_clear_pending_events(ev2.this_arg); + assert(events->datalen == 1); + assert(events->data[0].tag == LDKEvent_PaymentReceived); + assert(!memcmp(events->data[0].payment_received.payment_hash.data, payment_hash_1.data, 32)); + assert(!memcmp(events->data[0].payment_received.payment_secret.data, payment_secret.data, 32)); + assert(events->data[0].payment_received.amt == 5000); + assert(ChannelManager_claim_funds(&cm2, payment_preimage_1, payment_secret, 5000)); + } + PeerManager_process_events(&net2); + // Wait until we've passed through a full set of monitor updates (ie new preimage + CS/RAA messages) + while (mons_updated != 5) { + std::this_thread::yield(); + } + { + LDK::CVec_EventZ events = ev1.get_and_clear_pending_events(ev1.this_arg); + assert(events->datalen == 1); + assert(events->data[0].tag == LDKEvent_PaymentSent); + assert(!memcmp(events->data[0].payment_sent.payment_preimage.data, payment_preimage_1.data, 32)); + } + + conn.stop(); + + cm1_ser = ChannelManager_write(&cm1); + cm2_ser = ChannelManager_write(&cm2); + } + + LDK::CVec_ChannelMonitorZ mons_list1 = LDKCVec_ChannelMonitorZ { .data = (LDKChannelMonitor*)malloc(sizeof(LDKChannelMonitor)), .datalen = 1 }; + assert(mons1.mons.size() == 1); + mons_list1->data[0] = *& std::get<1>(mons1.mons[0]); // Note that we need a reference, thus need a raw clone here, which *& does. + mons_list1->data[0].is_owned = false; // XXX: God this sucks + uint8_t node_seed[32]; + memset(&node_seed, 0, 32); + LDK::KeysManager keys1 = KeysManager_new(&node_seed, 1, 0); + LDK::KeysInterface keys_source1 = KeysManager_as_KeysInterface(&keys1); + + LDK::ChannelManagerReadArgs cm1_args = ChannelManagerReadArgs_new(KeysManager_as_KeysInterface(&keys1), fee_est, mon1, broadcast, logger1, UserConfig_default(), std::move(mons_list1)); + LDK::CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ cm1_read = + C2Tuple_BlockHashChannelManagerZ_read(LDKu8slice { .data = cm1_ser->data, .datalen = cm1_ser -> datalen}, std::move(cm1_args)); + assert(cm1_read->result_ok); + LDK::ChannelManager cm1(std::move(cm1_read->contents.result->b)); + + LDK::CVec_ChannelMonitorZ mons_list2 = LDKCVec_ChannelMonitorZ { .data = (LDKChannelMonitor*)malloc(sizeof(LDKChannelMonitor)), .datalen = 1 }; + assert(mons2.mons.size() == 1); + mons_list2->data[0] = *& std::get<1>(mons2.mons[0]); // Note that we need a reference, thus need a raw clone here, which *& does. + mons_list2->data[0].is_owned = false; // XXX: God this sucks + memset(&node_seed, 1, 32); + LDK::KeysManager keys2 = KeysManager_new(&node_seed, 1, 0); + + LDK::ChannelManagerReadArgs cm2_args = ChannelManagerReadArgs_new(KeysManager_as_KeysInterface(&keys2), fee_est, mon2, broadcast, logger2, UserConfig_default(), std::move(mons_list2)); + LDK::CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ cm2_read = + C2Tuple_BlockHashChannelManagerZ_read(LDKu8slice { .data = cm2_ser->data, .datalen = cm2_ser -> datalen}, std::move(cm2_args)); + assert(cm2_read->result_ok); + LDK::ChannelManager cm2(std::move(cm2_read->contents.result->b)); + + // Attempt to close the channel... + uint8_t chan_id[32]; + for (int i = 0; i < 32; i++) { chan_id[i] = channel_open_txid[31-i]; } + LDK::CResult_NoneAPIErrorZ close_res = ChannelManager_close_channel(&cm1, &chan_id); + assert(!close_res->result_ok); // Note that we can't close while disconnected! + + // Open a connection! + LDK::MessageHandler msg_handler1 = MessageHandler_new(ChannelManager_as_ChannelMessageHandler(&cm1), NetGraphMsgHandler_as_RoutingMessageHandler(&net_graph1)); + random_bytes = keys_source1->get_secure_random_bytes(keys_source1->this_arg); + LDK::PeerManager net1 = PeerManager_new(std::move(msg_handler1), node_secret1, &random_bytes.data, logger1); + + LDK::MessageHandler msg_handler2 = MessageHandler_new(ChannelManager_as_ChannelMessageHandler(&cm2), NetGraphMsgHandler_as_RoutingMessageHandler(&net_graph2)); + random_bytes = keys_source1->get_secure_random_bytes(keys_source1->this_arg); + LDK::PeerManager net2 = PeerManager_new(std::move(msg_handler2), node_secret2, &random_bytes.data, logger2); + + PeersConnection conn(cm1, cm2, net1, net2); + + while (true) { + // Wait for the channels to be considered up once the reestablish messages are processed + LDK::CVec_ChannelDetailsZ outbound_channels = ChannelManager_list_usable_channels(&cm1); + if (outbound_channels->datalen == 1) { + break; + } + } + + // Actually close the channel + close_res = ChannelManager_close_channel(&cm1, &chan_id); + assert(close_res->result_ok); + PeerManager_process_events(&net1); + num_txs_broadcasted = 0; + while (num_txs_broadcasted != 2) { + std::this_thread::yield(); + } + LDK::CVec_ChannelDetailsZ chans_after_close1 = ChannelManager_list_channels(&cm1); + assert(chans_after_close1->datalen == 0); + LDK::CVec_ChannelDetailsZ chans_after_close2 = ChannelManager_list_channels(&cm2); + assert(chans_after_close2->datalen == 0); + + conn.stop(); + + // Few extra random tests: + LDKSecretKey sk; + memset(&sk, 42, 32); + LDKThirtyTwoBytes kdiv_params; + memset(&kdiv_params, 43, 32); + LDK::InMemorySigner signer = InMemorySigner_new(sk, sk, sk, sk, sk, random_bytes, 42, kdiv_params); +} diff --git a/lightning-c-bindings/include/lightning.h b/lightning-c-bindings/include/lightning.h new file mode 100644 index 0000000..eb6f45b --- /dev/null +++ b/lightning-c-bindings/include/lightning.h @@ -0,0 +1,9348 @@ +/* Text to put at the beginning of the generated file. Probably a license. */ + +/* Generated with cbindgen:0.16.0 */ + +/* Warning, this file is autogenerated by cbindgen. Don't modify this manually. */ + +#include +#include +#include + + +/** + * An error when accessing the chain via [`Access`]. + * + * [`Access`]: trait.Access.html + */ +typedef enum LDKAccessError { + /** + * The requested chain is unknown. + */ + LDKAccessError_UnknownChain, + /** + * The requested transaction doesn't exist or hasn't confirmed. + */ + LDKAccessError_UnknownTx, + /** + * Must be last for serialization purposes + */ + LDKAccessError_Sentinel, +} LDKAccessError; + +/** + * An error enum representing a failure to persist a channel monitor update. + */ +typedef enum LDKChannelMonitorUpdateErr { + /** + * Used to indicate a temporary failure (eg connection to a watchtower or remote backup of + * our state failed, but is expected to succeed at some point in the future). + * + * Such a failure will \"freeze\" a channel, preventing us from revoking old states or + * submitting new commitment transactions to the counterparty. Once the update(s) which failed + * have been successfully applied, ChannelManager::channel_monitor_updated can be used to + * restore the channel to an operational state. + * + * Note that a given ChannelManager will *never* re-generate a given ChannelMonitorUpdate. If + * you return a TemporaryFailure you must ensure that it is written to disk safely before + * writing out the latest ChannelManager state. + * + * Even when a channel has been \"frozen\" updates to the ChannelMonitor can continue to occur + * (eg if an inbound HTLC which we forwarded was claimed upstream resulting in us attempting + * to claim it on this channel) and those updates must be applied wherever they can be. At + * least one such updated ChannelMonitor must be persisted otherwise PermanentFailure should + * be returned to get things on-chain ASAP using only the in-memory copy. Obviously updates to + * the channel which would invalidate previous ChannelMonitors are not made when a channel has + * been \"frozen\". + * + * Note that even if updates made after TemporaryFailure succeed you must still call + * channel_monitor_updated to ensure you have the latest monitor and re-enable normal channel + * operation. + * + * Note that the update being processed here will not be replayed for you when you call + * ChannelManager::channel_monitor_updated, so you must store the update itself along + * with the persisted ChannelMonitor on your own local disk prior to returning a + * TemporaryFailure. You may, of course, employ a journaling approach, storing only the + * ChannelMonitorUpdate on disk without updating the monitor itself, replaying the journal at + * reload-time. + * + * For deployments where a copy of ChannelMonitors and other local state are backed up in a + * remote location (with local copies persisted immediately), it is anticipated that all + * updates will return TemporaryFailure until the remote copies could be updated. + */ + LDKChannelMonitorUpdateErr_TemporaryFailure, + /** + * Used to indicate no further channel monitor updates will be allowed (eg we've moved on to a + * different watchtower and cannot update with all watchtowers that were previously informed + * of this channel). + * + * At reception of this error, ChannelManager will force-close the channel and return at + * least a final ChannelMonitorUpdate::ChannelForceClosed which must be delivered to at + * least one ChannelMonitor copy. Revocation secret MUST NOT be released and offchain channel + * update must be rejected. + * + * This failure may also signal a failure to update the local persisted copy of one of + * the channel monitor instance. + * + * Note that even when you fail a holder commitment transaction update, you must store the + * update to ensure you can claim from it in case of a duplicate copy of this ChannelMonitor + * broadcasts it (e.g distributed channel-monitor deployment) + * + * In case of distributed watchtowers deployment, the new version must be written to disk, as + * state may have been stored but rejected due to a block forcing a commitment broadcast. This + * storage is used to claim outputs of rejected state confirmed onchain by another watchtower, + * lagging behind on block processing. + */ + LDKChannelMonitorUpdateErr_PermanentFailure, + /** + * Must be last for serialization purposes + */ + LDKChannelMonitorUpdateErr_Sentinel, +} LDKChannelMonitorUpdateErr; + +/** + * An enum that represents the speed at which we want a transaction to confirm used for feerate + * estimation. + */ +typedef enum LDKConfirmationTarget { + /** + * We are happy with this transaction confirming slowly when feerate drops some. + */ + LDKConfirmationTarget_Background, + /** + * We'd like this transaction to confirm without major delay, but 12-18 blocks is fine. + */ + LDKConfirmationTarget_Normal, + /** + * We'd like this transaction to confirm in the next few blocks. + */ + LDKConfirmationTarget_HighPriority, + /** + * Must be last for serialization purposes + */ + LDKConfirmationTarget_Sentinel, +} LDKConfirmationTarget; + +/** + * An enum representing the available verbosity levels of the logger. + */ +typedef enum LDKLevel { + /** + *Designates logger being silent + */ + LDKLevel_Off, + /** + * Designates very serious errors + */ + LDKLevel_Error, + /** + * Designates hazardous situations + */ + LDKLevel_Warn, + /** + * Designates useful information + */ + LDKLevel_Info, + /** + * Designates lower priority information + */ + LDKLevel_Debug, + /** + * Designates very low priority, often extremely verbose, information + */ + LDKLevel_Trace, + /** + * Must be last for serialization purposes + */ + LDKLevel_Sentinel, +} LDKLevel; + +typedef enum LDKNetwork { + LDKNetwork_Bitcoin, + LDKNetwork_Testnet, + LDKNetwork_Regtest, + LDKNetwork_Signet, + /** + * Must be last for serialization purposes + */ + LDKNetwork_Sentinel, +} LDKNetwork; + +typedef enum LDKSecp256k1Error { + LDKSecp256k1Error_IncorrectSignature, + LDKSecp256k1Error_InvalidMessage, + LDKSecp256k1Error_InvalidPublicKey, + LDKSecp256k1Error_InvalidSignature, + LDKSecp256k1Error_InvalidSecretKey, + LDKSecp256k1Error_InvalidRecoveryId, + LDKSecp256k1Error_InvalidTweak, + LDKSecp256k1Error_TweakCheckFailed, + LDKSecp256k1Error_NotEnoughMemory, + /** + * Must be last for serialization purposes + */ + LDKSecp256k1Error_Sentinel, +} LDKSecp256k1Error; + +/** + * A serialized transaction, in (pointer, length) form. + * + * This type optionally owns its own memory, and thus the semantics around access change based on + * the `data_is_owned` flag. If `data_is_owned` is set, you must call `Transaction_free` to free + * the underlying buffer before the object goes out of scope. If `data_is_owned` is not set, any + * access to the buffer after the scope in which the object was provided to you is invalid. eg, + * access after you return from the call in which a `!data_is_owned` `Transaction` is provided to + * you would be invalid. + * + * Note that, while it may change in the future, because transactions on the Rust side are stored + * in a deserialized form, all `Transaction`s generated on the Rust side will have `data_is_owned` + * set. Similarly, while it may change in the future, all `Transaction`s you pass to Rust may have + * `data_is_owned` either set or unset at your discretion. + */ +typedef struct LDKTransaction { + /** + * This is non-const for your convenience, an object passed to Rust is never written to. + */ + uint8_t *data; + uintptr_t datalen; + bool data_is_owned; +} LDKTransaction; + +typedef struct LDKCVec_u8Z { + uint8_t *data; + uintptr_t datalen; +} LDKCVec_u8Z; + +/** + * A transaction output including a scriptPubKey and value. + * This type *does* own its own memory, so must be free'd appropriately. + */ +typedef struct LDKTxOut { + struct LDKCVec_u8Z script_pubkey; + uint64_t value; +} LDKTxOut; + +typedef struct LDKSecretKey { + uint8_t bytes[32]; +} LDKSecretKey; + +typedef union LDKCResult_SecretKeyErrorZPtr { + struct LDKSecretKey *result; + enum LDKSecp256k1Error *err; +} LDKCResult_SecretKeyErrorZPtr; + +typedef struct LDKCResult_SecretKeyErrorZ { + union LDKCResult_SecretKeyErrorZPtr contents; + bool result_ok; +} LDKCResult_SecretKeyErrorZ; + +typedef struct LDKPublicKey { + uint8_t compressed_form[33]; +} LDKPublicKey; + +typedef union LDKCResult_PublicKeyErrorZPtr { + struct LDKPublicKey *result; + enum LDKSecp256k1Error *err; +} LDKCResult_PublicKeyErrorZPtr; + +typedef struct LDKCResult_PublicKeyErrorZ { + union LDKCResult_PublicKeyErrorZPtr contents; + bool result_ok; +} LDKCResult_PublicKeyErrorZ; + + + +/** + * The set of public keys which are used in the creation of one commitment transaction. + * These are derived from the channel base keys and per-commitment data. + * + * A broadcaster key is provided from potential broadcaster of the computed transaction. + * A countersignatory key is coming from a protocol participant unable to broadcast the + * transaction. + * + * These keys are assumed to be good, either because the code derived them from + * channel basepoints via the new function, or they were obtained via + * CommitmentTransaction.trust().keys() because we trusted the source of the + * pre-calculated keys. + */ +typedef struct MUST_USE_STRUCT LDKTxCreationKeys { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeTxCreationKeys *inner; + bool is_owned; +} LDKTxCreationKeys; + + + +/** + * An error in decoding a message or struct. + */ +typedef struct MUST_USE_STRUCT LDKDecodeError { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeDecodeError *inner; + bool is_owned; +} LDKDecodeError; + +typedef union LDKCResult_TxCreationKeysDecodeErrorZPtr { + struct LDKTxCreationKeys *result; + struct LDKDecodeError *err; +} LDKCResult_TxCreationKeysDecodeErrorZPtr; + +typedef struct LDKCResult_TxCreationKeysDecodeErrorZ { + union LDKCResult_TxCreationKeysDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_TxCreationKeysDecodeErrorZ; + + + +/** + * One counterparty's public keys which do not change over the life of a channel. + */ +typedef struct MUST_USE_STRUCT LDKChannelPublicKeys { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeChannelPublicKeys *inner; + bool is_owned; +} LDKChannelPublicKeys; + +typedef union LDKCResult_ChannelPublicKeysDecodeErrorZPtr { + struct LDKChannelPublicKeys *result; + struct LDKDecodeError *err; +} LDKCResult_ChannelPublicKeysDecodeErrorZPtr; + +typedef struct LDKCResult_ChannelPublicKeysDecodeErrorZ { + union LDKCResult_ChannelPublicKeysDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_ChannelPublicKeysDecodeErrorZ; + +typedef union LDKCResult_TxCreationKeysErrorZPtr { + struct LDKTxCreationKeys *result; + enum LDKSecp256k1Error *err; +} LDKCResult_TxCreationKeysErrorZPtr; + +typedef struct LDKCResult_TxCreationKeysErrorZ { + union LDKCResult_TxCreationKeysErrorZPtr contents; + bool result_ok; +} LDKCResult_TxCreationKeysErrorZ; + + + +/** + * Information about an HTLC as it appears in a commitment transaction + */ +typedef struct MUST_USE_STRUCT LDKHTLCOutputInCommitment { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeHTLCOutputInCommitment *inner; + bool is_owned; +} LDKHTLCOutputInCommitment; + +typedef union LDKCResult_HTLCOutputInCommitmentDecodeErrorZPtr { + struct LDKHTLCOutputInCommitment *result; + struct LDKDecodeError *err; +} LDKCResult_HTLCOutputInCommitmentDecodeErrorZPtr; + +typedef struct LDKCResult_HTLCOutputInCommitmentDecodeErrorZ { + union LDKCResult_HTLCOutputInCommitmentDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_HTLCOutputInCommitmentDecodeErrorZ; + + + +/** + * Late-bound per-channel counterparty data used to build transactions. + */ +typedef struct MUST_USE_STRUCT LDKCounterpartyChannelTransactionParameters { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeCounterpartyChannelTransactionParameters *inner; + bool is_owned; +} LDKCounterpartyChannelTransactionParameters; + +typedef union LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZPtr { + struct LDKCounterpartyChannelTransactionParameters *result; + struct LDKDecodeError *err; +} LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZPtr; + +typedef struct LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ { + union LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ; + + + +/** + * Per-channel data used to build transactions in conjunction with the per-commitment data (CommitmentTransaction). + * The fields are organized by holder/counterparty. + * + * Normally, this is converted to the broadcaster/countersignatory-organized DirectedChannelTransactionParameters + * before use, via the as_holder_broadcastable and as_counterparty_broadcastable functions. + */ +typedef struct MUST_USE_STRUCT LDKChannelTransactionParameters { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeChannelTransactionParameters *inner; + bool is_owned; +} LDKChannelTransactionParameters; + +typedef union LDKCResult_ChannelTransactionParametersDecodeErrorZPtr { + struct LDKChannelTransactionParameters *result; + struct LDKDecodeError *err; +} LDKCResult_ChannelTransactionParametersDecodeErrorZPtr; + +typedef struct LDKCResult_ChannelTransactionParametersDecodeErrorZ { + union LDKCResult_ChannelTransactionParametersDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_ChannelTransactionParametersDecodeErrorZ; + +typedef struct LDKSignature { + uint8_t compact_form[64]; +} LDKSignature; + +typedef struct LDKCVec_SignatureZ { + struct LDKSignature *data; + uintptr_t datalen; +} LDKCVec_SignatureZ; + + + +/** + * Information needed to build and sign a holder's commitment transaction. + * + * The transaction is only signed once we are ready to broadcast. + */ +typedef struct MUST_USE_STRUCT LDKHolderCommitmentTransaction { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeHolderCommitmentTransaction *inner; + bool is_owned; +} LDKHolderCommitmentTransaction; + +typedef union LDKCResult_HolderCommitmentTransactionDecodeErrorZPtr { + struct LDKHolderCommitmentTransaction *result; + struct LDKDecodeError *err; +} LDKCResult_HolderCommitmentTransactionDecodeErrorZPtr; + +typedef struct LDKCResult_HolderCommitmentTransactionDecodeErrorZ { + union LDKCResult_HolderCommitmentTransactionDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_HolderCommitmentTransactionDecodeErrorZ; + + + +/** + * A pre-built Bitcoin commitment transaction and its txid. + */ +typedef struct MUST_USE_STRUCT LDKBuiltCommitmentTransaction { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeBuiltCommitmentTransaction *inner; + bool is_owned; +} LDKBuiltCommitmentTransaction; + +typedef union LDKCResult_BuiltCommitmentTransactionDecodeErrorZPtr { + struct LDKBuiltCommitmentTransaction *result; + struct LDKDecodeError *err; +} LDKCResult_BuiltCommitmentTransactionDecodeErrorZPtr; + +typedef struct LDKCResult_BuiltCommitmentTransactionDecodeErrorZ { + union LDKCResult_BuiltCommitmentTransactionDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_BuiltCommitmentTransactionDecodeErrorZ; + + + +/** + * This class tracks the per-transaction information needed to build a commitment transaction and to + * actually build it and sign. It is used for holder transactions that we sign only when needed + * and for transactions we sign for the counterparty. + * + * This class can be used inside a signer implementation to generate a signature given the relevant + * secret key. + */ +typedef struct MUST_USE_STRUCT LDKCommitmentTransaction { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeCommitmentTransaction *inner; + bool is_owned; +} LDKCommitmentTransaction; + +typedef union LDKCResult_CommitmentTransactionDecodeErrorZPtr { + struct LDKCommitmentTransaction *result; + struct LDKDecodeError *err; +} LDKCResult_CommitmentTransactionDecodeErrorZPtr; + +typedef struct LDKCResult_CommitmentTransactionDecodeErrorZ { + union LDKCResult_CommitmentTransactionDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_CommitmentTransactionDecodeErrorZ; + + + +/** + * A wrapper on CommitmentTransaction indicating that the derived fields (the built bitcoin + * transaction and the transaction creation keys) are trusted. + * + * See trust() and verify() functions on CommitmentTransaction. + * + * This structure implements Deref. + */ +typedef struct MUST_USE_STRUCT LDKTrustedCommitmentTransaction { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeTrustedCommitmentTransaction *inner; + bool is_owned; +} LDKTrustedCommitmentTransaction; + +typedef union LDKCResult_TrustedCommitmentTransactionNoneZPtr { + struct LDKTrustedCommitmentTransaction *result; + /** + * Note that this value is always NULL, as there are no contents in the Err variant + */ + void *err; +} LDKCResult_TrustedCommitmentTransactionNoneZPtr; + +typedef struct LDKCResult_TrustedCommitmentTransactionNoneZ { + union LDKCResult_TrustedCommitmentTransactionNoneZPtr contents; + bool result_ok; +} LDKCResult_TrustedCommitmentTransactionNoneZ; + +typedef union LDKCResult_CVec_SignatureZNoneZPtr { + struct LDKCVec_SignatureZ *result; + /** + * Note that this value is always NULL, as there are no contents in the Err variant + */ + void *err; +} LDKCResult_CVec_SignatureZNoneZPtr; + +typedef struct LDKCResult_CVec_SignatureZNoneZ { + union LDKCResult_CVec_SignatureZNoneZPtr contents; + bool result_ok; +} LDKCResult_CVec_SignatureZNoneZ; + + + +/** + * An accept_channel message to be sent or received from a peer + */ +typedef struct MUST_USE_STRUCT LDKAcceptChannel { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeAcceptChannel *inner; + bool is_owned; +} LDKAcceptChannel; + + + +/** + * An open_channel message to be sent or received from a peer + */ +typedef struct MUST_USE_STRUCT LDKOpenChannel { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeOpenChannel *inner; + bool is_owned; +} LDKOpenChannel; + + + +/** + * A funding_created message to be sent or received from a peer + */ +typedef struct MUST_USE_STRUCT LDKFundingCreated { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeFundingCreated *inner; + bool is_owned; +} LDKFundingCreated; + + + +/** + * A funding_signed message to be sent or received from a peer + */ +typedef struct MUST_USE_STRUCT LDKFundingSigned { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeFundingSigned *inner; + bool is_owned; +} LDKFundingSigned; + + + +/** + * A funding_locked message to be sent or received from a peer + */ +typedef struct MUST_USE_STRUCT LDKFundingLocked { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeFundingLocked *inner; + bool is_owned; +} LDKFundingLocked; + + + +/** + * An announcement_signatures message to be sent or received from a peer + */ +typedef struct MUST_USE_STRUCT LDKAnnouncementSignatures { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeAnnouncementSignatures *inner; + bool is_owned; +} LDKAnnouncementSignatures; + + + +/** + * Struct used to return values from revoke_and_ack messages, containing a bunch of commitment + * transaction updates if they were pending. + */ +typedef struct MUST_USE_STRUCT LDKCommitmentUpdate { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeCommitmentUpdate *inner; + bool is_owned; +} LDKCommitmentUpdate; + + + +/** + * A revoke_and_ack message to be sent or received from a peer + */ +typedef struct MUST_USE_STRUCT LDKRevokeAndACK { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeRevokeAndACK *inner; + bool is_owned; +} LDKRevokeAndACK; + + + +/** + * A closing_signed message to be sent or received from a peer + */ +typedef struct MUST_USE_STRUCT LDKClosingSigned { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeClosingSigned *inner; + bool is_owned; +} LDKClosingSigned; + + + +/** + * A shutdown message to be sent or received from a peer + */ +typedef struct MUST_USE_STRUCT LDKShutdown { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeShutdown *inner; + bool is_owned; +} LDKShutdown; + + + +/** + * A channel_reestablish message to be sent or received from a peer + */ +typedef struct MUST_USE_STRUCT LDKChannelReestablish { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeChannelReestablish *inner; + bool is_owned; +} LDKChannelReestablish; + + + +/** + * A channel_announcement message to be sent or received from a peer + */ +typedef struct MUST_USE_STRUCT LDKChannelAnnouncement { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeChannelAnnouncement *inner; + bool is_owned; +} LDKChannelAnnouncement; + + + +/** + * A channel_update message to be sent or received from a peer + */ +typedef struct MUST_USE_STRUCT LDKChannelUpdate { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeChannelUpdate *inner; + bool is_owned; +} LDKChannelUpdate; + + + +/** + * A node_announcement message to be sent or received from a peer + */ +typedef struct MUST_USE_STRUCT LDKNodeAnnouncement { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeNodeAnnouncement *inner; + bool is_owned; +} LDKNodeAnnouncement; + + + +/** + * An error message to be sent or received from a peer + */ +typedef struct MUST_USE_STRUCT LDKErrorMessage { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeErrorMessage *inner; + bool is_owned; +} LDKErrorMessage; + +/** + * Used to put an error message in a LightningError + */ +typedef enum LDKErrorAction_Tag { + /** + * The peer took some action which made us think they were useless. Disconnect them. + */ + LDKErrorAction_DisconnectPeer, + /** + * The peer did something harmless that we weren't able to process, just log and ignore + */ + LDKErrorAction_IgnoreError, + /** + * The peer did something incorrect. Tell them. + */ + LDKErrorAction_SendErrorMessage, + /** + * Must be last for serialization purposes + */ + LDKErrorAction_Sentinel, +} LDKErrorAction_Tag; + +typedef struct LDKErrorAction_LDKDisconnectPeer_Body { + struct LDKErrorMessage msg; +} LDKErrorAction_LDKDisconnectPeer_Body; + +typedef struct LDKErrorAction_LDKSendErrorMessage_Body { + struct LDKErrorMessage msg; +} LDKErrorAction_LDKSendErrorMessage_Body; + +typedef struct MUST_USE_STRUCT LDKErrorAction { + LDKErrorAction_Tag tag; + union { + LDKErrorAction_LDKDisconnectPeer_Body disconnect_peer; + LDKErrorAction_LDKSendErrorMessage_Body send_error_message; + }; +} LDKErrorAction; + +/** + * The information we received from a peer along the route of a payment we originated. This is + * returned by ChannelMessageHandler::handle_update_fail_htlc to be passed into + * RoutingMessageHandler::handle_htlc_fail_channel_update to update our network map. + */ +typedef enum LDKHTLCFailChannelUpdate_Tag { + /** + * We received an error which included a full ChannelUpdate message. + */ + LDKHTLCFailChannelUpdate_ChannelUpdateMessage, + /** + * We received an error which indicated only that a channel has been closed + */ + LDKHTLCFailChannelUpdate_ChannelClosed, + /** + * We received an error which indicated only that a node has failed + */ + LDKHTLCFailChannelUpdate_NodeFailure, + /** + * Must be last for serialization purposes + */ + LDKHTLCFailChannelUpdate_Sentinel, +} LDKHTLCFailChannelUpdate_Tag; + +typedef struct LDKHTLCFailChannelUpdate_LDKChannelUpdateMessage_Body { + struct LDKChannelUpdate msg; +} LDKHTLCFailChannelUpdate_LDKChannelUpdateMessage_Body; + +typedef struct LDKHTLCFailChannelUpdate_LDKChannelClosed_Body { + uint64_t short_channel_id; + bool is_permanent; +} LDKHTLCFailChannelUpdate_LDKChannelClosed_Body; + +typedef struct LDKHTLCFailChannelUpdate_LDKNodeFailure_Body { + struct LDKPublicKey node_id; + bool is_permanent; +} LDKHTLCFailChannelUpdate_LDKNodeFailure_Body; + +typedef struct MUST_USE_STRUCT LDKHTLCFailChannelUpdate { + LDKHTLCFailChannelUpdate_Tag tag; + union { + LDKHTLCFailChannelUpdate_LDKChannelUpdateMessage_Body channel_update_message; + LDKHTLCFailChannelUpdate_LDKChannelClosed_Body channel_closed; + LDKHTLCFailChannelUpdate_LDKNodeFailure_Body node_failure; + }; +} LDKHTLCFailChannelUpdate; + + + +/** + * A query_channel_range message is used to query a peer for channel + * UTXOs in a range of blocks. The recipient of a query makes a best + * effort to reply to the query using one or more reply_channel_range + * messages. + */ +typedef struct MUST_USE_STRUCT LDKQueryChannelRange { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeQueryChannelRange *inner; + bool is_owned; +} LDKQueryChannelRange; + + + +/** + * A query_short_channel_ids message is used to query a peer for + * routing gossip messages related to one or more short_channel_ids. + * The query recipient will reply with the latest, if available, + * channel_announcement, channel_update and node_announcement messages + * it maintains for the requested short_channel_ids followed by a + * reply_short_channel_ids_end message. The short_channel_ids sent in + * this query are encoded. We only support encoding_type=0 uncompressed + * serialization and do not support encoding_type=1 zlib serialization. + */ +typedef struct MUST_USE_STRUCT LDKQueryShortChannelIds { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeQueryShortChannelIds *inner; + bool is_owned; +} LDKQueryShortChannelIds; + +/** + * An event generated by ChannelManager which indicates a message should be sent to a peer (or + * broadcast to most peers). + * These events are handled by PeerManager::process_events if you are using a PeerManager. + */ +typedef enum LDKMessageSendEvent_Tag { + /** + * Used to indicate that we've accepted a channel open and should send the accept_channel + * message provided to the given peer. + */ + LDKMessageSendEvent_SendAcceptChannel, + /** + * Used to indicate that we've initiated a channel open and should send the open_channel + * message provided to the given peer. + */ + LDKMessageSendEvent_SendOpenChannel, + /** + * Used to indicate that a funding_created message should be sent to the peer with the given node_id. + */ + LDKMessageSendEvent_SendFundingCreated, + /** + * Used to indicate that a funding_signed message should be sent to the peer with the given node_id. + */ + LDKMessageSendEvent_SendFundingSigned, + /** + * Used to indicate that a funding_locked message should be sent to the peer with the given node_id. + */ + LDKMessageSendEvent_SendFundingLocked, + /** + * Used to indicate that an announcement_signatures message should be sent to the peer with the given node_id. + */ + LDKMessageSendEvent_SendAnnouncementSignatures, + /** + * Used to indicate that a series of HTLC update messages, as well as a commitment_signed + * message should be sent to the peer with the given node_id. + */ + LDKMessageSendEvent_UpdateHTLCs, + /** + * Used to indicate that a revoke_and_ack message should be sent to the peer with the given node_id. + */ + LDKMessageSendEvent_SendRevokeAndACK, + /** + * Used to indicate that a closing_signed message should be sent to the peer with the given node_id. + */ + LDKMessageSendEvent_SendClosingSigned, + /** + * Used to indicate that a shutdown message should be sent to the peer with the given node_id. + */ + LDKMessageSendEvent_SendShutdown, + /** + * Used to indicate that a channel_reestablish message should be sent to the peer with the given node_id. + */ + LDKMessageSendEvent_SendChannelReestablish, + /** + * Used to indicate that a channel_announcement and channel_update should be broadcast to all + * peers (except the peer with node_id either msg.contents.node_id_1 or msg.contents.node_id_2). + * + * Note that after doing so, you very likely (unless you did so very recently) want to call + * ChannelManager::broadcast_node_announcement to trigger a BroadcastNodeAnnouncement event. + * This ensures that any nodes which see our channel_announcement also have a relevant + * node_announcement, including relevant feature flags which may be important for routing + * through or to us. + */ + LDKMessageSendEvent_BroadcastChannelAnnouncement, + /** + * Used to indicate that a node_announcement should be broadcast to all peers. + */ + LDKMessageSendEvent_BroadcastNodeAnnouncement, + /** + * Used to indicate that a channel_update should be broadcast to all peers. + */ + LDKMessageSendEvent_BroadcastChannelUpdate, + /** + * Broadcast an error downstream to be handled + */ + LDKMessageSendEvent_HandleError, + /** + * When a payment fails we may receive updates back from the hop where it failed. In such + * cases this event is generated so that we can inform the network graph of this information. + */ + LDKMessageSendEvent_PaymentFailureNetworkUpdate, + /** + * Query a peer for channels with funding transaction UTXOs in a block range. + */ + LDKMessageSendEvent_SendChannelRangeQuery, + /** + * Request routing gossip messages from a peer for a list of channels identified by + * their short_channel_ids. + */ + LDKMessageSendEvent_SendShortIdsQuery, + /** + * Must be last for serialization purposes + */ + LDKMessageSendEvent_Sentinel, +} LDKMessageSendEvent_Tag; + +typedef struct LDKMessageSendEvent_LDKSendAcceptChannel_Body { + struct LDKPublicKey node_id; + struct LDKAcceptChannel msg; +} LDKMessageSendEvent_LDKSendAcceptChannel_Body; + +typedef struct LDKMessageSendEvent_LDKSendOpenChannel_Body { + struct LDKPublicKey node_id; + struct LDKOpenChannel msg; +} LDKMessageSendEvent_LDKSendOpenChannel_Body; + +typedef struct LDKMessageSendEvent_LDKSendFundingCreated_Body { + struct LDKPublicKey node_id; + struct LDKFundingCreated msg; +} LDKMessageSendEvent_LDKSendFundingCreated_Body; + +typedef struct LDKMessageSendEvent_LDKSendFundingSigned_Body { + struct LDKPublicKey node_id; + struct LDKFundingSigned msg; +} LDKMessageSendEvent_LDKSendFundingSigned_Body; + +typedef struct LDKMessageSendEvent_LDKSendFundingLocked_Body { + struct LDKPublicKey node_id; + struct LDKFundingLocked msg; +} LDKMessageSendEvent_LDKSendFundingLocked_Body; + +typedef struct LDKMessageSendEvent_LDKSendAnnouncementSignatures_Body { + struct LDKPublicKey node_id; + struct LDKAnnouncementSignatures msg; +} LDKMessageSendEvent_LDKSendAnnouncementSignatures_Body; + +typedef struct LDKMessageSendEvent_LDKUpdateHTLCs_Body { + struct LDKPublicKey node_id; + struct LDKCommitmentUpdate updates; +} LDKMessageSendEvent_LDKUpdateHTLCs_Body; + +typedef struct LDKMessageSendEvent_LDKSendRevokeAndACK_Body { + struct LDKPublicKey node_id; + struct LDKRevokeAndACK msg; +} LDKMessageSendEvent_LDKSendRevokeAndACK_Body; + +typedef struct LDKMessageSendEvent_LDKSendClosingSigned_Body { + struct LDKPublicKey node_id; + struct LDKClosingSigned msg; +} LDKMessageSendEvent_LDKSendClosingSigned_Body; + +typedef struct LDKMessageSendEvent_LDKSendShutdown_Body { + struct LDKPublicKey node_id; + struct LDKShutdown msg; +} LDKMessageSendEvent_LDKSendShutdown_Body; + +typedef struct LDKMessageSendEvent_LDKSendChannelReestablish_Body { + struct LDKPublicKey node_id; + struct LDKChannelReestablish msg; +} LDKMessageSendEvent_LDKSendChannelReestablish_Body; + +typedef struct LDKMessageSendEvent_LDKBroadcastChannelAnnouncement_Body { + struct LDKChannelAnnouncement msg; + struct LDKChannelUpdate update_msg; +} LDKMessageSendEvent_LDKBroadcastChannelAnnouncement_Body; + +typedef struct LDKMessageSendEvent_LDKBroadcastNodeAnnouncement_Body { + struct LDKNodeAnnouncement msg; +} LDKMessageSendEvent_LDKBroadcastNodeAnnouncement_Body; + +typedef struct LDKMessageSendEvent_LDKBroadcastChannelUpdate_Body { + struct LDKChannelUpdate msg; +} LDKMessageSendEvent_LDKBroadcastChannelUpdate_Body; + +typedef struct LDKMessageSendEvent_LDKHandleError_Body { + struct LDKPublicKey node_id; + struct LDKErrorAction action; +} LDKMessageSendEvent_LDKHandleError_Body; + +typedef struct LDKMessageSendEvent_LDKPaymentFailureNetworkUpdate_Body { + struct LDKHTLCFailChannelUpdate update; +} LDKMessageSendEvent_LDKPaymentFailureNetworkUpdate_Body; + +typedef struct LDKMessageSendEvent_LDKSendChannelRangeQuery_Body { + struct LDKPublicKey node_id; + struct LDKQueryChannelRange msg; +} LDKMessageSendEvent_LDKSendChannelRangeQuery_Body; + +typedef struct LDKMessageSendEvent_LDKSendShortIdsQuery_Body { + struct LDKPublicKey node_id; + struct LDKQueryShortChannelIds msg; +} LDKMessageSendEvent_LDKSendShortIdsQuery_Body; + +typedef struct MUST_USE_STRUCT LDKMessageSendEvent { + LDKMessageSendEvent_Tag tag; + union { + LDKMessageSendEvent_LDKSendAcceptChannel_Body send_accept_channel; + LDKMessageSendEvent_LDKSendOpenChannel_Body send_open_channel; + LDKMessageSendEvent_LDKSendFundingCreated_Body send_funding_created; + LDKMessageSendEvent_LDKSendFundingSigned_Body send_funding_signed; + LDKMessageSendEvent_LDKSendFundingLocked_Body send_funding_locked; + LDKMessageSendEvent_LDKSendAnnouncementSignatures_Body send_announcement_signatures; + LDKMessageSendEvent_LDKUpdateHTLCs_Body update_htl_cs; + LDKMessageSendEvent_LDKSendRevokeAndACK_Body send_revoke_and_ack; + LDKMessageSendEvent_LDKSendClosingSigned_Body send_closing_signed; + LDKMessageSendEvent_LDKSendShutdown_Body send_shutdown; + LDKMessageSendEvent_LDKSendChannelReestablish_Body send_channel_reestablish; + LDKMessageSendEvent_LDKBroadcastChannelAnnouncement_Body broadcast_channel_announcement; + LDKMessageSendEvent_LDKBroadcastNodeAnnouncement_Body broadcast_node_announcement; + LDKMessageSendEvent_LDKBroadcastChannelUpdate_Body broadcast_channel_update; + LDKMessageSendEvent_LDKHandleError_Body handle_error; + LDKMessageSendEvent_LDKPaymentFailureNetworkUpdate_Body payment_failure_network_update; + LDKMessageSendEvent_LDKSendChannelRangeQuery_Body send_channel_range_query; + LDKMessageSendEvent_LDKSendShortIdsQuery_Body send_short_ids_query; + }; +} LDKMessageSendEvent; + +typedef struct LDKCVec_MessageSendEventZ { + struct LDKMessageSendEvent *data; + uintptr_t datalen; +} LDKCVec_MessageSendEventZ; + + + +/** + * An Err type for failure to process messages. + */ +typedef struct MUST_USE_STRUCT LDKLightningError { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeLightningError *inner; + bool is_owned; +} LDKLightningError; + +typedef union LDKCResult_boolLightningErrorZPtr { + bool *result; + struct LDKLightningError *err; +} LDKCResult_boolLightningErrorZPtr; + +typedef struct LDKCResult_boolLightningErrorZ { + union LDKCResult_boolLightningErrorZPtr contents; + bool result_ok; +} LDKCResult_boolLightningErrorZ; + +typedef struct LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ { + struct LDKChannelAnnouncement a; + struct LDKChannelUpdate b; + struct LDKChannelUpdate c; +} LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ; + +typedef struct LDKCVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ { + struct LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ *data; + uintptr_t datalen; +} LDKCVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ; + +typedef struct LDKCVec_NodeAnnouncementZ { + struct LDKNodeAnnouncement *data; + uintptr_t datalen; +} LDKCVec_NodeAnnouncementZ; + +typedef union LDKCResult_NoneLightningErrorZPtr { + /** + * Note that this value is always NULL, as there are no contents in the OK variant + */ + void *result; + struct LDKLightningError *err; +} LDKCResult_NoneLightningErrorZPtr; + +typedef struct LDKCResult_NoneLightningErrorZ { + union LDKCResult_NoneLightningErrorZPtr contents; + bool result_ok; +} LDKCResult_NoneLightningErrorZ; + +typedef struct LDKCVec_PublicKeyZ { + struct LDKPublicKey *data; + uintptr_t datalen; +} LDKCVec_PublicKeyZ; + + + +/** + * Error for PeerManager errors. If you get one of these, you must disconnect the socket and + * generate no further read_event/write_buffer_space_avail/socket_disconnected calls for the + * descriptor. + */ +typedef struct MUST_USE_STRUCT LDKPeerHandleError { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativePeerHandleError *inner; + bool is_owned; +} LDKPeerHandleError; + +typedef union LDKCResult_CVec_u8ZPeerHandleErrorZPtr { + struct LDKCVec_u8Z *result; + struct LDKPeerHandleError *err; +} LDKCResult_CVec_u8ZPeerHandleErrorZPtr; + +typedef struct LDKCResult_CVec_u8ZPeerHandleErrorZ { + union LDKCResult_CVec_u8ZPeerHandleErrorZPtr contents; + bool result_ok; +} LDKCResult_CVec_u8ZPeerHandleErrorZ; + +typedef union LDKCResult_NonePeerHandleErrorZPtr { + /** + * Note that this value is always NULL, as there are no contents in the OK variant + */ + void *result; + struct LDKPeerHandleError *err; +} LDKCResult_NonePeerHandleErrorZPtr; + +typedef struct LDKCResult_NonePeerHandleErrorZ { + union LDKCResult_NonePeerHandleErrorZPtr contents; + bool result_ok; +} LDKCResult_NonePeerHandleErrorZ; + +typedef union LDKCResult_boolPeerHandleErrorZPtr { + bool *result; + struct LDKPeerHandleError *err; +} LDKCResult_boolPeerHandleErrorZPtr; + +typedef struct LDKCResult_boolPeerHandleErrorZ { + union LDKCResult_boolPeerHandleErrorZPtr contents; + bool result_ok; +} LDKCResult_boolPeerHandleErrorZ; + + + +/** + * Features used within an `init` message. + */ +typedef struct MUST_USE_STRUCT LDKInitFeatures { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeInitFeatures *inner; + bool is_owned; +} LDKInitFeatures; + +typedef union LDKCResult_InitFeaturesDecodeErrorZPtr { + struct LDKInitFeatures *result; + struct LDKDecodeError *err; +} LDKCResult_InitFeaturesDecodeErrorZPtr; + +typedef struct LDKCResult_InitFeaturesDecodeErrorZ { + union LDKCResult_InitFeaturesDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_InitFeaturesDecodeErrorZ; + + + +/** + * Features used within a `node_announcement` message. + */ +typedef struct MUST_USE_STRUCT LDKNodeFeatures { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeNodeFeatures *inner; + bool is_owned; +} LDKNodeFeatures; + +typedef union LDKCResult_NodeFeaturesDecodeErrorZPtr { + struct LDKNodeFeatures *result; + struct LDKDecodeError *err; +} LDKCResult_NodeFeaturesDecodeErrorZPtr; + +typedef struct LDKCResult_NodeFeaturesDecodeErrorZ { + union LDKCResult_NodeFeaturesDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_NodeFeaturesDecodeErrorZ; + + + +/** + * Features used within a `channel_announcement` message. + */ +typedef struct MUST_USE_STRUCT LDKChannelFeatures { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeChannelFeatures *inner; + bool is_owned; +} LDKChannelFeatures; + +typedef union LDKCResult_ChannelFeaturesDecodeErrorZPtr { + struct LDKChannelFeatures *result; + struct LDKDecodeError *err; +} LDKCResult_ChannelFeaturesDecodeErrorZPtr; + +typedef struct LDKCResult_ChannelFeaturesDecodeErrorZ { + union LDKCResult_ChannelFeaturesDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_ChannelFeaturesDecodeErrorZ; + + + +/** + * Options which apply on a per-channel basis and may change at runtime or based on negotiation + * with our counterparty. + */ +typedef struct MUST_USE_STRUCT LDKChannelConfig { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeChannelConfig *inner; + bool is_owned; +} LDKChannelConfig; + +typedef union LDKCResult_ChannelConfigDecodeErrorZPtr { + struct LDKChannelConfig *result; + struct LDKDecodeError *err; +} LDKCResult_ChannelConfigDecodeErrorZPtr; + +typedef struct LDKCResult_ChannelConfigDecodeErrorZ { + union LDKCResult_ChannelConfigDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_ChannelConfigDecodeErrorZ; + + + +/** + * Details about one direction of a channel. Received + * within a channel update. + */ +typedef struct MUST_USE_STRUCT LDKDirectionalChannelInfo { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeDirectionalChannelInfo *inner; + bool is_owned; +} LDKDirectionalChannelInfo; + +typedef union LDKCResult_DirectionalChannelInfoDecodeErrorZPtr { + struct LDKDirectionalChannelInfo *result; + struct LDKDecodeError *err; +} LDKCResult_DirectionalChannelInfoDecodeErrorZPtr; + +typedef struct LDKCResult_DirectionalChannelInfoDecodeErrorZ { + union LDKCResult_DirectionalChannelInfoDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_DirectionalChannelInfoDecodeErrorZ; + + + +/** + * Details about a channel (both directions). + * Received within a channel announcement. + */ +typedef struct MUST_USE_STRUCT LDKChannelInfo { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeChannelInfo *inner; + bool is_owned; +} LDKChannelInfo; + +typedef union LDKCResult_ChannelInfoDecodeErrorZPtr { + struct LDKChannelInfo *result; + struct LDKDecodeError *err; +} LDKCResult_ChannelInfoDecodeErrorZPtr; + +typedef struct LDKCResult_ChannelInfoDecodeErrorZ { + union LDKCResult_ChannelInfoDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_ChannelInfoDecodeErrorZ; + + + +/** + * Fees for routing via a given channel or a node + */ +typedef struct MUST_USE_STRUCT LDKRoutingFees { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeRoutingFees *inner; + bool is_owned; +} LDKRoutingFees; + +typedef union LDKCResult_RoutingFeesDecodeErrorZPtr { + struct LDKRoutingFees *result; + struct LDKDecodeError *err; +} LDKCResult_RoutingFeesDecodeErrorZPtr; + +typedef struct LDKCResult_RoutingFeesDecodeErrorZ { + union LDKCResult_RoutingFeesDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_RoutingFeesDecodeErrorZ; + +typedef struct LDKFourBytes { + uint8_t data[4]; +} LDKFourBytes; + +typedef struct LDKSixteenBytes { + uint8_t data[16]; +} LDKSixteenBytes; + +typedef struct LDKTenBytes { + uint8_t data[10]; +} LDKTenBytes; + +/** + * Arbitrary 32 bytes, which could represent one of a few different things. You probably want to + * look up the corresponding function in rust-lightning's docs. + */ +typedef struct LDKThirtyTwoBytes { + uint8_t data[32]; +} LDKThirtyTwoBytes; + +/** + * An address which can be used to connect to a remote peer + */ +typedef enum LDKNetAddress_Tag { + /** + * An IPv4 address/port on which the peer is listening. + */ + LDKNetAddress_IPv4, + /** + * An IPv6 address/port on which the peer is listening. + */ + LDKNetAddress_IPv6, + /** + * An old-style Tor onion address/port on which the peer is listening. + */ + LDKNetAddress_OnionV2, + /** + * A new-style Tor onion address/port on which the peer is listening. + * To create the human-readable \"hostname\", concatenate ed25519_pubkey, checksum, and version, + * wrap as base32 and append \".onion\". + */ + LDKNetAddress_OnionV3, + /** + * Must be last for serialization purposes + */ + LDKNetAddress_Sentinel, +} LDKNetAddress_Tag; + +typedef struct LDKNetAddress_LDKIPv4_Body { + struct LDKFourBytes addr; + uint16_t port; +} LDKNetAddress_LDKIPv4_Body; + +typedef struct LDKNetAddress_LDKIPv6_Body { + struct LDKSixteenBytes addr; + uint16_t port; +} LDKNetAddress_LDKIPv6_Body; + +typedef struct LDKNetAddress_LDKOnionV2_Body { + struct LDKTenBytes addr; + uint16_t port; +} LDKNetAddress_LDKOnionV2_Body; + +typedef struct LDKNetAddress_LDKOnionV3_Body { + struct LDKThirtyTwoBytes ed25519_pubkey; + uint16_t checksum; + uint8_t version; + uint16_t port; +} LDKNetAddress_LDKOnionV3_Body; + +typedef struct MUST_USE_STRUCT LDKNetAddress { + LDKNetAddress_Tag tag; + union { + LDKNetAddress_LDKIPv4_Body i_pv4; + LDKNetAddress_LDKIPv6_Body i_pv6; + LDKNetAddress_LDKOnionV2_Body onion_v2; + LDKNetAddress_LDKOnionV3_Body onion_v3; + }; +} LDKNetAddress; + +typedef struct LDKCVec_NetAddressZ { + struct LDKNetAddress *data; + uintptr_t datalen; +} LDKCVec_NetAddressZ; + + + +/** + * Information received in the latest node_announcement from this node. + */ +typedef struct MUST_USE_STRUCT LDKNodeAnnouncementInfo { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeNodeAnnouncementInfo *inner; + bool is_owned; +} LDKNodeAnnouncementInfo; + +typedef union LDKCResult_NodeAnnouncementInfoDecodeErrorZPtr { + struct LDKNodeAnnouncementInfo *result; + struct LDKDecodeError *err; +} LDKCResult_NodeAnnouncementInfoDecodeErrorZPtr; + +typedef struct LDKCResult_NodeAnnouncementInfoDecodeErrorZ { + union LDKCResult_NodeAnnouncementInfoDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_NodeAnnouncementInfoDecodeErrorZ; + +typedef struct LDKCVec_u64Z { + uint64_t *data; + uintptr_t datalen; +} LDKCVec_u64Z; + + + +/** + * Details about a node in the network, known from the network announcement. + */ +typedef struct MUST_USE_STRUCT LDKNodeInfo { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeNodeInfo *inner; + bool is_owned; +} LDKNodeInfo; + +typedef union LDKCResult_NodeInfoDecodeErrorZPtr { + struct LDKNodeInfo *result; + struct LDKDecodeError *err; +} LDKCResult_NodeInfoDecodeErrorZPtr; + +typedef struct LDKCResult_NodeInfoDecodeErrorZ { + union LDKCResult_NodeInfoDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_NodeInfoDecodeErrorZ; + + + +/** + * Represents the network as nodes and channels between them + */ +typedef struct MUST_USE_STRUCT LDKNetworkGraph { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeNetworkGraph *inner; + bool is_owned; +} LDKNetworkGraph; + +typedef union LDKCResult_NetworkGraphDecodeErrorZPtr { + struct LDKNetworkGraph *result; + struct LDKDecodeError *err; +} LDKCResult_NetworkGraphDecodeErrorZPtr; + +typedef struct LDKCResult_NetworkGraphDecodeErrorZ { + union LDKCResult_NetworkGraphDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_NetworkGraphDecodeErrorZ; + +typedef struct LDKC2Tuple_usizeTransactionZ { + uintptr_t a; + struct LDKTransaction b; +} LDKC2Tuple_usizeTransactionZ; + +typedef struct LDKCVec_C2Tuple_usizeTransactionZZ { + struct LDKC2Tuple_usizeTransactionZ *data; + uintptr_t datalen; +} LDKCVec_C2Tuple_usizeTransactionZZ; + +typedef union LDKCResult_NoneChannelMonitorUpdateErrZPtr { + /** + * Note that this value is always NULL, as there are no contents in the OK variant + */ + void *result; + enum LDKChannelMonitorUpdateErr *err; +} LDKCResult_NoneChannelMonitorUpdateErrZPtr; + +typedef struct LDKCResult_NoneChannelMonitorUpdateErrZ { + union LDKCResult_NoneChannelMonitorUpdateErrZPtr contents; + bool result_ok; +} LDKCResult_NoneChannelMonitorUpdateErrZ; + + + +/** + * Simple structure sent back by `chain::Watch` when an HTLC from a forward channel is detected on + * chain. Used to update the corresponding HTLC in the backward channel. Failing to pass the + * preimage claim backward will lead to loss of funds. + * + * [`chain::Watch`]: ../trait.Watch.html + */ +typedef struct MUST_USE_STRUCT LDKHTLCUpdate { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeHTLCUpdate *inner; + bool is_owned; +} LDKHTLCUpdate; + + + +/** + * A reference to a transaction output. + * + * Differs from bitcoin::blockdata::transaction::OutPoint as the index is a u16 instead of u32 + * due to LN's restrictions on index values. Should reduce (possibly) unsafe conversions this way. + */ +typedef struct MUST_USE_STRUCT LDKOutPoint { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeOutPoint *inner; + bool is_owned; +} LDKOutPoint; + +/** + * An event to be processed by the ChannelManager. + */ +typedef enum LDKMonitorEvent_Tag { + /** + * A monitor event containing an HTLCUpdate. + */ + LDKMonitorEvent_HTLCEvent, + /** + * A monitor event that the Channel's commitment transaction was broadcasted. + */ + LDKMonitorEvent_CommitmentTxBroadcasted, + /** + * Must be last for serialization purposes + */ + LDKMonitorEvent_Sentinel, +} LDKMonitorEvent_Tag; + +typedef struct MUST_USE_STRUCT LDKMonitorEvent { + LDKMonitorEvent_Tag tag; + union { + struct { + struct LDKHTLCUpdate htlc_event; + }; + struct { + struct LDKOutPoint commitment_tx_broadcasted; + }; + }; +} LDKMonitorEvent; + +typedef struct LDKCVec_MonitorEventZ { + struct LDKMonitorEvent *data; + uintptr_t datalen; +} LDKCVec_MonitorEventZ; + + + +/** + * Information about a spendable output to a P2WSH script. See + * SpendableOutputDescriptor::DelayedPaymentOutput for more details on how to spend this. + */ +typedef struct MUST_USE_STRUCT LDKDelayedPaymentOutputDescriptor { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeDelayedPaymentOutputDescriptor *inner; + bool is_owned; +} LDKDelayedPaymentOutputDescriptor; + + + +/** + * Information about a spendable output to our \"payment key\". See + * SpendableOutputDescriptor::StaticPaymentOutput for more details on how to spend this. + */ +typedef struct MUST_USE_STRUCT LDKStaticPaymentOutputDescriptor { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeStaticPaymentOutputDescriptor *inner; + bool is_owned; +} LDKStaticPaymentOutputDescriptor; + +/** + * When on-chain outputs are created by rust-lightning (which our counterparty is not able to + * claim at any point in the future) an event is generated which you must track and be able to + * spend on-chain. The information needed to do this is provided in this enum, including the + * outpoint describing which txid and output index is available, the full output which exists at + * that txid/index, and any keys or other information required to sign. + */ +typedef enum LDKSpendableOutputDescriptor_Tag { + /** + * An output to a script which was provided via KeysInterface directly, either from + * `get_destination_script()` or `get_shutdown_pubkey()`, thus you should already know how to + * spend it. No secret keys are provided as rust-lightning was never given any key. + * These may include outputs from a transaction punishing our counterparty or claiming an HTLC + * on-chain using the payment preimage or after it has timed out. + */ + LDKSpendableOutputDescriptor_StaticOutput, + /** + * An output to a P2WSH script which can be spent with a single signature after a CSV delay. + * + * The witness in the spending input should be: + * (MINIMALIF standard rule) + * + * Note that the nSequence field in the spending input must be set to to_self_delay + * (which means the transaction is not broadcastable until at least to_self_delay + * blocks after the outpoint confirms). + * + * These are generally the result of a \"revocable\" output to us, spendable only by us unless + * it is an output from an old state which we broadcast (which should never happen). + * + * To derive the delayed_payment key which is used to sign for this input, you must pass the + * holder delayed_payment_base_key (ie the private key which corresponds to the pubkey in + * Sign::pubkeys().delayed_payment_basepoint) and the provided per_commitment_point to + * chan_utils::derive_private_key. The public key can be generated without the secret key + * using chan_utils::derive_public_key and only the delayed_payment_basepoint which appears in + * Sign::pubkeys(). + * + * To derive the revocation_pubkey provided here (which is used in the witness + * script generation), you must pass the counterparty revocation_basepoint (which appears in the + * call to Sign::ready_channel) and the provided per_commitment point + * to chan_utils::derive_public_revocation_key. + * + * The witness script which is hashed and included in the output script_pubkey may be + * regenerated by passing the revocation_pubkey (derived as above), our delayed_payment pubkey + * (derived as above), and the to_self_delay contained here to + * chan_utils::get_revokeable_redeemscript. + */ + LDKSpendableOutputDescriptor_DelayedPaymentOutput, + /** + * An output to a P2WPKH, spendable exclusively by our payment key (ie the private key which + * corresponds to the public key in Sign::pubkeys().payment_point). + * The witness in the spending input, is, thus, simply: + * + * + * These are generally the result of our counterparty having broadcast the current state, + * allowing us to claim the non-HTLC-encumbered outputs immediately. + */ + LDKSpendableOutputDescriptor_StaticPaymentOutput, + /** + * Must be last for serialization purposes + */ + LDKSpendableOutputDescriptor_Sentinel, +} LDKSpendableOutputDescriptor_Tag; + +typedef struct LDKSpendableOutputDescriptor_LDKStaticOutput_Body { + struct LDKOutPoint outpoint; + struct LDKTxOut output; +} LDKSpendableOutputDescriptor_LDKStaticOutput_Body; + +typedef struct MUST_USE_STRUCT LDKSpendableOutputDescriptor { + LDKSpendableOutputDescriptor_Tag tag; + union { + LDKSpendableOutputDescriptor_LDKStaticOutput_Body static_output; + struct { + struct LDKDelayedPaymentOutputDescriptor delayed_payment_output; + }; + struct { + struct LDKStaticPaymentOutputDescriptor static_payment_output; + }; + }; +} LDKSpendableOutputDescriptor; + +typedef struct LDKCVec_SpendableOutputDescriptorZ { + struct LDKSpendableOutputDescriptor *data; + uintptr_t datalen; +} LDKCVec_SpendableOutputDescriptorZ; + +/** + * An Event which you should probably take some action in response to. + * + * Note that while Writeable and Readable are implemented for Event, you probably shouldn't use + * them directly as they don't round-trip exactly (for example FundingGenerationReady is never + * written as it makes no sense to respond to it after reconnecting to peers). + */ +typedef enum LDKEvent_Tag { + /** + * Used to indicate that the client should generate a funding transaction with the given + * parameters and then call ChannelManager::funding_transaction_generated. + * Generated in ChannelManager message handling. + * Note that *all inputs* in the funding transaction must spend SegWit outputs or your + * counterparty can steal your funds! + */ + LDKEvent_FundingGenerationReady, + /** + * Used to indicate that the client may now broadcast the funding transaction it created for a + * channel. Broadcasting such a transaction prior to this event may lead to our counterparty + * trivially stealing all funds in the funding transaction! + */ + LDKEvent_FundingBroadcastSafe, + /** + * Indicates we've received money! Just gotta dig out that payment preimage and feed it to + * ChannelManager::claim_funds to get it.... + * Note that if the preimage is not known or the amount paid is incorrect, you should call + * ChannelManager::fail_htlc_backwards to free up resources for this HTLC and avoid + * network congestion. + * The amount paid should be considered 'incorrect' when it is less than or more than twice + * the amount expected. + * If you fail to call either ChannelManager::claim_funds or + * ChannelManager::fail_htlc_backwards within the HTLC's timeout, the HTLC will be + * automatically failed. + */ + LDKEvent_PaymentReceived, + /** + * Indicates an outbound payment we made succeeded (ie it made it all the way to its target + * and we got back the payment preimage for it). + * Note that duplicative PaymentSent Events may be generated - it is your responsibility to + * deduplicate them by payment_preimage (which MUST be unique)! + */ + LDKEvent_PaymentSent, + /** + * Indicates an outbound payment we made failed. Probably some intermediary node dropped + * something. You may wish to retry with a different route. + * Note that duplicative PaymentFailed Events may be generated - it is your responsibility to + * deduplicate them by payment_hash (which MUST be unique)! + */ + LDKEvent_PaymentFailed, + /** + * Used to indicate that ChannelManager::process_pending_htlc_forwards should be called at a + * time in the future. + */ + LDKEvent_PendingHTLCsForwardable, + /** + * Used to indicate that an output was generated on-chain which you should know how to spend. + * Such an output will *not* ever be spent by rust-lightning, and are not at risk of your + * counterparty spending them due to some kind of timeout. Thus, you need to store them + * somewhere and spend them when you create on-chain transactions. + */ + LDKEvent_SpendableOutputs, + /** + * Must be last for serialization purposes + */ + LDKEvent_Sentinel, +} LDKEvent_Tag; + +typedef struct LDKEvent_LDKFundingGenerationReady_Body { + struct LDKThirtyTwoBytes temporary_channel_id; + uint64_t channel_value_satoshis; + struct LDKCVec_u8Z output_script; + uint64_t user_channel_id; +} LDKEvent_LDKFundingGenerationReady_Body; + +typedef struct LDKEvent_LDKFundingBroadcastSafe_Body { + struct LDKOutPoint funding_txo; + uint64_t user_channel_id; +} LDKEvent_LDKFundingBroadcastSafe_Body; + +typedef struct LDKEvent_LDKPaymentReceived_Body { + struct LDKThirtyTwoBytes payment_hash; + struct LDKThirtyTwoBytes payment_secret; + uint64_t amt; +} LDKEvent_LDKPaymentReceived_Body; + +typedef struct LDKEvent_LDKPaymentSent_Body { + struct LDKThirtyTwoBytes payment_preimage; +} LDKEvent_LDKPaymentSent_Body; + +typedef struct LDKEvent_LDKPaymentFailed_Body { + struct LDKThirtyTwoBytes payment_hash; + bool rejected_by_dest; +} LDKEvent_LDKPaymentFailed_Body; + +typedef struct LDKEvent_LDKPendingHTLCsForwardable_Body { + uint64_t time_forwardable; +} LDKEvent_LDKPendingHTLCsForwardable_Body; + +typedef struct LDKEvent_LDKSpendableOutputs_Body { + struct LDKCVec_SpendableOutputDescriptorZ outputs; +} LDKEvent_LDKSpendableOutputs_Body; + +typedef struct MUST_USE_STRUCT LDKEvent { + LDKEvent_Tag tag; + union { + LDKEvent_LDKFundingGenerationReady_Body funding_generation_ready; + LDKEvent_LDKFundingBroadcastSafe_Body funding_broadcast_safe; + LDKEvent_LDKPaymentReceived_Body payment_received; + LDKEvent_LDKPaymentSent_Body payment_sent; + LDKEvent_LDKPaymentFailed_Body payment_failed; + LDKEvent_LDKPendingHTLCsForwardable_Body pending_htl_cs_forwardable; + LDKEvent_LDKSpendableOutputs_Body spendable_outputs; + }; +} LDKEvent; + +typedef struct LDKCVec_EventZ { + struct LDKEvent *data; + uintptr_t datalen; +} LDKCVec_EventZ; + +typedef union LDKCResult_OutPointDecodeErrorZPtr { + struct LDKOutPoint *result; + struct LDKDecodeError *err; +} LDKCResult_OutPointDecodeErrorZPtr; + +typedef struct LDKCResult_OutPointDecodeErrorZ { + union LDKCResult_OutPointDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_OutPointDecodeErrorZ; + + + +/** + * An update generated by the underlying Channel itself which contains some new information the + * ChannelMonitor should be made aware of. + */ +typedef struct MUST_USE_STRUCT LDKChannelMonitorUpdate { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeChannelMonitorUpdate *inner; + bool is_owned; +} LDKChannelMonitorUpdate; + +typedef union LDKCResult_ChannelMonitorUpdateDecodeErrorZPtr { + struct LDKChannelMonitorUpdate *result; + struct LDKDecodeError *err; +} LDKCResult_ChannelMonitorUpdateDecodeErrorZPtr; + +typedef struct LDKCResult_ChannelMonitorUpdateDecodeErrorZ { + union LDKCResult_ChannelMonitorUpdateDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_ChannelMonitorUpdateDecodeErrorZ; + +typedef union LDKCResult_HTLCUpdateDecodeErrorZPtr { + struct LDKHTLCUpdate *result; + struct LDKDecodeError *err; +} LDKCResult_HTLCUpdateDecodeErrorZPtr; + +typedef struct LDKCResult_HTLCUpdateDecodeErrorZ { + union LDKCResult_HTLCUpdateDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_HTLCUpdateDecodeErrorZ; + + + +/** + * General Err type for ChannelMonitor actions. Generally, this implies that the data provided is + * inconsistent with the ChannelMonitor being called. eg for ChannelMonitor::update_monitor this + * means you tried to update a monitor for a different channel or the ChannelMonitorUpdate was + * corrupted. + * Contains a developer-readable error message. + */ +typedef struct MUST_USE_STRUCT LDKMonitorUpdateError { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeMonitorUpdateError *inner; + bool is_owned; +} LDKMonitorUpdateError; + +typedef union LDKCResult_NoneMonitorUpdateErrorZPtr { + /** + * Note that this value is always NULL, as there are no contents in the OK variant + */ + void *result; + struct LDKMonitorUpdateError *err; +} LDKCResult_NoneMonitorUpdateErrorZPtr; + +typedef struct LDKCResult_NoneMonitorUpdateErrorZ { + union LDKCResult_NoneMonitorUpdateErrorZPtr contents; + bool result_ok; +} LDKCResult_NoneMonitorUpdateErrorZ; + +typedef struct LDKC2Tuple_OutPointScriptZ { + struct LDKOutPoint a; + struct LDKCVec_u8Z b; +} LDKC2Tuple_OutPointScriptZ; + +typedef struct LDKCVec_TransactionZ { + struct LDKTransaction *data; + uintptr_t datalen; +} LDKCVec_TransactionZ; + +typedef struct LDKC2Tuple_u32TxOutZ { + uint32_t a; + struct LDKTxOut b; +} LDKC2Tuple_u32TxOutZ; + +typedef struct LDKCVec_C2Tuple_u32TxOutZZ { + struct LDKC2Tuple_u32TxOutZ *data; + uintptr_t datalen; +} LDKCVec_C2Tuple_u32TxOutZZ; + +typedef struct LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ { + struct LDKThirtyTwoBytes a; + struct LDKCVec_C2Tuple_u32TxOutZZ b; +} LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ; + +typedef struct LDKCVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ { + struct LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ *data; + uintptr_t datalen; +} LDKCVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ; + +typedef struct LDKC2Tuple_SignatureCVec_SignatureZZ { + struct LDKSignature a; + struct LDKCVec_SignatureZ b; +} LDKC2Tuple_SignatureCVec_SignatureZZ; + +typedef union LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZPtr { + struct LDKC2Tuple_SignatureCVec_SignatureZZ *result; + /** + * Note that this value is always NULL, as there are no contents in the Err variant + */ + void *err; +} LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZPtr; + +typedef struct LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ { + union LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZPtr contents; + bool result_ok; +} LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ; + +typedef union LDKCResult_SignatureNoneZPtr { + struct LDKSignature *result; + /** + * Note that this value is always NULL, as there are no contents in the Err variant + */ + void *err; +} LDKCResult_SignatureNoneZPtr; + +typedef struct LDKCResult_SignatureNoneZ { + union LDKCResult_SignatureNoneZPtr contents; + bool result_ok; +} LDKCResult_SignatureNoneZ; + + + +/** + * The unsigned part of a channel_announcement + */ +typedef struct MUST_USE_STRUCT LDKUnsignedChannelAnnouncement { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeUnsignedChannelAnnouncement *inner; + bool is_owned; +} LDKUnsignedChannelAnnouncement; + +/** + * A trait to sign lightning channel transactions as described in BOLT 3. + * + * Signing services could be implemented on a hardware wallet. In this case, + * the current Sign would be a front-end on top of a communication + * channel connected to your secure device and lightning key material wouldn't + * reside on a hot server. Nevertheless, a this deployment would still need + * to trust the ChannelManager to avoid loss of funds as this latest component + * could ask to sign commitment transaction with HTLCs paying to attacker pubkeys. + * + * A more secure iteration would be to use hashlock (or payment points) to pair + * invoice/incoming HTLCs with outgoing HTLCs to implement a no-trust-ChannelManager + * at the price of more state and computation on the hardware wallet side. In the future, + * we are looking forward to design such interface. + * + * In any case, ChannelMonitor or fallback watchtowers are always going to be trusted + * to act, as liveness and breach reply correctness are always going to be hard requirements + * of LN security model, orthogonal of key management issues. + */ +typedef struct LDKSign { + void *this_arg; + /** + * Gets the per-commitment point for a specific commitment number + * + * Note that the commitment number starts at (1 << 48) - 1 and counts backwards. + */ + struct LDKPublicKey (*get_per_commitment_point)(const void *this_arg, uint64_t idx); + /** + * Gets the commitment secret for a specific commitment number as part of the revocation process + * + * An external signer implementation should error here if the commitment was already signed + * and should refuse to sign it in the future. + * + * May be called more than once for the same index. + * + * Note that the commitment number starts at (1 << 48) - 1 and counts backwards. + */ + struct LDKThirtyTwoBytes (*release_commitment_secret)(const void *this_arg, uint64_t idx); + /** + * Gets the holder's channel public keys and basepoints + */ + struct LDKChannelPublicKeys pubkeys; + /** + * Fill in the pubkeys field as a reference to it will be given to Rust after this returns + * Note that this takes a pointer to this object, not the this_ptr like other methods do + * This function pointer may be NULL if pubkeys is filled in when this object is created and never needs updating. + */ + void (*set_pubkeys)(const struct LDKSign*NONNULL_PTR ); + /** + * Gets an arbitrary identifier describing the set of keys which are provided back to you in + * some SpendableOutputDescriptor types. This should be sufficient to identify this + * Sign object uniquely and lookup or re-derive its keys. + */ + struct LDKThirtyTwoBytes (*channel_keys_id)(const void *this_arg); + /** + * Create a signature for a counterparty's commitment transaction and associated HTLC transactions. + * + * Note that if signing fails or is rejected, the channel will be force-closed. + */ + struct LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ (*sign_counterparty_commitment)(const void *this_arg, const struct LDKCommitmentTransaction *NONNULL_PTR commitment_tx); + /** + * Create a signatures for a holder's commitment transaction and its claiming HTLC transactions. + * This will only ever be called with a non-revoked commitment_tx. This will be called with the + * latest commitment_tx when we initiate a force-close. + * This will be called with the previous latest, just to get claiming HTLC signatures, if we are + * reacting to a ChannelMonitor replica that decided to broadcast before it had been updated to + * the latest. + * This may be called multiple times for the same transaction. + * + * An external signer implementation should check that the commitment has not been revoked. + * + * May return Err if key derivation fails. Callers, such as ChannelMonitor, will panic in such a case. + */ + struct LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ (*sign_holder_commitment_and_htlcs)(const void *this_arg, const struct LDKHolderCommitmentTransaction *NONNULL_PTR commitment_tx); + /** + * Create a signature for the given input in a transaction spending an HTLC or commitment + * transaction output when our counterparty broadcasts an old state. + * + * A justice transaction may claim multiples outputs at the same time if timelocks are + * similar, but only a signature for the input at index `input` should be signed for here. + * It may be called multiples time for same output(s) if a fee-bump is needed with regards + * to an upcoming timelock expiration. + * + * Amount is value of the output spent by this input, committed to in the BIP 143 signature. + * + * per_commitment_key is revocation secret which was provided by our counterparty when they + * revoked the state which they eventually broadcast. It's not a _holder_ secret key and does + * not allow the spending of any funds by itself (you need our holder revocation_secret to do + * so). + * + * htlc holds HTLC elements (hash, timelock) if the output being spent is a HTLC output, thus + * changing the format of the witness script (which is committed to in the BIP 143 + * signatures). + */ + struct LDKCResult_SignatureNoneZ (*sign_justice_transaction)(const void *this_arg, struct LDKTransaction justice_tx, uintptr_t input, uint64_t amount, const uint8_t (*per_commitment_key)[32], const struct LDKHTLCOutputInCommitment *NONNULL_PTR htlc); + /** + * Create a signature for a claiming transaction for a HTLC output on a counterparty's commitment + * transaction, either offered or received. + * + * Such a transaction may claim multiples offered outputs at same time if we know the + * preimage for each when we create it, but only the input at index `input` should be + * signed for here. It may be called multiple times for same output(s) if a fee-bump is + * needed with regards to an upcoming timelock expiration. + * + * Witness_script is either a offered or received script as defined in BOLT3 for HTLC + * outputs. + * + * Amount is value of the output spent by this input, committed to in the BIP 143 signature. + * + * Per_commitment_point is the dynamic point corresponding to the channel state + * detected onchain. It has been generated by our counterparty and is used to derive + * channel state keys, which are then included in the witness script and committed to in the + * BIP 143 signature. + */ + struct LDKCResult_SignatureNoneZ (*sign_counterparty_htlc_transaction)(const void *this_arg, struct LDKTransaction htlc_tx, uintptr_t input, uint64_t amount, struct LDKPublicKey per_commitment_point, const struct LDKHTLCOutputInCommitment *NONNULL_PTR htlc); + /** + * Create a signature for a (proposed) closing transaction. + * + * Note that, due to rounding, there may be one \"missing\" satoshi, and either party may have + * chosen to forgo their output as dust. + */ + struct LDKCResult_SignatureNoneZ (*sign_closing_transaction)(const void *this_arg, struct LDKTransaction closing_tx); + /** + * Signs a channel announcement message with our funding key, proving it comes from one + * of the channel participants. + * + * Note that if this fails or is rejected, the channel will not be publicly announced and + * our counterparty may (though likely will not) close the channel on us for violating the + * protocol. + */ + struct LDKCResult_SignatureNoneZ (*sign_channel_announcement)(const void *this_arg, const struct LDKUnsignedChannelAnnouncement *NONNULL_PTR msg); + /** + * Set the counterparty static channel data, including basepoints, + * counterparty_selected/holder_selected_contest_delay and funding outpoint. + * This is done as soon as the funding outpoint is known. Since these are static channel data, + * they MUST NOT be allowed to change to different values once set. + * + * channel_parameters.is_populated() MUST be true. + * + * We bind holder_selected_contest_delay late here for API convenience. + * + * Will be called before any signatures are applied. + */ + void (*ready_channel)(void *this_arg, const struct LDKChannelTransactionParameters *NONNULL_PTR channel_parameters); + void *(*clone)(const void *this_arg); + struct LDKCVec_u8Z (*write)(const void *this_arg); + void (*free)(void *this_arg); +} LDKSign; + + + +/** + * A ChannelMonitor handles chain events (blocks connected and disconnected) and generates + * on-chain transactions to ensure no loss of funds occurs. + * + * You MUST ensure that no ChannelMonitors for a given channel anywhere contain out-of-date + * information and are actively monitoring the chain. + * + * Pending Events or updated HTLCs which have not yet been read out by + * get_and_clear_pending_monitor_events or get_and_clear_pending_events are serialized to disk and + * reloaded at deserialize-time. Thus, you must ensure that, when handling events, all events + * gotten are fully handled before re-serializing the new state. + * + * Note that the deserializer is only implemented for (BlockHash, ChannelMonitor), which + * tells you the last block hash which was block_connect()ed. You MUST rescan any blocks along + * the \"reorg path\" (ie disconnecting blocks until you find a common ancestor from both the + * returned block hash and the the current chain and then reconnecting blocks to get to the + * best chain) upon deserializing the object! + */ +typedef struct MUST_USE_STRUCT LDKChannelMonitor { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeChannelMonitor *inner; + bool is_owned; +} LDKChannelMonitor; + +typedef struct LDKC2Tuple_BlockHashChannelMonitorZ { + struct LDKThirtyTwoBytes a; + struct LDKChannelMonitor b; +} LDKC2Tuple_BlockHashChannelMonitorZ; + +typedef union LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZPtr { + struct LDKC2Tuple_BlockHashChannelMonitorZ *result; + struct LDKDecodeError *err; +} LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZPtr; + +typedef struct LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ { + union LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ; + +typedef union LDKCResult_TxOutAccessErrorZPtr { + struct LDKTxOut *result; + enum LDKAccessError *err; +} LDKCResult_TxOutAccessErrorZPtr; + +typedef struct LDKCResult_TxOutAccessErrorZ { + union LDKCResult_TxOutAccessErrorZPtr contents; + bool result_ok; +} LDKCResult_TxOutAccessErrorZ; + +/** + * A Rust str object, ie a reference to a UTF8-valid string. + * This is *not* null-terminated so cannot be used directly as a C string! + */ +typedef struct LDKStr { + const uint8_t *chars; + uintptr_t len; +} LDKStr; + +/** + * Indicates an error on the client's part (usually some variant of attempting to use too-low or + * too-high values) + */ +typedef enum LDKAPIError_Tag { + /** + * Indicates the API was wholly misused (see err for more). Cases where these can be returned + * are documented, but generally indicates some precondition of a function was violated. + */ + LDKAPIError_APIMisuseError, + /** + * Due to a high feerate, we were unable to complete the request. + * For example, this may be returned if the feerate implies we cannot open a channel at the + * requested value, but opening a larger channel would succeed. + */ + LDKAPIError_FeeRateTooHigh, + /** + * A malformed Route was provided (eg overflowed value, node id mismatch, overly-looped route, + * too-many-hops, etc). + */ + LDKAPIError_RouteError, + /** + * We were unable to complete the request as the Channel required to do so is unable to + * complete the request (or was not found). This can take many forms, including disconnected + * peer, channel at capacity, channel shutting down, etc. + */ + LDKAPIError_ChannelUnavailable, + /** + * An attempt to call watch/update_channel returned an Err (ie you did this!), causing the + * attempted action to fail. + */ + LDKAPIError_MonitorUpdateFailed, + /** + * Must be last for serialization purposes + */ + LDKAPIError_Sentinel, +} LDKAPIError_Tag; + +typedef struct LDKAPIError_LDKAPIMisuseError_Body { + struct LDKCVec_u8Z err; +} LDKAPIError_LDKAPIMisuseError_Body; + +typedef struct LDKAPIError_LDKFeeRateTooHigh_Body { + struct LDKCVec_u8Z err; + uint32_t feerate; +} LDKAPIError_LDKFeeRateTooHigh_Body; + +typedef struct LDKAPIError_LDKRouteError_Body { + struct LDKStr err; +} LDKAPIError_LDKRouteError_Body; + +typedef struct LDKAPIError_LDKChannelUnavailable_Body { + struct LDKCVec_u8Z err; +} LDKAPIError_LDKChannelUnavailable_Body; + +typedef struct MUST_USE_STRUCT LDKAPIError { + LDKAPIError_Tag tag; + union { + LDKAPIError_LDKAPIMisuseError_Body api_misuse_error; + LDKAPIError_LDKFeeRateTooHigh_Body fee_rate_too_high; + LDKAPIError_LDKRouteError_Body route_error; + LDKAPIError_LDKChannelUnavailable_Body channel_unavailable; + }; +} LDKAPIError; + +typedef union LDKCResult_NoneAPIErrorZPtr { + /** + * Note that this value is always NULL, as there are no contents in the OK variant + */ + void *result; + struct LDKAPIError *err; +} LDKCResult_NoneAPIErrorZPtr; + +typedef struct LDKCResult_NoneAPIErrorZ { + union LDKCResult_NoneAPIErrorZPtr contents; + bool result_ok; +} LDKCResult_NoneAPIErrorZ; + +typedef struct LDKCVec_CResult_NoneAPIErrorZZ { + struct LDKCResult_NoneAPIErrorZ *data; + uintptr_t datalen; +} LDKCVec_CResult_NoneAPIErrorZZ; + +typedef struct LDKCVec_APIErrorZ { + struct LDKAPIError *data; + uintptr_t datalen; +} LDKCVec_APIErrorZ; + + + +/** + * Details of a channel, as returned by ChannelManager::list_channels and ChannelManager::list_usable_channels + */ +typedef struct MUST_USE_STRUCT LDKChannelDetails { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeChannelDetails *inner; + bool is_owned; +} LDKChannelDetails; + +typedef struct LDKCVec_ChannelDetailsZ { + struct LDKChannelDetails *data; + uintptr_t datalen; +} LDKCVec_ChannelDetailsZ; + +/** + * If a payment fails to send, it can be in one of several states. This enum is returned as the + * Err() type describing which state the payment is in, see the description of individual enum + * states for more. + */ +typedef enum LDKPaymentSendFailure_Tag { + /** + * A parameter which was passed to send_payment was invalid, preventing us from attempting to + * send the payment at all. No channel state has been changed or messages sent to peers, and + * once you've changed the parameter at error, you can freely retry the payment in full. + */ + LDKPaymentSendFailure_ParameterError, + /** + * A parameter in a single path which was passed to send_payment was invalid, preventing us + * from attempting to send the payment at all. No channel state has been changed or messages + * sent to peers, and once you've changed the parameter at error, you can freely retry the + * payment in full. + * + * The results here are ordered the same as the paths in the route object which was passed to + * send_payment. + */ + LDKPaymentSendFailure_PathParameterError, + /** + * All paths which were attempted failed to send, with no channel state change taking place. + * You can freely retry the payment in full (though you probably want to do so over different + * paths than the ones selected). + */ + LDKPaymentSendFailure_AllFailedRetrySafe, + /** + * Some paths which were attempted failed to send, though possibly not all. At least some + * paths have irrevocably committed to the HTLC and retrying the payment in full would result + * in over-/re-payment. + * + * The results here are ordered the same as the paths in the route object which was passed to + * send_payment, and any Errs which are not APIError::MonitorUpdateFailed can be safely + * retried (though there is currently no API with which to do so). + * + * Any entries which contain Err(APIError::MonitorUpdateFailed) or Ok(()) MUST NOT be retried + * as they will result in over-/re-payment. These HTLCs all either successfully sent (in the + * case of Ok(())) or will send once channel_monitor_updated is called on the next-hop channel + * with the latest update_id. + */ + LDKPaymentSendFailure_PartialFailure, + /** + * Must be last for serialization purposes + */ + LDKPaymentSendFailure_Sentinel, +} LDKPaymentSendFailure_Tag; + +typedef struct MUST_USE_STRUCT LDKPaymentSendFailure { + LDKPaymentSendFailure_Tag tag; + union { + struct { + struct LDKAPIError parameter_error; + }; + struct { + struct LDKCVec_CResult_NoneAPIErrorZZ path_parameter_error; + }; + struct { + struct LDKCVec_APIErrorZ all_failed_retry_safe; + }; + struct { + struct LDKCVec_CResult_NoneAPIErrorZZ partial_failure; + }; + }; +} LDKPaymentSendFailure; + +typedef union LDKCResult_NonePaymentSendFailureZPtr { + /** + * Note that this value is always NULL, as there are no contents in the OK variant + */ + void *result; + struct LDKPaymentSendFailure *err; +} LDKCResult_NonePaymentSendFailureZPtr; + +typedef struct LDKCResult_NonePaymentSendFailureZ { + union LDKCResult_NonePaymentSendFailureZPtr contents; + bool result_ok; +} LDKCResult_NonePaymentSendFailureZ; + +typedef struct LDKCVec_ChannelMonitorZ { + struct LDKChannelMonitor *data; + uintptr_t datalen; +} LDKCVec_ChannelMonitorZ; + +/** + * The `Watch` trait defines behavior for watching on-chain activity pertaining to channels as + * blocks are connected and disconnected. + * + * Each channel is associated with a [`ChannelMonitor`]. Implementations of this trait are + * responsible for maintaining a set of monitors such that they can be updated accordingly as + * channel state changes and HTLCs are resolved. See method documentation for specific + * requirements. + * + * Implementations **must** ensure that updates are successfully applied and persisted upon method + * completion. If an update fails with a [`PermanentFailure`], then it must immediately shut down + * without taking any further action such as persisting the current state. + * + * If an implementation maintains multiple instances of a channel's monitor (e.g., by storing + * backup copies), then it must ensure that updates are applied across all instances. Otherwise, it + * could result in a revoked transaction being broadcast, allowing the counterparty to claim all + * funds in the channel. See [`ChannelMonitorUpdateErr`] for more details about how to handle + * multiple instances. + * + * [`ChannelMonitor`]: channelmonitor/struct.ChannelMonitor.html + * [`ChannelMonitorUpdateErr`]: channelmonitor/enum.ChannelMonitorUpdateErr.html + * [`PermanentFailure`]: channelmonitor/enum.ChannelMonitorUpdateErr.html#variant.PermanentFailure + */ +typedef struct LDKWatch { + void *this_arg; + /** + * Watches a channel identified by `funding_txo` using `monitor`. + * + * Implementations are responsible for watching the chain for the funding transaction along + * with any spends of outputs returned by [`get_outputs_to_watch`]. In practice, this means + * calling [`block_connected`] and [`block_disconnected`] on the monitor. + * + * [`get_outputs_to_watch`]: channelmonitor/struct.ChannelMonitor.html#method.get_outputs_to_watch + * [`block_connected`]: channelmonitor/struct.ChannelMonitor.html#method.block_connected + * [`block_disconnected`]: channelmonitor/struct.ChannelMonitor.html#method.block_disconnected + */ + struct LDKCResult_NoneChannelMonitorUpdateErrZ (*watch_channel)(const void *this_arg, struct LDKOutPoint funding_txo, struct LDKChannelMonitor monitor); + /** + * Updates a channel identified by `funding_txo` by applying `update` to its monitor. + * + * Implementations must call [`update_monitor`] with the given update. See + * [`ChannelMonitorUpdateErr`] for invariants around returning an error. + * + * [`update_monitor`]: channelmonitor/struct.ChannelMonitor.html#method.update_monitor + * [`ChannelMonitorUpdateErr`]: channelmonitor/enum.ChannelMonitorUpdateErr.html + */ + struct LDKCResult_NoneChannelMonitorUpdateErrZ (*update_channel)(const void *this_arg, struct LDKOutPoint funding_txo, struct LDKChannelMonitorUpdate update); + /** + * Returns any monitor events since the last call. Subsequent calls must only return new + * events. + */ + struct LDKCVec_MonitorEventZ (*release_pending_monitor_events)(const void *this_arg); + void (*free)(void *this_arg); +} LDKWatch; + +/** + * An interface to send a transaction to the Bitcoin network. + */ +typedef struct LDKBroadcasterInterface { + void *this_arg; + /** + * Sends a transaction out to (hopefully) be mined. + */ + void (*broadcast_transaction)(const void *this_arg, struct LDKTransaction tx); + void (*free)(void *this_arg); +} LDKBroadcasterInterface; + +typedef union LDKCResult_SignDecodeErrorZPtr { + struct LDKSign *result; + struct LDKDecodeError *err; +} LDKCResult_SignDecodeErrorZPtr; + +typedef struct LDKCResult_SignDecodeErrorZ { + union LDKCResult_SignDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_SignDecodeErrorZ; + +typedef struct LDKu8slice { + const uint8_t *data; + uintptr_t datalen; +} LDKu8slice; + +/** + * A trait to describe an object which can get user secrets and key material. + */ +typedef struct LDKKeysInterface { + void *this_arg; + /** + * Get node secret key (aka node_id or network_key). + * + * This method must return the same value each time it is called. + */ + struct LDKSecretKey (*get_node_secret)(const void *this_arg); + /** + * Get a script pubkey which we send funds to when claiming on-chain contestable outputs. + * + * This method should return a different value each time it is called, to avoid linking + * on-chain funds across channels as controlled to the same user. + */ + struct LDKCVec_u8Z (*get_destination_script)(const void *this_arg); + /** + * Get a public key which we will send funds to (in the form of a P2WPKH output) when closing + * a channel. + * + * This method should return a different value each time it is called, to avoid linking + * on-chain funds across channels as controlled to the same user. + */ + struct LDKPublicKey (*get_shutdown_pubkey)(const void *this_arg); + /** + * Get a new set of Sign for per-channel secrets. These MUST be unique even if you + * restarted with some stale data! + * + * This method must return a different value each time it is called. + */ + struct LDKSign (*get_channel_signer)(const void *this_arg, bool inbound, uint64_t channel_value_satoshis); + /** + * Gets a unique, cryptographically-secure, random 32 byte value. This is used for encrypting + * onion packets and for temporary channel IDs. There is no requirement that these be + * persisted anywhere, though they must be unique across restarts. + * + * This method must return a different value each time it is called. + */ + struct LDKThirtyTwoBytes (*get_secure_random_bytes)(const void *this_arg); + /** + * Reads a `Signer` for this `KeysInterface` from the given input stream. + * This is only called during deserialization of other objects which contain + * `Sign`-implementing objects (ie `ChannelMonitor`s and `ChannelManager`s). + * The bytes are exactly those which `::write()` writes, and + * contain no versioning scheme. You may wish to include your own version prefix and ensure + * you've read all of the provided bytes to ensure no corruption occurred. + */ + struct LDKCResult_SignDecodeErrorZ (*read_chan_signer)(const void *this_arg, struct LDKu8slice reader); + void (*free)(void *this_arg); +} LDKKeysInterface; + +/** + * A trait which should be implemented to provide feerate information on a number of time + * horizons. + * + * Note that all of the functions implemented here *must* be reentrant-safe (obviously - they're + * called from inside the library in response to chain events, P2P events, or timer events). + */ +typedef struct LDKFeeEstimator { + void *this_arg; + /** + * Gets estimated satoshis of fee required per 1000 Weight-Units. + * + * Must be no smaller than 253 (ie 1 satoshi-per-byte rounded up to ensure later round-downs + * don't put us below 1 satoshi-per-byte). + * + * This translates to: + * * satoshis-per-byte * 250 + * * ceil(satoshis-per-kbyte / 4) + */ + uint32_t (*get_est_sat_per_1000_weight)(const void *this_arg, enum LDKConfirmationTarget confirmation_target); + void (*free)(void *this_arg); +} LDKFeeEstimator; + +/** + * A trait encapsulating the operations required of a logger + */ +typedef struct LDKLogger { + void *this_arg; + /** + * Logs the `Record` + */ + void (*log)(const void *this_arg, const char *record); + void (*free)(void *this_arg); +} LDKLogger; + + + +/** + * Manager which keeps track of a number of channels and sends messages to the appropriate + * channel, also tracking HTLC preimages and forwarding onion packets appropriately. + * + * Implements ChannelMessageHandler, handling the multi-channel parts and passing things through + * to individual Channels. + * + * Implements Writeable to write out all channel state to disk. Implies peer_disconnected() for + * all peers during write/read (though does not modify this instance, only the instance being + * serialized). This will result in any channels which have not yet exchanged funding_created (ie + * called funding_transaction_generated for outbound channels). + * + * Note that you can be a bit lazier about writing out ChannelManager than you can be with + * ChannelMonitors. With ChannelMonitors you MUST write each monitor update out to disk before + * returning from chain::Watch::watch_/update_channel, with ChannelManagers, writing updates + * happens out-of-band (and will prevent any other ChannelManager operations from occurring during + * the serialization process). If the deserialized version is out-of-date compared to the + * ChannelMonitors passed by reference to read(), those channels will be force-closed based on the + * ChannelMonitor state and no funds will be lost (mod on-chain transaction fees). + * + * Note that the deserializer is only implemented for (BlockHash, ChannelManager), which + * tells you the last block hash which was block_connect()ed. You MUST rescan any blocks along + * the \"reorg path\" (ie call block_disconnected() until you get to a common block and then call + * block_connected() to step towards your best block) upon deserialization before using the + * object! + * + * Note that ChannelManager is responsible for tracking liveness of its channels and generating + * ChannelUpdate messages informing peers that the channel is temporarily disabled. To avoid + * spam due to quick disconnection/reconnection, updates are not sent until the channel has been + * offline for a full minute. In order to track this, you must call + * timer_chan_freshness_every_min roughly once per minute, though it doesn't have to be perfect. + * + * Rather than using a plain ChannelManager, it is preferable to use either a SimpleArcChannelManager + * a SimpleRefChannelManager, for conciseness. See their documentation for more details, but + * essentially you should default to using a SimpleRefChannelManager, and use a + * SimpleArcChannelManager when you require a ChannelManager with a static lifetime, such as when + * you're using lightning-net-tokio. + */ +typedef struct MUST_USE_STRUCT LDKChannelManager { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeChannelManager *inner; + bool is_owned; +} LDKChannelManager; + +typedef struct LDKC2Tuple_BlockHashChannelManagerZ { + struct LDKThirtyTwoBytes a; + struct LDKChannelManager b; +} LDKC2Tuple_BlockHashChannelManagerZ; + +typedef union LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZPtr { + struct LDKC2Tuple_BlockHashChannelManagerZ *result; + struct LDKDecodeError *err; +} LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZPtr; + +typedef struct LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ { + union LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ; + +typedef union LDKCResult_SpendableOutputDescriptorDecodeErrorZPtr { + struct LDKSpendableOutputDescriptor *result; + struct LDKDecodeError *err; +} LDKCResult_SpendableOutputDescriptorDecodeErrorZPtr; + +typedef struct LDKCResult_SpendableOutputDescriptorDecodeErrorZ { + union LDKCResult_SpendableOutputDescriptorDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_SpendableOutputDescriptorDecodeErrorZ; + +typedef struct LDKCVec_CVec_u8ZZ { + struct LDKCVec_u8Z *data; + uintptr_t datalen; +} LDKCVec_CVec_u8ZZ; + +typedef union LDKCResult_CVec_CVec_u8ZZNoneZPtr { + struct LDKCVec_CVec_u8ZZ *result; + /** + * Note that this value is always NULL, as there are no contents in the Err variant + */ + void *err; +} LDKCResult_CVec_CVec_u8ZZNoneZPtr; + +typedef struct LDKCResult_CVec_CVec_u8ZZNoneZ { + union LDKCResult_CVec_CVec_u8ZZNoneZPtr contents; + bool result_ok; +} LDKCResult_CVec_CVec_u8ZZNoneZ; + + + +/** + * A simple implementation of Sign that just keeps the private keys in memory. + * + * This implementation performs no policy checks and is insufficient by itself as + * a secure external signer. + */ +typedef struct MUST_USE_STRUCT LDKInMemorySigner { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeInMemorySigner *inner; + bool is_owned; +} LDKInMemorySigner; + +typedef union LDKCResult_InMemorySignerDecodeErrorZPtr { + struct LDKInMemorySigner *result; + struct LDKDecodeError *err; +} LDKCResult_InMemorySignerDecodeErrorZPtr; + +typedef struct LDKCResult_InMemorySignerDecodeErrorZ { + union LDKCResult_InMemorySignerDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_InMemorySignerDecodeErrorZ; + +typedef struct LDKCVec_TxOutZ { + struct LDKTxOut *data; + uintptr_t datalen; +} LDKCVec_TxOutZ; + +typedef union LDKCResult_TransactionNoneZPtr { + struct LDKTransaction *result; + /** + * Note that this value is always NULL, as there are no contents in the Err variant + */ + void *err; +} LDKCResult_TransactionNoneZPtr; + +typedef struct LDKCResult_TransactionNoneZ { + union LDKCResult_TransactionNoneZPtr contents; + bool result_ok; +} LDKCResult_TransactionNoneZ; + + + +/** + * A hop in a route + */ +typedef struct MUST_USE_STRUCT LDKRouteHop { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeRouteHop *inner; + bool is_owned; +} LDKRouteHop; + +typedef struct LDKCVec_RouteHopZ { + struct LDKRouteHop *data; + uintptr_t datalen; +} LDKCVec_RouteHopZ; + +typedef struct LDKCVec_CVec_RouteHopZZ { + struct LDKCVec_RouteHopZ *data; + uintptr_t datalen; +} LDKCVec_CVec_RouteHopZZ; + + + +/** + * A route directs a payment from the sender (us) to the recipient. If the recipient supports MPP, + * it can take multiple paths. Each path is composed of one or more hops through the network. + */ +typedef struct MUST_USE_STRUCT LDKRoute { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeRoute *inner; + bool is_owned; +} LDKRoute; + +typedef union LDKCResult_RouteDecodeErrorZPtr { + struct LDKRoute *result; + struct LDKDecodeError *err; +} LDKCResult_RouteDecodeErrorZPtr; + +typedef struct LDKCResult_RouteDecodeErrorZ { + union LDKCResult_RouteDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_RouteDecodeErrorZ; + + + +/** + * A channel descriptor which provides a last-hop route to get_route + */ +typedef struct MUST_USE_STRUCT LDKRouteHint { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeRouteHint *inner; + bool is_owned; +} LDKRouteHint; + +typedef struct LDKCVec_RouteHintZ { + struct LDKRouteHint *data; + uintptr_t datalen; +} LDKCVec_RouteHintZ; + +typedef union LDKCResult_RouteLightningErrorZPtr { + struct LDKRoute *result; + struct LDKLightningError *err; +} LDKCResult_RouteLightningErrorZPtr; + +typedef struct LDKCResult_RouteLightningErrorZ { + union LDKCResult_RouteLightningErrorZPtr contents; + bool result_ok; +} LDKCResult_RouteLightningErrorZ; + +typedef union LDKCResult_NetAddressu8ZPtr { + struct LDKNetAddress *result; + uint8_t *err; +} LDKCResult_NetAddressu8ZPtr; + +typedef struct LDKCResult_NetAddressu8Z { + union LDKCResult_NetAddressu8ZPtr contents; + bool result_ok; +} LDKCResult_NetAddressu8Z; + +typedef union LDKCResult_CResult_NetAddressu8ZDecodeErrorZPtr { + struct LDKCResult_NetAddressu8Z *result; + struct LDKDecodeError *err; +} LDKCResult_CResult_NetAddressu8ZDecodeErrorZPtr; + +typedef struct LDKCResult_CResult_NetAddressu8ZDecodeErrorZ { + union LDKCResult_CResult_NetAddressu8ZDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_CResult_NetAddressu8ZDecodeErrorZ; + + + +/** + * An update_add_htlc message to be sent or received from a peer + */ +typedef struct MUST_USE_STRUCT LDKUpdateAddHTLC { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeUpdateAddHTLC *inner; + bool is_owned; +} LDKUpdateAddHTLC; + +typedef struct LDKCVec_UpdateAddHTLCZ { + struct LDKUpdateAddHTLC *data; + uintptr_t datalen; +} LDKCVec_UpdateAddHTLCZ; + + + +/** + * An update_fulfill_htlc message to be sent or received from a peer + */ +typedef struct MUST_USE_STRUCT LDKUpdateFulfillHTLC { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeUpdateFulfillHTLC *inner; + bool is_owned; +} LDKUpdateFulfillHTLC; + +typedef struct LDKCVec_UpdateFulfillHTLCZ { + struct LDKUpdateFulfillHTLC *data; + uintptr_t datalen; +} LDKCVec_UpdateFulfillHTLCZ; + + + +/** + * An update_fail_htlc message to be sent or received from a peer + */ +typedef struct MUST_USE_STRUCT LDKUpdateFailHTLC { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeUpdateFailHTLC *inner; + bool is_owned; +} LDKUpdateFailHTLC; + +typedef struct LDKCVec_UpdateFailHTLCZ { + struct LDKUpdateFailHTLC *data; + uintptr_t datalen; +} LDKCVec_UpdateFailHTLCZ; + + + +/** + * An update_fail_malformed_htlc message to be sent or received from a peer + */ +typedef struct MUST_USE_STRUCT LDKUpdateFailMalformedHTLC { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeUpdateFailMalformedHTLC *inner; + bool is_owned; +} LDKUpdateFailMalformedHTLC; + +typedef struct LDKCVec_UpdateFailMalformedHTLCZ { + struct LDKUpdateFailMalformedHTLC *data; + uintptr_t datalen; +} LDKCVec_UpdateFailMalformedHTLCZ; + +typedef union LDKCResult_AcceptChannelDecodeErrorZPtr { + struct LDKAcceptChannel *result; + struct LDKDecodeError *err; +} LDKCResult_AcceptChannelDecodeErrorZPtr; + +typedef struct LDKCResult_AcceptChannelDecodeErrorZ { + union LDKCResult_AcceptChannelDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_AcceptChannelDecodeErrorZ; + +typedef union LDKCResult_AnnouncementSignaturesDecodeErrorZPtr { + struct LDKAnnouncementSignatures *result; + struct LDKDecodeError *err; +} LDKCResult_AnnouncementSignaturesDecodeErrorZPtr; + +typedef struct LDKCResult_AnnouncementSignaturesDecodeErrorZ { + union LDKCResult_AnnouncementSignaturesDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_AnnouncementSignaturesDecodeErrorZ; + +typedef union LDKCResult_ChannelReestablishDecodeErrorZPtr { + struct LDKChannelReestablish *result; + struct LDKDecodeError *err; +} LDKCResult_ChannelReestablishDecodeErrorZPtr; + +typedef struct LDKCResult_ChannelReestablishDecodeErrorZ { + union LDKCResult_ChannelReestablishDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_ChannelReestablishDecodeErrorZ; + +typedef union LDKCResult_ClosingSignedDecodeErrorZPtr { + struct LDKClosingSigned *result; + struct LDKDecodeError *err; +} LDKCResult_ClosingSignedDecodeErrorZPtr; + +typedef struct LDKCResult_ClosingSignedDecodeErrorZ { + union LDKCResult_ClosingSignedDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_ClosingSignedDecodeErrorZ; + + + +/** + * A commitment_signed message to be sent or received from a peer + */ +typedef struct MUST_USE_STRUCT LDKCommitmentSigned { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeCommitmentSigned *inner; + bool is_owned; +} LDKCommitmentSigned; + +typedef union LDKCResult_CommitmentSignedDecodeErrorZPtr { + struct LDKCommitmentSigned *result; + struct LDKDecodeError *err; +} LDKCResult_CommitmentSignedDecodeErrorZPtr; + +typedef struct LDKCResult_CommitmentSignedDecodeErrorZ { + union LDKCResult_CommitmentSignedDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_CommitmentSignedDecodeErrorZ; + +typedef union LDKCResult_FundingCreatedDecodeErrorZPtr { + struct LDKFundingCreated *result; + struct LDKDecodeError *err; +} LDKCResult_FundingCreatedDecodeErrorZPtr; + +typedef struct LDKCResult_FundingCreatedDecodeErrorZ { + union LDKCResult_FundingCreatedDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_FundingCreatedDecodeErrorZ; + +typedef union LDKCResult_FundingSignedDecodeErrorZPtr { + struct LDKFundingSigned *result; + struct LDKDecodeError *err; +} LDKCResult_FundingSignedDecodeErrorZPtr; + +typedef struct LDKCResult_FundingSignedDecodeErrorZ { + union LDKCResult_FundingSignedDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_FundingSignedDecodeErrorZ; + +typedef union LDKCResult_FundingLockedDecodeErrorZPtr { + struct LDKFundingLocked *result; + struct LDKDecodeError *err; +} LDKCResult_FundingLockedDecodeErrorZPtr; + +typedef struct LDKCResult_FundingLockedDecodeErrorZ { + union LDKCResult_FundingLockedDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_FundingLockedDecodeErrorZ; + + + +/** + * An init message to be sent or received from a peer + */ +typedef struct MUST_USE_STRUCT LDKInit { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeInit *inner; + bool is_owned; +} LDKInit; + +typedef union LDKCResult_InitDecodeErrorZPtr { + struct LDKInit *result; + struct LDKDecodeError *err; +} LDKCResult_InitDecodeErrorZPtr; + +typedef struct LDKCResult_InitDecodeErrorZ { + union LDKCResult_InitDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_InitDecodeErrorZ; + +typedef union LDKCResult_OpenChannelDecodeErrorZPtr { + struct LDKOpenChannel *result; + struct LDKDecodeError *err; +} LDKCResult_OpenChannelDecodeErrorZPtr; + +typedef struct LDKCResult_OpenChannelDecodeErrorZ { + union LDKCResult_OpenChannelDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_OpenChannelDecodeErrorZ; + +typedef union LDKCResult_RevokeAndACKDecodeErrorZPtr { + struct LDKRevokeAndACK *result; + struct LDKDecodeError *err; +} LDKCResult_RevokeAndACKDecodeErrorZPtr; + +typedef struct LDKCResult_RevokeAndACKDecodeErrorZ { + union LDKCResult_RevokeAndACKDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_RevokeAndACKDecodeErrorZ; + +typedef union LDKCResult_ShutdownDecodeErrorZPtr { + struct LDKShutdown *result; + struct LDKDecodeError *err; +} LDKCResult_ShutdownDecodeErrorZPtr; + +typedef struct LDKCResult_ShutdownDecodeErrorZ { + union LDKCResult_ShutdownDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_ShutdownDecodeErrorZ; + +typedef union LDKCResult_UpdateFailHTLCDecodeErrorZPtr { + struct LDKUpdateFailHTLC *result; + struct LDKDecodeError *err; +} LDKCResult_UpdateFailHTLCDecodeErrorZPtr; + +typedef struct LDKCResult_UpdateFailHTLCDecodeErrorZ { + union LDKCResult_UpdateFailHTLCDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_UpdateFailHTLCDecodeErrorZ; + +typedef union LDKCResult_UpdateFailMalformedHTLCDecodeErrorZPtr { + struct LDKUpdateFailMalformedHTLC *result; + struct LDKDecodeError *err; +} LDKCResult_UpdateFailMalformedHTLCDecodeErrorZPtr; + +typedef struct LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ { + union LDKCResult_UpdateFailMalformedHTLCDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ; + + + +/** + * An update_fee message to be sent or received from a peer + */ +typedef struct MUST_USE_STRUCT LDKUpdateFee { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeUpdateFee *inner; + bool is_owned; +} LDKUpdateFee; + +typedef union LDKCResult_UpdateFeeDecodeErrorZPtr { + struct LDKUpdateFee *result; + struct LDKDecodeError *err; +} LDKCResult_UpdateFeeDecodeErrorZPtr; + +typedef struct LDKCResult_UpdateFeeDecodeErrorZ { + union LDKCResult_UpdateFeeDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_UpdateFeeDecodeErrorZ; + +typedef union LDKCResult_UpdateFulfillHTLCDecodeErrorZPtr { + struct LDKUpdateFulfillHTLC *result; + struct LDKDecodeError *err; +} LDKCResult_UpdateFulfillHTLCDecodeErrorZPtr; + +typedef struct LDKCResult_UpdateFulfillHTLCDecodeErrorZ { + union LDKCResult_UpdateFulfillHTLCDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_UpdateFulfillHTLCDecodeErrorZ; + +typedef union LDKCResult_UpdateAddHTLCDecodeErrorZPtr { + struct LDKUpdateAddHTLC *result; + struct LDKDecodeError *err; +} LDKCResult_UpdateAddHTLCDecodeErrorZPtr; + +typedef struct LDKCResult_UpdateAddHTLCDecodeErrorZ { + union LDKCResult_UpdateAddHTLCDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_UpdateAddHTLCDecodeErrorZ; + + + +/** + * A ping message to be sent or received from a peer + */ +typedef struct MUST_USE_STRUCT LDKPing { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativePing *inner; + bool is_owned; +} LDKPing; + +typedef union LDKCResult_PingDecodeErrorZPtr { + struct LDKPing *result; + struct LDKDecodeError *err; +} LDKCResult_PingDecodeErrorZPtr; + +typedef struct LDKCResult_PingDecodeErrorZ { + union LDKCResult_PingDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_PingDecodeErrorZ; + + + +/** + * A pong message to be sent or received from a peer + */ +typedef struct MUST_USE_STRUCT LDKPong { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativePong *inner; + bool is_owned; +} LDKPong; + +typedef union LDKCResult_PongDecodeErrorZPtr { + struct LDKPong *result; + struct LDKDecodeError *err; +} LDKCResult_PongDecodeErrorZPtr; + +typedef struct LDKCResult_PongDecodeErrorZ { + union LDKCResult_PongDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_PongDecodeErrorZ; + +typedef union LDKCResult_UnsignedChannelAnnouncementDecodeErrorZPtr { + struct LDKUnsignedChannelAnnouncement *result; + struct LDKDecodeError *err; +} LDKCResult_UnsignedChannelAnnouncementDecodeErrorZPtr; + +typedef struct LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ { + union LDKCResult_UnsignedChannelAnnouncementDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ; + +typedef union LDKCResult_ChannelAnnouncementDecodeErrorZPtr { + struct LDKChannelAnnouncement *result; + struct LDKDecodeError *err; +} LDKCResult_ChannelAnnouncementDecodeErrorZPtr; + +typedef struct LDKCResult_ChannelAnnouncementDecodeErrorZ { + union LDKCResult_ChannelAnnouncementDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_ChannelAnnouncementDecodeErrorZ; + + + +/** + * The unsigned part of a channel_update + */ +typedef struct MUST_USE_STRUCT LDKUnsignedChannelUpdate { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeUnsignedChannelUpdate *inner; + bool is_owned; +} LDKUnsignedChannelUpdate; + +typedef union LDKCResult_UnsignedChannelUpdateDecodeErrorZPtr { + struct LDKUnsignedChannelUpdate *result; + struct LDKDecodeError *err; +} LDKCResult_UnsignedChannelUpdateDecodeErrorZPtr; + +typedef struct LDKCResult_UnsignedChannelUpdateDecodeErrorZ { + union LDKCResult_UnsignedChannelUpdateDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_UnsignedChannelUpdateDecodeErrorZ; + +typedef union LDKCResult_ChannelUpdateDecodeErrorZPtr { + struct LDKChannelUpdate *result; + struct LDKDecodeError *err; +} LDKCResult_ChannelUpdateDecodeErrorZPtr; + +typedef struct LDKCResult_ChannelUpdateDecodeErrorZ { + union LDKCResult_ChannelUpdateDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_ChannelUpdateDecodeErrorZ; + +typedef union LDKCResult_ErrorMessageDecodeErrorZPtr { + struct LDKErrorMessage *result; + struct LDKDecodeError *err; +} LDKCResult_ErrorMessageDecodeErrorZPtr; + +typedef struct LDKCResult_ErrorMessageDecodeErrorZ { + union LDKCResult_ErrorMessageDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_ErrorMessageDecodeErrorZ; + + + +/** + * The unsigned part of a node_announcement + */ +typedef struct MUST_USE_STRUCT LDKUnsignedNodeAnnouncement { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeUnsignedNodeAnnouncement *inner; + bool is_owned; +} LDKUnsignedNodeAnnouncement; + +typedef union LDKCResult_UnsignedNodeAnnouncementDecodeErrorZPtr { + struct LDKUnsignedNodeAnnouncement *result; + struct LDKDecodeError *err; +} LDKCResult_UnsignedNodeAnnouncementDecodeErrorZPtr; + +typedef struct LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ { + union LDKCResult_UnsignedNodeAnnouncementDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ; + +typedef union LDKCResult_NodeAnnouncementDecodeErrorZPtr { + struct LDKNodeAnnouncement *result; + struct LDKDecodeError *err; +} LDKCResult_NodeAnnouncementDecodeErrorZPtr; + +typedef struct LDKCResult_NodeAnnouncementDecodeErrorZ { + union LDKCResult_NodeAnnouncementDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_NodeAnnouncementDecodeErrorZ; + +typedef union LDKCResult_QueryShortChannelIdsDecodeErrorZPtr { + struct LDKQueryShortChannelIds *result; + struct LDKDecodeError *err; +} LDKCResult_QueryShortChannelIdsDecodeErrorZPtr; + +typedef struct LDKCResult_QueryShortChannelIdsDecodeErrorZ { + union LDKCResult_QueryShortChannelIdsDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_QueryShortChannelIdsDecodeErrorZ; + + + +/** + * A reply_short_channel_ids_end message is sent as a reply to a + * query_short_channel_ids message. The query recipient makes a best + * effort to respond based on their local network view which may not be + * a perfect view of the network. + */ +typedef struct MUST_USE_STRUCT LDKReplyShortChannelIdsEnd { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeReplyShortChannelIdsEnd *inner; + bool is_owned; +} LDKReplyShortChannelIdsEnd; + +typedef union LDKCResult_ReplyShortChannelIdsEndDecodeErrorZPtr { + struct LDKReplyShortChannelIdsEnd *result; + struct LDKDecodeError *err; +} LDKCResult_ReplyShortChannelIdsEndDecodeErrorZPtr; + +typedef struct LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ { + union LDKCResult_ReplyShortChannelIdsEndDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ; + +typedef union LDKCResult_QueryChannelRangeDecodeErrorZPtr { + struct LDKQueryChannelRange *result; + struct LDKDecodeError *err; +} LDKCResult_QueryChannelRangeDecodeErrorZPtr; + +typedef struct LDKCResult_QueryChannelRangeDecodeErrorZ { + union LDKCResult_QueryChannelRangeDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_QueryChannelRangeDecodeErrorZ; + + + +/** + * A reply_channel_range message is a reply to a query_channel_range + * message. Multiple reply_channel_range messages can be sent in reply + * to a single query_channel_range message. The query recipient makes a + * best effort to respond based on their local network view which may + * not be a perfect view of the network. The short_channel_ids in the + * reply are encoded. We only support encoding_type=0 uncompressed + * serialization and do not support encoding_type=1 zlib serialization. + */ +typedef struct MUST_USE_STRUCT LDKReplyChannelRange { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeReplyChannelRange *inner; + bool is_owned; +} LDKReplyChannelRange; + +typedef union LDKCResult_ReplyChannelRangeDecodeErrorZPtr { + struct LDKReplyChannelRange *result; + struct LDKDecodeError *err; +} LDKCResult_ReplyChannelRangeDecodeErrorZPtr; + +typedef struct LDKCResult_ReplyChannelRangeDecodeErrorZ { + union LDKCResult_ReplyChannelRangeDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_ReplyChannelRangeDecodeErrorZ; + + + +/** + * A gossip_timestamp_filter message is used by a node to request + * gossip relay for messages in the requested time range when the + * gossip_queries feature has been negotiated. + */ +typedef struct MUST_USE_STRUCT LDKGossipTimestampFilter { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeGossipTimestampFilter *inner; + bool is_owned; +} LDKGossipTimestampFilter; + +typedef union LDKCResult_GossipTimestampFilterDecodeErrorZPtr { + struct LDKGossipTimestampFilter *result; + struct LDKDecodeError *err; +} LDKCResult_GossipTimestampFilterDecodeErrorZPtr; + +typedef struct LDKCResult_GossipTimestampFilterDecodeErrorZ { + union LDKCResult_GossipTimestampFilterDecodeErrorZPtr contents; + bool result_ok; +} LDKCResult_GossipTimestampFilterDecodeErrorZ; + +/** + * A trait indicating an object may generate message send events + */ +typedef struct LDKMessageSendEventsProvider { + void *this_arg; + /** + * Gets the list of pending events which were generated by previous actions, clearing the list + * in the process. + */ + struct LDKCVec_MessageSendEventZ (*get_and_clear_pending_msg_events)(const void *this_arg); + void (*free)(void *this_arg); +} LDKMessageSendEventsProvider; + +/** + * A trait indicating an object may generate events + */ +typedef struct LDKEventsProvider { + void *this_arg; + /** + * Gets the list of pending events which were generated by previous actions, clearing the list + * in the process. + */ + struct LDKCVec_EventZ (*get_and_clear_pending_events)(const void *this_arg); + void (*free)(void *this_arg); +} LDKEventsProvider; + + + +/** + * Configuration we set when applicable. + * + * Default::default() provides sane defaults. + */ +typedef struct MUST_USE_STRUCT LDKChannelHandshakeConfig { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeChannelHandshakeConfig *inner; + bool is_owned; +} LDKChannelHandshakeConfig; + + + +/** + * Optional channel limits which are applied during channel creation. + * + * These limits are only applied to our counterparty's limits, not our own. + * + * Use 0/::max_value() as appropriate to skip checking. + * + * Provides sane defaults for most configurations. + * + * Most additional limits are disabled except those with which specify a default in individual + * field documentation. Note that this may result in barely-usable channels, but since they + * are applied mostly only to incoming channels that's not much of a problem. + */ +typedef struct MUST_USE_STRUCT LDKChannelHandshakeLimits { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeChannelHandshakeLimits *inner; + bool is_owned; +} LDKChannelHandshakeLimits; + + + +/** + * Top-level config which holds ChannelHandshakeLimits and ChannelConfig. + * + * Default::default() provides sane defaults for most configurations + * (but currently with 0 relay fees!) + */ +typedef struct MUST_USE_STRUCT LDKUserConfig { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeUserConfig *inner; + bool is_owned; +} LDKUserConfig; + +/** + * The `Access` trait defines behavior for accessing chain data and state, such as blocks and + * UTXOs. + */ +typedef struct LDKAccess { + void *this_arg; + /** + * Returns the transaction output of a funding transaction encoded by [`short_channel_id`]. + * Returns an error if `genesis_hash` is for a different chain or if such a transaction output + * is unknown. + * + * [`short_channel_id`]: https://github.com/lightningnetwork/lightning-rfc/blob/master/07-routing-gossip.md#definition-of-short_channel_id + */ + struct LDKCResult_TxOutAccessErrorZ (*get_utxo)(const void *this_arg, const uint8_t (*genesis_hash)[32], uint64_t short_channel_id); + void (*free)(void *this_arg); +} LDKAccess; + +/** + * The `Listen` trait is used to be notified of when blocks have been connected or disconnected + * from the chain. + * + * Useful when needing to replay chain data upon startup or as new chain events occur. + */ +typedef struct LDKListen { + void *this_arg; + /** + * Notifies the listener that a block was added at the given height. + */ + void (*block_connected)(const void *this_arg, struct LDKu8slice block, uint32_t height); + /** + * Notifies the listener that a block was removed at the given height. + */ + void (*block_disconnected)(const void *this_arg, const uint8_t (*header)[80], uint32_t height); + void (*free)(void *this_arg); +} LDKListen; + +/** + * The `Filter` trait defines behavior for indicating chain activity of interest pertaining to + * channels. + * + * This is useful in order to have a [`Watch`] implementation convey to a chain source which + * transactions to be notified of. Notification may take the form of pre-filtering blocks or, in + * the case of [BIP 157]/[BIP 158], only fetching a block if the compact filter matches. If + * receiving full blocks from a chain source, any further filtering is unnecessary. + * + * After an output has been registered, subsequent block retrievals from the chain source must not + * exclude any transactions matching the new criteria nor any in-block descendants of such + * transactions. + * + * Note that use as part of a [`Watch`] implementation involves reentrancy. Therefore, the `Filter` + * should not block on I/O. Implementations should instead queue the newly monitored data to be + * processed later. Then, in order to block until the data has been processed, any `Watch` + * invocation that has called the `Filter` must return [`TemporaryFailure`]. + * + * [`Watch`]: trait.Watch.html + * [`TemporaryFailure`]: channelmonitor/enum.ChannelMonitorUpdateErr.html#variant.TemporaryFailure + * [BIP 157]: https://github.com/bitcoin/bips/blob/master/bip-0157.mediawiki + * [BIP 158]: https://github.com/bitcoin/bips/blob/master/bip-0158.mediawiki + */ +typedef struct LDKFilter { + void *this_arg; + /** + * Registers interest in a transaction with `txid` and having an output with `script_pubkey` as + * a spending condition. + */ + void (*register_tx)(const void *this_arg, const uint8_t (*txid)[32], struct LDKu8slice script_pubkey); + /** + * Registers interest in spends of a transaction output identified by `outpoint` having + * `script_pubkey` as the spending condition. + */ + void (*register_output)(const void *this_arg, const struct LDKOutPoint *NONNULL_PTR outpoint, struct LDKu8slice script_pubkey); + void (*free)(void *this_arg); +} LDKFilter; + +/** + * `Persist` defines behavior for persisting channel monitors: this could mean + * writing once to disk, and/or uploading to one or more backup services. + * + * Note that for every new monitor, you **must** persist the new `ChannelMonitor` + * to disk/backups. And, on every update, you **must** persist either the + * `ChannelMonitorUpdate` or the updated monitor itself. Otherwise, there is risk + * of situations such as revoking a transaction, then crashing before this + * revocation can be persisted, then unintentionally broadcasting a revoked + * transaction and losing money. This is a risk because previous channel states + * are toxic, so it's important that whatever channel state is persisted is + * kept up-to-date. + */ +typedef struct LDKPersist { + void *this_arg; + /** + * Persist a new channel's data. The data can be stored any way you want, but + * the identifier provided by Rust-Lightning is the channel's outpoint (and + * it is up to you to maintain a correct mapping between the outpoint and the + * stored channel data). Note that you **must** persist every new monitor to + * disk. See the `Persist` trait documentation for more details. + * + * See [`ChannelMonitor::serialize_for_disk`] for writing out a `ChannelMonitor`, + * and [`ChannelMonitorUpdateErr`] for requirements when returning errors. + * + * [`ChannelMonitor::serialize_for_disk`]: struct.ChannelMonitor.html#method.serialize_for_disk + * [`ChannelMonitorUpdateErr`]: enum.ChannelMonitorUpdateErr.html + */ + struct LDKCResult_NoneChannelMonitorUpdateErrZ (*persist_new_channel)(const void *this_arg, struct LDKOutPoint id, const struct LDKChannelMonitor *NONNULL_PTR data); + /** + * Update one channel's data. The provided `ChannelMonitor` has already + * applied the given update. + * + * Note that on every update, you **must** persist either the + * `ChannelMonitorUpdate` or the updated monitor itself to disk/backups. See + * the `Persist` trait documentation for more details. + * + * If an implementer chooses to persist the updates only, they need to make + * sure that all the updates are applied to the `ChannelMonitors` *before* + * the set of channel monitors is given to the `ChannelManager` + * deserialization routine. See [`ChannelMonitor::update_monitor`] for + * applying a monitor update to a monitor. If full `ChannelMonitors` are + * persisted, then there is no need to persist individual updates. + * + * Note that there could be a performance tradeoff between persisting complete + * channel monitors on every update vs. persisting only updates and applying + * them in batches. The size of each monitor grows `O(number of state updates)` + * whereas updates are small and `O(1)`. + * + * See [`ChannelMonitor::serialize_for_disk`] for writing out a `ChannelMonitor`, + * [`ChannelMonitorUpdate::write`] for writing out an update, and + * [`ChannelMonitorUpdateErr`] for requirements when returning errors. + * + * [`ChannelMonitor::update_monitor`]: struct.ChannelMonitor.html#impl-1 + * [`ChannelMonitor::serialize_for_disk`]: struct.ChannelMonitor.html#method.serialize_for_disk + * [`ChannelMonitorUpdate::write`]: struct.ChannelMonitorUpdate.html#method.write + * [`ChannelMonitorUpdateErr`]: enum.ChannelMonitorUpdateErr.html + */ + struct LDKCResult_NoneChannelMonitorUpdateErrZ (*update_persisted_channel)(const void *this_arg, struct LDKOutPoint id, const struct LDKChannelMonitorUpdate *NONNULL_PTR update, const struct LDKChannelMonitor *NONNULL_PTR data); + void (*free)(void *this_arg); +} LDKPersist; + + + +/** + * An implementation of [`chain::Watch`] for monitoring channels. + * + * Connected and disconnected blocks must be provided to `ChainMonitor` as documented by + * [`chain::Watch`]. May be used in conjunction with [`ChannelManager`] to monitor channels locally + * or used independently to monitor channels remotely. See the [module-level documentation] for + * details. + * + * [`chain::Watch`]: ../trait.Watch.html + * [`ChannelManager`]: ../../ln/channelmanager/struct.ChannelManager.html + * [module-level documentation]: index.html + */ +typedef struct MUST_USE_STRUCT LDKChainMonitor { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeChainMonitor *inner; + bool is_owned; +} LDKChainMonitor; + + + +/** + * Simple KeysInterface implementor that takes a 32-byte seed for use as a BIP 32 extended key + * and derives keys from that. + * + * Your node_id is seed/0' + * ChannelMonitor closes may use seed/1' + * Cooperative closes may use seed/2' + * The two close keys may be needed to claim on-chain funds! + */ +typedef struct MUST_USE_STRUCT LDKKeysManager { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeKeysManager *inner; + bool is_owned; +} LDKKeysManager; + + + +/** + * Chain-related parameters used to construct a new `ChannelManager`. + * + * Typically, the block-specific parameters are derived from the best block hash for the network, + * as a newly constructed `ChannelManager` will not have created any channels yet. These parameters + * are not needed when deserializing a previously constructed `ChannelManager`. + */ +typedef struct MUST_USE_STRUCT LDKChainParameters { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeChainParameters *inner; + bool is_owned; +} LDKChainParameters; + +typedef struct LDKThreeBytes { + uint8_t data[3]; +} LDKThreeBytes; + +/** + * A trait to describe an object which can receive channel messages. + * + * Messages MAY be called in parallel when they originate from different their_node_ids, however + * they MUST NOT be called in parallel when the two calls have the same their_node_id. + */ +typedef struct LDKChannelMessageHandler { + void *this_arg; + /** + * Handle an incoming open_channel message from the given peer. + */ + void (*handle_open_channel)(const void *this_arg, struct LDKPublicKey their_node_id, struct LDKInitFeatures their_features, const struct LDKOpenChannel *NONNULL_PTR msg); + /** + * Handle an incoming accept_channel message from the given peer. + */ + void (*handle_accept_channel)(const void *this_arg, struct LDKPublicKey their_node_id, struct LDKInitFeatures their_features, const struct LDKAcceptChannel *NONNULL_PTR msg); + /** + * Handle an incoming funding_created message from the given peer. + */ + void (*handle_funding_created)(const void *this_arg, struct LDKPublicKey their_node_id, const struct LDKFundingCreated *NONNULL_PTR msg); + /** + * Handle an incoming funding_signed message from the given peer. + */ + void (*handle_funding_signed)(const void *this_arg, struct LDKPublicKey their_node_id, const struct LDKFundingSigned *NONNULL_PTR msg); + /** + * Handle an incoming funding_locked message from the given peer. + */ + void (*handle_funding_locked)(const void *this_arg, struct LDKPublicKey their_node_id, const struct LDKFundingLocked *NONNULL_PTR msg); + /** + * Handle an incoming shutdown message from the given peer. + */ + void (*handle_shutdown)(const void *this_arg, struct LDKPublicKey their_node_id, const struct LDKInitFeatures *NONNULL_PTR their_features, const struct LDKShutdown *NONNULL_PTR msg); + /** + * Handle an incoming closing_signed message from the given peer. + */ + void (*handle_closing_signed)(const void *this_arg, struct LDKPublicKey their_node_id, const struct LDKClosingSigned *NONNULL_PTR msg); + /** + * Handle an incoming update_add_htlc message from the given peer. + */ + void (*handle_update_add_htlc)(const void *this_arg, struct LDKPublicKey their_node_id, const struct LDKUpdateAddHTLC *NONNULL_PTR msg); + /** + * Handle an incoming update_fulfill_htlc message from the given peer. + */ + void (*handle_update_fulfill_htlc)(const void *this_arg, struct LDKPublicKey their_node_id, const struct LDKUpdateFulfillHTLC *NONNULL_PTR msg); + /** + * Handle an incoming update_fail_htlc message from the given peer. + */ + void (*handle_update_fail_htlc)(const void *this_arg, struct LDKPublicKey their_node_id, const struct LDKUpdateFailHTLC *NONNULL_PTR msg); + /** + * Handle an incoming update_fail_malformed_htlc message from the given peer. + */ + void (*handle_update_fail_malformed_htlc)(const void *this_arg, struct LDKPublicKey their_node_id, const struct LDKUpdateFailMalformedHTLC *NONNULL_PTR msg); + /** + * Handle an incoming commitment_signed message from the given peer. + */ + void (*handle_commitment_signed)(const void *this_arg, struct LDKPublicKey their_node_id, const struct LDKCommitmentSigned *NONNULL_PTR msg); + /** + * Handle an incoming revoke_and_ack message from the given peer. + */ + void (*handle_revoke_and_ack)(const void *this_arg, struct LDKPublicKey their_node_id, const struct LDKRevokeAndACK *NONNULL_PTR msg); + /** + * Handle an incoming update_fee message from the given peer. + */ + void (*handle_update_fee)(const void *this_arg, struct LDKPublicKey their_node_id, const struct LDKUpdateFee *NONNULL_PTR msg); + /** + * Handle an incoming announcement_signatures message from the given peer. + */ + void (*handle_announcement_signatures)(const void *this_arg, struct LDKPublicKey their_node_id, const struct LDKAnnouncementSignatures *NONNULL_PTR msg); + /** + * Indicates a connection to the peer failed/an existing connection was lost. If no connection + * is believed to be possible in the future (eg they're sending us messages we don't + * understand or indicate they require unknown feature bits), no_connection_possible is set + * and any outstanding channels should be failed. + */ + void (*peer_disconnected)(const void *this_arg, struct LDKPublicKey their_node_id, bool no_connection_possible); + /** + * Handle a peer reconnecting, possibly generating channel_reestablish message(s). + */ + void (*peer_connected)(const void *this_arg, struct LDKPublicKey their_node_id, const struct LDKInit *NONNULL_PTR msg); + /** + * Handle an incoming channel_reestablish message from the given peer. + */ + void (*handle_channel_reestablish)(const void *this_arg, struct LDKPublicKey their_node_id, const struct LDKChannelReestablish *NONNULL_PTR msg); + /** + * Handle an incoming error message from the given peer. + */ + void (*handle_error)(const void *this_arg, struct LDKPublicKey their_node_id, const struct LDKErrorMessage *NONNULL_PTR msg); + struct LDKMessageSendEventsProvider MessageSendEventsProvider; + void (*free)(void *this_arg); +} LDKChannelMessageHandler; + + + +/** + * Arguments for the creation of a ChannelManager that are not deserialized. + * + * At a high-level, the process for deserializing a ChannelManager and resuming normal operation + * is: + * 1) Deserialize all stored ChannelMonitors. + * 2) Deserialize the ChannelManager by filling in this struct and calling: + * <(BlockHash, ChannelManager)>::read(reader, args) + * This may result in closing some Channels if the ChannelMonitor is newer than the stored + * ChannelManager state to ensure no loss of funds. Thus, transactions may be broadcasted. + * 3) If you are not fetching full blocks, register all relevant ChannelMonitor outpoints the same + * way you would handle a `chain::Filter` call using ChannelMonitor::get_outputs_to_watch() and + * ChannelMonitor::get_funding_txo(). + * 4) Reconnect blocks on your ChannelMonitors. + * 5) Disconnect/connect blocks on the ChannelManager. + * 6) Move the ChannelMonitors into your local chain::Watch. + * + * Note that the ordering of #4-6 is not of importance, however all three must occur before you + * call any other methods on the newly-deserialized ChannelManager. + * + * Note that because some channels may be closed during deserialization, it is critical that you + * always deserialize only the latest version of a ChannelManager and ChannelMonitors available to + * you. If you deserialize an old ChannelManager (during which force-closure transactions may be + * broadcast), and then later deserialize a newer version of the same ChannelManager (which will + * not force-close the same channels but consider them live), you may end up revoking a state for + * which you've already broadcasted the transaction. + */ +typedef struct MUST_USE_STRUCT LDKChannelManagerReadArgs { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeChannelManagerReadArgs *inner; + bool is_owned; +} LDKChannelManagerReadArgs; + + + +/** + * Proof that the sender knows the per-commitment secret of the previous commitment transaction. + * This is used to convince the recipient that the channel is at a certain commitment + * number even if they lost that data due to a local failure. Of course, the peer may lie + * and even later commitments may have been revoked. + */ +typedef struct MUST_USE_STRUCT LDKDataLossProtect { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeDataLossProtect *inner; + bool is_owned; +} LDKDataLossProtect; + +/** + * A trait to describe an object which can receive routing messages. + * + * # Implementor DoS Warnings + * + * For `gossip_queries` messages there are potential DoS vectors when handling + * inbound queries. Implementors using an on-disk network graph should be aware of + * repeated disk I/O for queries accessing different parts of the network graph. + */ +typedef struct LDKRoutingMessageHandler { + void *this_arg; + /** + * Handle an incoming node_announcement message, returning true if it should be forwarded on, + * false or returning an Err otherwise. + */ + struct LDKCResult_boolLightningErrorZ (*handle_node_announcement)(const void *this_arg, const struct LDKNodeAnnouncement *NONNULL_PTR msg); + /** + * Handle a channel_announcement message, returning true if it should be forwarded on, false + * or returning an Err otherwise. + */ + struct LDKCResult_boolLightningErrorZ (*handle_channel_announcement)(const void *this_arg, const struct LDKChannelAnnouncement *NONNULL_PTR msg); + /** + * Handle an incoming channel_update message, returning true if it should be forwarded on, + * false or returning an Err otherwise. + */ + struct LDKCResult_boolLightningErrorZ (*handle_channel_update)(const void *this_arg, const struct LDKChannelUpdate *NONNULL_PTR msg); + /** + * Handle some updates to the route graph that we learned due to an outbound failed payment. + */ + void (*handle_htlc_fail_channel_update)(const void *this_arg, const struct LDKHTLCFailChannelUpdate *NONNULL_PTR update); + /** + * Gets a subset of the channel announcements and updates required to dump our routing table + * to a remote node, starting at the short_channel_id indicated by starting_point and + * including the batch_amount entries immediately higher in numerical value than starting_point. + */ + struct LDKCVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ (*get_next_channel_announcements)(const void *this_arg, uint64_t starting_point, uint8_t batch_amount); + /** + * Gets a subset of the node announcements required to dump our routing table to a remote node, + * starting at the node *after* the provided publickey and including batch_amount entries + * immediately higher (as defined by ::cmp) than starting_point. + * If None is provided for starting_point, we start at the first node. + */ + struct LDKCVec_NodeAnnouncementZ (*get_next_node_announcements)(const void *this_arg, struct LDKPublicKey starting_point, uint8_t batch_amount); + /** + * Called when a connection is established with a peer. This can be used to + * perform routing table synchronization using a strategy defined by the + * implementor. + */ + void (*sync_routing_table)(const void *this_arg, struct LDKPublicKey their_node_id, const struct LDKInit *NONNULL_PTR init); + /** + * Handles the reply of a query we initiated to learn about channels + * for a given range of blocks. We can expect to receive one or more + * replies to a single query. + */ + struct LDKCResult_NoneLightningErrorZ (*handle_reply_channel_range)(const void *this_arg, struct LDKPublicKey their_node_id, struct LDKReplyChannelRange msg); + /** + * Handles the reply of a query we initiated asking for routing gossip + * messages for a list of channels. We should receive this message when + * a node has completed its best effort to send us the pertaining routing + * gossip messages. + */ + struct LDKCResult_NoneLightningErrorZ (*handle_reply_short_channel_ids_end)(const void *this_arg, struct LDKPublicKey their_node_id, struct LDKReplyShortChannelIdsEnd msg); + /** + * Handles when a peer asks us to send a list of short_channel_ids + * for the requested range of blocks. + */ + struct LDKCResult_NoneLightningErrorZ (*handle_query_channel_range)(const void *this_arg, struct LDKPublicKey their_node_id, struct LDKQueryChannelRange msg); + /** + * Handles when a peer asks us to send routing gossip messages for a + * list of short_channel_ids. + */ + struct LDKCResult_NoneLightningErrorZ (*handle_query_short_channel_ids)(const void *this_arg, struct LDKPublicKey their_node_id, struct LDKQueryShortChannelIds msg); + struct LDKMessageSendEventsProvider MessageSendEventsProvider; + void (*free)(void *this_arg); +} LDKRoutingMessageHandler; + + + +/** + * A dummy struct which implements `RoutingMessageHandler` without storing any routing information + * or doing any processing. You can provide one of these as the route_handler in a MessageHandler. + */ +typedef struct MUST_USE_STRUCT LDKIgnoringMessageHandler { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeIgnoringMessageHandler *inner; + bool is_owned; +} LDKIgnoringMessageHandler; + + + +/** + * A dummy struct which implements `ChannelMessageHandler` without having any channels. + * You can provide one of these as the route_handler in a MessageHandler. + */ +typedef struct MUST_USE_STRUCT LDKErroringMessageHandler { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeErroringMessageHandler *inner; + bool is_owned; +} LDKErroringMessageHandler; + + + +/** + * Provides references to trait impls which handle different types of messages. + */ +typedef struct MUST_USE_STRUCT LDKMessageHandler { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeMessageHandler *inner; + bool is_owned; +} LDKMessageHandler; + +/** + * Provides an object which can be used to send data to and which uniquely identifies a connection + * to a remote host. You will need to be able to generate multiple of these which meet Eq and + * implement Hash to meet the PeerManager API. + * + * For efficiency, Clone should be relatively cheap for this type. + * + * You probably want to just extend an int and put a file descriptor in a struct and implement + * send_data. Note that if you are using a higher-level net library that may call close() itself, + * be careful to ensure you don't have races whereby you might register a new connection with an + * fd which is the same as a previous one which has yet to be removed via + * PeerManager::socket_disconnected(). + */ +typedef struct LDKSocketDescriptor { + void *this_arg; + /** + * Attempts to send some data from the given slice to the peer. + * + * Returns the amount of data which was sent, possibly 0 if the socket has since disconnected. + * Note that in the disconnected case, socket_disconnected must still fire and further write + * attempts may occur until that time. + * + * If the returned size is smaller than data.len(), a write_available event must + * trigger the next time more data can be written. Additionally, until the a send_data event + * completes fully, no further read_events should trigger on the same peer! + * + * If a read_event on this descriptor had previously returned true (indicating that read + * events should be paused to prevent DoS in the send buffer), resume_read may be set + * indicating that read events on this descriptor should resume. A resume_read of false does + * *not* imply that further read events should be paused. + */ + uintptr_t (*send_data)(void *this_arg, struct LDKu8slice data, bool resume_read); + /** + * Disconnect the socket pointed to by this SocketDescriptor. Once this function returns, no + * more calls to write_buffer_space_avail, read_event or socket_disconnected may be made with + * this descriptor. No socket_disconnected call should be generated as a result of this call, + * though races may occur whereby disconnect_socket is called after a call to + * socket_disconnected but prior to socket_disconnected returning. + */ + void (*disconnect_socket)(void *this_arg); + bool (*eq)(const void *this_arg, const struct LDKSocketDescriptor *NONNULL_PTR other_arg); + uint64_t (*hash)(const void *this_arg); + void *(*clone)(const void *this_arg); + void (*free)(void *this_arg); +} LDKSocketDescriptor; + + + +/** + * A PeerManager manages a set of peers, described by their SocketDescriptor and marshalls socket + * events into messages which it passes on to its MessageHandlers. + * + * Rather than using a plain PeerManager, it is preferable to use either a SimpleArcPeerManager + * a SimpleRefPeerManager, for conciseness. See their documentation for more details, but + * essentially you should default to using a SimpleRefPeerManager, and use a + * SimpleArcPeerManager when you require a PeerManager with a static lifetime, such as when + * you're using lightning-net-tokio. + */ +typedef struct MUST_USE_STRUCT LDKPeerManager { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativePeerManager *inner; + bool is_owned; +} LDKPeerManager; + + + +/** + * Static channel fields used to build transactions given per-commitment fields, organized by + * broadcaster/countersignatory. + * + * This is derived from the holder/counterparty-organized ChannelTransactionParameters via the + * as_holder_broadcastable and as_counterparty_broadcastable functions. + */ +typedef struct MUST_USE_STRUCT LDKDirectedChannelTransactionParameters { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeDirectedChannelTransactionParameters *inner; + bool is_owned; +} LDKDirectedChannelTransactionParameters; + + + +/** + * A simple newtype for RwLockReadGuard<'a, NetworkGraph>. + * This exists only to make accessing a RwLock possible from + * the C bindings, as it can be done directly in Rust code. + */ +typedef struct MUST_USE_STRUCT LDKLockedNetworkGraph { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeLockedNetworkGraph *inner; + bool is_owned; +} LDKLockedNetworkGraph; + + + +/** + * Receives and validates network updates from peers, + * stores authentic and relevant data as a network graph. + * This network graph is then used for routing payments. + * Provides interface to help with initial routing sync by + * serving historical announcements. + */ +typedef struct MUST_USE_STRUCT LDKNetGraphMsgHandler { + /** + * Nearly everywhere, inner must be non-null, however in places where + * the Rust equivalent takes an Option, it may be set to null to indicate None. + */ + LDKnativeNetGraphMsgHandler *inner; + bool is_owned; +} LDKNetGraphMsgHandler; + +extern const uintptr_t MAX_BUF_SIZE; + +extern const uint64_t MIN_RELAY_FEE_SAT_PER_1000_WEIGHT; + +extern const uint64_t CLOSED_CHANNEL_UPDATE_ID; + +extern const uintptr_t REVOKEABLE_REDEEMSCRIPT_MAX_LENGTH; + +void Transaction_free(struct LDKTransaction _res); + +void TxOut_free(struct LDKTxOut _res); + +struct LDKTxOut TxOut_clone(const struct LDKTxOut *NONNULL_PTR orig); + +struct LDKCResult_SecretKeyErrorZ CResult_SecretKeyErrorZ_ok(struct LDKSecretKey o); + +struct LDKCResult_SecretKeyErrorZ CResult_SecretKeyErrorZ_err(enum LDKSecp256k1Error e); + +void CResult_SecretKeyErrorZ_free(struct LDKCResult_SecretKeyErrorZ _res); + +struct LDKCResult_PublicKeyErrorZ CResult_PublicKeyErrorZ_ok(struct LDKPublicKey o); + +struct LDKCResult_PublicKeyErrorZ CResult_PublicKeyErrorZ_err(enum LDKSecp256k1Error e); + +void CResult_PublicKeyErrorZ_free(struct LDKCResult_PublicKeyErrorZ _res); + +struct LDKCResult_TxCreationKeysDecodeErrorZ CResult_TxCreationKeysDecodeErrorZ_ok(struct LDKTxCreationKeys o); + +struct LDKCResult_TxCreationKeysDecodeErrorZ CResult_TxCreationKeysDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_TxCreationKeysDecodeErrorZ_free(struct LDKCResult_TxCreationKeysDecodeErrorZ _res); + +struct LDKCResult_TxCreationKeysDecodeErrorZ CResult_TxCreationKeysDecodeErrorZ_clone(const struct LDKCResult_TxCreationKeysDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_ChannelPublicKeysDecodeErrorZ CResult_ChannelPublicKeysDecodeErrorZ_ok(struct LDKChannelPublicKeys o); + +struct LDKCResult_ChannelPublicKeysDecodeErrorZ CResult_ChannelPublicKeysDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_ChannelPublicKeysDecodeErrorZ_free(struct LDKCResult_ChannelPublicKeysDecodeErrorZ _res); + +struct LDKCResult_ChannelPublicKeysDecodeErrorZ CResult_ChannelPublicKeysDecodeErrorZ_clone(const struct LDKCResult_ChannelPublicKeysDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_TxCreationKeysErrorZ CResult_TxCreationKeysErrorZ_ok(struct LDKTxCreationKeys o); + +struct LDKCResult_TxCreationKeysErrorZ CResult_TxCreationKeysErrorZ_err(enum LDKSecp256k1Error e); + +void CResult_TxCreationKeysErrorZ_free(struct LDKCResult_TxCreationKeysErrorZ _res); + +struct LDKCResult_HTLCOutputInCommitmentDecodeErrorZ CResult_HTLCOutputInCommitmentDecodeErrorZ_ok(struct LDKHTLCOutputInCommitment o); + +struct LDKCResult_HTLCOutputInCommitmentDecodeErrorZ CResult_HTLCOutputInCommitmentDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_HTLCOutputInCommitmentDecodeErrorZ_free(struct LDKCResult_HTLCOutputInCommitmentDecodeErrorZ _res); + +struct LDKCResult_HTLCOutputInCommitmentDecodeErrorZ CResult_HTLCOutputInCommitmentDecodeErrorZ_clone(const struct LDKCResult_HTLCOutputInCommitmentDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_ok(struct LDKCounterpartyChannelTransactionParameters o); + +struct LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_free(struct LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ _res); + +struct LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_clone(const struct LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_ChannelTransactionParametersDecodeErrorZ CResult_ChannelTransactionParametersDecodeErrorZ_ok(struct LDKChannelTransactionParameters o); + +struct LDKCResult_ChannelTransactionParametersDecodeErrorZ CResult_ChannelTransactionParametersDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_ChannelTransactionParametersDecodeErrorZ_free(struct LDKCResult_ChannelTransactionParametersDecodeErrorZ _res); + +struct LDKCResult_ChannelTransactionParametersDecodeErrorZ CResult_ChannelTransactionParametersDecodeErrorZ_clone(const struct LDKCResult_ChannelTransactionParametersDecodeErrorZ *NONNULL_PTR orig); + +void CVec_SignatureZ_free(struct LDKCVec_SignatureZ _res); + +struct LDKCResult_HolderCommitmentTransactionDecodeErrorZ CResult_HolderCommitmentTransactionDecodeErrorZ_ok(struct LDKHolderCommitmentTransaction o); + +struct LDKCResult_HolderCommitmentTransactionDecodeErrorZ CResult_HolderCommitmentTransactionDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_HolderCommitmentTransactionDecodeErrorZ_free(struct LDKCResult_HolderCommitmentTransactionDecodeErrorZ _res); + +struct LDKCResult_HolderCommitmentTransactionDecodeErrorZ CResult_HolderCommitmentTransactionDecodeErrorZ_clone(const struct LDKCResult_HolderCommitmentTransactionDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_BuiltCommitmentTransactionDecodeErrorZ CResult_BuiltCommitmentTransactionDecodeErrorZ_ok(struct LDKBuiltCommitmentTransaction o); + +struct LDKCResult_BuiltCommitmentTransactionDecodeErrorZ CResult_BuiltCommitmentTransactionDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_BuiltCommitmentTransactionDecodeErrorZ_free(struct LDKCResult_BuiltCommitmentTransactionDecodeErrorZ _res); + +struct LDKCResult_BuiltCommitmentTransactionDecodeErrorZ CResult_BuiltCommitmentTransactionDecodeErrorZ_clone(const struct LDKCResult_BuiltCommitmentTransactionDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_CommitmentTransactionDecodeErrorZ CResult_CommitmentTransactionDecodeErrorZ_ok(struct LDKCommitmentTransaction o); + +struct LDKCResult_CommitmentTransactionDecodeErrorZ CResult_CommitmentTransactionDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_CommitmentTransactionDecodeErrorZ_free(struct LDKCResult_CommitmentTransactionDecodeErrorZ _res); + +struct LDKCResult_CommitmentTransactionDecodeErrorZ CResult_CommitmentTransactionDecodeErrorZ_clone(const struct LDKCResult_CommitmentTransactionDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_TrustedCommitmentTransactionNoneZ CResult_TrustedCommitmentTransactionNoneZ_ok(struct LDKTrustedCommitmentTransaction o); + +struct LDKCResult_TrustedCommitmentTransactionNoneZ CResult_TrustedCommitmentTransactionNoneZ_err(void); + +void CResult_TrustedCommitmentTransactionNoneZ_free(struct LDKCResult_TrustedCommitmentTransactionNoneZ _res); + +struct LDKCResult_CVec_SignatureZNoneZ CResult_CVec_SignatureZNoneZ_ok(struct LDKCVec_SignatureZ o); + +struct LDKCResult_CVec_SignatureZNoneZ CResult_CVec_SignatureZNoneZ_err(void); + +void CResult_CVec_SignatureZNoneZ_free(struct LDKCResult_CVec_SignatureZNoneZ _res); + +struct LDKCResult_CVec_SignatureZNoneZ CResult_CVec_SignatureZNoneZ_clone(const struct LDKCResult_CVec_SignatureZNoneZ *NONNULL_PTR orig); + +void CVec_MessageSendEventZ_free(struct LDKCVec_MessageSendEventZ _res); + +struct LDKCResult_boolLightningErrorZ CResult_boolLightningErrorZ_ok(bool o); + +struct LDKCResult_boolLightningErrorZ CResult_boolLightningErrorZ_err(struct LDKLightningError e); + +void CResult_boolLightningErrorZ_free(struct LDKCResult_boolLightningErrorZ _res); + +struct LDKCResult_boolLightningErrorZ CResult_boolLightningErrorZ_clone(const struct LDKCResult_boolLightningErrorZ *NONNULL_PTR orig); + +struct LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_clone(const struct LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ *NONNULL_PTR orig); + +struct LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_new(struct LDKChannelAnnouncement a, struct LDKChannelUpdate b, struct LDKChannelUpdate c); + +void C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_free(struct LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ _res); + +void CVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ_free(struct LDKCVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ _res); + +void CVec_NodeAnnouncementZ_free(struct LDKCVec_NodeAnnouncementZ _res); + +struct LDKCResult_NoneLightningErrorZ CResult_NoneLightningErrorZ_ok(void); + +struct LDKCResult_NoneLightningErrorZ CResult_NoneLightningErrorZ_err(struct LDKLightningError e); + +void CResult_NoneLightningErrorZ_free(struct LDKCResult_NoneLightningErrorZ _res); + +struct LDKCResult_NoneLightningErrorZ CResult_NoneLightningErrorZ_clone(const struct LDKCResult_NoneLightningErrorZ *NONNULL_PTR orig); + +void CVec_PublicKeyZ_free(struct LDKCVec_PublicKeyZ _res); + +void CVec_u8Z_free(struct LDKCVec_u8Z _res); + +struct LDKCResult_CVec_u8ZPeerHandleErrorZ CResult_CVec_u8ZPeerHandleErrorZ_ok(struct LDKCVec_u8Z o); + +struct LDKCResult_CVec_u8ZPeerHandleErrorZ CResult_CVec_u8ZPeerHandleErrorZ_err(struct LDKPeerHandleError e); + +void CResult_CVec_u8ZPeerHandleErrorZ_free(struct LDKCResult_CVec_u8ZPeerHandleErrorZ _res); + +struct LDKCResult_CVec_u8ZPeerHandleErrorZ CResult_CVec_u8ZPeerHandleErrorZ_clone(const struct LDKCResult_CVec_u8ZPeerHandleErrorZ *NONNULL_PTR orig); + +struct LDKCResult_NonePeerHandleErrorZ CResult_NonePeerHandleErrorZ_ok(void); + +struct LDKCResult_NonePeerHandleErrorZ CResult_NonePeerHandleErrorZ_err(struct LDKPeerHandleError e); + +void CResult_NonePeerHandleErrorZ_free(struct LDKCResult_NonePeerHandleErrorZ _res); + +struct LDKCResult_NonePeerHandleErrorZ CResult_NonePeerHandleErrorZ_clone(const struct LDKCResult_NonePeerHandleErrorZ *NONNULL_PTR orig); + +struct LDKCResult_boolPeerHandleErrorZ CResult_boolPeerHandleErrorZ_ok(bool o); + +struct LDKCResult_boolPeerHandleErrorZ CResult_boolPeerHandleErrorZ_err(struct LDKPeerHandleError e); + +void CResult_boolPeerHandleErrorZ_free(struct LDKCResult_boolPeerHandleErrorZ _res); + +struct LDKCResult_boolPeerHandleErrorZ CResult_boolPeerHandleErrorZ_clone(const struct LDKCResult_boolPeerHandleErrorZ *NONNULL_PTR orig); + +struct LDKCResult_InitFeaturesDecodeErrorZ CResult_InitFeaturesDecodeErrorZ_ok(struct LDKInitFeatures o); + +struct LDKCResult_InitFeaturesDecodeErrorZ CResult_InitFeaturesDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_InitFeaturesDecodeErrorZ_free(struct LDKCResult_InitFeaturesDecodeErrorZ _res); + +struct LDKCResult_NodeFeaturesDecodeErrorZ CResult_NodeFeaturesDecodeErrorZ_ok(struct LDKNodeFeatures o); + +struct LDKCResult_NodeFeaturesDecodeErrorZ CResult_NodeFeaturesDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_NodeFeaturesDecodeErrorZ_free(struct LDKCResult_NodeFeaturesDecodeErrorZ _res); + +struct LDKCResult_ChannelFeaturesDecodeErrorZ CResult_ChannelFeaturesDecodeErrorZ_ok(struct LDKChannelFeatures o); + +struct LDKCResult_ChannelFeaturesDecodeErrorZ CResult_ChannelFeaturesDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_ChannelFeaturesDecodeErrorZ_free(struct LDKCResult_ChannelFeaturesDecodeErrorZ _res); + +struct LDKCResult_ChannelConfigDecodeErrorZ CResult_ChannelConfigDecodeErrorZ_ok(struct LDKChannelConfig o); + +struct LDKCResult_ChannelConfigDecodeErrorZ CResult_ChannelConfigDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_ChannelConfigDecodeErrorZ_free(struct LDKCResult_ChannelConfigDecodeErrorZ _res); + +struct LDKCResult_ChannelConfigDecodeErrorZ CResult_ChannelConfigDecodeErrorZ_clone(const struct LDKCResult_ChannelConfigDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_DirectionalChannelInfoDecodeErrorZ CResult_DirectionalChannelInfoDecodeErrorZ_ok(struct LDKDirectionalChannelInfo o); + +struct LDKCResult_DirectionalChannelInfoDecodeErrorZ CResult_DirectionalChannelInfoDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_DirectionalChannelInfoDecodeErrorZ_free(struct LDKCResult_DirectionalChannelInfoDecodeErrorZ _res); + +struct LDKCResult_DirectionalChannelInfoDecodeErrorZ CResult_DirectionalChannelInfoDecodeErrorZ_clone(const struct LDKCResult_DirectionalChannelInfoDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_ChannelInfoDecodeErrorZ CResult_ChannelInfoDecodeErrorZ_ok(struct LDKChannelInfo o); + +struct LDKCResult_ChannelInfoDecodeErrorZ CResult_ChannelInfoDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_ChannelInfoDecodeErrorZ_free(struct LDKCResult_ChannelInfoDecodeErrorZ _res); + +struct LDKCResult_ChannelInfoDecodeErrorZ CResult_ChannelInfoDecodeErrorZ_clone(const struct LDKCResult_ChannelInfoDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_RoutingFeesDecodeErrorZ CResult_RoutingFeesDecodeErrorZ_ok(struct LDKRoutingFees o); + +struct LDKCResult_RoutingFeesDecodeErrorZ CResult_RoutingFeesDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_RoutingFeesDecodeErrorZ_free(struct LDKCResult_RoutingFeesDecodeErrorZ _res); + +struct LDKCResult_RoutingFeesDecodeErrorZ CResult_RoutingFeesDecodeErrorZ_clone(const struct LDKCResult_RoutingFeesDecodeErrorZ *NONNULL_PTR orig); + +void CVec_NetAddressZ_free(struct LDKCVec_NetAddressZ _res); + +struct LDKCResult_NodeAnnouncementInfoDecodeErrorZ CResult_NodeAnnouncementInfoDecodeErrorZ_ok(struct LDKNodeAnnouncementInfo o); + +struct LDKCResult_NodeAnnouncementInfoDecodeErrorZ CResult_NodeAnnouncementInfoDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_NodeAnnouncementInfoDecodeErrorZ_free(struct LDKCResult_NodeAnnouncementInfoDecodeErrorZ _res); + +struct LDKCResult_NodeAnnouncementInfoDecodeErrorZ CResult_NodeAnnouncementInfoDecodeErrorZ_clone(const struct LDKCResult_NodeAnnouncementInfoDecodeErrorZ *NONNULL_PTR orig); + +void CVec_u64Z_free(struct LDKCVec_u64Z _res); + +struct LDKCResult_NodeInfoDecodeErrorZ CResult_NodeInfoDecodeErrorZ_ok(struct LDKNodeInfo o); + +struct LDKCResult_NodeInfoDecodeErrorZ CResult_NodeInfoDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_NodeInfoDecodeErrorZ_free(struct LDKCResult_NodeInfoDecodeErrorZ _res); + +struct LDKCResult_NodeInfoDecodeErrorZ CResult_NodeInfoDecodeErrorZ_clone(const struct LDKCResult_NodeInfoDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_NetworkGraphDecodeErrorZ CResult_NetworkGraphDecodeErrorZ_ok(struct LDKNetworkGraph o); + +struct LDKCResult_NetworkGraphDecodeErrorZ CResult_NetworkGraphDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_NetworkGraphDecodeErrorZ_free(struct LDKCResult_NetworkGraphDecodeErrorZ _res); + +struct LDKCResult_NetworkGraphDecodeErrorZ CResult_NetworkGraphDecodeErrorZ_clone(const struct LDKCResult_NetworkGraphDecodeErrorZ *NONNULL_PTR orig); + +struct LDKC2Tuple_usizeTransactionZ C2Tuple_usizeTransactionZ_new(uintptr_t a, struct LDKTransaction b); + +void C2Tuple_usizeTransactionZ_free(struct LDKC2Tuple_usizeTransactionZ _res); + +void CVec_C2Tuple_usizeTransactionZZ_free(struct LDKCVec_C2Tuple_usizeTransactionZZ _res); + +struct LDKCResult_NoneChannelMonitorUpdateErrZ CResult_NoneChannelMonitorUpdateErrZ_ok(void); + +struct LDKCResult_NoneChannelMonitorUpdateErrZ CResult_NoneChannelMonitorUpdateErrZ_err(enum LDKChannelMonitorUpdateErr e); + +void CResult_NoneChannelMonitorUpdateErrZ_free(struct LDKCResult_NoneChannelMonitorUpdateErrZ _res); + +struct LDKCResult_NoneChannelMonitorUpdateErrZ CResult_NoneChannelMonitorUpdateErrZ_clone(const struct LDKCResult_NoneChannelMonitorUpdateErrZ *NONNULL_PTR orig); + +void CVec_MonitorEventZ_free(struct LDKCVec_MonitorEventZ _res); + +void CVec_EventZ_free(struct LDKCVec_EventZ _res); + +struct LDKCResult_OutPointDecodeErrorZ CResult_OutPointDecodeErrorZ_ok(struct LDKOutPoint o); + +struct LDKCResult_OutPointDecodeErrorZ CResult_OutPointDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_OutPointDecodeErrorZ_free(struct LDKCResult_OutPointDecodeErrorZ _res); + +struct LDKCResult_OutPointDecodeErrorZ CResult_OutPointDecodeErrorZ_clone(const struct LDKCResult_OutPointDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_ChannelMonitorUpdateDecodeErrorZ CResult_ChannelMonitorUpdateDecodeErrorZ_ok(struct LDKChannelMonitorUpdate o); + +struct LDKCResult_ChannelMonitorUpdateDecodeErrorZ CResult_ChannelMonitorUpdateDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_ChannelMonitorUpdateDecodeErrorZ_free(struct LDKCResult_ChannelMonitorUpdateDecodeErrorZ _res); + +struct LDKCResult_ChannelMonitorUpdateDecodeErrorZ CResult_ChannelMonitorUpdateDecodeErrorZ_clone(const struct LDKCResult_ChannelMonitorUpdateDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_HTLCUpdateDecodeErrorZ CResult_HTLCUpdateDecodeErrorZ_ok(struct LDKHTLCUpdate o); + +struct LDKCResult_HTLCUpdateDecodeErrorZ CResult_HTLCUpdateDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_HTLCUpdateDecodeErrorZ_free(struct LDKCResult_HTLCUpdateDecodeErrorZ _res); + +struct LDKCResult_HTLCUpdateDecodeErrorZ CResult_HTLCUpdateDecodeErrorZ_clone(const struct LDKCResult_HTLCUpdateDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_NoneMonitorUpdateErrorZ CResult_NoneMonitorUpdateErrorZ_ok(void); + +struct LDKCResult_NoneMonitorUpdateErrorZ CResult_NoneMonitorUpdateErrorZ_err(struct LDKMonitorUpdateError e); + +void CResult_NoneMonitorUpdateErrorZ_free(struct LDKCResult_NoneMonitorUpdateErrorZ _res); + +struct LDKCResult_NoneMonitorUpdateErrorZ CResult_NoneMonitorUpdateErrorZ_clone(const struct LDKCResult_NoneMonitorUpdateErrorZ *NONNULL_PTR orig); + +struct LDKC2Tuple_OutPointScriptZ C2Tuple_OutPointScriptZ_clone(const struct LDKC2Tuple_OutPointScriptZ *NONNULL_PTR orig); + +struct LDKC2Tuple_OutPointScriptZ C2Tuple_OutPointScriptZ_new(struct LDKOutPoint a, struct LDKCVec_u8Z b); + +void C2Tuple_OutPointScriptZ_free(struct LDKC2Tuple_OutPointScriptZ _res); + +void CVec_TransactionZ_free(struct LDKCVec_TransactionZ _res); + +struct LDKC2Tuple_u32TxOutZ C2Tuple_u32TxOutZ_clone(const struct LDKC2Tuple_u32TxOutZ *NONNULL_PTR orig); + +struct LDKC2Tuple_u32TxOutZ C2Tuple_u32TxOutZ_new(uint32_t a, struct LDKTxOut b); + +void C2Tuple_u32TxOutZ_free(struct LDKC2Tuple_u32TxOutZ _res); + +void CVec_C2Tuple_u32TxOutZZ_free(struct LDKCVec_C2Tuple_u32TxOutZZ _res); + +struct LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ_new(struct LDKThirtyTwoBytes a, struct LDKCVec_C2Tuple_u32TxOutZZ b); + +void C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ_free(struct LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ _res); + +void CVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ_free(struct LDKCVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ _res); + +struct LDKC2Tuple_BlockHashChannelMonitorZ C2Tuple_BlockHashChannelMonitorZ_new(struct LDKThirtyTwoBytes a, struct LDKChannelMonitor b); + +void C2Tuple_BlockHashChannelMonitorZ_free(struct LDKC2Tuple_BlockHashChannelMonitorZ _res); + +struct LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_ok(struct LDKC2Tuple_BlockHashChannelMonitorZ o); + +struct LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_free(struct LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ _res); + +void CVec_SpendableOutputDescriptorZ_free(struct LDKCVec_SpendableOutputDescriptorZ _res); + +struct LDKCResult_TxOutAccessErrorZ CResult_TxOutAccessErrorZ_ok(struct LDKTxOut o); + +struct LDKCResult_TxOutAccessErrorZ CResult_TxOutAccessErrorZ_err(enum LDKAccessError e); + +void CResult_TxOutAccessErrorZ_free(struct LDKCResult_TxOutAccessErrorZ _res); + +struct LDKCResult_TxOutAccessErrorZ CResult_TxOutAccessErrorZ_clone(const struct LDKCResult_TxOutAccessErrorZ *NONNULL_PTR orig); + +struct LDKCResult_NoneAPIErrorZ CResult_NoneAPIErrorZ_ok(void); + +struct LDKCResult_NoneAPIErrorZ CResult_NoneAPIErrorZ_err(struct LDKAPIError e); + +void CResult_NoneAPIErrorZ_free(struct LDKCResult_NoneAPIErrorZ _res); + +struct LDKCResult_NoneAPIErrorZ CResult_NoneAPIErrorZ_clone(const struct LDKCResult_NoneAPIErrorZ *NONNULL_PTR orig); + +void CVec_CResult_NoneAPIErrorZZ_free(struct LDKCVec_CResult_NoneAPIErrorZZ _res); + +void CVec_APIErrorZ_free(struct LDKCVec_APIErrorZ _res); + +void CVec_ChannelDetailsZ_free(struct LDKCVec_ChannelDetailsZ _res); + +struct LDKCResult_NonePaymentSendFailureZ CResult_NonePaymentSendFailureZ_ok(void); + +struct LDKCResult_NonePaymentSendFailureZ CResult_NonePaymentSendFailureZ_err(struct LDKPaymentSendFailure e); + +void CResult_NonePaymentSendFailureZ_free(struct LDKCResult_NonePaymentSendFailureZ _res); + +struct LDKCResult_NonePaymentSendFailureZ CResult_NonePaymentSendFailureZ_clone(const struct LDKCResult_NonePaymentSendFailureZ *NONNULL_PTR orig); + +void CVec_ChannelMonitorZ_free(struct LDKCVec_ChannelMonitorZ _res); + +struct LDKC2Tuple_BlockHashChannelManagerZ C2Tuple_BlockHashChannelManagerZ_new(struct LDKThirtyTwoBytes a, struct LDKChannelManager b); + +void C2Tuple_BlockHashChannelManagerZ_free(struct LDKC2Tuple_BlockHashChannelManagerZ _res); + +struct LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_ok(struct LDKC2Tuple_BlockHashChannelManagerZ o); + +struct LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_free(struct LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ _res); + +struct LDKCResult_SpendableOutputDescriptorDecodeErrorZ CResult_SpendableOutputDescriptorDecodeErrorZ_ok(struct LDKSpendableOutputDescriptor o); + +struct LDKCResult_SpendableOutputDescriptorDecodeErrorZ CResult_SpendableOutputDescriptorDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_SpendableOutputDescriptorDecodeErrorZ_free(struct LDKCResult_SpendableOutputDescriptorDecodeErrorZ _res); + +struct LDKCResult_SpendableOutputDescriptorDecodeErrorZ CResult_SpendableOutputDescriptorDecodeErrorZ_clone(const struct LDKCResult_SpendableOutputDescriptorDecodeErrorZ *NONNULL_PTR orig); + +struct LDKC2Tuple_SignatureCVec_SignatureZZ C2Tuple_SignatureCVec_SignatureZZ_clone(const struct LDKC2Tuple_SignatureCVec_SignatureZZ *NONNULL_PTR orig); + +struct LDKC2Tuple_SignatureCVec_SignatureZZ C2Tuple_SignatureCVec_SignatureZZ_new(struct LDKSignature a, struct LDKCVec_SignatureZ b); + +void C2Tuple_SignatureCVec_SignatureZZ_free(struct LDKC2Tuple_SignatureCVec_SignatureZZ _res); + +struct LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_ok(struct LDKC2Tuple_SignatureCVec_SignatureZZ o); + +struct LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_err(void); + +void CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_free(struct LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ _res); + +struct LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_clone(const struct LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ *NONNULL_PTR orig); + +struct LDKCResult_SignatureNoneZ CResult_SignatureNoneZ_ok(struct LDKSignature o); + +struct LDKCResult_SignatureNoneZ CResult_SignatureNoneZ_err(void); + +void CResult_SignatureNoneZ_free(struct LDKCResult_SignatureNoneZ _res); + +struct LDKCResult_SignatureNoneZ CResult_SignatureNoneZ_clone(const struct LDKCResult_SignatureNoneZ *NONNULL_PTR orig); + +struct LDKCResult_SignDecodeErrorZ CResult_SignDecodeErrorZ_ok(struct LDKSign o); + +struct LDKCResult_SignDecodeErrorZ CResult_SignDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_SignDecodeErrorZ_free(struct LDKCResult_SignDecodeErrorZ _res); + +struct LDKCResult_SignDecodeErrorZ CResult_SignDecodeErrorZ_clone(const struct LDKCResult_SignDecodeErrorZ *NONNULL_PTR orig); + +void CVec_CVec_u8ZZ_free(struct LDKCVec_CVec_u8ZZ _res); + +struct LDKCResult_CVec_CVec_u8ZZNoneZ CResult_CVec_CVec_u8ZZNoneZ_ok(struct LDKCVec_CVec_u8ZZ o); + +struct LDKCResult_CVec_CVec_u8ZZNoneZ CResult_CVec_CVec_u8ZZNoneZ_err(void); + +void CResult_CVec_CVec_u8ZZNoneZ_free(struct LDKCResult_CVec_CVec_u8ZZNoneZ _res); + +struct LDKCResult_CVec_CVec_u8ZZNoneZ CResult_CVec_CVec_u8ZZNoneZ_clone(const struct LDKCResult_CVec_CVec_u8ZZNoneZ *NONNULL_PTR orig); + +struct LDKCResult_InMemorySignerDecodeErrorZ CResult_InMemorySignerDecodeErrorZ_ok(struct LDKInMemorySigner o); + +struct LDKCResult_InMemorySignerDecodeErrorZ CResult_InMemorySignerDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_InMemorySignerDecodeErrorZ_free(struct LDKCResult_InMemorySignerDecodeErrorZ _res); + +struct LDKCResult_InMemorySignerDecodeErrorZ CResult_InMemorySignerDecodeErrorZ_clone(const struct LDKCResult_InMemorySignerDecodeErrorZ *NONNULL_PTR orig); + +void CVec_TxOutZ_free(struct LDKCVec_TxOutZ _res); + +struct LDKCResult_TransactionNoneZ CResult_TransactionNoneZ_ok(struct LDKTransaction o); + +struct LDKCResult_TransactionNoneZ CResult_TransactionNoneZ_err(void); + +void CResult_TransactionNoneZ_free(struct LDKCResult_TransactionNoneZ _res); + +void CVec_RouteHopZ_free(struct LDKCVec_RouteHopZ _res); + +void CVec_CVec_RouteHopZZ_free(struct LDKCVec_CVec_RouteHopZZ _res); + +struct LDKCResult_RouteDecodeErrorZ CResult_RouteDecodeErrorZ_ok(struct LDKRoute o); + +struct LDKCResult_RouteDecodeErrorZ CResult_RouteDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_RouteDecodeErrorZ_free(struct LDKCResult_RouteDecodeErrorZ _res); + +struct LDKCResult_RouteDecodeErrorZ CResult_RouteDecodeErrorZ_clone(const struct LDKCResult_RouteDecodeErrorZ *NONNULL_PTR orig); + +void CVec_RouteHintZ_free(struct LDKCVec_RouteHintZ _res); + +struct LDKCResult_RouteLightningErrorZ CResult_RouteLightningErrorZ_ok(struct LDKRoute o); + +struct LDKCResult_RouteLightningErrorZ CResult_RouteLightningErrorZ_err(struct LDKLightningError e); + +void CResult_RouteLightningErrorZ_free(struct LDKCResult_RouteLightningErrorZ _res); + +struct LDKCResult_RouteLightningErrorZ CResult_RouteLightningErrorZ_clone(const struct LDKCResult_RouteLightningErrorZ *NONNULL_PTR orig); + +struct LDKCResult_NetAddressu8Z CResult_NetAddressu8Z_ok(struct LDKNetAddress o); + +struct LDKCResult_NetAddressu8Z CResult_NetAddressu8Z_err(uint8_t e); + +void CResult_NetAddressu8Z_free(struct LDKCResult_NetAddressu8Z _res); + +struct LDKCResult_NetAddressu8Z CResult_NetAddressu8Z_clone(const struct LDKCResult_NetAddressu8Z *NONNULL_PTR orig); + +struct LDKCResult_CResult_NetAddressu8ZDecodeErrorZ CResult_CResult_NetAddressu8ZDecodeErrorZ_ok(struct LDKCResult_NetAddressu8Z o); + +struct LDKCResult_CResult_NetAddressu8ZDecodeErrorZ CResult_CResult_NetAddressu8ZDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_CResult_NetAddressu8ZDecodeErrorZ_free(struct LDKCResult_CResult_NetAddressu8ZDecodeErrorZ _res); + +struct LDKCResult_CResult_NetAddressu8ZDecodeErrorZ CResult_CResult_NetAddressu8ZDecodeErrorZ_clone(const struct LDKCResult_CResult_NetAddressu8ZDecodeErrorZ *NONNULL_PTR orig); + +void CVec_UpdateAddHTLCZ_free(struct LDKCVec_UpdateAddHTLCZ _res); + +void CVec_UpdateFulfillHTLCZ_free(struct LDKCVec_UpdateFulfillHTLCZ _res); + +void CVec_UpdateFailHTLCZ_free(struct LDKCVec_UpdateFailHTLCZ _res); + +void CVec_UpdateFailMalformedHTLCZ_free(struct LDKCVec_UpdateFailMalformedHTLCZ _res); + +struct LDKCResult_AcceptChannelDecodeErrorZ CResult_AcceptChannelDecodeErrorZ_ok(struct LDKAcceptChannel o); + +struct LDKCResult_AcceptChannelDecodeErrorZ CResult_AcceptChannelDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_AcceptChannelDecodeErrorZ_free(struct LDKCResult_AcceptChannelDecodeErrorZ _res); + +struct LDKCResult_AcceptChannelDecodeErrorZ CResult_AcceptChannelDecodeErrorZ_clone(const struct LDKCResult_AcceptChannelDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_AnnouncementSignaturesDecodeErrorZ CResult_AnnouncementSignaturesDecodeErrorZ_ok(struct LDKAnnouncementSignatures o); + +struct LDKCResult_AnnouncementSignaturesDecodeErrorZ CResult_AnnouncementSignaturesDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_AnnouncementSignaturesDecodeErrorZ_free(struct LDKCResult_AnnouncementSignaturesDecodeErrorZ _res); + +struct LDKCResult_AnnouncementSignaturesDecodeErrorZ CResult_AnnouncementSignaturesDecodeErrorZ_clone(const struct LDKCResult_AnnouncementSignaturesDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_ChannelReestablishDecodeErrorZ CResult_ChannelReestablishDecodeErrorZ_ok(struct LDKChannelReestablish o); + +struct LDKCResult_ChannelReestablishDecodeErrorZ CResult_ChannelReestablishDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_ChannelReestablishDecodeErrorZ_free(struct LDKCResult_ChannelReestablishDecodeErrorZ _res); + +struct LDKCResult_ChannelReestablishDecodeErrorZ CResult_ChannelReestablishDecodeErrorZ_clone(const struct LDKCResult_ChannelReestablishDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_ClosingSignedDecodeErrorZ CResult_ClosingSignedDecodeErrorZ_ok(struct LDKClosingSigned o); + +struct LDKCResult_ClosingSignedDecodeErrorZ CResult_ClosingSignedDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_ClosingSignedDecodeErrorZ_free(struct LDKCResult_ClosingSignedDecodeErrorZ _res); + +struct LDKCResult_ClosingSignedDecodeErrorZ CResult_ClosingSignedDecodeErrorZ_clone(const struct LDKCResult_ClosingSignedDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_CommitmentSignedDecodeErrorZ CResult_CommitmentSignedDecodeErrorZ_ok(struct LDKCommitmentSigned o); + +struct LDKCResult_CommitmentSignedDecodeErrorZ CResult_CommitmentSignedDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_CommitmentSignedDecodeErrorZ_free(struct LDKCResult_CommitmentSignedDecodeErrorZ _res); + +struct LDKCResult_CommitmentSignedDecodeErrorZ CResult_CommitmentSignedDecodeErrorZ_clone(const struct LDKCResult_CommitmentSignedDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_FundingCreatedDecodeErrorZ CResult_FundingCreatedDecodeErrorZ_ok(struct LDKFundingCreated o); + +struct LDKCResult_FundingCreatedDecodeErrorZ CResult_FundingCreatedDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_FundingCreatedDecodeErrorZ_free(struct LDKCResult_FundingCreatedDecodeErrorZ _res); + +struct LDKCResult_FundingCreatedDecodeErrorZ CResult_FundingCreatedDecodeErrorZ_clone(const struct LDKCResult_FundingCreatedDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_FundingSignedDecodeErrorZ CResult_FundingSignedDecodeErrorZ_ok(struct LDKFundingSigned o); + +struct LDKCResult_FundingSignedDecodeErrorZ CResult_FundingSignedDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_FundingSignedDecodeErrorZ_free(struct LDKCResult_FundingSignedDecodeErrorZ _res); + +struct LDKCResult_FundingSignedDecodeErrorZ CResult_FundingSignedDecodeErrorZ_clone(const struct LDKCResult_FundingSignedDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_FundingLockedDecodeErrorZ CResult_FundingLockedDecodeErrorZ_ok(struct LDKFundingLocked o); + +struct LDKCResult_FundingLockedDecodeErrorZ CResult_FundingLockedDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_FundingLockedDecodeErrorZ_free(struct LDKCResult_FundingLockedDecodeErrorZ _res); + +struct LDKCResult_FundingLockedDecodeErrorZ CResult_FundingLockedDecodeErrorZ_clone(const struct LDKCResult_FundingLockedDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_InitDecodeErrorZ CResult_InitDecodeErrorZ_ok(struct LDKInit o); + +struct LDKCResult_InitDecodeErrorZ CResult_InitDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_InitDecodeErrorZ_free(struct LDKCResult_InitDecodeErrorZ _res); + +struct LDKCResult_InitDecodeErrorZ CResult_InitDecodeErrorZ_clone(const struct LDKCResult_InitDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_OpenChannelDecodeErrorZ CResult_OpenChannelDecodeErrorZ_ok(struct LDKOpenChannel o); + +struct LDKCResult_OpenChannelDecodeErrorZ CResult_OpenChannelDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_OpenChannelDecodeErrorZ_free(struct LDKCResult_OpenChannelDecodeErrorZ _res); + +struct LDKCResult_OpenChannelDecodeErrorZ CResult_OpenChannelDecodeErrorZ_clone(const struct LDKCResult_OpenChannelDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_RevokeAndACKDecodeErrorZ CResult_RevokeAndACKDecodeErrorZ_ok(struct LDKRevokeAndACK o); + +struct LDKCResult_RevokeAndACKDecodeErrorZ CResult_RevokeAndACKDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_RevokeAndACKDecodeErrorZ_free(struct LDKCResult_RevokeAndACKDecodeErrorZ _res); + +struct LDKCResult_RevokeAndACKDecodeErrorZ CResult_RevokeAndACKDecodeErrorZ_clone(const struct LDKCResult_RevokeAndACKDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_ShutdownDecodeErrorZ CResult_ShutdownDecodeErrorZ_ok(struct LDKShutdown o); + +struct LDKCResult_ShutdownDecodeErrorZ CResult_ShutdownDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_ShutdownDecodeErrorZ_free(struct LDKCResult_ShutdownDecodeErrorZ _res); + +struct LDKCResult_ShutdownDecodeErrorZ CResult_ShutdownDecodeErrorZ_clone(const struct LDKCResult_ShutdownDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_UpdateFailHTLCDecodeErrorZ CResult_UpdateFailHTLCDecodeErrorZ_ok(struct LDKUpdateFailHTLC o); + +struct LDKCResult_UpdateFailHTLCDecodeErrorZ CResult_UpdateFailHTLCDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_UpdateFailHTLCDecodeErrorZ_free(struct LDKCResult_UpdateFailHTLCDecodeErrorZ _res); + +struct LDKCResult_UpdateFailHTLCDecodeErrorZ CResult_UpdateFailHTLCDecodeErrorZ_clone(const struct LDKCResult_UpdateFailHTLCDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ CResult_UpdateFailMalformedHTLCDecodeErrorZ_ok(struct LDKUpdateFailMalformedHTLC o); + +struct LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ CResult_UpdateFailMalformedHTLCDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_UpdateFailMalformedHTLCDecodeErrorZ_free(struct LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ _res); + +struct LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ CResult_UpdateFailMalformedHTLCDecodeErrorZ_clone(const struct LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_UpdateFeeDecodeErrorZ CResult_UpdateFeeDecodeErrorZ_ok(struct LDKUpdateFee o); + +struct LDKCResult_UpdateFeeDecodeErrorZ CResult_UpdateFeeDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_UpdateFeeDecodeErrorZ_free(struct LDKCResult_UpdateFeeDecodeErrorZ _res); + +struct LDKCResult_UpdateFeeDecodeErrorZ CResult_UpdateFeeDecodeErrorZ_clone(const struct LDKCResult_UpdateFeeDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_UpdateFulfillHTLCDecodeErrorZ CResult_UpdateFulfillHTLCDecodeErrorZ_ok(struct LDKUpdateFulfillHTLC o); + +struct LDKCResult_UpdateFulfillHTLCDecodeErrorZ CResult_UpdateFulfillHTLCDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_UpdateFulfillHTLCDecodeErrorZ_free(struct LDKCResult_UpdateFulfillHTLCDecodeErrorZ _res); + +struct LDKCResult_UpdateFulfillHTLCDecodeErrorZ CResult_UpdateFulfillHTLCDecodeErrorZ_clone(const struct LDKCResult_UpdateFulfillHTLCDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_UpdateAddHTLCDecodeErrorZ CResult_UpdateAddHTLCDecodeErrorZ_ok(struct LDKUpdateAddHTLC o); + +struct LDKCResult_UpdateAddHTLCDecodeErrorZ CResult_UpdateAddHTLCDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_UpdateAddHTLCDecodeErrorZ_free(struct LDKCResult_UpdateAddHTLCDecodeErrorZ _res); + +struct LDKCResult_UpdateAddHTLCDecodeErrorZ CResult_UpdateAddHTLCDecodeErrorZ_clone(const struct LDKCResult_UpdateAddHTLCDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_PingDecodeErrorZ CResult_PingDecodeErrorZ_ok(struct LDKPing o); + +struct LDKCResult_PingDecodeErrorZ CResult_PingDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_PingDecodeErrorZ_free(struct LDKCResult_PingDecodeErrorZ _res); + +struct LDKCResult_PingDecodeErrorZ CResult_PingDecodeErrorZ_clone(const struct LDKCResult_PingDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_PongDecodeErrorZ CResult_PongDecodeErrorZ_ok(struct LDKPong o); + +struct LDKCResult_PongDecodeErrorZ CResult_PongDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_PongDecodeErrorZ_free(struct LDKCResult_PongDecodeErrorZ _res); + +struct LDKCResult_PongDecodeErrorZ CResult_PongDecodeErrorZ_clone(const struct LDKCResult_PongDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ CResult_UnsignedChannelAnnouncementDecodeErrorZ_ok(struct LDKUnsignedChannelAnnouncement o); + +struct LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ CResult_UnsignedChannelAnnouncementDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_UnsignedChannelAnnouncementDecodeErrorZ_free(struct LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ _res); + +struct LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ CResult_UnsignedChannelAnnouncementDecodeErrorZ_clone(const struct LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_ChannelAnnouncementDecodeErrorZ CResult_ChannelAnnouncementDecodeErrorZ_ok(struct LDKChannelAnnouncement o); + +struct LDKCResult_ChannelAnnouncementDecodeErrorZ CResult_ChannelAnnouncementDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_ChannelAnnouncementDecodeErrorZ_free(struct LDKCResult_ChannelAnnouncementDecodeErrorZ _res); + +struct LDKCResult_ChannelAnnouncementDecodeErrorZ CResult_ChannelAnnouncementDecodeErrorZ_clone(const struct LDKCResult_ChannelAnnouncementDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_UnsignedChannelUpdateDecodeErrorZ CResult_UnsignedChannelUpdateDecodeErrorZ_ok(struct LDKUnsignedChannelUpdate o); + +struct LDKCResult_UnsignedChannelUpdateDecodeErrorZ CResult_UnsignedChannelUpdateDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_UnsignedChannelUpdateDecodeErrorZ_free(struct LDKCResult_UnsignedChannelUpdateDecodeErrorZ _res); + +struct LDKCResult_UnsignedChannelUpdateDecodeErrorZ CResult_UnsignedChannelUpdateDecodeErrorZ_clone(const struct LDKCResult_UnsignedChannelUpdateDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_ChannelUpdateDecodeErrorZ CResult_ChannelUpdateDecodeErrorZ_ok(struct LDKChannelUpdate o); + +struct LDKCResult_ChannelUpdateDecodeErrorZ CResult_ChannelUpdateDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_ChannelUpdateDecodeErrorZ_free(struct LDKCResult_ChannelUpdateDecodeErrorZ _res); + +struct LDKCResult_ChannelUpdateDecodeErrorZ CResult_ChannelUpdateDecodeErrorZ_clone(const struct LDKCResult_ChannelUpdateDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_ErrorMessageDecodeErrorZ CResult_ErrorMessageDecodeErrorZ_ok(struct LDKErrorMessage o); + +struct LDKCResult_ErrorMessageDecodeErrorZ CResult_ErrorMessageDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_ErrorMessageDecodeErrorZ_free(struct LDKCResult_ErrorMessageDecodeErrorZ _res); + +struct LDKCResult_ErrorMessageDecodeErrorZ CResult_ErrorMessageDecodeErrorZ_clone(const struct LDKCResult_ErrorMessageDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ CResult_UnsignedNodeAnnouncementDecodeErrorZ_ok(struct LDKUnsignedNodeAnnouncement o); + +struct LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ CResult_UnsignedNodeAnnouncementDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_UnsignedNodeAnnouncementDecodeErrorZ_free(struct LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ _res); + +struct LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ CResult_UnsignedNodeAnnouncementDecodeErrorZ_clone(const struct LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_NodeAnnouncementDecodeErrorZ CResult_NodeAnnouncementDecodeErrorZ_ok(struct LDKNodeAnnouncement o); + +struct LDKCResult_NodeAnnouncementDecodeErrorZ CResult_NodeAnnouncementDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_NodeAnnouncementDecodeErrorZ_free(struct LDKCResult_NodeAnnouncementDecodeErrorZ _res); + +struct LDKCResult_NodeAnnouncementDecodeErrorZ CResult_NodeAnnouncementDecodeErrorZ_clone(const struct LDKCResult_NodeAnnouncementDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_QueryShortChannelIdsDecodeErrorZ CResult_QueryShortChannelIdsDecodeErrorZ_ok(struct LDKQueryShortChannelIds o); + +struct LDKCResult_QueryShortChannelIdsDecodeErrorZ CResult_QueryShortChannelIdsDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_QueryShortChannelIdsDecodeErrorZ_free(struct LDKCResult_QueryShortChannelIdsDecodeErrorZ _res); + +struct LDKCResult_QueryShortChannelIdsDecodeErrorZ CResult_QueryShortChannelIdsDecodeErrorZ_clone(const struct LDKCResult_QueryShortChannelIdsDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ CResult_ReplyShortChannelIdsEndDecodeErrorZ_ok(struct LDKReplyShortChannelIdsEnd o); + +struct LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ CResult_ReplyShortChannelIdsEndDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_ReplyShortChannelIdsEndDecodeErrorZ_free(struct LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ _res); + +struct LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ CResult_ReplyShortChannelIdsEndDecodeErrorZ_clone(const struct LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_QueryChannelRangeDecodeErrorZ CResult_QueryChannelRangeDecodeErrorZ_ok(struct LDKQueryChannelRange o); + +struct LDKCResult_QueryChannelRangeDecodeErrorZ CResult_QueryChannelRangeDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_QueryChannelRangeDecodeErrorZ_free(struct LDKCResult_QueryChannelRangeDecodeErrorZ _res); + +struct LDKCResult_QueryChannelRangeDecodeErrorZ CResult_QueryChannelRangeDecodeErrorZ_clone(const struct LDKCResult_QueryChannelRangeDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_ReplyChannelRangeDecodeErrorZ CResult_ReplyChannelRangeDecodeErrorZ_ok(struct LDKReplyChannelRange o); + +struct LDKCResult_ReplyChannelRangeDecodeErrorZ CResult_ReplyChannelRangeDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_ReplyChannelRangeDecodeErrorZ_free(struct LDKCResult_ReplyChannelRangeDecodeErrorZ _res); + +struct LDKCResult_ReplyChannelRangeDecodeErrorZ CResult_ReplyChannelRangeDecodeErrorZ_clone(const struct LDKCResult_ReplyChannelRangeDecodeErrorZ *NONNULL_PTR orig); + +struct LDKCResult_GossipTimestampFilterDecodeErrorZ CResult_GossipTimestampFilterDecodeErrorZ_ok(struct LDKGossipTimestampFilter o); + +struct LDKCResult_GossipTimestampFilterDecodeErrorZ CResult_GossipTimestampFilterDecodeErrorZ_err(struct LDKDecodeError e); + +void CResult_GossipTimestampFilterDecodeErrorZ_free(struct LDKCResult_GossipTimestampFilterDecodeErrorZ _res); + +struct LDKCResult_GossipTimestampFilterDecodeErrorZ CResult_GossipTimestampFilterDecodeErrorZ_clone(const struct LDKCResult_GossipTimestampFilterDecodeErrorZ *NONNULL_PTR orig); + +void Event_free(struct LDKEvent this_ptr); + +struct LDKEvent Event_clone(const struct LDKEvent *NONNULL_PTR orig); + +struct LDKCVec_u8Z Event_write(const struct LDKEvent *NONNULL_PTR obj); + +void MessageSendEvent_free(struct LDKMessageSendEvent this_ptr); + +struct LDKMessageSendEvent MessageSendEvent_clone(const struct LDKMessageSendEvent *NONNULL_PTR orig); + +/** + * Calls the free function if one is set + */ +void MessageSendEventsProvider_free(struct LDKMessageSendEventsProvider this_ptr); + +/** + * Calls the free function if one is set + */ +void EventsProvider_free(struct LDKEventsProvider this_ptr); + +void APIError_free(struct LDKAPIError this_ptr); + +struct LDKAPIError APIError_clone(const struct LDKAPIError *NONNULL_PTR orig); + +enum LDKLevel Level_clone(const enum LDKLevel *NONNULL_PTR orig); + +/** + * Returns the most verbose logging level. + */ +MUST_USE_RES enum LDKLevel Level_max(void); + +/** + * Calls the free function if one is set + */ +void Logger_free(struct LDKLogger this_ptr); + +void ChannelHandshakeConfig_free(struct LDKChannelHandshakeConfig this_ptr); + +/** + * Confirmations we will wait for before considering the channel locked in. + * Applied only for inbound channels (see ChannelHandshakeLimits::max_minimum_depth for the + * equivalent limit applied to outbound channels). + * + * Default value: 6. + */ +uint32_t ChannelHandshakeConfig_get_minimum_depth(const struct LDKChannelHandshakeConfig *NONNULL_PTR this_ptr); + +/** + * Confirmations we will wait for before considering the channel locked in. + * Applied only for inbound channels (see ChannelHandshakeLimits::max_minimum_depth for the + * equivalent limit applied to outbound channels). + * + * Default value: 6. + */ +void ChannelHandshakeConfig_set_minimum_depth(struct LDKChannelHandshakeConfig *NONNULL_PTR this_ptr, uint32_t val); + +/** + * Set to the amount of time we require our counterparty to wait to claim their money. + * + * It's one of the main parameter of our security model. We (or one of our watchtowers) MUST + * be online to check for peer having broadcast a revoked transaction to steal our funds + * at least once every our_to_self_delay blocks. + * + * Meanwhile, asking for a too high delay, we bother peer to freeze funds for nothing in + * case of an honest unilateral channel close, which implicitly decrease the economic value of + * our channel. + * + * Default value: BREAKDOWN_TIMEOUT (currently 144), we enforce it as a minimum at channel + * opening so you can tweak config to ask for more security, not less. + */ +uint16_t ChannelHandshakeConfig_get_our_to_self_delay(const struct LDKChannelHandshakeConfig *NONNULL_PTR this_ptr); + +/** + * Set to the amount of time we require our counterparty to wait to claim their money. + * + * It's one of the main parameter of our security model. We (or one of our watchtowers) MUST + * be online to check for peer having broadcast a revoked transaction to steal our funds + * at least once every our_to_self_delay blocks. + * + * Meanwhile, asking for a too high delay, we bother peer to freeze funds for nothing in + * case of an honest unilateral channel close, which implicitly decrease the economic value of + * our channel. + * + * Default value: BREAKDOWN_TIMEOUT (currently 144), we enforce it as a minimum at channel + * opening so you can tweak config to ask for more security, not less. + */ +void ChannelHandshakeConfig_set_our_to_self_delay(struct LDKChannelHandshakeConfig *NONNULL_PTR this_ptr, uint16_t val); + +/** + * Set to the smallest value HTLC we will accept to process. + * + * This value is sent to our counterparty on channel-open and we close the channel any time + * our counterparty misbehaves by sending us an HTLC with a value smaller than this. + * + * Default value: 1. If the value is less than 1, it is ignored and set to 1, as is required + * by the protocol. + */ +uint64_t ChannelHandshakeConfig_get_our_htlc_minimum_msat(const struct LDKChannelHandshakeConfig *NONNULL_PTR this_ptr); + +/** + * Set to the smallest value HTLC we will accept to process. + * + * This value is sent to our counterparty on channel-open and we close the channel any time + * our counterparty misbehaves by sending us an HTLC with a value smaller than this. + * + * Default value: 1. If the value is less than 1, it is ignored and set to 1, as is required + * by the protocol. + */ +void ChannelHandshakeConfig_set_our_htlc_minimum_msat(struct LDKChannelHandshakeConfig *NONNULL_PTR this_ptr, uint64_t val); + +MUST_USE_RES struct LDKChannelHandshakeConfig ChannelHandshakeConfig_new(uint32_t minimum_depth_arg, uint16_t our_to_self_delay_arg, uint64_t our_htlc_minimum_msat_arg); + +struct LDKChannelHandshakeConfig ChannelHandshakeConfig_clone(const struct LDKChannelHandshakeConfig *NONNULL_PTR orig); + +MUST_USE_RES struct LDKChannelHandshakeConfig ChannelHandshakeConfig_default(void); + +void ChannelHandshakeLimits_free(struct LDKChannelHandshakeLimits this_ptr); + +/** + * Minimum allowed satoshis when a channel is funded, this is supplied by the sender and so + * only applies to inbound channels. + * + * Default value: 0. + */ +uint64_t ChannelHandshakeLimits_get_min_funding_satoshis(const struct LDKChannelHandshakeLimits *NONNULL_PTR this_ptr); + +/** + * Minimum allowed satoshis when a channel is funded, this is supplied by the sender and so + * only applies to inbound channels. + * + * Default value: 0. + */ +void ChannelHandshakeLimits_set_min_funding_satoshis(struct LDKChannelHandshakeLimits *NONNULL_PTR this_ptr, uint64_t val); + +/** + * The remote node sets a limit on the minimum size of HTLCs we can send to them. This allows + * you to limit the maximum minimum-size they can require. + * + * Default value: u64::max_value. + */ +uint64_t ChannelHandshakeLimits_get_max_htlc_minimum_msat(const struct LDKChannelHandshakeLimits *NONNULL_PTR this_ptr); + +/** + * The remote node sets a limit on the minimum size of HTLCs we can send to them. This allows + * you to limit the maximum minimum-size they can require. + * + * Default value: u64::max_value. + */ +void ChannelHandshakeLimits_set_max_htlc_minimum_msat(struct LDKChannelHandshakeLimits *NONNULL_PTR this_ptr, uint64_t val); + +/** + * The remote node sets a limit on the maximum value of pending HTLCs to them at any given + * time to limit their funds exposure to HTLCs. This allows you to set a minimum such value. + * + * Default value: 0. + */ +uint64_t ChannelHandshakeLimits_get_min_max_htlc_value_in_flight_msat(const struct LDKChannelHandshakeLimits *NONNULL_PTR this_ptr); + +/** + * The remote node sets a limit on the maximum value of pending HTLCs to them at any given + * time to limit their funds exposure to HTLCs. This allows you to set a minimum such value. + * + * Default value: 0. + */ +void ChannelHandshakeLimits_set_min_max_htlc_value_in_flight_msat(struct LDKChannelHandshakeLimits *NONNULL_PTR this_ptr, uint64_t val); + +/** + * The remote node will require we keep a certain amount in direct payment to ourselves at all + * time, ensuring that we are able to be punished if we broadcast an old state. This allows to + * you limit the amount which we will have to keep to ourselves (and cannot use for HTLCs). + * + * Default value: u64::max_value. + */ +uint64_t ChannelHandshakeLimits_get_max_channel_reserve_satoshis(const struct LDKChannelHandshakeLimits *NONNULL_PTR this_ptr); + +/** + * The remote node will require we keep a certain amount in direct payment to ourselves at all + * time, ensuring that we are able to be punished if we broadcast an old state. This allows to + * you limit the amount which we will have to keep to ourselves (and cannot use for HTLCs). + * + * Default value: u64::max_value. + */ +void ChannelHandshakeLimits_set_max_channel_reserve_satoshis(struct LDKChannelHandshakeLimits *NONNULL_PTR this_ptr, uint64_t val); + +/** + * The remote node sets a limit on the maximum number of pending HTLCs to them at any given + * time. This allows you to set a minimum such value. + * + * Default value: 0. + */ +uint16_t ChannelHandshakeLimits_get_min_max_accepted_htlcs(const struct LDKChannelHandshakeLimits *NONNULL_PTR this_ptr); + +/** + * The remote node sets a limit on the maximum number of pending HTLCs to them at any given + * time. This allows you to set a minimum such value. + * + * Default value: 0. + */ +void ChannelHandshakeLimits_set_min_max_accepted_htlcs(struct LDKChannelHandshakeLimits *NONNULL_PTR this_ptr, uint16_t val); + +/** + * Outputs below a certain value will not be added to on-chain transactions. The dust value is + * required to always be higher than this value so this only applies to HTLC outputs (and + * potentially to-self outputs before any payments have been made). + * Thus, HTLCs below this amount plus HTLC transaction fees are not enforceable on-chain. + * This setting allows you to set a minimum dust limit for their commitment transactions, + * reflecting the reality that tiny outputs are not considered standard transactions and will + * not propagate through the Bitcoin network. + * + * Default value: 546, the current dust limit on the Bitcoin network. + */ +uint64_t ChannelHandshakeLimits_get_min_dust_limit_satoshis(const struct LDKChannelHandshakeLimits *NONNULL_PTR this_ptr); + +/** + * Outputs below a certain value will not be added to on-chain transactions. The dust value is + * required to always be higher than this value so this only applies to HTLC outputs (and + * potentially to-self outputs before any payments have been made). + * Thus, HTLCs below this amount plus HTLC transaction fees are not enforceable on-chain. + * This setting allows you to set a minimum dust limit for their commitment transactions, + * reflecting the reality that tiny outputs are not considered standard transactions and will + * not propagate through the Bitcoin network. + * + * Default value: 546, the current dust limit on the Bitcoin network. + */ +void ChannelHandshakeLimits_set_min_dust_limit_satoshis(struct LDKChannelHandshakeLimits *NONNULL_PTR this_ptr, uint64_t val); + +/** + * Maximum allowed threshold above which outputs will not be generated in their commitment + * transactions. + * HTLCs below this amount plus HTLC transaction fees are not enforceable on-chain. + * + * Default value: u64::max_value. + */ +uint64_t ChannelHandshakeLimits_get_max_dust_limit_satoshis(const struct LDKChannelHandshakeLimits *NONNULL_PTR this_ptr); + +/** + * Maximum allowed threshold above which outputs will not be generated in their commitment + * transactions. + * HTLCs below this amount plus HTLC transaction fees are not enforceable on-chain. + * + * Default value: u64::max_value. + */ +void ChannelHandshakeLimits_set_max_dust_limit_satoshis(struct LDKChannelHandshakeLimits *NONNULL_PTR this_ptr, uint64_t val); + +/** + * Before a channel is usable the funding transaction will need to be confirmed by at least a + * certain number of blocks, specified by the node which is not the funder (as the funder can + * assume they aren't going to double-spend themselves). + * This config allows you to set a limit on the maximum amount of time to wait. + * + * Default value: 144, or roughly one day and only applies to outbound channels. + */ +uint32_t ChannelHandshakeLimits_get_max_minimum_depth(const struct LDKChannelHandshakeLimits *NONNULL_PTR this_ptr); + +/** + * Before a channel is usable the funding transaction will need to be confirmed by at least a + * certain number of blocks, specified by the node which is not the funder (as the funder can + * assume they aren't going to double-spend themselves). + * This config allows you to set a limit on the maximum amount of time to wait. + * + * Default value: 144, or roughly one day and only applies to outbound channels. + */ +void ChannelHandshakeLimits_set_max_minimum_depth(struct LDKChannelHandshakeLimits *NONNULL_PTR this_ptr, uint32_t val); + +/** + * Set to force the incoming channel to match our announced channel preference in + * ChannelConfig. + * + * Default value: true, to make the default that no announced channels are possible (which is + * appropriate for any nodes which are not online very reliably). + */ +bool ChannelHandshakeLimits_get_force_announced_channel_preference(const struct LDKChannelHandshakeLimits *NONNULL_PTR this_ptr); + +/** + * Set to force the incoming channel to match our announced channel preference in + * ChannelConfig. + * + * Default value: true, to make the default that no announced channels are possible (which is + * appropriate for any nodes which are not online very reliably). + */ +void ChannelHandshakeLimits_set_force_announced_channel_preference(struct LDKChannelHandshakeLimits *NONNULL_PTR this_ptr, bool val); + +/** + * Set to the amount of time we're willing to wait to claim money back to us. + * + * Not checking this value would be a security issue, as our peer would be able to set it to + * max relative lock-time (a year) and we would \"lose\" money as it would be locked for a long time. + * + * Default value: MAX_LOCAL_BREAKDOWN_TIMEOUT (1008), which we also enforce as a maximum value + * so you can tweak config to reduce the loss of having useless locked funds (if your peer accepts) + */ +uint16_t ChannelHandshakeLimits_get_their_to_self_delay(const struct LDKChannelHandshakeLimits *NONNULL_PTR this_ptr); + +/** + * Set to the amount of time we're willing to wait to claim money back to us. + * + * Not checking this value would be a security issue, as our peer would be able to set it to + * max relative lock-time (a year) and we would \"lose\" money as it would be locked for a long time. + * + * Default value: MAX_LOCAL_BREAKDOWN_TIMEOUT (1008), which we also enforce as a maximum value + * so you can tweak config to reduce the loss of having useless locked funds (if your peer accepts) + */ +void ChannelHandshakeLimits_set_their_to_self_delay(struct LDKChannelHandshakeLimits *NONNULL_PTR this_ptr, uint16_t val); + +MUST_USE_RES struct LDKChannelHandshakeLimits ChannelHandshakeLimits_new(uint64_t min_funding_satoshis_arg, uint64_t max_htlc_minimum_msat_arg, uint64_t min_max_htlc_value_in_flight_msat_arg, uint64_t max_channel_reserve_satoshis_arg, uint16_t min_max_accepted_htlcs_arg, uint64_t min_dust_limit_satoshis_arg, uint64_t max_dust_limit_satoshis_arg, uint32_t max_minimum_depth_arg, bool force_announced_channel_preference_arg, uint16_t their_to_self_delay_arg); + +struct LDKChannelHandshakeLimits ChannelHandshakeLimits_clone(const struct LDKChannelHandshakeLimits *NONNULL_PTR orig); + +MUST_USE_RES struct LDKChannelHandshakeLimits ChannelHandshakeLimits_default(void); + +void ChannelConfig_free(struct LDKChannelConfig this_ptr); + +/** + * Amount (in millionths of a satoshi) the channel will charge per transferred satoshi. + * This may be allowed to change at runtime in a later update, however doing so must result in + * update messages sent to notify all nodes of our updated relay fee. + * + * Default value: 0. + */ +uint32_t ChannelConfig_get_fee_proportional_millionths(const struct LDKChannelConfig *NONNULL_PTR this_ptr); + +/** + * Amount (in millionths of a satoshi) the channel will charge per transferred satoshi. + * This may be allowed to change at runtime in a later update, however doing so must result in + * update messages sent to notify all nodes of our updated relay fee. + * + * Default value: 0. + */ +void ChannelConfig_set_fee_proportional_millionths(struct LDKChannelConfig *NONNULL_PTR this_ptr, uint32_t val); + +/** + * Set to announce the channel publicly and notify all nodes that they can route via this + * channel. + * + * This should only be set to true for nodes which expect to be online reliably. + * + * As the node which funds a channel picks this value this will only apply for new outbound + * channels unless ChannelHandshakeLimits::force_announced_channel_preferences is set. + * + * This cannot be changed after the initial channel handshake. + * + * Default value: false. + */ +bool ChannelConfig_get_announced_channel(const struct LDKChannelConfig *NONNULL_PTR this_ptr); + +/** + * Set to announce the channel publicly and notify all nodes that they can route via this + * channel. + * + * This should only be set to true for nodes which expect to be online reliably. + * + * As the node which funds a channel picks this value this will only apply for new outbound + * channels unless ChannelHandshakeLimits::force_announced_channel_preferences is set. + * + * This cannot be changed after the initial channel handshake. + * + * Default value: false. + */ +void ChannelConfig_set_announced_channel(struct LDKChannelConfig *NONNULL_PTR this_ptr, bool val); + +/** + * When set, we commit to an upfront shutdown_pubkey at channel open. If our counterparty + * supports it, they will then enforce the mutual-close output to us matches what we provided + * at intialization, preventing us from closing to an alternate pubkey. + * + * This is set to true by default to provide a slight increase in security, though ultimately + * any attacker who is able to take control of a channel can just as easily send the funds via + * lightning payments, so we never require that our counterparties support this option. + * + * This cannot be changed after a channel has been initialized. + * + * Default value: true. + */ +bool ChannelConfig_get_commit_upfront_shutdown_pubkey(const struct LDKChannelConfig *NONNULL_PTR this_ptr); + +/** + * When set, we commit to an upfront shutdown_pubkey at channel open. If our counterparty + * supports it, they will then enforce the mutual-close output to us matches what we provided + * at intialization, preventing us from closing to an alternate pubkey. + * + * This is set to true by default to provide a slight increase in security, though ultimately + * any attacker who is able to take control of a channel can just as easily send the funds via + * lightning payments, so we never require that our counterparties support this option. + * + * This cannot be changed after a channel has been initialized. + * + * Default value: true. + */ +void ChannelConfig_set_commit_upfront_shutdown_pubkey(struct LDKChannelConfig *NONNULL_PTR this_ptr, bool val); + +MUST_USE_RES struct LDKChannelConfig ChannelConfig_new(uint32_t fee_proportional_millionths_arg, bool announced_channel_arg, bool commit_upfront_shutdown_pubkey_arg); + +struct LDKChannelConfig ChannelConfig_clone(const struct LDKChannelConfig *NONNULL_PTR orig); + +MUST_USE_RES struct LDKChannelConfig ChannelConfig_default(void); + +struct LDKCVec_u8Z ChannelConfig_write(const struct LDKChannelConfig *NONNULL_PTR obj); + +struct LDKCResult_ChannelConfigDecodeErrorZ ChannelConfig_read(struct LDKu8slice ser); + +void UserConfig_free(struct LDKUserConfig this_ptr); + +/** + * Channel config that we propose to our counterparty. + */ +struct LDKChannelHandshakeConfig UserConfig_get_own_channel_config(const struct LDKUserConfig *NONNULL_PTR this_ptr); + +/** + * Channel config that we propose to our counterparty. + */ +void UserConfig_set_own_channel_config(struct LDKUserConfig *NONNULL_PTR this_ptr, struct LDKChannelHandshakeConfig val); + +/** + * Limits applied to our counterparty's proposed channel config settings. + */ +struct LDKChannelHandshakeLimits UserConfig_get_peer_channel_config_limits(const struct LDKUserConfig *NONNULL_PTR this_ptr); + +/** + * Limits applied to our counterparty's proposed channel config settings. + */ +void UserConfig_set_peer_channel_config_limits(struct LDKUserConfig *NONNULL_PTR this_ptr, struct LDKChannelHandshakeLimits val); + +/** + * Channel config which affects behavior during channel lifetime. + */ +struct LDKChannelConfig UserConfig_get_channel_options(const struct LDKUserConfig *NONNULL_PTR this_ptr); + +/** + * Channel config which affects behavior during channel lifetime. + */ +void UserConfig_set_channel_options(struct LDKUserConfig *NONNULL_PTR this_ptr, struct LDKChannelConfig val); + +MUST_USE_RES struct LDKUserConfig UserConfig_new(struct LDKChannelHandshakeConfig own_channel_config_arg, struct LDKChannelHandshakeLimits peer_channel_config_limits_arg, struct LDKChannelConfig channel_options_arg); + +struct LDKUserConfig UserConfig_clone(const struct LDKUserConfig *NONNULL_PTR orig); + +MUST_USE_RES struct LDKUserConfig UserConfig_default(void); + +enum LDKAccessError AccessError_clone(const enum LDKAccessError *NONNULL_PTR orig); + +/** + * Calls the free function if one is set + */ +void Access_free(struct LDKAccess this_ptr); + +/** + * Calls the free function if one is set + */ +void Listen_free(struct LDKListen this_ptr); + +/** + * Calls the free function if one is set + */ +void Watch_free(struct LDKWatch this_ptr); + +/** + * Calls the free function if one is set + */ +void Filter_free(struct LDKFilter this_ptr); + +/** + * Calls the free function if one is set + */ +void BroadcasterInterface_free(struct LDKBroadcasterInterface this_ptr); + +enum LDKConfirmationTarget ConfirmationTarget_clone(const enum LDKConfirmationTarget *NONNULL_PTR orig); + +/** + * Calls the free function if one is set + */ +void FeeEstimator_free(struct LDKFeeEstimator this_ptr); + +void ChainMonitor_free(struct LDKChainMonitor this_ptr); + +/** + * Dispatches to per-channel monitors, which are responsible for updating their on-chain view + * of a channel and reacting accordingly based on transactions in the connected block. See + * [`ChannelMonitor::block_connected`] for details. Any HTLCs that were resolved on chain will + * be returned by [`chain::Watch::release_pending_monitor_events`]. + * + * Calls back to [`chain::Filter`] if any monitor indicated new outputs to watch. Subsequent + * calls must not exclude any transactions matching the new outputs nor any in-block + * descendants of such transactions. It is not necessary to re-fetch the block to obtain + * updated `txdata`. + * + * [`ChannelMonitor::block_connected`]: ../channelmonitor/struct.ChannelMonitor.html#method.block_connected + * [`chain::Watch::release_pending_monitor_events`]: ../trait.Watch.html#tymethod.release_pending_monitor_events + * [`chain::Filter`]: ../trait.Filter.html + */ +void ChainMonitor_block_connected(const struct LDKChainMonitor *NONNULL_PTR this_arg, const uint8_t (*header)[80], struct LDKCVec_C2Tuple_usizeTransactionZZ txdata, uint32_t height); + +/** + * Dispatches to per-channel monitors, which are responsible for updating their on-chain view + * of a channel based on the disconnected block. See [`ChannelMonitor::block_disconnected`] for + * details. + * + * [`ChannelMonitor::block_disconnected`]: ../channelmonitor/struct.ChannelMonitor.html#method.block_disconnected + */ +void ChainMonitor_block_disconnected(const struct LDKChainMonitor *NONNULL_PTR this_arg, const uint8_t (*header)[80], uint32_t disconnected_height); + +/** + * Creates a new `ChainMonitor` used to watch on-chain activity pertaining to channels. + * + * When an optional chain source implementing [`chain::Filter`] is provided, the chain monitor + * will call back to it indicating transactions and outputs of interest. This allows clients to + * pre-filter blocks or only fetch blocks matching a compact filter. Otherwise, clients may + * always need to fetch full blocks absent another means for determining which blocks contain + * transactions relevant to the watched channels. + * + * [`chain::Filter`]: ../trait.Filter.html + */ +MUST_USE_RES struct LDKChainMonitor ChainMonitor_new(struct LDKFilter *chain_source, struct LDKBroadcasterInterface broadcaster, struct LDKLogger logger, struct LDKFeeEstimator feeest, struct LDKPersist persister); + +struct LDKWatch ChainMonitor_as_Watch(const struct LDKChainMonitor *NONNULL_PTR this_arg); + +struct LDKEventsProvider ChainMonitor_as_EventsProvider(const struct LDKChainMonitor *NONNULL_PTR this_arg); + +void ChannelMonitorUpdate_free(struct LDKChannelMonitorUpdate this_ptr); + +/** + * The sequence number of this update. Updates *must* be replayed in-order according to this + * sequence number (and updates may panic if they are not). The update_id values are strictly + * increasing and increase by one for each new update, with one exception specified below. + * + * This sequence number is also used to track up to which points updates which returned + * ChannelMonitorUpdateErr::TemporaryFailure have been applied to all copies of a given + * ChannelMonitor when ChannelManager::channel_monitor_updated is called. + * + * The only instance where update_id values are not strictly increasing is the case where we + * allow post-force-close updates with a special update ID of [`CLOSED_CHANNEL_UPDATE_ID`]. See + * its docs for more details. + * + * [`CLOSED_CHANNEL_UPDATE_ID`]: constant.CLOSED_CHANNEL_UPDATE_ID.html + */ +uint64_t ChannelMonitorUpdate_get_update_id(const struct LDKChannelMonitorUpdate *NONNULL_PTR this_ptr); + +/** + * The sequence number of this update. Updates *must* be replayed in-order according to this + * sequence number (and updates may panic if they are not). The update_id values are strictly + * increasing and increase by one for each new update, with one exception specified below. + * + * This sequence number is also used to track up to which points updates which returned + * ChannelMonitorUpdateErr::TemporaryFailure have been applied to all copies of a given + * ChannelMonitor when ChannelManager::channel_monitor_updated is called. + * + * The only instance where update_id values are not strictly increasing is the case where we + * allow post-force-close updates with a special update ID of [`CLOSED_CHANNEL_UPDATE_ID`]. See + * its docs for more details. + * + * [`CLOSED_CHANNEL_UPDATE_ID`]: constant.CLOSED_CHANNEL_UPDATE_ID.html + */ +void ChannelMonitorUpdate_set_update_id(struct LDKChannelMonitorUpdate *NONNULL_PTR this_ptr, uint64_t val); + +struct LDKChannelMonitorUpdate ChannelMonitorUpdate_clone(const struct LDKChannelMonitorUpdate *NONNULL_PTR orig); + +struct LDKCVec_u8Z ChannelMonitorUpdate_write(const struct LDKChannelMonitorUpdate *NONNULL_PTR obj); + +struct LDKCResult_ChannelMonitorUpdateDecodeErrorZ ChannelMonitorUpdate_read(struct LDKu8slice ser); + +enum LDKChannelMonitorUpdateErr ChannelMonitorUpdateErr_clone(const enum LDKChannelMonitorUpdateErr *NONNULL_PTR orig); + +void MonitorUpdateError_free(struct LDKMonitorUpdateError this_ptr); + +struct LDKMonitorUpdateError MonitorUpdateError_clone(const struct LDKMonitorUpdateError *NONNULL_PTR orig); + +void MonitorEvent_free(struct LDKMonitorEvent this_ptr); + +struct LDKMonitorEvent MonitorEvent_clone(const struct LDKMonitorEvent *NONNULL_PTR orig); + +void HTLCUpdate_free(struct LDKHTLCUpdate this_ptr); + +struct LDKHTLCUpdate HTLCUpdate_clone(const struct LDKHTLCUpdate *NONNULL_PTR orig); + +struct LDKCVec_u8Z HTLCUpdate_write(const struct LDKHTLCUpdate *NONNULL_PTR obj); + +struct LDKCResult_HTLCUpdateDecodeErrorZ HTLCUpdate_read(struct LDKu8slice ser); + +void ChannelMonitor_free(struct LDKChannelMonitor this_ptr); + +struct LDKCVec_u8Z ChannelMonitor_write(const struct LDKChannelMonitor *NONNULL_PTR obj); + +/** + * Updates a ChannelMonitor on the basis of some new information provided by the Channel + * itself. + * + * panics if the given update is not the next update by update_id. + */ +MUST_USE_RES struct LDKCResult_NoneMonitorUpdateErrorZ ChannelMonitor_update_monitor(const struct LDKChannelMonitor *NONNULL_PTR this_arg, const struct LDKChannelMonitorUpdate *NONNULL_PTR updates, const struct LDKBroadcasterInterface *NONNULL_PTR broadcaster, const struct LDKFeeEstimator *NONNULL_PTR fee_estimator, const struct LDKLogger *NONNULL_PTR logger); + +/** + * Gets the update_id from the latest ChannelMonitorUpdate which was applied to this + * ChannelMonitor. + */ +MUST_USE_RES uint64_t ChannelMonitor_get_latest_update_id(const struct LDKChannelMonitor *NONNULL_PTR this_arg); + +/** + * Gets the funding transaction outpoint of the channel this ChannelMonitor is monitoring for. + */ +MUST_USE_RES struct LDKC2Tuple_OutPointScriptZ ChannelMonitor_get_funding_txo(const struct LDKChannelMonitor *NONNULL_PTR this_arg); + +/** + * Get the list of HTLCs who's status has been updated on chain. This should be called by + * ChannelManager via [`chain::Watch::release_pending_monitor_events`]. + * + * [`chain::Watch::release_pending_monitor_events`]: ../trait.Watch.html#tymethod.release_pending_monitor_events + */ +MUST_USE_RES struct LDKCVec_MonitorEventZ ChannelMonitor_get_and_clear_pending_monitor_events(const struct LDKChannelMonitor *NONNULL_PTR this_arg); + +/** + * Gets the list of pending events which were generated by previous actions, clearing the list + * in the process. + * + * This is called by ChainMonitor::get_and_clear_pending_events() and is equivalent to + * EventsProvider::get_and_clear_pending_events() except that it requires &mut self as we do + * no internal locking in ChannelMonitors. + */ +MUST_USE_RES struct LDKCVec_EventZ ChannelMonitor_get_and_clear_pending_events(const struct LDKChannelMonitor *NONNULL_PTR this_arg); + +/** + * Used by ChannelManager deserialization to broadcast the latest holder state if its copy of + * the Channel was out-of-date. You may use it to get a broadcastable holder toxic tx in case of + * fallen-behind, i.e when receiving a channel_reestablish with a proof that our counterparty side knows + * a higher revocation secret than the holder commitment number we are aware of. Broadcasting these + * transactions are UNSAFE, as they allow counterparty side to punish you. Nevertheless you may want to + * broadcast them if counterparty don't close channel with his higher commitment transaction after a + * substantial amount of time (a month or even a year) to get back funds. Best may be to contact + * out-of-band the other node operator to coordinate with him if option is available to you. + * In any-case, choice is up to the user. + */ +MUST_USE_RES struct LDKCVec_TransactionZ ChannelMonitor_get_latest_holder_commitment_txn(const struct LDKChannelMonitor *NONNULL_PTR this_arg, const struct LDKLogger *NONNULL_PTR logger); + +/** + * Processes transactions in a newly connected block, which may result in any of the following: + * - update the monitor's state against resolved HTLCs + * - punish the counterparty in the case of seeing a revoked commitment transaction + * - force close the channel and claim/timeout incoming/outgoing HTLCs if near expiration + * - detect settled outputs for later spending + * - schedule and bump any in-flight claims + * + * Returns any new outputs to watch from `txdata`; after called, these are also included in + * [`get_outputs_to_watch`]. + * + * [`get_outputs_to_watch`]: #method.get_outputs_to_watch + */ +MUST_USE_RES struct LDKCVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ ChannelMonitor_block_connected(const struct LDKChannelMonitor *NONNULL_PTR this_arg, const uint8_t (*header)[80], struct LDKCVec_C2Tuple_usizeTransactionZZ txdata, uint32_t height, struct LDKBroadcasterInterface broadcaster, struct LDKFeeEstimator fee_estimator, struct LDKLogger logger); + +/** + * Determines if the disconnected block contained any transactions of interest and updates + * appropriately. + */ +void ChannelMonitor_block_disconnected(const struct LDKChannelMonitor *NONNULL_PTR this_arg, const uint8_t (*header)[80], uint32_t height, struct LDKBroadcasterInterface broadcaster, struct LDKFeeEstimator fee_estimator, struct LDKLogger logger); + +/** + * Calls the free function if one is set + */ +void Persist_free(struct LDKPersist this_ptr); + +struct LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ C2Tuple_BlockHashChannelMonitorZ_read(struct LDKu8slice ser, const struct LDKKeysInterface *NONNULL_PTR arg); + +void OutPoint_free(struct LDKOutPoint this_ptr); + +/** + * The referenced transaction's txid. + */ +const uint8_t (*OutPoint_get_txid(const struct LDKOutPoint *NONNULL_PTR this_ptr))[32]; + +/** + * The referenced transaction's txid. + */ +void OutPoint_set_txid(struct LDKOutPoint *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The index of the referenced output in its transaction's vout. + */ +uint16_t OutPoint_get_index(const struct LDKOutPoint *NONNULL_PTR this_ptr); + +/** + * The index of the referenced output in its transaction's vout. + */ +void OutPoint_set_index(struct LDKOutPoint *NONNULL_PTR this_ptr, uint16_t val); + +MUST_USE_RES struct LDKOutPoint OutPoint_new(struct LDKThirtyTwoBytes txid_arg, uint16_t index_arg); + +struct LDKOutPoint OutPoint_clone(const struct LDKOutPoint *NONNULL_PTR orig); + +/** + * Convert an `OutPoint` to a lightning channel id. + */ +MUST_USE_RES struct LDKThirtyTwoBytes OutPoint_to_channel_id(const struct LDKOutPoint *NONNULL_PTR this_arg); + +struct LDKCVec_u8Z OutPoint_write(const struct LDKOutPoint *NONNULL_PTR obj); + +struct LDKCResult_OutPointDecodeErrorZ OutPoint_read(struct LDKu8slice ser); + +void DelayedPaymentOutputDescriptor_free(struct LDKDelayedPaymentOutputDescriptor this_ptr); + +/** + * The outpoint which is spendable + */ +struct LDKOutPoint DelayedPaymentOutputDescriptor_get_outpoint(const struct LDKDelayedPaymentOutputDescriptor *NONNULL_PTR this_ptr); + +/** + * The outpoint which is spendable + */ +void DelayedPaymentOutputDescriptor_set_outpoint(struct LDKDelayedPaymentOutputDescriptor *NONNULL_PTR this_ptr, struct LDKOutPoint val); + +/** + * Per commitment point to derive delayed_payment_key by key holder + */ +struct LDKPublicKey DelayedPaymentOutputDescriptor_get_per_commitment_point(const struct LDKDelayedPaymentOutputDescriptor *NONNULL_PTR this_ptr); + +/** + * Per commitment point to derive delayed_payment_key by key holder + */ +void DelayedPaymentOutputDescriptor_set_per_commitment_point(struct LDKDelayedPaymentOutputDescriptor *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * The nSequence value which must be set in the spending input to satisfy the OP_CSV in + * the witness_script. + */ +uint16_t DelayedPaymentOutputDescriptor_get_to_self_delay(const struct LDKDelayedPaymentOutputDescriptor *NONNULL_PTR this_ptr); + +/** + * The nSequence value which must be set in the spending input to satisfy the OP_CSV in + * the witness_script. + */ +void DelayedPaymentOutputDescriptor_set_to_self_delay(struct LDKDelayedPaymentOutputDescriptor *NONNULL_PTR this_ptr, uint16_t val); + +/** + * The output which is referenced by the given outpoint + */ +void DelayedPaymentOutputDescriptor_set_output(struct LDKDelayedPaymentOutputDescriptor *NONNULL_PTR this_ptr, struct LDKTxOut val); + +/** + * The revocation point specific to the commitment transaction which was broadcast. Used to + * derive the witnessScript for this output. + */ +struct LDKPublicKey DelayedPaymentOutputDescriptor_get_revocation_pubkey(const struct LDKDelayedPaymentOutputDescriptor *NONNULL_PTR this_ptr); + +/** + * The revocation point specific to the commitment transaction which was broadcast. Used to + * derive the witnessScript for this output. + */ +void DelayedPaymentOutputDescriptor_set_revocation_pubkey(struct LDKDelayedPaymentOutputDescriptor *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * Arbitrary identification information returned by a call to + * `Sign::channel_keys_id()`. This may be useful in re-deriving keys used in + * the channel to spend the output. + */ +const uint8_t (*DelayedPaymentOutputDescriptor_get_channel_keys_id(const struct LDKDelayedPaymentOutputDescriptor *NONNULL_PTR this_ptr))[32]; + +/** + * Arbitrary identification information returned by a call to + * `Sign::channel_keys_id()`. This may be useful in re-deriving keys used in + * the channel to spend the output. + */ +void DelayedPaymentOutputDescriptor_set_channel_keys_id(struct LDKDelayedPaymentOutputDescriptor *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The value of the channel which this output originated from, possibly indirectly. + */ +uint64_t DelayedPaymentOutputDescriptor_get_channel_value_satoshis(const struct LDKDelayedPaymentOutputDescriptor *NONNULL_PTR this_ptr); + +/** + * The value of the channel which this output originated from, possibly indirectly. + */ +void DelayedPaymentOutputDescriptor_set_channel_value_satoshis(struct LDKDelayedPaymentOutputDescriptor *NONNULL_PTR this_ptr, uint64_t val); + +MUST_USE_RES struct LDKDelayedPaymentOutputDescriptor DelayedPaymentOutputDescriptor_new(struct LDKOutPoint outpoint_arg, struct LDKPublicKey per_commitment_point_arg, uint16_t to_self_delay_arg, struct LDKTxOut output_arg, struct LDKPublicKey revocation_pubkey_arg, struct LDKThirtyTwoBytes channel_keys_id_arg, uint64_t channel_value_satoshis_arg); + +struct LDKDelayedPaymentOutputDescriptor DelayedPaymentOutputDescriptor_clone(const struct LDKDelayedPaymentOutputDescriptor *NONNULL_PTR orig); + +void StaticPaymentOutputDescriptor_free(struct LDKStaticPaymentOutputDescriptor this_ptr); + +/** + * The outpoint which is spendable + */ +struct LDKOutPoint StaticPaymentOutputDescriptor_get_outpoint(const struct LDKStaticPaymentOutputDescriptor *NONNULL_PTR this_ptr); + +/** + * The outpoint which is spendable + */ +void StaticPaymentOutputDescriptor_set_outpoint(struct LDKStaticPaymentOutputDescriptor *NONNULL_PTR this_ptr, struct LDKOutPoint val); + +/** + * The output which is referenced by the given outpoint + */ +void StaticPaymentOutputDescriptor_set_output(struct LDKStaticPaymentOutputDescriptor *NONNULL_PTR this_ptr, struct LDKTxOut val); + +/** + * Arbitrary identification information returned by a call to + * `Sign::channel_keys_id()`. This may be useful in re-deriving keys used in + * the channel to spend the output. + */ +const uint8_t (*StaticPaymentOutputDescriptor_get_channel_keys_id(const struct LDKStaticPaymentOutputDescriptor *NONNULL_PTR this_ptr))[32]; + +/** + * Arbitrary identification information returned by a call to + * `Sign::channel_keys_id()`. This may be useful in re-deriving keys used in + * the channel to spend the output. + */ +void StaticPaymentOutputDescriptor_set_channel_keys_id(struct LDKStaticPaymentOutputDescriptor *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The value of the channel which this transactions spends. + */ +uint64_t StaticPaymentOutputDescriptor_get_channel_value_satoshis(const struct LDKStaticPaymentOutputDescriptor *NONNULL_PTR this_ptr); + +/** + * The value of the channel which this transactions spends. + */ +void StaticPaymentOutputDescriptor_set_channel_value_satoshis(struct LDKStaticPaymentOutputDescriptor *NONNULL_PTR this_ptr, uint64_t val); + +MUST_USE_RES struct LDKStaticPaymentOutputDescriptor StaticPaymentOutputDescriptor_new(struct LDKOutPoint outpoint_arg, struct LDKTxOut output_arg, struct LDKThirtyTwoBytes channel_keys_id_arg, uint64_t channel_value_satoshis_arg); + +struct LDKStaticPaymentOutputDescriptor StaticPaymentOutputDescriptor_clone(const struct LDKStaticPaymentOutputDescriptor *NONNULL_PTR orig); + +void SpendableOutputDescriptor_free(struct LDKSpendableOutputDescriptor this_ptr); + +struct LDKSpendableOutputDescriptor SpendableOutputDescriptor_clone(const struct LDKSpendableOutputDescriptor *NONNULL_PTR orig); + +struct LDKCVec_u8Z SpendableOutputDescriptor_write(const struct LDKSpendableOutputDescriptor *NONNULL_PTR obj); + +struct LDKCResult_SpendableOutputDescriptorDecodeErrorZ SpendableOutputDescriptor_read(struct LDKu8slice ser); + +struct LDKSign Sign_clone(const struct LDKSign *NONNULL_PTR orig); + +/** + * Calls the free function if one is set + */ +void Sign_free(struct LDKSign this_ptr); + +/** + * Calls the free function if one is set + */ +void KeysInterface_free(struct LDKKeysInterface this_ptr); + +void InMemorySigner_free(struct LDKInMemorySigner this_ptr); + +/** + * Private key of anchor tx + */ +const uint8_t (*InMemorySigner_get_funding_key(const struct LDKInMemorySigner *NONNULL_PTR this_ptr))[32]; + +/** + * Private key of anchor tx + */ +void InMemorySigner_set_funding_key(struct LDKInMemorySigner *NONNULL_PTR this_ptr, struct LDKSecretKey val); + +/** + * Holder secret key for blinded revocation pubkey + */ +const uint8_t (*InMemorySigner_get_revocation_base_key(const struct LDKInMemorySigner *NONNULL_PTR this_ptr))[32]; + +/** + * Holder secret key for blinded revocation pubkey + */ +void InMemorySigner_set_revocation_base_key(struct LDKInMemorySigner *NONNULL_PTR this_ptr, struct LDKSecretKey val); + +/** + * Holder secret key used for our balance in counterparty-broadcasted commitment transactions + */ +const uint8_t (*InMemorySigner_get_payment_key(const struct LDKInMemorySigner *NONNULL_PTR this_ptr))[32]; + +/** + * Holder secret key used for our balance in counterparty-broadcasted commitment transactions + */ +void InMemorySigner_set_payment_key(struct LDKInMemorySigner *NONNULL_PTR this_ptr, struct LDKSecretKey val); + +/** + * Holder secret key used in HTLC tx + */ +const uint8_t (*InMemorySigner_get_delayed_payment_base_key(const struct LDKInMemorySigner *NONNULL_PTR this_ptr))[32]; + +/** + * Holder secret key used in HTLC tx + */ +void InMemorySigner_set_delayed_payment_base_key(struct LDKInMemorySigner *NONNULL_PTR this_ptr, struct LDKSecretKey val); + +/** + * Holder htlc secret key used in commitment tx htlc outputs + */ +const uint8_t (*InMemorySigner_get_htlc_base_key(const struct LDKInMemorySigner *NONNULL_PTR this_ptr))[32]; + +/** + * Holder htlc secret key used in commitment tx htlc outputs + */ +void InMemorySigner_set_htlc_base_key(struct LDKInMemorySigner *NONNULL_PTR this_ptr, struct LDKSecretKey val); + +/** + * Commitment seed + */ +const uint8_t (*InMemorySigner_get_commitment_seed(const struct LDKInMemorySigner *NONNULL_PTR this_ptr))[32]; + +/** + * Commitment seed + */ +void InMemorySigner_set_commitment_seed(struct LDKInMemorySigner *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +struct LDKInMemorySigner InMemorySigner_clone(const struct LDKInMemorySigner *NONNULL_PTR orig); + +/** + * Create a new InMemorySigner + */ +MUST_USE_RES struct LDKInMemorySigner InMemorySigner_new(struct LDKSecretKey funding_key, struct LDKSecretKey revocation_base_key, struct LDKSecretKey payment_key, struct LDKSecretKey delayed_payment_base_key, struct LDKSecretKey htlc_base_key, struct LDKThirtyTwoBytes commitment_seed, uint64_t channel_value_satoshis, struct LDKThirtyTwoBytes channel_keys_id); + +/** + * Counterparty pubkeys. + * Will panic if ready_channel wasn't called. + */ +MUST_USE_RES struct LDKChannelPublicKeys InMemorySigner_counterparty_pubkeys(const struct LDKInMemorySigner *NONNULL_PTR this_arg); + +/** + * The contest_delay value specified by our counterparty and applied on holder-broadcastable + * transactions, ie the amount of time that we have to wait to recover our funds if we + * broadcast a transaction. + * Will panic if ready_channel wasn't called. + */ +MUST_USE_RES uint16_t InMemorySigner_counterparty_selected_contest_delay(const struct LDKInMemorySigner *NONNULL_PTR this_arg); + +/** + * The contest_delay value specified by us and applied on transactions broadcastable + * by our counterparty, ie the amount of time that they have to wait to recover their funds + * if they broadcast a transaction. + * Will panic if ready_channel wasn't called. + */ +MUST_USE_RES uint16_t InMemorySigner_holder_selected_contest_delay(const struct LDKInMemorySigner *NONNULL_PTR this_arg); + +/** + * Whether the holder is the initiator + * Will panic if ready_channel wasn't called. + */ +MUST_USE_RES bool InMemorySigner_is_outbound(const struct LDKInMemorySigner *NONNULL_PTR this_arg); + +/** + * Funding outpoint + * Will panic if ready_channel wasn't called. + */ +MUST_USE_RES struct LDKOutPoint InMemorySigner_funding_outpoint(const struct LDKInMemorySigner *NONNULL_PTR this_arg); + +/** + * Obtain a ChannelTransactionParameters for this channel, to be used when verifying or + * building transactions. + * + * Will panic if ready_channel wasn't called. + */ +MUST_USE_RES struct LDKChannelTransactionParameters InMemorySigner_get_channel_parameters(const struct LDKInMemorySigner *NONNULL_PTR this_arg); + +/** + * Sign the single input of spend_tx at index `input_idx` which spends the output + * described by descriptor, returning the witness stack for the input. + * + * Returns an Err if the input at input_idx does not exist, has a non-empty script_sig, + * or is not spending the outpoint described by `descriptor.outpoint`. + */ +MUST_USE_RES struct LDKCResult_CVec_CVec_u8ZZNoneZ InMemorySigner_sign_counterparty_payment_input(const struct LDKInMemorySigner *NONNULL_PTR this_arg, struct LDKTransaction spend_tx, uintptr_t input_idx, const struct LDKStaticPaymentOutputDescriptor *NONNULL_PTR descriptor); + +/** + * Sign the single input of spend_tx at index `input_idx` which spends the output + * described by descriptor, returning the witness stack for the input. + * + * Returns an Err if the input at input_idx does not exist, has a non-empty script_sig, + * is not spending the outpoint described by `descriptor.outpoint`, or does not have a + * sequence set to `descriptor.to_self_delay`. + */ +MUST_USE_RES struct LDKCResult_CVec_CVec_u8ZZNoneZ InMemorySigner_sign_dynamic_p2wsh_input(const struct LDKInMemorySigner *NONNULL_PTR this_arg, struct LDKTransaction spend_tx, uintptr_t input_idx, const struct LDKDelayedPaymentOutputDescriptor *NONNULL_PTR descriptor); + +struct LDKSign InMemorySigner_as_Sign(const struct LDKInMemorySigner *NONNULL_PTR this_arg); + +struct LDKCVec_u8Z InMemorySigner_write(const struct LDKInMemorySigner *NONNULL_PTR obj); + +struct LDKCResult_InMemorySignerDecodeErrorZ InMemorySigner_read(struct LDKu8slice ser); + +void KeysManager_free(struct LDKKeysManager this_ptr); + +/** + * Constructs a KeysManager from a 32-byte seed. If the seed is in some way biased (eg your + * CSRNG is busted) this may panic (but more importantly, you will possibly lose funds). + * starting_time isn't strictly required to actually be a time, but it must absolutely, + * without a doubt, be unique to this instance. ie if you start multiple times with the same + * seed, starting_time must be unique to each run. Thus, the easiest way to achieve this is to + * simply use the current time (with very high precision). + * + * The seed MUST be backed up safely prior to use so that the keys can be re-created, however, + * obviously, starting_time should be unique every time you reload the library - it is only + * used to generate new ephemeral key data (which will be stored by the individual channel if + * necessary). + * + * Note that the seed is required to recover certain on-chain funds independent of + * ChannelMonitor data, though a current copy of ChannelMonitor data is also required for any + * channel, and some on-chain during-closing funds. + * + * Note that until the 0.1 release there is no guarantee of backward compatibility between + * versions. Once the library is more fully supported, the docs will be updated to include a + * detailed description of the guarantee. + */ +MUST_USE_RES struct LDKKeysManager KeysManager_new(const uint8_t (*seed)[32], uint64_t starting_time_secs, uint32_t starting_time_nanos); + +/** + * Derive an old Sign containing per-channel secrets based on a key derivation parameters. + * + * Key derivation parameters are accessible through a per-channel secrets + * Sign::channel_keys_id and is provided inside DynamicOuputP2WSH in case of + * onchain output detection for which a corresponding delayed_payment_key must be derived. + */ +MUST_USE_RES struct LDKInMemorySigner KeysManager_derive_channel_keys(const struct LDKKeysManager *NONNULL_PTR this_arg, uint64_t channel_value_satoshis, const uint8_t (*params)[32]); + +/** + * Creates a Transaction which spends the given descriptors to the given outputs, plus an + * output to the given change destination (if sufficient change value remains). The + * transaction will have a feerate, at least, of the given value. + * + * Returns `Err(())` if the output value is greater than the input value minus required fee or + * if a descriptor was duplicated. + * + * We do not enforce that outputs meet the dust limit or that any output scripts are standard. + * + * May panic if the `SpendableOutputDescriptor`s were not generated by Channels which used + * this KeysManager or one of the `InMemorySigner` created by this KeysManager. + */ +MUST_USE_RES struct LDKCResult_TransactionNoneZ KeysManager_spend_spendable_outputs(const struct LDKKeysManager *NONNULL_PTR this_arg, struct LDKCVec_SpendableOutputDescriptorZ descriptors, struct LDKCVec_TxOutZ outputs, struct LDKCVec_u8Z change_destination_script, uint32_t feerate_sat_per_1000_weight); + +struct LDKKeysInterface KeysManager_as_KeysInterface(const struct LDKKeysManager *NONNULL_PTR this_arg); + +void ChannelManager_free(struct LDKChannelManager this_ptr); + +void ChainParameters_free(struct LDKChainParameters this_ptr); + +/** + * The network for determining the `chain_hash` in Lightning messages. + */ +enum LDKNetwork ChainParameters_get_network(const struct LDKChainParameters *NONNULL_PTR this_ptr); + +/** + * The network for determining the `chain_hash` in Lightning messages. + */ +void ChainParameters_set_network(struct LDKChainParameters *NONNULL_PTR this_ptr, enum LDKNetwork val); + +/** + * The hash of the latest block successfully connected. + */ +const uint8_t (*ChainParameters_get_latest_hash(const struct LDKChainParameters *NONNULL_PTR this_ptr))[32]; + +/** + * The hash of the latest block successfully connected. + */ +void ChainParameters_set_latest_hash(struct LDKChainParameters *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The height of the latest block successfully connected. + * + * Used to track on-chain channel funding outputs and send payments with reliable timelocks. + */ +uintptr_t ChainParameters_get_latest_height(const struct LDKChainParameters *NONNULL_PTR this_ptr); + +/** + * The height of the latest block successfully connected. + * + * Used to track on-chain channel funding outputs and send payments with reliable timelocks. + */ +void ChainParameters_set_latest_height(struct LDKChainParameters *NONNULL_PTR this_ptr, uintptr_t val); + +MUST_USE_RES struct LDKChainParameters ChainParameters_new(enum LDKNetwork network_arg, struct LDKThirtyTwoBytes latest_hash_arg, uintptr_t latest_height_arg); + +void ChannelDetails_free(struct LDKChannelDetails this_ptr); + +/** + * The channel's ID (prior to funding transaction generation, this is a random 32 bytes, + * thereafter this is the txid of the funding transaction xor the funding transaction output). + * Note that this means this value is *not* persistent - it can change once during the + * lifetime of the channel. + */ +const uint8_t (*ChannelDetails_get_channel_id(const struct LDKChannelDetails *NONNULL_PTR this_ptr))[32]; + +/** + * The channel's ID (prior to funding transaction generation, this is a random 32 bytes, + * thereafter this is the txid of the funding transaction xor the funding transaction output). + * Note that this means this value is *not* persistent - it can change once during the + * lifetime of the channel. + */ +void ChannelDetails_set_channel_id(struct LDKChannelDetails *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The node_id of our counterparty + */ +struct LDKPublicKey ChannelDetails_get_remote_network_id(const struct LDKChannelDetails *NONNULL_PTR this_ptr); + +/** + * The node_id of our counterparty + */ +void ChannelDetails_set_remote_network_id(struct LDKChannelDetails *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * The Features the channel counterparty provided upon last connection. + * Useful for routing as it is the most up-to-date copy of the counterparty's features and + * many routing-relevant features are present in the init context. + */ +struct LDKInitFeatures ChannelDetails_get_counterparty_features(const struct LDKChannelDetails *NONNULL_PTR this_ptr); + +/** + * The Features the channel counterparty provided upon last connection. + * Useful for routing as it is the most up-to-date copy of the counterparty's features and + * many routing-relevant features are present in the init context. + */ +void ChannelDetails_set_counterparty_features(struct LDKChannelDetails *NONNULL_PTR this_ptr, struct LDKInitFeatures val); + +/** + * The value, in satoshis, of this channel as appears in the funding output + */ +uint64_t ChannelDetails_get_channel_value_satoshis(const struct LDKChannelDetails *NONNULL_PTR this_ptr); + +/** + * The value, in satoshis, of this channel as appears in the funding output + */ +void ChannelDetails_set_channel_value_satoshis(struct LDKChannelDetails *NONNULL_PTR this_ptr, uint64_t val); + +/** + * The user_id passed in to create_channel, or 0 if the channel was inbound. + */ +uint64_t ChannelDetails_get_user_id(const struct LDKChannelDetails *NONNULL_PTR this_ptr); + +/** + * The user_id passed in to create_channel, or 0 if the channel was inbound. + */ +void ChannelDetails_set_user_id(struct LDKChannelDetails *NONNULL_PTR this_ptr, uint64_t val); + +/** + * The available outbound capacity for sending HTLCs to the remote peer. This does not include + * any pending HTLCs which are not yet fully resolved (and, thus, who's balance is not + * available for inclusion in new outbound HTLCs). This further does not include any pending + * outgoing HTLCs which are awaiting some other resolution to be sent. + */ +uint64_t ChannelDetails_get_outbound_capacity_msat(const struct LDKChannelDetails *NONNULL_PTR this_ptr); + +/** + * The available outbound capacity for sending HTLCs to the remote peer. This does not include + * any pending HTLCs which are not yet fully resolved (and, thus, who's balance is not + * available for inclusion in new outbound HTLCs). This further does not include any pending + * outgoing HTLCs which are awaiting some other resolution to be sent. + */ +void ChannelDetails_set_outbound_capacity_msat(struct LDKChannelDetails *NONNULL_PTR this_ptr, uint64_t val); + +/** + * The available inbound capacity for the remote peer to send HTLCs to us. This does not + * include any pending HTLCs which are not yet fully resolved (and, thus, who's balance is not + * available for inclusion in new inbound HTLCs). + * Note that there are some corner cases not fully handled here, so the actual available + * inbound capacity may be slightly higher than this. + */ +uint64_t ChannelDetails_get_inbound_capacity_msat(const struct LDKChannelDetails *NONNULL_PTR this_ptr); + +/** + * The available inbound capacity for the remote peer to send HTLCs to us. This does not + * include any pending HTLCs which are not yet fully resolved (and, thus, who's balance is not + * available for inclusion in new inbound HTLCs). + * Note that there are some corner cases not fully handled here, so the actual available + * inbound capacity may be slightly higher than this. + */ +void ChannelDetails_set_inbound_capacity_msat(struct LDKChannelDetails *NONNULL_PTR this_ptr, uint64_t val); + +/** + * True if the channel is (a) confirmed and funding_locked messages have been exchanged, (b) + * the peer is connected, and (c) no monitor update failure is pending resolution. + */ +bool ChannelDetails_get_is_live(const struct LDKChannelDetails *NONNULL_PTR this_ptr); + +/** + * True if the channel is (a) confirmed and funding_locked messages have been exchanged, (b) + * the peer is connected, and (c) no monitor update failure is pending resolution. + */ +void ChannelDetails_set_is_live(struct LDKChannelDetails *NONNULL_PTR this_ptr, bool val); + +struct LDKChannelDetails ChannelDetails_clone(const struct LDKChannelDetails *NONNULL_PTR orig); + +void PaymentSendFailure_free(struct LDKPaymentSendFailure this_ptr); + +struct LDKPaymentSendFailure PaymentSendFailure_clone(const struct LDKPaymentSendFailure *NONNULL_PTR orig); + +/** + * Constructs a new ChannelManager to hold several channels and route between them. + * + * This is the main \"logic hub\" for all channel-related actions, and implements + * ChannelMessageHandler. + * + * Non-proportional fees are fixed according to our risk using the provided fee estimator. + * + * panics if channel_value_satoshis is >= `MAX_FUNDING_SATOSHIS`! + * + * Users need to notify the new ChannelManager when a new block is connected or + * disconnected using its `block_connected` and `block_disconnected` methods, starting + * from after `params.latest_hash`. + */ +MUST_USE_RES struct LDKChannelManager ChannelManager_new(struct LDKFeeEstimator fee_est, struct LDKWatch chain_monitor, struct LDKBroadcasterInterface tx_broadcaster, struct LDKLogger logger, struct LDKKeysInterface keys_manager, struct LDKUserConfig config, struct LDKChainParameters params); + +/** + * Creates a new outbound channel to the given remote node and with the given value. + * + * user_id will be provided back as user_channel_id in FundingGenerationReady and + * FundingBroadcastSafe events to allow tracking of which events correspond with which + * create_channel call. Note that user_channel_id defaults to 0 for inbound channels, so you + * may wish to avoid using 0 for user_id here. + * + * If successful, will generate a SendOpenChannel message event, so you should probably poll + * PeerManager::process_events afterwards. + * + * Raises APIError::APIMisuseError when channel_value_satoshis > 2**24 or push_msat is + * greater than channel_value_satoshis * 1k or channel_value_satoshis is < 1000. + */ +MUST_USE_RES struct LDKCResult_NoneAPIErrorZ ChannelManager_create_channel(const struct LDKChannelManager *NONNULL_PTR this_arg, struct LDKPublicKey their_network_key, uint64_t channel_value_satoshis, uint64_t push_msat, uint64_t user_id, struct LDKUserConfig override_config); + +/** + * Gets the list of open channels, in random order. See ChannelDetail field documentation for + * more information. + */ +MUST_USE_RES struct LDKCVec_ChannelDetailsZ ChannelManager_list_channels(const struct LDKChannelManager *NONNULL_PTR this_arg); + +/** + * Gets the list of usable channels, in random order. Useful as an argument to + * get_route to ensure non-announced channels are used. + * + * These are guaranteed to have their is_live value set to true, see the documentation for + * ChannelDetails::is_live for more info on exactly what the criteria are. + */ +MUST_USE_RES struct LDKCVec_ChannelDetailsZ ChannelManager_list_usable_channels(const struct LDKChannelManager *NONNULL_PTR this_arg); + +/** + * Begins the process of closing a channel. After this call (plus some timeout), no new HTLCs + * will be accepted on the given channel, and after additional timeout/the closing of all + * pending HTLCs, the channel will be closed on chain. + * + * May generate a SendShutdown message event on success, which should be relayed. + */ +MUST_USE_RES struct LDKCResult_NoneAPIErrorZ ChannelManager_close_channel(const struct LDKChannelManager *NONNULL_PTR this_arg, const uint8_t (*channel_id)[32]); + +/** + * Force closes a channel, immediately broadcasting the latest local commitment transaction to + * the chain and rejecting new HTLCs on the given channel. Fails if channel_id is unknown to the manager. + */ +MUST_USE_RES struct LDKCResult_NoneAPIErrorZ ChannelManager_force_close_channel(const struct LDKChannelManager *NONNULL_PTR this_arg, const uint8_t (*channel_id)[32]); + +/** + * Force close all channels, immediately broadcasting the latest local commitment transaction + * for each to the chain and rejecting new HTLCs on each. + */ +void ChannelManager_force_close_all_channels(const struct LDKChannelManager *NONNULL_PTR this_arg); + +/** + * Sends a payment along a given route. + * + * Value parameters are provided via the last hop in route, see documentation for RouteHop + * fields for more info. + * + * Note that if the payment_hash already exists elsewhere (eg you're sending a duplicative + * payment), we don't do anything to stop you! We always try to ensure that if the provided + * next hop knows the preimage to payment_hash they can claim an additional amount as + * specified in the last hop in the route! Thus, you should probably do your own + * payment_preimage tracking (which you should already be doing as they represent \"proof of + * payment\") and prevent double-sends yourself. + * + * May generate SendHTLCs message(s) event on success, which should be relayed. + * + * Each path may have a different return value, and PaymentSendValue may return a Vec with + * each entry matching the corresponding-index entry in the route paths, see + * PaymentSendFailure for more info. + * + * In general, a path may raise: + * * APIError::RouteError when an invalid route or forwarding parameter (cltv_delta, fee, + * node public key) is specified. + * * APIError::ChannelUnavailable if the next-hop channel is not available for updates + * (including due to previous monitor update failure or new permanent monitor update + * failure). + * * APIError::MonitorUpdateFailed if a new monitor update failure prevented sending the + * relevant updates. + * + * Note that depending on the type of the PaymentSendFailure the HTLC may have been + * irrevocably committed to on our end. In such a case, do NOT retry the payment with a + * different route unless you intend to pay twice! + * + * payment_secret is unrelated to payment_hash (or PaymentPreimage) and exists to authenticate + * the sender to the recipient and prevent payment-probing (deanonymization) attacks. For + * newer nodes, it will be provided to you in the invoice. If you do not have one, the Route + * must not contain multiple paths as multi-path payments require a recipient-provided + * payment_secret. + * If a payment_secret *is* provided, we assume that the invoice had the payment_secret feature + * bit set (either as required or as available). If multiple paths are present in the Route, + * we assume the invoice had the basic_mpp feature set. + */ +MUST_USE_RES struct LDKCResult_NonePaymentSendFailureZ ChannelManager_send_payment(const struct LDKChannelManager *NONNULL_PTR this_arg, const struct LDKRoute *NONNULL_PTR route, struct LDKThirtyTwoBytes payment_hash, struct LDKThirtyTwoBytes payment_secret); + +/** + * Call this upon creation of a funding transaction for the given channel. + * + * Note that ALL inputs in the transaction pointed to by funding_txo MUST spend SegWit outputs + * or your counterparty can steal your funds! + * + * Panics if a funding transaction has already been provided for this channel. + * + * May panic if the funding_txo is duplicative with some other channel (note that this should + * be trivially prevented by using unique funding transaction keys per-channel). + */ +void ChannelManager_funding_transaction_generated(const struct LDKChannelManager *NONNULL_PTR this_arg, const uint8_t (*temporary_channel_id)[32], struct LDKOutPoint funding_txo); + +/** + * Generates a signed node_announcement from the given arguments and creates a + * BroadcastNodeAnnouncement event. Note that such messages will be ignored unless peers have + * seen a channel_announcement from us (ie unless we have public channels open). + * + * RGB is a node \"color\" and alias is a printable human-readable string to describe this node + * to humans. They carry no in-protocol meaning. + * + * addresses represent the set (possibly empty) of socket addresses on which this node accepts + * incoming connections. These will be broadcast to the network, publicly tying these + * addresses together. If you wish to preserve user privacy, addresses should likely contain + * only Tor Onion addresses. + * + * Panics if addresses is absurdly large (more than 500). + */ +void ChannelManager_broadcast_node_announcement(const struct LDKChannelManager *NONNULL_PTR this_arg, struct LDKThreeBytes rgb, struct LDKThirtyTwoBytes alias, struct LDKCVec_NetAddressZ addresses); + +/** + * Processes HTLCs which are pending waiting on random forward delay. + * + * Should only really ever be called in response to a PendingHTLCsForwardable event. + * Will likely generate further events. + */ +void ChannelManager_process_pending_htlc_forwards(const struct LDKChannelManager *NONNULL_PTR this_arg); + +/** + * If a peer is disconnected we mark any channels with that peer as 'disabled'. + * After some time, if channels are still disabled we need to broadcast a ChannelUpdate + * to inform the network about the uselessness of these channels. + * + * This method handles all the details, and must be called roughly once per minute. + * + * Note that in some rare cases this may generate a `chain::Watch::update_channel` call. + */ +void ChannelManager_timer_chan_freshness_every_min(const struct LDKChannelManager *NONNULL_PTR this_arg); + +/** + * Indicates that the preimage for payment_hash is unknown or the received amount is incorrect + * after a PaymentReceived event, failing the HTLC back to its origin and freeing resources + * along the path (including in our own channel on which we received it). + * Returns false if no payment was found to fail backwards, true if the process of failing the + * HTLC backwards has been started. + */ +MUST_USE_RES bool ChannelManager_fail_htlc_backwards(const struct LDKChannelManager *NONNULL_PTR this_arg, const uint8_t (*payment_hash)[32], struct LDKThirtyTwoBytes payment_secret); + +/** + * Provides a payment preimage in response to a PaymentReceived event, returning true and + * generating message events for the net layer to claim the payment, if possible. Thus, you + * should probably kick the net layer to go send messages if this returns true! + * + * You must specify the expected amounts for this HTLC, and we will only claim HTLCs + * available within a few percent of the expected amount. This is critical for several + * reasons : a) it avoids providing senders with `proof-of-payment` (in the form of the + * payment_preimage without having provided the full value and b) it avoids certain + * privacy-breaking recipient-probing attacks which may reveal payment activity to + * motivated attackers. + * + * Note that the privacy concerns in (b) are not relevant in payments with a payment_secret + * set. Thus, for such payments we will claim any payments which do not under-pay. + * + * May panic if called except in response to a PaymentReceived event. + */ +MUST_USE_RES bool ChannelManager_claim_funds(const struct LDKChannelManager *NONNULL_PTR this_arg, struct LDKThirtyTwoBytes payment_preimage, struct LDKThirtyTwoBytes payment_secret, uint64_t expected_amount); + +/** + * Gets the node_id held by this ChannelManager + */ +MUST_USE_RES struct LDKPublicKey ChannelManager_get_our_node_id(const struct LDKChannelManager *NONNULL_PTR this_arg); + +/** + * Restores a single, given channel to normal operation after a + * ChannelMonitorUpdateErr::TemporaryFailure was returned from a channel monitor update + * operation. + * + * All ChannelMonitor updates up to and including highest_applied_update_id must have been + * fully committed in every copy of the given channels' ChannelMonitors. + * + * Note that there is no effect to calling with a highest_applied_update_id other than the + * current latest ChannelMonitorUpdate and one call to this function after multiple + * ChannelMonitorUpdateErr::TemporaryFailures is fine. The highest_applied_update_id field + * exists largely only to prevent races between this and concurrent update_monitor calls. + * + * Thus, the anticipated use is, at a high level: + * 1) You register a chain::Watch with this ChannelManager, + * 2) it stores each update to disk, and begins updating any remote (eg watchtower) copies of + * said ChannelMonitors as it can, returning ChannelMonitorUpdateErr::TemporaryFailures + * any time it cannot do so instantly, + * 3) update(s) are applied to each remote copy of a ChannelMonitor, + * 4) once all remote copies are updated, you call this function with the update_id that + * completed, and once it is the latest the Channel will be re-enabled. + */ +void ChannelManager_channel_monitor_updated(const struct LDKChannelManager *NONNULL_PTR this_arg, const struct LDKOutPoint *NONNULL_PTR funding_txo, uint64_t highest_applied_update_id); + +struct LDKMessageSendEventsProvider ChannelManager_as_MessageSendEventsProvider(const struct LDKChannelManager *NONNULL_PTR this_arg); + +struct LDKEventsProvider ChannelManager_as_EventsProvider(const struct LDKChannelManager *NONNULL_PTR this_arg); + +struct LDKListen ChannelManager_as_Listen(const struct LDKChannelManager *NONNULL_PTR this_arg); + +/** + * Updates channel state based on transactions seen in a connected block. + */ +void ChannelManager_block_connected(const struct LDKChannelManager *NONNULL_PTR this_arg, const uint8_t (*header)[80], struct LDKCVec_C2Tuple_usizeTransactionZZ txdata, uint32_t height); + +/** + * Updates channel state based on a disconnected block. + * + * If necessary, the channel may be force-closed without letting the counterparty participate + * in the shutdown. + */ +void ChannelManager_block_disconnected(const struct LDKChannelManager *NONNULL_PTR this_arg, const uint8_t (*header)[80]); + +/** + * Blocks until ChannelManager needs to be persisted. Only one listener on + * `await_persistable_update` or `await_persistable_update_timeout` is guaranteed to be woken + * up. + */ +void ChannelManager_await_persistable_update(const struct LDKChannelManager *NONNULL_PTR this_arg); + +struct LDKChannelMessageHandler ChannelManager_as_ChannelMessageHandler(const struct LDKChannelManager *NONNULL_PTR this_arg); + +struct LDKCVec_u8Z ChannelManager_write(const struct LDKChannelManager *NONNULL_PTR obj); + +void ChannelManagerReadArgs_free(struct LDKChannelManagerReadArgs this_ptr); + +/** + * The keys provider which will give us relevant keys. Some keys will be loaded during + * deserialization and KeysInterface::read_chan_signer will be used to read per-Channel + * signing data. + */ +const struct LDKKeysInterface *ChannelManagerReadArgs_get_keys_manager(const struct LDKChannelManagerReadArgs *NONNULL_PTR this_ptr); + +/** + * The keys provider which will give us relevant keys. Some keys will be loaded during + * deserialization and KeysInterface::read_chan_signer will be used to read per-Channel + * signing data. + */ +void ChannelManagerReadArgs_set_keys_manager(struct LDKChannelManagerReadArgs *NONNULL_PTR this_ptr, struct LDKKeysInterface val); + +/** + * The fee_estimator for use in the ChannelManager in the future. + * + * No calls to the FeeEstimator will be made during deserialization. + */ +const struct LDKFeeEstimator *ChannelManagerReadArgs_get_fee_estimator(const struct LDKChannelManagerReadArgs *NONNULL_PTR this_ptr); + +/** + * The fee_estimator for use in the ChannelManager in the future. + * + * No calls to the FeeEstimator will be made during deserialization. + */ +void ChannelManagerReadArgs_set_fee_estimator(struct LDKChannelManagerReadArgs *NONNULL_PTR this_ptr, struct LDKFeeEstimator val); + +/** + * The chain::Watch for use in the ChannelManager in the future. + * + * No calls to the chain::Watch will be made during deserialization. It is assumed that + * you have deserialized ChannelMonitors separately and will add them to your + * chain::Watch after deserializing this ChannelManager. + */ +const struct LDKWatch *ChannelManagerReadArgs_get_chain_monitor(const struct LDKChannelManagerReadArgs *NONNULL_PTR this_ptr); + +/** + * The chain::Watch for use in the ChannelManager in the future. + * + * No calls to the chain::Watch will be made during deserialization. It is assumed that + * you have deserialized ChannelMonitors separately and will add them to your + * chain::Watch after deserializing this ChannelManager. + */ +void ChannelManagerReadArgs_set_chain_monitor(struct LDKChannelManagerReadArgs *NONNULL_PTR this_ptr, struct LDKWatch val); + +/** + * The BroadcasterInterface which will be used in the ChannelManager in the future and may be + * used to broadcast the latest local commitment transactions of channels which must be + * force-closed during deserialization. + */ +const struct LDKBroadcasterInterface *ChannelManagerReadArgs_get_tx_broadcaster(const struct LDKChannelManagerReadArgs *NONNULL_PTR this_ptr); + +/** + * The BroadcasterInterface which will be used in the ChannelManager in the future and may be + * used to broadcast the latest local commitment transactions of channels which must be + * force-closed during deserialization. + */ +void ChannelManagerReadArgs_set_tx_broadcaster(struct LDKChannelManagerReadArgs *NONNULL_PTR this_ptr, struct LDKBroadcasterInterface val); + +/** + * The Logger for use in the ChannelManager and which may be used to log information during + * deserialization. + */ +const struct LDKLogger *ChannelManagerReadArgs_get_logger(const struct LDKChannelManagerReadArgs *NONNULL_PTR this_ptr); + +/** + * The Logger for use in the ChannelManager and which may be used to log information during + * deserialization. + */ +void ChannelManagerReadArgs_set_logger(struct LDKChannelManagerReadArgs *NONNULL_PTR this_ptr, struct LDKLogger val); + +/** + * Default settings used for new channels. Any existing channels will continue to use the + * runtime settings which were stored when the ChannelManager was serialized. + */ +struct LDKUserConfig ChannelManagerReadArgs_get_default_config(const struct LDKChannelManagerReadArgs *NONNULL_PTR this_ptr); + +/** + * Default settings used for new channels. Any existing channels will continue to use the + * runtime settings which were stored when the ChannelManager was serialized. + */ +void ChannelManagerReadArgs_set_default_config(struct LDKChannelManagerReadArgs *NONNULL_PTR this_ptr, struct LDKUserConfig val); + +/** + * Simple utility function to create a ChannelManagerReadArgs which creates the monitor + * HashMap for you. This is primarily useful for C bindings where it is not practical to + * populate a HashMap directly from C. + */ +MUST_USE_RES struct LDKChannelManagerReadArgs ChannelManagerReadArgs_new(struct LDKKeysInterface keys_manager, struct LDKFeeEstimator fee_estimator, struct LDKWatch chain_monitor, struct LDKBroadcasterInterface tx_broadcaster, struct LDKLogger logger, struct LDKUserConfig default_config, struct LDKCVec_ChannelMonitorZ channel_monitors); + +struct LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ C2Tuple_BlockHashChannelManagerZ_read(struct LDKu8slice ser, struct LDKChannelManagerReadArgs arg); + +void DecodeError_free(struct LDKDecodeError this_ptr); + +struct LDKDecodeError DecodeError_clone(const struct LDKDecodeError *NONNULL_PTR orig); + +void Init_free(struct LDKInit this_ptr); + +/** + * The relevant features which the sender supports + */ +struct LDKInitFeatures Init_get_features(const struct LDKInit *NONNULL_PTR this_ptr); + +/** + * The relevant features which the sender supports + */ +void Init_set_features(struct LDKInit *NONNULL_PTR this_ptr, struct LDKInitFeatures val); + +MUST_USE_RES struct LDKInit Init_new(struct LDKInitFeatures features_arg); + +struct LDKInit Init_clone(const struct LDKInit *NONNULL_PTR orig); + +void ErrorMessage_free(struct LDKErrorMessage this_ptr); + +/** + * The channel ID involved in the error + */ +const uint8_t (*ErrorMessage_get_channel_id(const struct LDKErrorMessage *NONNULL_PTR this_ptr))[32]; + +/** + * The channel ID involved in the error + */ +void ErrorMessage_set_channel_id(struct LDKErrorMessage *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * A possibly human-readable error description. + * The string should be sanitized before it is used (e.g. emitted to logs + * or printed to stdout). Otherwise, a well crafted error message may trigger a security + * vulnerability in the terminal emulator or the logging subsystem. + */ +struct LDKStr ErrorMessage_get_data(const struct LDKErrorMessage *NONNULL_PTR this_ptr); + +/** + * A possibly human-readable error description. + * The string should be sanitized before it is used (e.g. emitted to logs + * or printed to stdout). Otherwise, a well crafted error message may trigger a security + * vulnerability in the terminal emulator or the logging subsystem. + */ +void ErrorMessage_set_data(struct LDKErrorMessage *NONNULL_PTR this_ptr, struct LDKCVec_u8Z val); + +MUST_USE_RES struct LDKErrorMessage ErrorMessage_new(struct LDKThirtyTwoBytes channel_id_arg, struct LDKCVec_u8Z data_arg); + +struct LDKErrorMessage ErrorMessage_clone(const struct LDKErrorMessage *NONNULL_PTR orig); + +void Ping_free(struct LDKPing this_ptr); + +/** + * The desired response length + */ +uint16_t Ping_get_ponglen(const struct LDKPing *NONNULL_PTR this_ptr); + +/** + * The desired response length + */ +void Ping_set_ponglen(struct LDKPing *NONNULL_PTR this_ptr, uint16_t val); + +/** + * The ping packet size. + * This field is not sent on the wire. byteslen zeros are sent. + */ +uint16_t Ping_get_byteslen(const struct LDKPing *NONNULL_PTR this_ptr); + +/** + * The ping packet size. + * This field is not sent on the wire. byteslen zeros are sent. + */ +void Ping_set_byteslen(struct LDKPing *NONNULL_PTR this_ptr, uint16_t val); + +MUST_USE_RES struct LDKPing Ping_new(uint16_t ponglen_arg, uint16_t byteslen_arg); + +struct LDKPing Ping_clone(const struct LDKPing *NONNULL_PTR orig); + +void Pong_free(struct LDKPong this_ptr); + +/** + * The pong packet size. + * This field is not sent on the wire. byteslen zeros are sent. + */ +uint16_t Pong_get_byteslen(const struct LDKPong *NONNULL_PTR this_ptr); + +/** + * The pong packet size. + * This field is not sent on the wire. byteslen zeros are sent. + */ +void Pong_set_byteslen(struct LDKPong *NONNULL_PTR this_ptr, uint16_t val); + +MUST_USE_RES struct LDKPong Pong_new(uint16_t byteslen_arg); + +struct LDKPong Pong_clone(const struct LDKPong *NONNULL_PTR orig); + +void OpenChannel_free(struct LDKOpenChannel this_ptr); + +/** + * The genesis hash of the blockchain where the channel is to be opened + */ +const uint8_t (*OpenChannel_get_chain_hash(const struct LDKOpenChannel *NONNULL_PTR this_ptr))[32]; + +/** + * The genesis hash of the blockchain where the channel is to be opened + */ +void OpenChannel_set_chain_hash(struct LDKOpenChannel *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * A temporary channel ID, until the funding outpoint is announced + */ +const uint8_t (*OpenChannel_get_temporary_channel_id(const struct LDKOpenChannel *NONNULL_PTR this_ptr))[32]; + +/** + * A temporary channel ID, until the funding outpoint is announced + */ +void OpenChannel_set_temporary_channel_id(struct LDKOpenChannel *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The channel value + */ +uint64_t OpenChannel_get_funding_satoshis(const struct LDKOpenChannel *NONNULL_PTR this_ptr); + +/** + * The channel value + */ +void OpenChannel_set_funding_satoshis(struct LDKOpenChannel *NONNULL_PTR this_ptr, uint64_t val); + +/** + * The amount to push to the counterparty as part of the open, in milli-satoshi + */ +uint64_t OpenChannel_get_push_msat(const struct LDKOpenChannel *NONNULL_PTR this_ptr); + +/** + * The amount to push to the counterparty as part of the open, in milli-satoshi + */ +void OpenChannel_set_push_msat(struct LDKOpenChannel *NONNULL_PTR this_ptr, uint64_t val); + +/** + * The threshold below which outputs on transactions broadcast by sender will be omitted + */ +uint64_t OpenChannel_get_dust_limit_satoshis(const struct LDKOpenChannel *NONNULL_PTR this_ptr); + +/** + * The threshold below which outputs on transactions broadcast by sender will be omitted + */ +void OpenChannel_set_dust_limit_satoshis(struct LDKOpenChannel *NONNULL_PTR this_ptr, uint64_t val); + +/** + * The maximum inbound HTLC value in flight towards sender, in milli-satoshi + */ +uint64_t OpenChannel_get_max_htlc_value_in_flight_msat(const struct LDKOpenChannel *NONNULL_PTR this_ptr); + +/** + * The maximum inbound HTLC value in flight towards sender, in milli-satoshi + */ +void OpenChannel_set_max_htlc_value_in_flight_msat(struct LDKOpenChannel *NONNULL_PTR this_ptr, uint64_t val); + +/** + * The minimum value unencumbered by HTLCs for the counterparty to keep in the channel + */ +uint64_t OpenChannel_get_channel_reserve_satoshis(const struct LDKOpenChannel *NONNULL_PTR this_ptr); + +/** + * The minimum value unencumbered by HTLCs for the counterparty to keep in the channel + */ +void OpenChannel_set_channel_reserve_satoshis(struct LDKOpenChannel *NONNULL_PTR this_ptr, uint64_t val); + +/** + * The minimum HTLC size incoming to sender, in milli-satoshi + */ +uint64_t OpenChannel_get_htlc_minimum_msat(const struct LDKOpenChannel *NONNULL_PTR this_ptr); + +/** + * The minimum HTLC size incoming to sender, in milli-satoshi + */ +void OpenChannel_set_htlc_minimum_msat(struct LDKOpenChannel *NONNULL_PTR this_ptr, uint64_t val); + +/** + * The feerate per 1000-weight of sender generated transactions, until updated by update_fee + */ +uint32_t OpenChannel_get_feerate_per_kw(const struct LDKOpenChannel *NONNULL_PTR this_ptr); + +/** + * The feerate per 1000-weight of sender generated transactions, until updated by update_fee + */ +void OpenChannel_set_feerate_per_kw(struct LDKOpenChannel *NONNULL_PTR this_ptr, uint32_t val); + +/** + * The number of blocks which the counterparty will have to wait to claim on-chain funds if they broadcast a commitment transaction + */ +uint16_t OpenChannel_get_to_self_delay(const struct LDKOpenChannel *NONNULL_PTR this_ptr); + +/** + * The number of blocks which the counterparty will have to wait to claim on-chain funds if they broadcast a commitment transaction + */ +void OpenChannel_set_to_self_delay(struct LDKOpenChannel *NONNULL_PTR this_ptr, uint16_t val); + +/** + * The maximum number of inbound HTLCs towards sender + */ +uint16_t OpenChannel_get_max_accepted_htlcs(const struct LDKOpenChannel *NONNULL_PTR this_ptr); + +/** + * The maximum number of inbound HTLCs towards sender + */ +void OpenChannel_set_max_accepted_htlcs(struct LDKOpenChannel *NONNULL_PTR this_ptr, uint16_t val); + +/** + * The sender's key controlling the funding transaction + */ +struct LDKPublicKey OpenChannel_get_funding_pubkey(const struct LDKOpenChannel *NONNULL_PTR this_ptr); + +/** + * The sender's key controlling the funding transaction + */ +void OpenChannel_set_funding_pubkey(struct LDKOpenChannel *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * Used to derive a revocation key for transactions broadcast by counterparty + */ +struct LDKPublicKey OpenChannel_get_revocation_basepoint(const struct LDKOpenChannel *NONNULL_PTR this_ptr); + +/** + * Used to derive a revocation key for transactions broadcast by counterparty + */ +void OpenChannel_set_revocation_basepoint(struct LDKOpenChannel *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * A payment key to sender for transactions broadcast by counterparty + */ +struct LDKPublicKey OpenChannel_get_payment_point(const struct LDKOpenChannel *NONNULL_PTR this_ptr); + +/** + * A payment key to sender for transactions broadcast by counterparty + */ +void OpenChannel_set_payment_point(struct LDKOpenChannel *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * Used to derive a payment key to sender for transactions broadcast by sender + */ +struct LDKPublicKey OpenChannel_get_delayed_payment_basepoint(const struct LDKOpenChannel *NONNULL_PTR this_ptr); + +/** + * Used to derive a payment key to sender for transactions broadcast by sender + */ +void OpenChannel_set_delayed_payment_basepoint(struct LDKOpenChannel *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * Used to derive an HTLC payment key to sender + */ +struct LDKPublicKey OpenChannel_get_htlc_basepoint(const struct LDKOpenChannel *NONNULL_PTR this_ptr); + +/** + * Used to derive an HTLC payment key to sender + */ +void OpenChannel_set_htlc_basepoint(struct LDKOpenChannel *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * The first to-be-broadcast-by-sender transaction's per commitment point + */ +struct LDKPublicKey OpenChannel_get_first_per_commitment_point(const struct LDKOpenChannel *NONNULL_PTR this_ptr); + +/** + * The first to-be-broadcast-by-sender transaction's per commitment point + */ +void OpenChannel_set_first_per_commitment_point(struct LDKOpenChannel *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * Channel flags + */ +uint8_t OpenChannel_get_channel_flags(const struct LDKOpenChannel *NONNULL_PTR this_ptr); + +/** + * Channel flags + */ +void OpenChannel_set_channel_flags(struct LDKOpenChannel *NONNULL_PTR this_ptr, uint8_t val); + +struct LDKOpenChannel OpenChannel_clone(const struct LDKOpenChannel *NONNULL_PTR orig); + +void AcceptChannel_free(struct LDKAcceptChannel this_ptr); + +/** + * A temporary channel ID, until the funding outpoint is announced + */ +const uint8_t (*AcceptChannel_get_temporary_channel_id(const struct LDKAcceptChannel *NONNULL_PTR this_ptr))[32]; + +/** + * A temporary channel ID, until the funding outpoint is announced + */ +void AcceptChannel_set_temporary_channel_id(struct LDKAcceptChannel *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The threshold below which outputs on transactions broadcast by sender will be omitted + */ +uint64_t AcceptChannel_get_dust_limit_satoshis(const struct LDKAcceptChannel *NONNULL_PTR this_ptr); + +/** + * The threshold below which outputs on transactions broadcast by sender will be omitted + */ +void AcceptChannel_set_dust_limit_satoshis(struct LDKAcceptChannel *NONNULL_PTR this_ptr, uint64_t val); + +/** + * The maximum inbound HTLC value in flight towards sender, in milli-satoshi + */ +uint64_t AcceptChannel_get_max_htlc_value_in_flight_msat(const struct LDKAcceptChannel *NONNULL_PTR this_ptr); + +/** + * The maximum inbound HTLC value in flight towards sender, in milli-satoshi + */ +void AcceptChannel_set_max_htlc_value_in_flight_msat(struct LDKAcceptChannel *NONNULL_PTR this_ptr, uint64_t val); + +/** + * The minimum value unencumbered by HTLCs for the counterparty to keep in the channel + */ +uint64_t AcceptChannel_get_channel_reserve_satoshis(const struct LDKAcceptChannel *NONNULL_PTR this_ptr); + +/** + * The minimum value unencumbered by HTLCs for the counterparty to keep in the channel + */ +void AcceptChannel_set_channel_reserve_satoshis(struct LDKAcceptChannel *NONNULL_PTR this_ptr, uint64_t val); + +/** + * The minimum HTLC size incoming to sender, in milli-satoshi + */ +uint64_t AcceptChannel_get_htlc_minimum_msat(const struct LDKAcceptChannel *NONNULL_PTR this_ptr); + +/** + * The minimum HTLC size incoming to sender, in milli-satoshi + */ +void AcceptChannel_set_htlc_minimum_msat(struct LDKAcceptChannel *NONNULL_PTR this_ptr, uint64_t val); + +/** + * Minimum depth of the funding transaction before the channel is considered open + */ +uint32_t AcceptChannel_get_minimum_depth(const struct LDKAcceptChannel *NONNULL_PTR this_ptr); + +/** + * Minimum depth of the funding transaction before the channel is considered open + */ +void AcceptChannel_set_minimum_depth(struct LDKAcceptChannel *NONNULL_PTR this_ptr, uint32_t val); + +/** + * The number of blocks which the counterparty will have to wait to claim on-chain funds if they broadcast a commitment transaction + */ +uint16_t AcceptChannel_get_to_self_delay(const struct LDKAcceptChannel *NONNULL_PTR this_ptr); + +/** + * The number of blocks which the counterparty will have to wait to claim on-chain funds if they broadcast a commitment transaction + */ +void AcceptChannel_set_to_self_delay(struct LDKAcceptChannel *NONNULL_PTR this_ptr, uint16_t val); + +/** + * The maximum number of inbound HTLCs towards sender + */ +uint16_t AcceptChannel_get_max_accepted_htlcs(const struct LDKAcceptChannel *NONNULL_PTR this_ptr); + +/** + * The maximum number of inbound HTLCs towards sender + */ +void AcceptChannel_set_max_accepted_htlcs(struct LDKAcceptChannel *NONNULL_PTR this_ptr, uint16_t val); + +/** + * The sender's key controlling the funding transaction + */ +struct LDKPublicKey AcceptChannel_get_funding_pubkey(const struct LDKAcceptChannel *NONNULL_PTR this_ptr); + +/** + * The sender's key controlling the funding transaction + */ +void AcceptChannel_set_funding_pubkey(struct LDKAcceptChannel *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * Used to derive a revocation key for transactions broadcast by counterparty + */ +struct LDKPublicKey AcceptChannel_get_revocation_basepoint(const struct LDKAcceptChannel *NONNULL_PTR this_ptr); + +/** + * Used to derive a revocation key for transactions broadcast by counterparty + */ +void AcceptChannel_set_revocation_basepoint(struct LDKAcceptChannel *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * A payment key to sender for transactions broadcast by counterparty + */ +struct LDKPublicKey AcceptChannel_get_payment_point(const struct LDKAcceptChannel *NONNULL_PTR this_ptr); + +/** + * A payment key to sender for transactions broadcast by counterparty + */ +void AcceptChannel_set_payment_point(struct LDKAcceptChannel *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * Used to derive a payment key to sender for transactions broadcast by sender + */ +struct LDKPublicKey AcceptChannel_get_delayed_payment_basepoint(const struct LDKAcceptChannel *NONNULL_PTR this_ptr); + +/** + * Used to derive a payment key to sender for transactions broadcast by sender + */ +void AcceptChannel_set_delayed_payment_basepoint(struct LDKAcceptChannel *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * Used to derive an HTLC payment key to sender for transactions broadcast by counterparty + */ +struct LDKPublicKey AcceptChannel_get_htlc_basepoint(const struct LDKAcceptChannel *NONNULL_PTR this_ptr); + +/** + * Used to derive an HTLC payment key to sender for transactions broadcast by counterparty + */ +void AcceptChannel_set_htlc_basepoint(struct LDKAcceptChannel *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * The first to-be-broadcast-by-sender transaction's per commitment point + */ +struct LDKPublicKey AcceptChannel_get_first_per_commitment_point(const struct LDKAcceptChannel *NONNULL_PTR this_ptr); + +/** + * The first to-be-broadcast-by-sender transaction's per commitment point + */ +void AcceptChannel_set_first_per_commitment_point(struct LDKAcceptChannel *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +struct LDKAcceptChannel AcceptChannel_clone(const struct LDKAcceptChannel *NONNULL_PTR orig); + +void FundingCreated_free(struct LDKFundingCreated this_ptr); + +/** + * A temporary channel ID, until the funding is established + */ +const uint8_t (*FundingCreated_get_temporary_channel_id(const struct LDKFundingCreated *NONNULL_PTR this_ptr))[32]; + +/** + * A temporary channel ID, until the funding is established + */ +void FundingCreated_set_temporary_channel_id(struct LDKFundingCreated *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The funding transaction ID + */ +const uint8_t (*FundingCreated_get_funding_txid(const struct LDKFundingCreated *NONNULL_PTR this_ptr))[32]; + +/** + * The funding transaction ID + */ +void FundingCreated_set_funding_txid(struct LDKFundingCreated *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The specific output index funding this channel + */ +uint16_t FundingCreated_get_funding_output_index(const struct LDKFundingCreated *NONNULL_PTR this_ptr); + +/** + * The specific output index funding this channel + */ +void FundingCreated_set_funding_output_index(struct LDKFundingCreated *NONNULL_PTR this_ptr, uint16_t val); + +/** + * The signature of the channel initiator (funder) on the funding transaction + */ +struct LDKSignature FundingCreated_get_signature(const struct LDKFundingCreated *NONNULL_PTR this_ptr); + +/** + * The signature of the channel initiator (funder) on the funding transaction + */ +void FundingCreated_set_signature(struct LDKFundingCreated *NONNULL_PTR this_ptr, struct LDKSignature val); + +MUST_USE_RES struct LDKFundingCreated FundingCreated_new(struct LDKThirtyTwoBytes temporary_channel_id_arg, struct LDKThirtyTwoBytes funding_txid_arg, uint16_t funding_output_index_arg, struct LDKSignature signature_arg); + +struct LDKFundingCreated FundingCreated_clone(const struct LDKFundingCreated *NONNULL_PTR orig); + +void FundingSigned_free(struct LDKFundingSigned this_ptr); + +/** + * The channel ID + */ +const uint8_t (*FundingSigned_get_channel_id(const struct LDKFundingSigned *NONNULL_PTR this_ptr))[32]; + +/** + * The channel ID + */ +void FundingSigned_set_channel_id(struct LDKFundingSigned *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The signature of the channel acceptor (fundee) on the funding transaction + */ +struct LDKSignature FundingSigned_get_signature(const struct LDKFundingSigned *NONNULL_PTR this_ptr); + +/** + * The signature of the channel acceptor (fundee) on the funding transaction + */ +void FundingSigned_set_signature(struct LDKFundingSigned *NONNULL_PTR this_ptr, struct LDKSignature val); + +MUST_USE_RES struct LDKFundingSigned FundingSigned_new(struct LDKThirtyTwoBytes channel_id_arg, struct LDKSignature signature_arg); + +struct LDKFundingSigned FundingSigned_clone(const struct LDKFundingSigned *NONNULL_PTR orig); + +void FundingLocked_free(struct LDKFundingLocked this_ptr); + +/** + * The channel ID + */ +const uint8_t (*FundingLocked_get_channel_id(const struct LDKFundingLocked *NONNULL_PTR this_ptr))[32]; + +/** + * The channel ID + */ +void FundingLocked_set_channel_id(struct LDKFundingLocked *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The per-commitment point of the second commitment transaction + */ +struct LDKPublicKey FundingLocked_get_next_per_commitment_point(const struct LDKFundingLocked *NONNULL_PTR this_ptr); + +/** + * The per-commitment point of the second commitment transaction + */ +void FundingLocked_set_next_per_commitment_point(struct LDKFundingLocked *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +MUST_USE_RES struct LDKFundingLocked FundingLocked_new(struct LDKThirtyTwoBytes channel_id_arg, struct LDKPublicKey next_per_commitment_point_arg); + +struct LDKFundingLocked FundingLocked_clone(const struct LDKFundingLocked *NONNULL_PTR orig); + +void Shutdown_free(struct LDKShutdown this_ptr); + +/** + * The channel ID + */ +const uint8_t (*Shutdown_get_channel_id(const struct LDKShutdown *NONNULL_PTR this_ptr))[32]; + +/** + * The channel ID + */ +void Shutdown_set_channel_id(struct LDKShutdown *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The destination of this peer's funds on closing. + * Must be in one of these forms: p2pkh, p2sh, p2wpkh, p2wsh. + */ +struct LDKu8slice Shutdown_get_scriptpubkey(const struct LDKShutdown *NONNULL_PTR this_ptr); + +/** + * The destination of this peer's funds on closing. + * Must be in one of these forms: p2pkh, p2sh, p2wpkh, p2wsh. + */ +void Shutdown_set_scriptpubkey(struct LDKShutdown *NONNULL_PTR this_ptr, struct LDKCVec_u8Z val); + +MUST_USE_RES struct LDKShutdown Shutdown_new(struct LDKThirtyTwoBytes channel_id_arg, struct LDKCVec_u8Z scriptpubkey_arg); + +struct LDKShutdown Shutdown_clone(const struct LDKShutdown *NONNULL_PTR orig); + +void ClosingSigned_free(struct LDKClosingSigned this_ptr); + +/** + * The channel ID + */ +const uint8_t (*ClosingSigned_get_channel_id(const struct LDKClosingSigned *NONNULL_PTR this_ptr))[32]; + +/** + * The channel ID + */ +void ClosingSigned_set_channel_id(struct LDKClosingSigned *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The proposed total fee for the closing transaction + */ +uint64_t ClosingSigned_get_fee_satoshis(const struct LDKClosingSigned *NONNULL_PTR this_ptr); + +/** + * The proposed total fee for the closing transaction + */ +void ClosingSigned_set_fee_satoshis(struct LDKClosingSigned *NONNULL_PTR this_ptr, uint64_t val); + +/** + * A signature on the closing transaction + */ +struct LDKSignature ClosingSigned_get_signature(const struct LDKClosingSigned *NONNULL_PTR this_ptr); + +/** + * A signature on the closing transaction + */ +void ClosingSigned_set_signature(struct LDKClosingSigned *NONNULL_PTR this_ptr, struct LDKSignature val); + +MUST_USE_RES struct LDKClosingSigned ClosingSigned_new(struct LDKThirtyTwoBytes channel_id_arg, uint64_t fee_satoshis_arg, struct LDKSignature signature_arg); + +struct LDKClosingSigned ClosingSigned_clone(const struct LDKClosingSigned *NONNULL_PTR orig); + +void UpdateAddHTLC_free(struct LDKUpdateAddHTLC this_ptr); + +/** + * The channel ID + */ +const uint8_t (*UpdateAddHTLC_get_channel_id(const struct LDKUpdateAddHTLC *NONNULL_PTR this_ptr))[32]; + +/** + * The channel ID + */ +void UpdateAddHTLC_set_channel_id(struct LDKUpdateAddHTLC *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The HTLC ID + */ +uint64_t UpdateAddHTLC_get_htlc_id(const struct LDKUpdateAddHTLC *NONNULL_PTR this_ptr); + +/** + * The HTLC ID + */ +void UpdateAddHTLC_set_htlc_id(struct LDKUpdateAddHTLC *NONNULL_PTR this_ptr, uint64_t val); + +/** + * The HTLC value in milli-satoshi + */ +uint64_t UpdateAddHTLC_get_amount_msat(const struct LDKUpdateAddHTLC *NONNULL_PTR this_ptr); + +/** + * The HTLC value in milli-satoshi + */ +void UpdateAddHTLC_set_amount_msat(struct LDKUpdateAddHTLC *NONNULL_PTR this_ptr, uint64_t val); + +/** + * The payment hash, the pre-image of which controls HTLC redemption + */ +const uint8_t (*UpdateAddHTLC_get_payment_hash(const struct LDKUpdateAddHTLC *NONNULL_PTR this_ptr))[32]; + +/** + * The payment hash, the pre-image of which controls HTLC redemption + */ +void UpdateAddHTLC_set_payment_hash(struct LDKUpdateAddHTLC *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The expiry height of the HTLC + */ +uint32_t UpdateAddHTLC_get_cltv_expiry(const struct LDKUpdateAddHTLC *NONNULL_PTR this_ptr); + +/** + * The expiry height of the HTLC + */ +void UpdateAddHTLC_set_cltv_expiry(struct LDKUpdateAddHTLC *NONNULL_PTR this_ptr, uint32_t val); + +struct LDKUpdateAddHTLC UpdateAddHTLC_clone(const struct LDKUpdateAddHTLC *NONNULL_PTR orig); + +void UpdateFulfillHTLC_free(struct LDKUpdateFulfillHTLC this_ptr); + +/** + * The channel ID + */ +const uint8_t (*UpdateFulfillHTLC_get_channel_id(const struct LDKUpdateFulfillHTLC *NONNULL_PTR this_ptr))[32]; + +/** + * The channel ID + */ +void UpdateFulfillHTLC_set_channel_id(struct LDKUpdateFulfillHTLC *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The HTLC ID + */ +uint64_t UpdateFulfillHTLC_get_htlc_id(const struct LDKUpdateFulfillHTLC *NONNULL_PTR this_ptr); + +/** + * The HTLC ID + */ +void UpdateFulfillHTLC_set_htlc_id(struct LDKUpdateFulfillHTLC *NONNULL_PTR this_ptr, uint64_t val); + +/** + * The pre-image of the payment hash, allowing HTLC redemption + */ +const uint8_t (*UpdateFulfillHTLC_get_payment_preimage(const struct LDKUpdateFulfillHTLC *NONNULL_PTR this_ptr))[32]; + +/** + * The pre-image of the payment hash, allowing HTLC redemption + */ +void UpdateFulfillHTLC_set_payment_preimage(struct LDKUpdateFulfillHTLC *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +MUST_USE_RES struct LDKUpdateFulfillHTLC UpdateFulfillHTLC_new(struct LDKThirtyTwoBytes channel_id_arg, uint64_t htlc_id_arg, struct LDKThirtyTwoBytes payment_preimage_arg); + +struct LDKUpdateFulfillHTLC UpdateFulfillHTLC_clone(const struct LDKUpdateFulfillHTLC *NONNULL_PTR orig); + +void UpdateFailHTLC_free(struct LDKUpdateFailHTLC this_ptr); + +/** + * The channel ID + */ +const uint8_t (*UpdateFailHTLC_get_channel_id(const struct LDKUpdateFailHTLC *NONNULL_PTR this_ptr))[32]; + +/** + * The channel ID + */ +void UpdateFailHTLC_set_channel_id(struct LDKUpdateFailHTLC *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The HTLC ID + */ +uint64_t UpdateFailHTLC_get_htlc_id(const struct LDKUpdateFailHTLC *NONNULL_PTR this_ptr); + +/** + * The HTLC ID + */ +void UpdateFailHTLC_set_htlc_id(struct LDKUpdateFailHTLC *NONNULL_PTR this_ptr, uint64_t val); + +struct LDKUpdateFailHTLC UpdateFailHTLC_clone(const struct LDKUpdateFailHTLC *NONNULL_PTR orig); + +void UpdateFailMalformedHTLC_free(struct LDKUpdateFailMalformedHTLC this_ptr); + +/** + * The channel ID + */ +const uint8_t (*UpdateFailMalformedHTLC_get_channel_id(const struct LDKUpdateFailMalformedHTLC *NONNULL_PTR this_ptr))[32]; + +/** + * The channel ID + */ +void UpdateFailMalformedHTLC_set_channel_id(struct LDKUpdateFailMalformedHTLC *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The HTLC ID + */ +uint64_t UpdateFailMalformedHTLC_get_htlc_id(const struct LDKUpdateFailMalformedHTLC *NONNULL_PTR this_ptr); + +/** + * The HTLC ID + */ +void UpdateFailMalformedHTLC_set_htlc_id(struct LDKUpdateFailMalformedHTLC *NONNULL_PTR this_ptr, uint64_t val); + +/** + * The failure code + */ +uint16_t UpdateFailMalformedHTLC_get_failure_code(const struct LDKUpdateFailMalformedHTLC *NONNULL_PTR this_ptr); + +/** + * The failure code + */ +void UpdateFailMalformedHTLC_set_failure_code(struct LDKUpdateFailMalformedHTLC *NONNULL_PTR this_ptr, uint16_t val); + +struct LDKUpdateFailMalformedHTLC UpdateFailMalformedHTLC_clone(const struct LDKUpdateFailMalformedHTLC *NONNULL_PTR orig); + +void CommitmentSigned_free(struct LDKCommitmentSigned this_ptr); + +/** + * The channel ID + */ +const uint8_t (*CommitmentSigned_get_channel_id(const struct LDKCommitmentSigned *NONNULL_PTR this_ptr))[32]; + +/** + * The channel ID + */ +void CommitmentSigned_set_channel_id(struct LDKCommitmentSigned *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * A signature on the commitment transaction + */ +struct LDKSignature CommitmentSigned_get_signature(const struct LDKCommitmentSigned *NONNULL_PTR this_ptr); + +/** + * A signature on the commitment transaction + */ +void CommitmentSigned_set_signature(struct LDKCommitmentSigned *NONNULL_PTR this_ptr, struct LDKSignature val); + +/** + * Signatures on the HTLC transactions + */ +void CommitmentSigned_set_htlc_signatures(struct LDKCommitmentSigned *NONNULL_PTR this_ptr, struct LDKCVec_SignatureZ val); + +MUST_USE_RES struct LDKCommitmentSigned CommitmentSigned_new(struct LDKThirtyTwoBytes channel_id_arg, struct LDKSignature signature_arg, struct LDKCVec_SignatureZ htlc_signatures_arg); + +struct LDKCommitmentSigned CommitmentSigned_clone(const struct LDKCommitmentSigned *NONNULL_PTR orig); + +void RevokeAndACK_free(struct LDKRevokeAndACK this_ptr); + +/** + * The channel ID + */ +const uint8_t (*RevokeAndACK_get_channel_id(const struct LDKRevokeAndACK *NONNULL_PTR this_ptr))[32]; + +/** + * The channel ID + */ +void RevokeAndACK_set_channel_id(struct LDKRevokeAndACK *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The secret corresponding to the per-commitment point + */ +const uint8_t (*RevokeAndACK_get_per_commitment_secret(const struct LDKRevokeAndACK *NONNULL_PTR this_ptr))[32]; + +/** + * The secret corresponding to the per-commitment point + */ +void RevokeAndACK_set_per_commitment_secret(struct LDKRevokeAndACK *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The next sender-broadcast commitment transaction's per-commitment point + */ +struct LDKPublicKey RevokeAndACK_get_next_per_commitment_point(const struct LDKRevokeAndACK *NONNULL_PTR this_ptr); + +/** + * The next sender-broadcast commitment transaction's per-commitment point + */ +void RevokeAndACK_set_next_per_commitment_point(struct LDKRevokeAndACK *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +MUST_USE_RES struct LDKRevokeAndACK RevokeAndACK_new(struct LDKThirtyTwoBytes channel_id_arg, struct LDKThirtyTwoBytes per_commitment_secret_arg, struct LDKPublicKey next_per_commitment_point_arg); + +struct LDKRevokeAndACK RevokeAndACK_clone(const struct LDKRevokeAndACK *NONNULL_PTR orig); + +void UpdateFee_free(struct LDKUpdateFee this_ptr); + +/** + * The channel ID + */ +const uint8_t (*UpdateFee_get_channel_id(const struct LDKUpdateFee *NONNULL_PTR this_ptr))[32]; + +/** + * The channel ID + */ +void UpdateFee_set_channel_id(struct LDKUpdateFee *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * Fee rate per 1000-weight of the transaction + */ +uint32_t UpdateFee_get_feerate_per_kw(const struct LDKUpdateFee *NONNULL_PTR this_ptr); + +/** + * Fee rate per 1000-weight of the transaction + */ +void UpdateFee_set_feerate_per_kw(struct LDKUpdateFee *NONNULL_PTR this_ptr, uint32_t val); + +MUST_USE_RES struct LDKUpdateFee UpdateFee_new(struct LDKThirtyTwoBytes channel_id_arg, uint32_t feerate_per_kw_arg); + +struct LDKUpdateFee UpdateFee_clone(const struct LDKUpdateFee *NONNULL_PTR orig); + +void DataLossProtect_free(struct LDKDataLossProtect this_ptr); + +/** + * Proof that the sender knows the per-commitment secret of a specific commitment transaction + * belonging to the recipient + */ +const uint8_t (*DataLossProtect_get_your_last_per_commitment_secret(const struct LDKDataLossProtect *NONNULL_PTR this_ptr))[32]; + +/** + * Proof that the sender knows the per-commitment secret of a specific commitment transaction + * belonging to the recipient + */ +void DataLossProtect_set_your_last_per_commitment_secret(struct LDKDataLossProtect *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The sender's per-commitment point for their current commitment transaction + */ +struct LDKPublicKey DataLossProtect_get_my_current_per_commitment_point(const struct LDKDataLossProtect *NONNULL_PTR this_ptr); + +/** + * The sender's per-commitment point for their current commitment transaction + */ +void DataLossProtect_set_my_current_per_commitment_point(struct LDKDataLossProtect *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +MUST_USE_RES struct LDKDataLossProtect DataLossProtect_new(struct LDKThirtyTwoBytes your_last_per_commitment_secret_arg, struct LDKPublicKey my_current_per_commitment_point_arg); + +struct LDKDataLossProtect DataLossProtect_clone(const struct LDKDataLossProtect *NONNULL_PTR orig); + +void ChannelReestablish_free(struct LDKChannelReestablish this_ptr); + +/** + * The channel ID + */ +const uint8_t (*ChannelReestablish_get_channel_id(const struct LDKChannelReestablish *NONNULL_PTR this_ptr))[32]; + +/** + * The channel ID + */ +void ChannelReestablish_set_channel_id(struct LDKChannelReestablish *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The next commitment number for the sender + */ +uint64_t ChannelReestablish_get_next_local_commitment_number(const struct LDKChannelReestablish *NONNULL_PTR this_ptr); + +/** + * The next commitment number for the sender + */ +void ChannelReestablish_set_next_local_commitment_number(struct LDKChannelReestablish *NONNULL_PTR this_ptr, uint64_t val); + +/** + * The next commitment number for the recipient + */ +uint64_t ChannelReestablish_get_next_remote_commitment_number(const struct LDKChannelReestablish *NONNULL_PTR this_ptr); + +/** + * The next commitment number for the recipient + */ +void ChannelReestablish_set_next_remote_commitment_number(struct LDKChannelReestablish *NONNULL_PTR this_ptr, uint64_t val); + +struct LDKChannelReestablish ChannelReestablish_clone(const struct LDKChannelReestablish *NONNULL_PTR orig); + +void AnnouncementSignatures_free(struct LDKAnnouncementSignatures this_ptr); + +/** + * The channel ID + */ +const uint8_t (*AnnouncementSignatures_get_channel_id(const struct LDKAnnouncementSignatures *NONNULL_PTR this_ptr))[32]; + +/** + * The channel ID + */ +void AnnouncementSignatures_set_channel_id(struct LDKAnnouncementSignatures *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The short channel ID + */ +uint64_t AnnouncementSignatures_get_short_channel_id(const struct LDKAnnouncementSignatures *NONNULL_PTR this_ptr); + +/** + * The short channel ID + */ +void AnnouncementSignatures_set_short_channel_id(struct LDKAnnouncementSignatures *NONNULL_PTR this_ptr, uint64_t val); + +/** + * A signature by the node key + */ +struct LDKSignature AnnouncementSignatures_get_node_signature(const struct LDKAnnouncementSignatures *NONNULL_PTR this_ptr); + +/** + * A signature by the node key + */ +void AnnouncementSignatures_set_node_signature(struct LDKAnnouncementSignatures *NONNULL_PTR this_ptr, struct LDKSignature val); + +/** + * A signature by the funding key + */ +struct LDKSignature AnnouncementSignatures_get_bitcoin_signature(const struct LDKAnnouncementSignatures *NONNULL_PTR this_ptr); + +/** + * A signature by the funding key + */ +void AnnouncementSignatures_set_bitcoin_signature(struct LDKAnnouncementSignatures *NONNULL_PTR this_ptr, struct LDKSignature val); + +MUST_USE_RES struct LDKAnnouncementSignatures AnnouncementSignatures_new(struct LDKThirtyTwoBytes channel_id_arg, uint64_t short_channel_id_arg, struct LDKSignature node_signature_arg, struct LDKSignature bitcoin_signature_arg); + +struct LDKAnnouncementSignatures AnnouncementSignatures_clone(const struct LDKAnnouncementSignatures *NONNULL_PTR orig); + +void NetAddress_free(struct LDKNetAddress this_ptr); + +struct LDKNetAddress NetAddress_clone(const struct LDKNetAddress *NONNULL_PTR orig); + +struct LDKCVec_u8Z NetAddress_write(const struct LDKNetAddress *NONNULL_PTR obj); + +struct LDKCResult_CResult_NetAddressu8ZDecodeErrorZ Result_read(struct LDKu8slice ser); + +void UnsignedNodeAnnouncement_free(struct LDKUnsignedNodeAnnouncement this_ptr); + +/** + * The advertised features + */ +struct LDKNodeFeatures UnsignedNodeAnnouncement_get_features(const struct LDKUnsignedNodeAnnouncement *NONNULL_PTR this_ptr); + +/** + * The advertised features + */ +void UnsignedNodeAnnouncement_set_features(struct LDKUnsignedNodeAnnouncement *NONNULL_PTR this_ptr, struct LDKNodeFeatures val); + +/** + * A strictly monotonic announcement counter, with gaps allowed + */ +uint32_t UnsignedNodeAnnouncement_get_timestamp(const struct LDKUnsignedNodeAnnouncement *NONNULL_PTR this_ptr); + +/** + * A strictly monotonic announcement counter, with gaps allowed + */ +void UnsignedNodeAnnouncement_set_timestamp(struct LDKUnsignedNodeAnnouncement *NONNULL_PTR this_ptr, uint32_t val); + +/** + * The node_id this announcement originated from (don't rebroadcast the node_announcement back + * to this node). + */ +struct LDKPublicKey UnsignedNodeAnnouncement_get_node_id(const struct LDKUnsignedNodeAnnouncement *NONNULL_PTR this_ptr); + +/** + * The node_id this announcement originated from (don't rebroadcast the node_announcement back + * to this node). + */ +void UnsignedNodeAnnouncement_set_node_id(struct LDKUnsignedNodeAnnouncement *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * An RGB color for UI purposes + */ +const uint8_t (*UnsignedNodeAnnouncement_get_rgb(const struct LDKUnsignedNodeAnnouncement *NONNULL_PTR this_ptr))[3]; + +/** + * An RGB color for UI purposes + */ +void UnsignedNodeAnnouncement_set_rgb(struct LDKUnsignedNodeAnnouncement *NONNULL_PTR this_ptr, struct LDKThreeBytes val); + +/** + * An alias, for UI purposes. This should be sanitized before use. There is no guarantee + * of uniqueness. + */ +const uint8_t (*UnsignedNodeAnnouncement_get_alias(const struct LDKUnsignedNodeAnnouncement *NONNULL_PTR this_ptr))[32]; + +/** + * An alias, for UI purposes. This should be sanitized before use. There is no guarantee + * of uniqueness. + */ +void UnsignedNodeAnnouncement_set_alias(struct LDKUnsignedNodeAnnouncement *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * List of addresses on which this node is reachable + */ +void UnsignedNodeAnnouncement_set_addresses(struct LDKUnsignedNodeAnnouncement *NONNULL_PTR this_ptr, struct LDKCVec_NetAddressZ val); + +struct LDKUnsignedNodeAnnouncement UnsignedNodeAnnouncement_clone(const struct LDKUnsignedNodeAnnouncement *NONNULL_PTR orig); + +void NodeAnnouncement_free(struct LDKNodeAnnouncement this_ptr); + +/** + * The signature by the node key + */ +struct LDKSignature NodeAnnouncement_get_signature(const struct LDKNodeAnnouncement *NONNULL_PTR this_ptr); + +/** + * The signature by the node key + */ +void NodeAnnouncement_set_signature(struct LDKNodeAnnouncement *NONNULL_PTR this_ptr, struct LDKSignature val); + +/** + * The actual content of the announcement + */ +struct LDKUnsignedNodeAnnouncement NodeAnnouncement_get_contents(const struct LDKNodeAnnouncement *NONNULL_PTR this_ptr); + +/** + * The actual content of the announcement + */ +void NodeAnnouncement_set_contents(struct LDKNodeAnnouncement *NONNULL_PTR this_ptr, struct LDKUnsignedNodeAnnouncement val); + +MUST_USE_RES struct LDKNodeAnnouncement NodeAnnouncement_new(struct LDKSignature signature_arg, struct LDKUnsignedNodeAnnouncement contents_arg); + +struct LDKNodeAnnouncement NodeAnnouncement_clone(const struct LDKNodeAnnouncement *NONNULL_PTR orig); + +void UnsignedChannelAnnouncement_free(struct LDKUnsignedChannelAnnouncement this_ptr); + +/** + * The advertised channel features + */ +struct LDKChannelFeatures UnsignedChannelAnnouncement_get_features(const struct LDKUnsignedChannelAnnouncement *NONNULL_PTR this_ptr); + +/** + * The advertised channel features + */ +void UnsignedChannelAnnouncement_set_features(struct LDKUnsignedChannelAnnouncement *NONNULL_PTR this_ptr, struct LDKChannelFeatures val); + +/** + * The genesis hash of the blockchain where the channel is to be opened + */ +const uint8_t (*UnsignedChannelAnnouncement_get_chain_hash(const struct LDKUnsignedChannelAnnouncement *NONNULL_PTR this_ptr))[32]; + +/** + * The genesis hash of the blockchain where the channel is to be opened + */ +void UnsignedChannelAnnouncement_set_chain_hash(struct LDKUnsignedChannelAnnouncement *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The short channel ID + */ +uint64_t UnsignedChannelAnnouncement_get_short_channel_id(const struct LDKUnsignedChannelAnnouncement *NONNULL_PTR this_ptr); + +/** + * The short channel ID + */ +void UnsignedChannelAnnouncement_set_short_channel_id(struct LDKUnsignedChannelAnnouncement *NONNULL_PTR this_ptr, uint64_t val); + +/** + * One of the two node_ids which are endpoints of this channel + */ +struct LDKPublicKey UnsignedChannelAnnouncement_get_node_id_1(const struct LDKUnsignedChannelAnnouncement *NONNULL_PTR this_ptr); + +/** + * One of the two node_ids which are endpoints of this channel + */ +void UnsignedChannelAnnouncement_set_node_id_1(struct LDKUnsignedChannelAnnouncement *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * The other of the two node_ids which are endpoints of this channel + */ +struct LDKPublicKey UnsignedChannelAnnouncement_get_node_id_2(const struct LDKUnsignedChannelAnnouncement *NONNULL_PTR this_ptr); + +/** + * The other of the two node_ids which are endpoints of this channel + */ +void UnsignedChannelAnnouncement_set_node_id_2(struct LDKUnsignedChannelAnnouncement *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * The funding key for the first node + */ +struct LDKPublicKey UnsignedChannelAnnouncement_get_bitcoin_key_1(const struct LDKUnsignedChannelAnnouncement *NONNULL_PTR this_ptr); + +/** + * The funding key for the first node + */ +void UnsignedChannelAnnouncement_set_bitcoin_key_1(struct LDKUnsignedChannelAnnouncement *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * The funding key for the second node + */ +struct LDKPublicKey UnsignedChannelAnnouncement_get_bitcoin_key_2(const struct LDKUnsignedChannelAnnouncement *NONNULL_PTR this_ptr); + +/** + * The funding key for the second node + */ +void UnsignedChannelAnnouncement_set_bitcoin_key_2(struct LDKUnsignedChannelAnnouncement *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +struct LDKUnsignedChannelAnnouncement UnsignedChannelAnnouncement_clone(const struct LDKUnsignedChannelAnnouncement *NONNULL_PTR orig); + +void ChannelAnnouncement_free(struct LDKChannelAnnouncement this_ptr); + +/** + * Authentication of the announcement by the first public node + */ +struct LDKSignature ChannelAnnouncement_get_node_signature_1(const struct LDKChannelAnnouncement *NONNULL_PTR this_ptr); + +/** + * Authentication of the announcement by the first public node + */ +void ChannelAnnouncement_set_node_signature_1(struct LDKChannelAnnouncement *NONNULL_PTR this_ptr, struct LDKSignature val); + +/** + * Authentication of the announcement by the second public node + */ +struct LDKSignature ChannelAnnouncement_get_node_signature_2(const struct LDKChannelAnnouncement *NONNULL_PTR this_ptr); + +/** + * Authentication of the announcement by the second public node + */ +void ChannelAnnouncement_set_node_signature_2(struct LDKChannelAnnouncement *NONNULL_PTR this_ptr, struct LDKSignature val); + +/** + * Proof of funding UTXO ownership by the first public node + */ +struct LDKSignature ChannelAnnouncement_get_bitcoin_signature_1(const struct LDKChannelAnnouncement *NONNULL_PTR this_ptr); + +/** + * Proof of funding UTXO ownership by the first public node + */ +void ChannelAnnouncement_set_bitcoin_signature_1(struct LDKChannelAnnouncement *NONNULL_PTR this_ptr, struct LDKSignature val); + +/** + * Proof of funding UTXO ownership by the second public node + */ +struct LDKSignature ChannelAnnouncement_get_bitcoin_signature_2(const struct LDKChannelAnnouncement *NONNULL_PTR this_ptr); + +/** + * Proof of funding UTXO ownership by the second public node + */ +void ChannelAnnouncement_set_bitcoin_signature_2(struct LDKChannelAnnouncement *NONNULL_PTR this_ptr, struct LDKSignature val); + +/** + * The actual announcement + */ +struct LDKUnsignedChannelAnnouncement ChannelAnnouncement_get_contents(const struct LDKChannelAnnouncement *NONNULL_PTR this_ptr); + +/** + * The actual announcement + */ +void ChannelAnnouncement_set_contents(struct LDKChannelAnnouncement *NONNULL_PTR this_ptr, struct LDKUnsignedChannelAnnouncement val); + +MUST_USE_RES struct LDKChannelAnnouncement ChannelAnnouncement_new(struct LDKSignature node_signature_1_arg, struct LDKSignature node_signature_2_arg, struct LDKSignature bitcoin_signature_1_arg, struct LDKSignature bitcoin_signature_2_arg, struct LDKUnsignedChannelAnnouncement contents_arg); + +struct LDKChannelAnnouncement ChannelAnnouncement_clone(const struct LDKChannelAnnouncement *NONNULL_PTR orig); + +void UnsignedChannelUpdate_free(struct LDKUnsignedChannelUpdate this_ptr); + +/** + * The genesis hash of the blockchain where the channel is to be opened + */ +const uint8_t (*UnsignedChannelUpdate_get_chain_hash(const struct LDKUnsignedChannelUpdate *NONNULL_PTR this_ptr))[32]; + +/** + * The genesis hash of the blockchain where the channel is to be opened + */ +void UnsignedChannelUpdate_set_chain_hash(struct LDKUnsignedChannelUpdate *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The short channel ID + */ +uint64_t UnsignedChannelUpdate_get_short_channel_id(const struct LDKUnsignedChannelUpdate *NONNULL_PTR this_ptr); + +/** + * The short channel ID + */ +void UnsignedChannelUpdate_set_short_channel_id(struct LDKUnsignedChannelUpdate *NONNULL_PTR this_ptr, uint64_t val); + +/** + * A strictly monotonic announcement counter, with gaps allowed, specific to this channel + */ +uint32_t UnsignedChannelUpdate_get_timestamp(const struct LDKUnsignedChannelUpdate *NONNULL_PTR this_ptr); + +/** + * A strictly monotonic announcement counter, with gaps allowed, specific to this channel + */ +void UnsignedChannelUpdate_set_timestamp(struct LDKUnsignedChannelUpdate *NONNULL_PTR this_ptr, uint32_t val); + +/** + * Channel flags + */ +uint8_t UnsignedChannelUpdate_get_flags(const struct LDKUnsignedChannelUpdate *NONNULL_PTR this_ptr); + +/** + * Channel flags + */ +void UnsignedChannelUpdate_set_flags(struct LDKUnsignedChannelUpdate *NONNULL_PTR this_ptr, uint8_t val); + +/** + * The number of blocks to subtract from incoming HTLC cltv_expiry values + */ +uint16_t UnsignedChannelUpdate_get_cltv_expiry_delta(const struct LDKUnsignedChannelUpdate *NONNULL_PTR this_ptr); + +/** + * The number of blocks to subtract from incoming HTLC cltv_expiry values + */ +void UnsignedChannelUpdate_set_cltv_expiry_delta(struct LDKUnsignedChannelUpdate *NONNULL_PTR this_ptr, uint16_t val); + +/** + * The minimum HTLC size incoming to sender, in milli-satoshi + */ +uint64_t UnsignedChannelUpdate_get_htlc_minimum_msat(const struct LDKUnsignedChannelUpdate *NONNULL_PTR this_ptr); + +/** + * The minimum HTLC size incoming to sender, in milli-satoshi + */ +void UnsignedChannelUpdate_set_htlc_minimum_msat(struct LDKUnsignedChannelUpdate *NONNULL_PTR this_ptr, uint64_t val); + +/** + * The base HTLC fee charged by sender, in milli-satoshi + */ +uint32_t UnsignedChannelUpdate_get_fee_base_msat(const struct LDKUnsignedChannelUpdate *NONNULL_PTR this_ptr); + +/** + * The base HTLC fee charged by sender, in milli-satoshi + */ +void UnsignedChannelUpdate_set_fee_base_msat(struct LDKUnsignedChannelUpdate *NONNULL_PTR this_ptr, uint32_t val); + +/** + * The amount to fee multiplier, in micro-satoshi + */ +uint32_t UnsignedChannelUpdate_get_fee_proportional_millionths(const struct LDKUnsignedChannelUpdate *NONNULL_PTR this_ptr); + +/** + * The amount to fee multiplier, in micro-satoshi + */ +void UnsignedChannelUpdate_set_fee_proportional_millionths(struct LDKUnsignedChannelUpdate *NONNULL_PTR this_ptr, uint32_t val); + +struct LDKUnsignedChannelUpdate UnsignedChannelUpdate_clone(const struct LDKUnsignedChannelUpdate *NONNULL_PTR orig); + +void ChannelUpdate_free(struct LDKChannelUpdate this_ptr); + +/** + * A signature of the channel update + */ +struct LDKSignature ChannelUpdate_get_signature(const struct LDKChannelUpdate *NONNULL_PTR this_ptr); + +/** + * A signature of the channel update + */ +void ChannelUpdate_set_signature(struct LDKChannelUpdate *NONNULL_PTR this_ptr, struct LDKSignature val); + +/** + * The actual channel update + */ +struct LDKUnsignedChannelUpdate ChannelUpdate_get_contents(const struct LDKChannelUpdate *NONNULL_PTR this_ptr); + +/** + * The actual channel update + */ +void ChannelUpdate_set_contents(struct LDKChannelUpdate *NONNULL_PTR this_ptr, struct LDKUnsignedChannelUpdate val); + +MUST_USE_RES struct LDKChannelUpdate ChannelUpdate_new(struct LDKSignature signature_arg, struct LDKUnsignedChannelUpdate contents_arg); + +struct LDKChannelUpdate ChannelUpdate_clone(const struct LDKChannelUpdate *NONNULL_PTR orig); + +void QueryChannelRange_free(struct LDKQueryChannelRange this_ptr); + +/** + * The genesis hash of the blockchain being queried + */ +const uint8_t (*QueryChannelRange_get_chain_hash(const struct LDKQueryChannelRange *NONNULL_PTR this_ptr))[32]; + +/** + * The genesis hash of the blockchain being queried + */ +void QueryChannelRange_set_chain_hash(struct LDKQueryChannelRange *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The height of the first block for the channel UTXOs being queried + */ +uint32_t QueryChannelRange_get_first_blocknum(const struct LDKQueryChannelRange *NONNULL_PTR this_ptr); + +/** + * The height of the first block for the channel UTXOs being queried + */ +void QueryChannelRange_set_first_blocknum(struct LDKQueryChannelRange *NONNULL_PTR this_ptr, uint32_t val); + +/** + * The number of blocks to include in the query results + */ +uint32_t QueryChannelRange_get_number_of_blocks(const struct LDKQueryChannelRange *NONNULL_PTR this_ptr); + +/** + * The number of blocks to include in the query results + */ +void QueryChannelRange_set_number_of_blocks(struct LDKQueryChannelRange *NONNULL_PTR this_ptr, uint32_t val); + +MUST_USE_RES struct LDKQueryChannelRange QueryChannelRange_new(struct LDKThirtyTwoBytes chain_hash_arg, uint32_t first_blocknum_arg, uint32_t number_of_blocks_arg); + +struct LDKQueryChannelRange QueryChannelRange_clone(const struct LDKQueryChannelRange *NONNULL_PTR orig); + +void ReplyChannelRange_free(struct LDKReplyChannelRange this_ptr); + +/** + * The genesis hash of the blockchain being queried + */ +const uint8_t (*ReplyChannelRange_get_chain_hash(const struct LDKReplyChannelRange *NONNULL_PTR this_ptr))[32]; + +/** + * The genesis hash of the blockchain being queried + */ +void ReplyChannelRange_set_chain_hash(struct LDKReplyChannelRange *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The height of the first block in the range of the reply + */ +uint32_t ReplyChannelRange_get_first_blocknum(const struct LDKReplyChannelRange *NONNULL_PTR this_ptr); + +/** + * The height of the first block in the range of the reply + */ +void ReplyChannelRange_set_first_blocknum(struct LDKReplyChannelRange *NONNULL_PTR this_ptr, uint32_t val); + +/** + * The number of blocks included in the range of the reply + */ +uint32_t ReplyChannelRange_get_number_of_blocks(const struct LDKReplyChannelRange *NONNULL_PTR this_ptr); + +/** + * The number of blocks included in the range of the reply + */ +void ReplyChannelRange_set_number_of_blocks(struct LDKReplyChannelRange *NONNULL_PTR this_ptr, uint32_t val); + +/** + * True when this is the final reply for a query + */ +bool ReplyChannelRange_get_sync_complete(const struct LDKReplyChannelRange *NONNULL_PTR this_ptr); + +/** + * True when this is the final reply for a query + */ +void ReplyChannelRange_set_sync_complete(struct LDKReplyChannelRange *NONNULL_PTR this_ptr, bool val); + +/** + * The short_channel_ids in the channel range + */ +void ReplyChannelRange_set_short_channel_ids(struct LDKReplyChannelRange *NONNULL_PTR this_ptr, struct LDKCVec_u64Z val); + +MUST_USE_RES struct LDKReplyChannelRange ReplyChannelRange_new(struct LDKThirtyTwoBytes chain_hash_arg, uint32_t first_blocknum_arg, uint32_t number_of_blocks_arg, bool sync_complete_arg, struct LDKCVec_u64Z short_channel_ids_arg); + +struct LDKReplyChannelRange ReplyChannelRange_clone(const struct LDKReplyChannelRange *NONNULL_PTR orig); + +void QueryShortChannelIds_free(struct LDKQueryShortChannelIds this_ptr); + +/** + * The genesis hash of the blockchain being queried + */ +const uint8_t (*QueryShortChannelIds_get_chain_hash(const struct LDKQueryShortChannelIds *NONNULL_PTR this_ptr))[32]; + +/** + * The genesis hash of the blockchain being queried + */ +void QueryShortChannelIds_set_chain_hash(struct LDKQueryShortChannelIds *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The short_channel_ids that are being queried + */ +void QueryShortChannelIds_set_short_channel_ids(struct LDKQueryShortChannelIds *NONNULL_PTR this_ptr, struct LDKCVec_u64Z val); + +MUST_USE_RES struct LDKQueryShortChannelIds QueryShortChannelIds_new(struct LDKThirtyTwoBytes chain_hash_arg, struct LDKCVec_u64Z short_channel_ids_arg); + +struct LDKQueryShortChannelIds QueryShortChannelIds_clone(const struct LDKQueryShortChannelIds *NONNULL_PTR orig); + +void ReplyShortChannelIdsEnd_free(struct LDKReplyShortChannelIdsEnd this_ptr); + +/** + * The genesis hash of the blockchain that was queried + */ +const uint8_t (*ReplyShortChannelIdsEnd_get_chain_hash(const struct LDKReplyShortChannelIdsEnd *NONNULL_PTR this_ptr))[32]; + +/** + * The genesis hash of the blockchain that was queried + */ +void ReplyShortChannelIdsEnd_set_chain_hash(struct LDKReplyShortChannelIdsEnd *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * Indicates if the query recipient maintains up-to-date channel + * information for the chain_hash + */ +bool ReplyShortChannelIdsEnd_get_full_information(const struct LDKReplyShortChannelIdsEnd *NONNULL_PTR this_ptr); + +/** + * Indicates if the query recipient maintains up-to-date channel + * information for the chain_hash + */ +void ReplyShortChannelIdsEnd_set_full_information(struct LDKReplyShortChannelIdsEnd *NONNULL_PTR this_ptr, bool val); + +MUST_USE_RES struct LDKReplyShortChannelIdsEnd ReplyShortChannelIdsEnd_new(struct LDKThirtyTwoBytes chain_hash_arg, bool full_information_arg); + +struct LDKReplyShortChannelIdsEnd ReplyShortChannelIdsEnd_clone(const struct LDKReplyShortChannelIdsEnd *NONNULL_PTR orig); + +void GossipTimestampFilter_free(struct LDKGossipTimestampFilter this_ptr); + +/** + * The genesis hash of the blockchain for channel and node information + */ +const uint8_t (*GossipTimestampFilter_get_chain_hash(const struct LDKGossipTimestampFilter *NONNULL_PTR this_ptr))[32]; + +/** + * The genesis hash of the blockchain for channel and node information + */ +void GossipTimestampFilter_set_chain_hash(struct LDKGossipTimestampFilter *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * The starting unix timestamp + */ +uint32_t GossipTimestampFilter_get_first_timestamp(const struct LDKGossipTimestampFilter *NONNULL_PTR this_ptr); + +/** + * The starting unix timestamp + */ +void GossipTimestampFilter_set_first_timestamp(struct LDKGossipTimestampFilter *NONNULL_PTR this_ptr, uint32_t val); + +/** + * The range of information in seconds + */ +uint32_t GossipTimestampFilter_get_timestamp_range(const struct LDKGossipTimestampFilter *NONNULL_PTR this_ptr); + +/** + * The range of information in seconds + */ +void GossipTimestampFilter_set_timestamp_range(struct LDKGossipTimestampFilter *NONNULL_PTR this_ptr, uint32_t val); + +MUST_USE_RES struct LDKGossipTimestampFilter GossipTimestampFilter_new(struct LDKThirtyTwoBytes chain_hash_arg, uint32_t first_timestamp_arg, uint32_t timestamp_range_arg); + +struct LDKGossipTimestampFilter GossipTimestampFilter_clone(const struct LDKGossipTimestampFilter *NONNULL_PTR orig); + +void ErrorAction_free(struct LDKErrorAction this_ptr); + +struct LDKErrorAction ErrorAction_clone(const struct LDKErrorAction *NONNULL_PTR orig); + +void LightningError_free(struct LDKLightningError this_ptr); + +/** + * A human-readable message describing the error + */ +struct LDKStr LightningError_get_err(const struct LDKLightningError *NONNULL_PTR this_ptr); + +/** + * A human-readable message describing the error + */ +void LightningError_set_err(struct LDKLightningError *NONNULL_PTR this_ptr, struct LDKCVec_u8Z val); + +/** + * The action which should be taken against the offending peer. + */ +struct LDKErrorAction LightningError_get_action(const struct LDKLightningError *NONNULL_PTR this_ptr); + +/** + * The action which should be taken against the offending peer. + */ +void LightningError_set_action(struct LDKLightningError *NONNULL_PTR this_ptr, struct LDKErrorAction val); + +MUST_USE_RES struct LDKLightningError LightningError_new(struct LDKCVec_u8Z err_arg, struct LDKErrorAction action_arg); + +struct LDKLightningError LightningError_clone(const struct LDKLightningError *NONNULL_PTR orig); + +void CommitmentUpdate_free(struct LDKCommitmentUpdate this_ptr); + +/** + * update_add_htlc messages which should be sent + */ +void CommitmentUpdate_set_update_add_htlcs(struct LDKCommitmentUpdate *NONNULL_PTR this_ptr, struct LDKCVec_UpdateAddHTLCZ val); + +/** + * update_fulfill_htlc messages which should be sent + */ +void CommitmentUpdate_set_update_fulfill_htlcs(struct LDKCommitmentUpdate *NONNULL_PTR this_ptr, struct LDKCVec_UpdateFulfillHTLCZ val); + +/** + * update_fail_htlc messages which should be sent + */ +void CommitmentUpdate_set_update_fail_htlcs(struct LDKCommitmentUpdate *NONNULL_PTR this_ptr, struct LDKCVec_UpdateFailHTLCZ val); + +/** + * update_fail_malformed_htlc messages which should be sent + */ +void CommitmentUpdate_set_update_fail_malformed_htlcs(struct LDKCommitmentUpdate *NONNULL_PTR this_ptr, struct LDKCVec_UpdateFailMalformedHTLCZ val); + +/** + * An update_fee message which should be sent + */ +struct LDKUpdateFee CommitmentUpdate_get_update_fee(const struct LDKCommitmentUpdate *NONNULL_PTR this_ptr); + +/** + * An update_fee message which should be sent + */ +void CommitmentUpdate_set_update_fee(struct LDKCommitmentUpdate *NONNULL_PTR this_ptr, struct LDKUpdateFee val); + +/** + * Finally, the commitment_signed message which should be sent + */ +struct LDKCommitmentSigned CommitmentUpdate_get_commitment_signed(const struct LDKCommitmentUpdate *NONNULL_PTR this_ptr); + +/** + * Finally, the commitment_signed message which should be sent + */ +void CommitmentUpdate_set_commitment_signed(struct LDKCommitmentUpdate *NONNULL_PTR this_ptr, struct LDKCommitmentSigned val); + +MUST_USE_RES struct LDKCommitmentUpdate CommitmentUpdate_new(struct LDKCVec_UpdateAddHTLCZ update_add_htlcs_arg, struct LDKCVec_UpdateFulfillHTLCZ update_fulfill_htlcs_arg, struct LDKCVec_UpdateFailHTLCZ update_fail_htlcs_arg, struct LDKCVec_UpdateFailMalformedHTLCZ update_fail_malformed_htlcs_arg, struct LDKUpdateFee update_fee_arg, struct LDKCommitmentSigned commitment_signed_arg); + +struct LDKCommitmentUpdate CommitmentUpdate_clone(const struct LDKCommitmentUpdate *NONNULL_PTR orig); + +void HTLCFailChannelUpdate_free(struct LDKHTLCFailChannelUpdate this_ptr); + +struct LDKHTLCFailChannelUpdate HTLCFailChannelUpdate_clone(const struct LDKHTLCFailChannelUpdate *NONNULL_PTR orig); + +/** + * Calls the free function if one is set + */ +void ChannelMessageHandler_free(struct LDKChannelMessageHandler this_ptr); + +/** + * Calls the free function if one is set + */ +void RoutingMessageHandler_free(struct LDKRoutingMessageHandler this_ptr); + +struct LDKCVec_u8Z AcceptChannel_write(const struct LDKAcceptChannel *NONNULL_PTR obj); + +struct LDKCResult_AcceptChannelDecodeErrorZ AcceptChannel_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z AnnouncementSignatures_write(const struct LDKAnnouncementSignatures *NONNULL_PTR obj); + +struct LDKCResult_AnnouncementSignaturesDecodeErrorZ AnnouncementSignatures_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z ChannelReestablish_write(const struct LDKChannelReestablish *NONNULL_PTR obj); + +struct LDKCResult_ChannelReestablishDecodeErrorZ ChannelReestablish_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z ClosingSigned_write(const struct LDKClosingSigned *NONNULL_PTR obj); + +struct LDKCResult_ClosingSignedDecodeErrorZ ClosingSigned_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z CommitmentSigned_write(const struct LDKCommitmentSigned *NONNULL_PTR obj); + +struct LDKCResult_CommitmentSignedDecodeErrorZ CommitmentSigned_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z FundingCreated_write(const struct LDKFundingCreated *NONNULL_PTR obj); + +struct LDKCResult_FundingCreatedDecodeErrorZ FundingCreated_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z FundingSigned_write(const struct LDKFundingSigned *NONNULL_PTR obj); + +struct LDKCResult_FundingSignedDecodeErrorZ FundingSigned_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z FundingLocked_write(const struct LDKFundingLocked *NONNULL_PTR obj); + +struct LDKCResult_FundingLockedDecodeErrorZ FundingLocked_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z Init_write(const struct LDKInit *NONNULL_PTR obj); + +struct LDKCResult_InitDecodeErrorZ Init_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z OpenChannel_write(const struct LDKOpenChannel *NONNULL_PTR obj); + +struct LDKCResult_OpenChannelDecodeErrorZ OpenChannel_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z RevokeAndACK_write(const struct LDKRevokeAndACK *NONNULL_PTR obj); + +struct LDKCResult_RevokeAndACKDecodeErrorZ RevokeAndACK_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z Shutdown_write(const struct LDKShutdown *NONNULL_PTR obj); + +struct LDKCResult_ShutdownDecodeErrorZ Shutdown_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z UpdateFailHTLC_write(const struct LDKUpdateFailHTLC *NONNULL_PTR obj); + +struct LDKCResult_UpdateFailHTLCDecodeErrorZ UpdateFailHTLC_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z UpdateFailMalformedHTLC_write(const struct LDKUpdateFailMalformedHTLC *NONNULL_PTR obj); + +struct LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ UpdateFailMalformedHTLC_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z UpdateFee_write(const struct LDKUpdateFee *NONNULL_PTR obj); + +struct LDKCResult_UpdateFeeDecodeErrorZ UpdateFee_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z UpdateFulfillHTLC_write(const struct LDKUpdateFulfillHTLC *NONNULL_PTR obj); + +struct LDKCResult_UpdateFulfillHTLCDecodeErrorZ UpdateFulfillHTLC_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z UpdateAddHTLC_write(const struct LDKUpdateAddHTLC *NONNULL_PTR obj); + +struct LDKCResult_UpdateAddHTLCDecodeErrorZ UpdateAddHTLC_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z Ping_write(const struct LDKPing *NONNULL_PTR obj); + +struct LDKCResult_PingDecodeErrorZ Ping_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z Pong_write(const struct LDKPong *NONNULL_PTR obj); + +struct LDKCResult_PongDecodeErrorZ Pong_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z UnsignedChannelAnnouncement_write(const struct LDKUnsignedChannelAnnouncement *NONNULL_PTR obj); + +struct LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ UnsignedChannelAnnouncement_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z ChannelAnnouncement_write(const struct LDKChannelAnnouncement *NONNULL_PTR obj); + +struct LDKCResult_ChannelAnnouncementDecodeErrorZ ChannelAnnouncement_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z UnsignedChannelUpdate_write(const struct LDKUnsignedChannelUpdate *NONNULL_PTR obj); + +struct LDKCResult_UnsignedChannelUpdateDecodeErrorZ UnsignedChannelUpdate_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z ChannelUpdate_write(const struct LDKChannelUpdate *NONNULL_PTR obj); + +struct LDKCResult_ChannelUpdateDecodeErrorZ ChannelUpdate_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z ErrorMessage_write(const struct LDKErrorMessage *NONNULL_PTR obj); + +struct LDKCResult_ErrorMessageDecodeErrorZ ErrorMessage_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z UnsignedNodeAnnouncement_write(const struct LDKUnsignedNodeAnnouncement *NONNULL_PTR obj); + +struct LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ UnsignedNodeAnnouncement_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z NodeAnnouncement_write(const struct LDKNodeAnnouncement *NONNULL_PTR obj); + +struct LDKCResult_NodeAnnouncementDecodeErrorZ NodeAnnouncement_read(struct LDKu8slice ser); + +struct LDKCResult_QueryShortChannelIdsDecodeErrorZ QueryShortChannelIds_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z QueryShortChannelIds_write(const struct LDKQueryShortChannelIds *NONNULL_PTR obj); + +struct LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ ReplyShortChannelIdsEnd_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z ReplyShortChannelIdsEnd_write(const struct LDKReplyShortChannelIdsEnd *NONNULL_PTR obj); + +struct LDKCResult_QueryChannelRangeDecodeErrorZ QueryChannelRange_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z QueryChannelRange_write(const struct LDKQueryChannelRange *NONNULL_PTR obj); + +struct LDKCResult_ReplyChannelRangeDecodeErrorZ ReplyChannelRange_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z ReplyChannelRange_write(const struct LDKReplyChannelRange *NONNULL_PTR obj); + +struct LDKCResult_GossipTimestampFilterDecodeErrorZ GossipTimestampFilter_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z GossipTimestampFilter_write(const struct LDKGossipTimestampFilter *NONNULL_PTR obj); + +void IgnoringMessageHandler_free(struct LDKIgnoringMessageHandler this_ptr); + +MUST_USE_RES struct LDKIgnoringMessageHandler IgnoringMessageHandler_new(void); + +struct LDKMessageSendEventsProvider IgnoringMessageHandler_as_MessageSendEventsProvider(const struct LDKIgnoringMessageHandler *NONNULL_PTR this_arg); + +struct LDKRoutingMessageHandler IgnoringMessageHandler_as_RoutingMessageHandler(const struct LDKIgnoringMessageHandler *NONNULL_PTR this_arg); + +void ErroringMessageHandler_free(struct LDKErroringMessageHandler this_ptr); + +/** + * Constructs a new ErroringMessageHandler + */ +MUST_USE_RES struct LDKErroringMessageHandler ErroringMessageHandler_new(void); + +struct LDKMessageSendEventsProvider ErroringMessageHandler_as_MessageSendEventsProvider(const struct LDKErroringMessageHandler *NONNULL_PTR this_arg); + +struct LDKChannelMessageHandler ErroringMessageHandler_as_ChannelMessageHandler(const struct LDKErroringMessageHandler *NONNULL_PTR this_arg); + +void MessageHandler_free(struct LDKMessageHandler this_ptr); + +/** + * A message handler which handles messages specific to channels. Usually this is just a + * ChannelManager object or a ErroringMessageHandler. + */ +const struct LDKChannelMessageHandler *MessageHandler_get_chan_handler(const struct LDKMessageHandler *NONNULL_PTR this_ptr); + +/** + * A message handler which handles messages specific to channels. Usually this is just a + * ChannelManager object or a ErroringMessageHandler. + */ +void MessageHandler_set_chan_handler(struct LDKMessageHandler *NONNULL_PTR this_ptr, struct LDKChannelMessageHandler val); + +/** + * A message handler which handles messages updating our knowledge of the network channel + * graph. Usually this is just a NetGraphMsgHandlerMonitor object or an IgnoringMessageHandler. + */ +const struct LDKRoutingMessageHandler *MessageHandler_get_route_handler(const struct LDKMessageHandler *NONNULL_PTR this_ptr); + +/** + * A message handler which handles messages updating our knowledge of the network channel + * graph. Usually this is just a NetGraphMsgHandlerMonitor object or an IgnoringMessageHandler. + */ +void MessageHandler_set_route_handler(struct LDKMessageHandler *NONNULL_PTR this_ptr, struct LDKRoutingMessageHandler val); + +MUST_USE_RES struct LDKMessageHandler MessageHandler_new(struct LDKChannelMessageHandler chan_handler_arg, struct LDKRoutingMessageHandler route_handler_arg); + +struct LDKSocketDescriptor SocketDescriptor_clone(const struct LDKSocketDescriptor *NONNULL_PTR orig); + +/** + * Calls the free function if one is set + */ +void SocketDescriptor_free(struct LDKSocketDescriptor this_ptr); + +void PeerHandleError_free(struct LDKPeerHandleError this_ptr); + +/** + * Used to indicate that we probably can't make any future connections to this peer, implying + * we should go ahead and force-close any channels we have with it. + */ +bool PeerHandleError_get_no_connection_possible(const struct LDKPeerHandleError *NONNULL_PTR this_ptr); + +/** + * Used to indicate that we probably can't make any future connections to this peer, implying + * we should go ahead and force-close any channels we have with it. + */ +void PeerHandleError_set_no_connection_possible(struct LDKPeerHandleError *NONNULL_PTR this_ptr, bool val); + +MUST_USE_RES struct LDKPeerHandleError PeerHandleError_new(bool no_connection_possible_arg); + +struct LDKPeerHandleError PeerHandleError_clone(const struct LDKPeerHandleError *NONNULL_PTR orig); + +void PeerManager_free(struct LDKPeerManager this_ptr); + +/** + * Constructs a new PeerManager with the given message handlers and node_id secret key + * ephemeral_random_data is used to derive per-connection ephemeral keys and must be + * cryptographically secure random bytes. + */ +MUST_USE_RES struct LDKPeerManager PeerManager_new(struct LDKMessageHandler message_handler, struct LDKSecretKey our_node_secret, const uint8_t (*ephemeral_random_data)[32], struct LDKLogger logger); + +/** + * Get the list of node ids for peers which have completed the initial handshake. + * + * For outbound connections, this will be the same as the their_node_id parameter passed in to + * new_outbound_connection, however entries will only appear once the initial handshake has + * completed and we are sure the remote peer has the private key for the given node_id. + */ +MUST_USE_RES struct LDKCVec_PublicKeyZ PeerManager_get_peer_node_ids(const struct LDKPeerManager *NONNULL_PTR this_arg); + +/** + * Indicates a new outbound connection has been established to a node with the given node_id. + * Note that if an Err is returned here you MUST NOT call socket_disconnected for the new + * descriptor but must disconnect the connection immediately. + * + * Returns a small number of bytes to send to the remote node (currently always 50). + * + * Panics if descriptor is duplicative with some other descriptor which has not yet had a + * socket_disconnected(). + */ +MUST_USE_RES struct LDKCResult_CVec_u8ZPeerHandleErrorZ PeerManager_new_outbound_connection(const struct LDKPeerManager *NONNULL_PTR this_arg, struct LDKPublicKey their_node_id, struct LDKSocketDescriptor descriptor); + +/** + * Indicates a new inbound connection has been established. + * + * May refuse the connection by returning an Err, but will never write bytes to the remote end + * (outbound connector always speaks first). Note that if an Err is returned here you MUST NOT + * call socket_disconnected for the new descriptor but must disconnect the connection + * immediately. + * + * Panics if descriptor is duplicative with some other descriptor which has not yet had + * socket_disconnected called. + */ +MUST_USE_RES struct LDKCResult_NonePeerHandleErrorZ PeerManager_new_inbound_connection(const struct LDKPeerManager *NONNULL_PTR this_arg, struct LDKSocketDescriptor descriptor); + +/** + * Indicates that there is room to write data to the given socket descriptor. + * + * May return an Err to indicate that the connection should be closed. + * + * Will most likely call send_data on the descriptor passed in (or the descriptor handed into + * new_*\\_connection) before returning. Thus, be very careful with reentrancy issues! The + * invariants around calling write_buffer_space_avail in case a write did not fully complete + * must still hold - be ready to call write_buffer_space_avail again if a write call generated + * here isn't sufficient! Panics if the descriptor was not previously registered in a + * new_\\*_connection event. + */ +MUST_USE_RES struct LDKCResult_NonePeerHandleErrorZ PeerManager_write_buffer_space_avail(const struct LDKPeerManager *NONNULL_PTR this_arg, struct LDKSocketDescriptor *NONNULL_PTR descriptor); + +/** + * Indicates that data was read from the given socket descriptor. + * + * May return an Err to indicate that the connection should be closed. + * + * Will *not* call back into send_data on any descriptors to avoid reentrancy complexity. + * Thus, however, you almost certainly want to call process_events() after any read_event to + * generate send_data calls to handle responses. + * + * If Ok(true) is returned, further read_events should not be triggered until a send_data call + * on this file descriptor has resume_read set (preventing DoS issues in the send buffer). + * + * Panics if the descriptor was not previously registered in a new_*_connection event. + */ +MUST_USE_RES struct LDKCResult_boolPeerHandleErrorZ PeerManager_read_event(const struct LDKPeerManager *NONNULL_PTR this_arg, struct LDKSocketDescriptor *NONNULL_PTR peer_descriptor, struct LDKu8slice data); + +/** + * Checks for any events generated by our handlers and processes them. Includes sending most + * response messages as well as messages generated by calls to handler functions directly (eg + * functions like ChannelManager::process_pending_htlc_forward or send_payment). + */ +void PeerManager_process_events(const struct LDKPeerManager *NONNULL_PTR this_arg); + +/** + * Indicates that the given socket descriptor's connection is now closed. + * + * This must only be called if the socket has been disconnected by the peer or your own + * decision to disconnect it and must NOT be called in any case where other parts of this + * library (eg PeerHandleError, explicit disconnect_socket calls) instruct you to disconnect + * the peer. + * + * Panics if the descriptor was not previously registered in a successful new_*_connection event. + */ +void PeerManager_socket_disconnected(const struct LDKPeerManager *NONNULL_PTR this_arg, const struct LDKSocketDescriptor *NONNULL_PTR descriptor); + +/** + * Disconnect a peer given its node id. + * + * Set no_connection_possible to true to prevent any further connection with this peer, + * force-closing any channels we have with it. + * + * If a peer is connected, this will call `disconnect_socket` on the descriptor for the peer, + * so be careful about reentrancy issues. + */ +void PeerManager_disconnect_by_node_id(const struct LDKPeerManager *NONNULL_PTR this_arg, struct LDKPublicKey node_id, bool no_connection_possible); + +/** + * This function should be called roughly once every 30 seconds. + * It will send pings to each peer and disconnect those which did not respond to the last round of pings. + * Will most likely call send_data on all of the registered descriptors, thus, be very careful with reentrancy issues! + */ +void PeerManager_timer_tick_occured(const struct LDKPeerManager *NONNULL_PTR this_arg); + +/** + * Build the commitment secret from the seed and the commitment number + */ +struct LDKThirtyTwoBytes build_commitment_secret(const uint8_t (*commitment_seed)[32], uint64_t idx); + +/** + * Derives a per-commitment-transaction private key (eg an htlc key or delayed_payment key) + * from the base secret and the per_commitment_point. + * + * Note that this is infallible iff we trust that at least one of the two input keys are randomly + * generated (ie our own). + */ +struct LDKCResult_SecretKeyErrorZ derive_private_key(struct LDKPublicKey per_commitment_point, const uint8_t (*base_secret)[32]); + +/** + * Derives a per-commitment-transaction public key (eg an htlc key or a delayed_payment key) + * from the base point and the per_commitment_key. This is the public equivalent of + * derive_private_key - using only public keys to derive a public key instead of private keys. + * + * Note that this is infallible iff we trust that at least one of the two input keys are randomly + * generated (ie our own). + */ +struct LDKCResult_PublicKeyErrorZ derive_public_key(struct LDKPublicKey per_commitment_point, struct LDKPublicKey base_point); + +/** + * Derives a per-commitment-transaction revocation key from its constituent parts. + * + * Only the cheating participant owns a valid witness to propagate a revoked + * commitment transaction, thus per_commitment_secret always come from cheater + * and revocation_base_secret always come from punisher, which is the broadcaster + * of the transaction spending with this key knowledge. + * + * Note that this is infallible iff we trust that at least one of the two input keys are randomly + * generated (ie our own). + */ +struct LDKCResult_SecretKeyErrorZ derive_private_revocation_key(const uint8_t (*per_commitment_secret)[32], const uint8_t (*countersignatory_revocation_base_secret)[32]); + +/** + * Derives a per-commitment-transaction revocation public key from its constituent parts. This is + * the public equivalend of derive_private_revocation_key - using only public keys to derive a + * public key instead of private keys. + * + * Only the cheating participant owns a valid witness to propagate a revoked + * commitment transaction, thus per_commitment_point always come from cheater + * and revocation_base_point always come from punisher, which is the broadcaster + * of the transaction spending with this key knowledge. + * + * Note that this is infallible iff we trust that at least one of the two input keys are randomly + * generated (ie our own). + */ +struct LDKCResult_PublicKeyErrorZ derive_public_revocation_key(struct LDKPublicKey per_commitment_point, struct LDKPublicKey countersignatory_revocation_base_point); + +void TxCreationKeys_free(struct LDKTxCreationKeys this_ptr); + +/** + * The broadcaster's per-commitment public key which was used to derive the other keys. + */ +struct LDKPublicKey TxCreationKeys_get_per_commitment_point(const struct LDKTxCreationKeys *NONNULL_PTR this_ptr); + +/** + * The broadcaster's per-commitment public key which was used to derive the other keys. + */ +void TxCreationKeys_set_per_commitment_point(struct LDKTxCreationKeys *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * The revocation key which is used to allow the broadcaster of the commitment + * transaction to provide their counterparty the ability to punish them if they broadcast + * an old state. + */ +struct LDKPublicKey TxCreationKeys_get_revocation_key(const struct LDKTxCreationKeys *NONNULL_PTR this_ptr); + +/** + * The revocation key which is used to allow the broadcaster of the commitment + * transaction to provide their counterparty the ability to punish them if they broadcast + * an old state. + */ +void TxCreationKeys_set_revocation_key(struct LDKTxCreationKeys *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * Broadcaster's HTLC Key + */ +struct LDKPublicKey TxCreationKeys_get_broadcaster_htlc_key(const struct LDKTxCreationKeys *NONNULL_PTR this_ptr); + +/** + * Broadcaster's HTLC Key + */ +void TxCreationKeys_set_broadcaster_htlc_key(struct LDKTxCreationKeys *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * Countersignatory's HTLC Key + */ +struct LDKPublicKey TxCreationKeys_get_countersignatory_htlc_key(const struct LDKTxCreationKeys *NONNULL_PTR this_ptr); + +/** + * Countersignatory's HTLC Key + */ +void TxCreationKeys_set_countersignatory_htlc_key(struct LDKTxCreationKeys *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * Broadcaster's Payment Key (which isn't allowed to be spent from for some delay) + */ +struct LDKPublicKey TxCreationKeys_get_broadcaster_delayed_payment_key(const struct LDKTxCreationKeys *NONNULL_PTR this_ptr); + +/** + * Broadcaster's Payment Key (which isn't allowed to be spent from for some delay) + */ +void TxCreationKeys_set_broadcaster_delayed_payment_key(struct LDKTxCreationKeys *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +MUST_USE_RES struct LDKTxCreationKeys TxCreationKeys_new(struct LDKPublicKey per_commitment_point_arg, struct LDKPublicKey revocation_key_arg, struct LDKPublicKey broadcaster_htlc_key_arg, struct LDKPublicKey countersignatory_htlc_key_arg, struct LDKPublicKey broadcaster_delayed_payment_key_arg); + +struct LDKTxCreationKeys TxCreationKeys_clone(const struct LDKTxCreationKeys *NONNULL_PTR orig); + +struct LDKCVec_u8Z TxCreationKeys_write(const struct LDKTxCreationKeys *NONNULL_PTR obj); + +struct LDKCResult_TxCreationKeysDecodeErrorZ TxCreationKeys_read(struct LDKu8slice ser); + +void ChannelPublicKeys_free(struct LDKChannelPublicKeys this_ptr); + +/** + * The public key which is used to sign all commitment transactions, as it appears in the + * on-chain channel lock-in 2-of-2 multisig output. + */ +struct LDKPublicKey ChannelPublicKeys_get_funding_pubkey(const struct LDKChannelPublicKeys *NONNULL_PTR this_ptr); + +/** + * The public key which is used to sign all commitment transactions, as it appears in the + * on-chain channel lock-in 2-of-2 multisig output. + */ +void ChannelPublicKeys_set_funding_pubkey(struct LDKChannelPublicKeys *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * The base point which is used (with derive_public_revocation_key) to derive per-commitment + * revocation keys. This is combined with the per-commitment-secret generated by the + * counterparty to create a secret which the counterparty can reveal to revoke previous + * states. + */ +struct LDKPublicKey ChannelPublicKeys_get_revocation_basepoint(const struct LDKChannelPublicKeys *NONNULL_PTR this_ptr); + +/** + * The base point which is used (with derive_public_revocation_key) to derive per-commitment + * revocation keys. This is combined with the per-commitment-secret generated by the + * counterparty to create a secret which the counterparty can reveal to revoke previous + * states. + */ +void ChannelPublicKeys_set_revocation_basepoint(struct LDKChannelPublicKeys *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * The public key on which the non-broadcaster (ie the countersignatory) receives an immediately + * spendable primary channel balance on the broadcaster's commitment transaction. This key is + * static across every commitment transaction. + */ +struct LDKPublicKey ChannelPublicKeys_get_payment_point(const struct LDKChannelPublicKeys *NONNULL_PTR this_ptr); + +/** + * The public key on which the non-broadcaster (ie the countersignatory) receives an immediately + * spendable primary channel balance on the broadcaster's commitment transaction. This key is + * static across every commitment transaction. + */ +void ChannelPublicKeys_set_payment_point(struct LDKChannelPublicKeys *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * The base point which is used (with derive_public_key) to derive a per-commitment payment + * public key which receives non-HTLC-encumbered funds which are only available for spending + * after some delay (or can be claimed via the revocation path). + */ +struct LDKPublicKey ChannelPublicKeys_get_delayed_payment_basepoint(const struct LDKChannelPublicKeys *NONNULL_PTR this_ptr); + +/** + * The base point which is used (with derive_public_key) to derive a per-commitment payment + * public key which receives non-HTLC-encumbered funds which are only available for spending + * after some delay (or can be claimed via the revocation path). + */ +void ChannelPublicKeys_set_delayed_payment_basepoint(struct LDKChannelPublicKeys *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * The base point which is used (with derive_public_key) to derive a per-commitment public key + * which is used to encumber HTLC-in-flight outputs. + */ +struct LDKPublicKey ChannelPublicKeys_get_htlc_basepoint(const struct LDKChannelPublicKeys *NONNULL_PTR this_ptr); + +/** + * The base point which is used (with derive_public_key) to derive a per-commitment public key + * which is used to encumber HTLC-in-flight outputs. + */ +void ChannelPublicKeys_set_htlc_basepoint(struct LDKChannelPublicKeys *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +MUST_USE_RES struct LDKChannelPublicKeys ChannelPublicKeys_new(struct LDKPublicKey funding_pubkey_arg, struct LDKPublicKey revocation_basepoint_arg, struct LDKPublicKey payment_point_arg, struct LDKPublicKey delayed_payment_basepoint_arg, struct LDKPublicKey htlc_basepoint_arg); + +struct LDKChannelPublicKeys ChannelPublicKeys_clone(const struct LDKChannelPublicKeys *NONNULL_PTR orig); + +struct LDKCVec_u8Z ChannelPublicKeys_write(const struct LDKChannelPublicKeys *NONNULL_PTR obj); + +struct LDKCResult_ChannelPublicKeysDecodeErrorZ ChannelPublicKeys_read(struct LDKu8slice ser); + +/** + * Create per-state keys from channel base points and the per-commitment point. + * Key set is asymmetric and can't be used as part of counter-signatory set of transactions. + */ +MUST_USE_RES struct LDKCResult_TxCreationKeysErrorZ TxCreationKeys_derive_new(struct LDKPublicKey per_commitment_point, struct LDKPublicKey broadcaster_delayed_payment_base, struct LDKPublicKey broadcaster_htlc_base, struct LDKPublicKey countersignatory_revocation_base, struct LDKPublicKey countersignatory_htlc_base); + +/** + * Generate per-state keys from channel static keys. + * Key set is asymmetric and can't be used as part of counter-signatory set of transactions. + */ +MUST_USE_RES struct LDKCResult_TxCreationKeysErrorZ TxCreationKeys_from_channel_static_keys(struct LDKPublicKey per_commitment_point, const struct LDKChannelPublicKeys *NONNULL_PTR broadcaster_keys, const struct LDKChannelPublicKeys *NONNULL_PTR countersignatory_keys); + +/** + * A script either spendable by the revocation + * key or the broadcaster_delayed_payment_key and satisfying the relative-locktime OP_CSV constrain. + * Encumbering a `to_holder` output on a commitment transaction or 2nd-stage HTLC transactions. + */ +struct LDKCVec_u8Z get_revokeable_redeemscript(struct LDKPublicKey revocation_key, uint16_t contest_delay, struct LDKPublicKey broadcaster_delayed_payment_key); + +void HTLCOutputInCommitment_free(struct LDKHTLCOutputInCommitment this_ptr); + +/** + * Whether the HTLC was \"offered\" (ie outbound in relation to this commitment transaction). + * Note that this is not the same as whether it is ountbound *from us*. To determine that you + * need to compare this value to whether the commitment transaction in question is that of + * the counterparty or our own. + */ +bool HTLCOutputInCommitment_get_offered(const struct LDKHTLCOutputInCommitment *NONNULL_PTR this_ptr); + +/** + * Whether the HTLC was \"offered\" (ie outbound in relation to this commitment transaction). + * Note that this is not the same as whether it is ountbound *from us*. To determine that you + * need to compare this value to whether the commitment transaction in question is that of + * the counterparty or our own. + */ +void HTLCOutputInCommitment_set_offered(struct LDKHTLCOutputInCommitment *NONNULL_PTR this_ptr, bool val); + +/** + * The value, in msat, of the HTLC. The value as it appears in the commitment transaction is + * this divided by 1000. + */ +uint64_t HTLCOutputInCommitment_get_amount_msat(const struct LDKHTLCOutputInCommitment *NONNULL_PTR this_ptr); + +/** + * The value, in msat, of the HTLC. The value as it appears in the commitment transaction is + * this divided by 1000. + */ +void HTLCOutputInCommitment_set_amount_msat(struct LDKHTLCOutputInCommitment *NONNULL_PTR this_ptr, uint64_t val); + +/** + * The CLTV lock-time at which this HTLC expires. + */ +uint32_t HTLCOutputInCommitment_get_cltv_expiry(const struct LDKHTLCOutputInCommitment *NONNULL_PTR this_ptr); + +/** + * The CLTV lock-time at which this HTLC expires. + */ +void HTLCOutputInCommitment_set_cltv_expiry(struct LDKHTLCOutputInCommitment *NONNULL_PTR this_ptr, uint32_t val); + +/** + * The hash of the preimage which unlocks this HTLC. + */ +const uint8_t (*HTLCOutputInCommitment_get_payment_hash(const struct LDKHTLCOutputInCommitment *NONNULL_PTR this_ptr))[32]; + +/** + * The hash of the preimage which unlocks this HTLC. + */ +void HTLCOutputInCommitment_set_payment_hash(struct LDKHTLCOutputInCommitment *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +struct LDKHTLCOutputInCommitment HTLCOutputInCommitment_clone(const struct LDKHTLCOutputInCommitment *NONNULL_PTR orig); + +struct LDKCVec_u8Z HTLCOutputInCommitment_write(const struct LDKHTLCOutputInCommitment *NONNULL_PTR obj); + +struct LDKCResult_HTLCOutputInCommitmentDecodeErrorZ HTLCOutputInCommitment_read(struct LDKu8slice ser); + +/** + * Gets the witness redeemscript for an HTLC output in a commitment transaction. Note that htlc + * does not need to have its previous_output_index filled. + */ +struct LDKCVec_u8Z get_htlc_redeemscript(const struct LDKHTLCOutputInCommitment *NONNULL_PTR htlc, const struct LDKTxCreationKeys *NONNULL_PTR keys); + +/** + * Gets the redeemscript for a funding output from the two funding public keys. + * Note that the order of funding public keys does not matter. + */ +struct LDKCVec_u8Z make_funding_redeemscript(struct LDKPublicKey broadcaster, struct LDKPublicKey countersignatory); + +/** + * panics if htlc.transaction_output_index.is_none()! + */ +struct LDKTransaction build_htlc_transaction(const uint8_t (*prev_hash)[32], uint32_t feerate_per_kw, uint16_t contest_delay, const struct LDKHTLCOutputInCommitment *NONNULL_PTR htlc, struct LDKPublicKey broadcaster_delayed_payment_key, struct LDKPublicKey revocation_key); + +void ChannelTransactionParameters_free(struct LDKChannelTransactionParameters this_ptr); + +/** + * Holder public keys + */ +struct LDKChannelPublicKeys ChannelTransactionParameters_get_holder_pubkeys(const struct LDKChannelTransactionParameters *NONNULL_PTR this_ptr); + +/** + * Holder public keys + */ +void ChannelTransactionParameters_set_holder_pubkeys(struct LDKChannelTransactionParameters *NONNULL_PTR this_ptr, struct LDKChannelPublicKeys val); + +/** + * The contest delay selected by the holder, which applies to counterparty-broadcast transactions + */ +uint16_t ChannelTransactionParameters_get_holder_selected_contest_delay(const struct LDKChannelTransactionParameters *NONNULL_PTR this_ptr); + +/** + * The contest delay selected by the holder, which applies to counterparty-broadcast transactions + */ +void ChannelTransactionParameters_set_holder_selected_contest_delay(struct LDKChannelTransactionParameters *NONNULL_PTR this_ptr, uint16_t val); + +/** + * Whether the holder is the initiator of this channel. + * This is an input to the commitment number obscure factor computation. + */ +bool ChannelTransactionParameters_get_is_outbound_from_holder(const struct LDKChannelTransactionParameters *NONNULL_PTR this_ptr); + +/** + * Whether the holder is the initiator of this channel. + * This is an input to the commitment number obscure factor computation. + */ +void ChannelTransactionParameters_set_is_outbound_from_holder(struct LDKChannelTransactionParameters *NONNULL_PTR this_ptr, bool val); + +/** + * The late-bound counterparty channel transaction parameters. + * These parameters are populated at the point in the protocol where the counterparty provides them. + */ +struct LDKCounterpartyChannelTransactionParameters ChannelTransactionParameters_get_counterparty_parameters(const struct LDKChannelTransactionParameters *NONNULL_PTR this_ptr); + +/** + * The late-bound counterparty channel transaction parameters. + * These parameters are populated at the point in the protocol where the counterparty provides them. + */ +void ChannelTransactionParameters_set_counterparty_parameters(struct LDKChannelTransactionParameters *NONNULL_PTR this_ptr, struct LDKCounterpartyChannelTransactionParameters val); + +/** + * The late-bound funding outpoint + */ +struct LDKOutPoint ChannelTransactionParameters_get_funding_outpoint(const struct LDKChannelTransactionParameters *NONNULL_PTR this_ptr); + +/** + * The late-bound funding outpoint + */ +void ChannelTransactionParameters_set_funding_outpoint(struct LDKChannelTransactionParameters *NONNULL_PTR this_ptr, struct LDKOutPoint val); + +MUST_USE_RES struct LDKChannelTransactionParameters ChannelTransactionParameters_new(struct LDKChannelPublicKeys holder_pubkeys_arg, uint16_t holder_selected_contest_delay_arg, bool is_outbound_from_holder_arg, struct LDKCounterpartyChannelTransactionParameters counterparty_parameters_arg, struct LDKOutPoint funding_outpoint_arg); + +struct LDKChannelTransactionParameters ChannelTransactionParameters_clone(const struct LDKChannelTransactionParameters *NONNULL_PTR orig); + +void CounterpartyChannelTransactionParameters_free(struct LDKCounterpartyChannelTransactionParameters this_ptr); + +/** + * Counter-party public keys + */ +struct LDKChannelPublicKeys CounterpartyChannelTransactionParameters_get_pubkeys(const struct LDKCounterpartyChannelTransactionParameters *NONNULL_PTR this_ptr); + +/** + * Counter-party public keys + */ +void CounterpartyChannelTransactionParameters_set_pubkeys(struct LDKCounterpartyChannelTransactionParameters *NONNULL_PTR this_ptr, struct LDKChannelPublicKeys val); + +/** + * The contest delay selected by the counterparty, which applies to holder-broadcast transactions + */ +uint16_t CounterpartyChannelTransactionParameters_get_selected_contest_delay(const struct LDKCounterpartyChannelTransactionParameters *NONNULL_PTR this_ptr); + +/** + * The contest delay selected by the counterparty, which applies to holder-broadcast transactions + */ +void CounterpartyChannelTransactionParameters_set_selected_contest_delay(struct LDKCounterpartyChannelTransactionParameters *NONNULL_PTR this_ptr, uint16_t val); + +MUST_USE_RES struct LDKCounterpartyChannelTransactionParameters CounterpartyChannelTransactionParameters_new(struct LDKChannelPublicKeys pubkeys_arg, uint16_t selected_contest_delay_arg); + +struct LDKCounterpartyChannelTransactionParameters CounterpartyChannelTransactionParameters_clone(const struct LDKCounterpartyChannelTransactionParameters *NONNULL_PTR orig); + +/** + * Whether the late bound parameters are populated. + */ +MUST_USE_RES bool ChannelTransactionParameters_is_populated(const struct LDKChannelTransactionParameters *NONNULL_PTR this_arg); + +/** + * Convert the holder/counterparty parameters to broadcaster/countersignatory-organized parameters, + * given that the holder is the broadcaster. + * + * self.is_populated() must be true before calling this function. + */ +MUST_USE_RES struct LDKDirectedChannelTransactionParameters ChannelTransactionParameters_as_holder_broadcastable(const struct LDKChannelTransactionParameters *NONNULL_PTR this_arg); + +/** + * Convert the holder/counterparty parameters to broadcaster/countersignatory-organized parameters, + * given that the counterparty is the broadcaster. + * + * self.is_populated() must be true before calling this function. + */ +MUST_USE_RES struct LDKDirectedChannelTransactionParameters ChannelTransactionParameters_as_counterparty_broadcastable(const struct LDKChannelTransactionParameters *NONNULL_PTR this_arg); + +struct LDKCVec_u8Z CounterpartyChannelTransactionParameters_write(const struct LDKCounterpartyChannelTransactionParameters *NONNULL_PTR obj); + +struct LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ CounterpartyChannelTransactionParameters_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z ChannelTransactionParameters_write(const struct LDKChannelTransactionParameters *NONNULL_PTR obj); + +struct LDKCResult_ChannelTransactionParametersDecodeErrorZ ChannelTransactionParameters_read(struct LDKu8slice ser); + +void DirectedChannelTransactionParameters_free(struct LDKDirectedChannelTransactionParameters this_ptr); + +/** + * Get the channel pubkeys for the broadcaster + */ +MUST_USE_RES struct LDKChannelPublicKeys DirectedChannelTransactionParameters_broadcaster_pubkeys(const struct LDKDirectedChannelTransactionParameters *NONNULL_PTR this_arg); + +/** + * Get the channel pubkeys for the countersignatory + */ +MUST_USE_RES struct LDKChannelPublicKeys DirectedChannelTransactionParameters_countersignatory_pubkeys(const struct LDKDirectedChannelTransactionParameters *NONNULL_PTR this_arg); + +/** + * Get the contest delay applicable to the transactions. + * Note that the contest delay was selected by the countersignatory. + */ +MUST_USE_RES uint16_t DirectedChannelTransactionParameters_contest_delay(const struct LDKDirectedChannelTransactionParameters *NONNULL_PTR this_arg); + +/** + * Whether the channel is outbound from the broadcaster. + * + * The boolean representing the side that initiated the channel is + * an input to the commitment number obscure factor computation. + */ +MUST_USE_RES bool DirectedChannelTransactionParameters_is_outbound(const struct LDKDirectedChannelTransactionParameters *NONNULL_PTR this_arg); + +/** + * The funding outpoint + */ +MUST_USE_RES struct LDKOutPoint DirectedChannelTransactionParameters_funding_outpoint(const struct LDKDirectedChannelTransactionParameters *NONNULL_PTR this_arg); + +void HolderCommitmentTransaction_free(struct LDKHolderCommitmentTransaction this_ptr); + +/** + * Our counterparty's signature for the transaction + */ +struct LDKSignature HolderCommitmentTransaction_get_counterparty_sig(const struct LDKHolderCommitmentTransaction *NONNULL_PTR this_ptr); + +/** + * Our counterparty's signature for the transaction + */ +void HolderCommitmentTransaction_set_counterparty_sig(struct LDKHolderCommitmentTransaction *NONNULL_PTR this_ptr, struct LDKSignature val); + +/** + * All non-dust counterparty HTLC signatures, in the order they appear in the transaction + */ +void HolderCommitmentTransaction_set_counterparty_htlc_sigs(struct LDKHolderCommitmentTransaction *NONNULL_PTR this_ptr, struct LDKCVec_SignatureZ val); + +struct LDKHolderCommitmentTransaction HolderCommitmentTransaction_clone(const struct LDKHolderCommitmentTransaction *NONNULL_PTR orig); + +struct LDKCVec_u8Z HolderCommitmentTransaction_write(const struct LDKHolderCommitmentTransaction *NONNULL_PTR obj); + +struct LDKCResult_HolderCommitmentTransactionDecodeErrorZ HolderCommitmentTransaction_read(struct LDKu8slice ser); + +/** + * Create a new holder transaction with the given counterparty signatures. + * The funding keys are used to figure out which signature should go first when building the transaction for broadcast. + */ +MUST_USE_RES struct LDKHolderCommitmentTransaction HolderCommitmentTransaction_new(struct LDKCommitmentTransaction commitment_tx, struct LDKSignature counterparty_sig, struct LDKCVec_SignatureZ counterparty_htlc_sigs, struct LDKPublicKey holder_funding_key, struct LDKPublicKey counterparty_funding_key); + +void BuiltCommitmentTransaction_free(struct LDKBuiltCommitmentTransaction this_ptr); + +/** + * The commitment transaction + */ +struct LDKTransaction BuiltCommitmentTransaction_get_transaction(const struct LDKBuiltCommitmentTransaction *NONNULL_PTR this_ptr); + +/** + * The commitment transaction + */ +void BuiltCommitmentTransaction_set_transaction(struct LDKBuiltCommitmentTransaction *NONNULL_PTR this_ptr, struct LDKTransaction val); + +/** + * The txid for the commitment transaction. + * + * This is provided as a performance optimization, instead of calling transaction.txid() + * multiple times. + */ +const uint8_t (*BuiltCommitmentTransaction_get_txid(const struct LDKBuiltCommitmentTransaction *NONNULL_PTR this_ptr))[32]; + +/** + * The txid for the commitment transaction. + * + * This is provided as a performance optimization, instead of calling transaction.txid() + * multiple times. + */ +void BuiltCommitmentTransaction_set_txid(struct LDKBuiltCommitmentTransaction *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +MUST_USE_RES struct LDKBuiltCommitmentTransaction BuiltCommitmentTransaction_new(struct LDKTransaction transaction_arg, struct LDKThirtyTwoBytes txid_arg); + +struct LDKBuiltCommitmentTransaction BuiltCommitmentTransaction_clone(const struct LDKBuiltCommitmentTransaction *NONNULL_PTR orig); + +struct LDKCVec_u8Z BuiltCommitmentTransaction_write(const struct LDKBuiltCommitmentTransaction *NONNULL_PTR obj); + +struct LDKCResult_BuiltCommitmentTransactionDecodeErrorZ BuiltCommitmentTransaction_read(struct LDKu8slice ser); + +/** + * Get the SIGHASH_ALL sighash value of the transaction. + * + * This can be used to verify a signature. + */ +MUST_USE_RES struct LDKThirtyTwoBytes BuiltCommitmentTransaction_get_sighash_all(const struct LDKBuiltCommitmentTransaction *NONNULL_PTR this_arg, struct LDKu8slice funding_redeemscript, uint64_t channel_value_satoshis); + +/** + * Sign a transaction, either because we are counter-signing the counterparty's transaction or + * because we are about to broadcast a holder transaction. + */ +MUST_USE_RES struct LDKSignature BuiltCommitmentTransaction_sign(const struct LDKBuiltCommitmentTransaction *NONNULL_PTR this_arg, const uint8_t (*funding_key)[32], struct LDKu8slice funding_redeemscript, uint64_t channel_value_satoshis); + +void CommitmentTransaction_free(struct LDKCommitmentTransaction this_ptr); + +struct LDKCommitmentTransaction CommitmentTransaction_clone(const struct LDKCommitmentTransaction *NONNULL_PTR orig); + +struct LDKCVec_u8Z CommitmentTransaction_write(const struct LDKCommitmentTransaction *NONNULL_PTR obj); + +struct LDKCResult_CommitmentTransactionDecodeErrorZ CommitmentTransaction_read(struct LDKu8slice ser); + +/** + * The backwards-counting commitment number + */ +MUST_USE_RES uint64_t CommitmentTransaction_commitment_number(const struct LDKCommitmentTransaction *NONNULL_PTR this_arg); + +/** + * The value to be sent to the broadcaster + */ +MUST_USE_RES uint64_t CommitmentTransaction_to_broadcaster_value_sat(const struct LDKCommitmentTransaction *NONNULL_PTR this_arg); + +/** + * The value to be sent to the counterparty + */ +MUST_USE_RES uint64_t CommitmentTransaction_to_countersignatory_value_sat(const struct LDKCommitmentTransaction *NONNULL_PTR this_arg); + +/** + * The feerate paid per 1000-weight-unit in this commitment transaction. + */ +MUST_USE_RES uint32_t CommitmentTransaction_feerate_per_kw(const struct LDKCommitmentTransaction *NONNULL_PTR this_arg); + +/** + * Trust our pre-built transaction and derived transaction creation public keys. + * + * Applies a wrapper which allows access to these fields. + * + * This should only be used if you fully trust the builder of this object. It should not + *\tbe used by an external signer - instead use the verify function. + */ +MUST_USE_RES struct LDKTrustedCommitmentTransaction CommitmentTransaction_trust(const struct LDKCommitmentTransaction *NONNULL_PTR this_arg); + +/** + * Verify our pre-built transaction and derived transaction creation public keys. + * + * Applies a wrapper which allows access to these fields. + * + * An external validating signer must call this method before signing + * or using the built transaction. + */ +MUST_USE_RES struct LDKCResult_TrustedCommitmentTransactionNoneZ CommitmentTransaction_verify(const struct LDKCommitmentTransaction *NONNULL_PTR this_arg, const struct LDKDirectedChannelTransactionParameters *NONNULL_PTR channel_parameters, const struct LDKChannelPublicKeys *NONNULL_PTR broadcaster_keys, const struct LDKChannelPublicKeys *NONNULL_PTR countersignatory_keys); + +void TrustedCommitmentTransaction_free(struct LDKTrustedCommitmentTransaction this_ptr); + +/** + * The transaction ID of the built Bitcoin transaction + */ +MUST_USE_RES struct LDKThirtyTwoBytes TrustedCommitmentTransaction_txid(const struct LDKTrustedCommitmentTransaction *NONNULL_PTR this_arg); + +/** + * The pre-built Bitcoin commitment transaction + */ +MUST_USE_RES struct LDKBuiltCommitmentTransaction TrustedCommitmentTransaction_built_transaction(const struct LDKTrustedCommitmentTransaction *NONNULL_PTR this_arg); + +/** + * The pre-calculated transaction creation public keys. + */ +MUST_USE_RES struct LDKTxCreationKeys TrustedCommitmentTransaction_keys(const struct LDKTrustedCommitmentTransaction *NONNULL_PTR this_arg); + +/** + * Get a signature for each HTLC which was included in the commitment transaction (ie for + * which HTLCOutputInCommitment::transaction_output_index.is_some()). + * + * The returned Vec has one entry for each HTLC, and in the same order. + */ +MUST_USE_RES struct LDKCResult_CVec_SignatureZNoneZ TrustedCommitmentTransaction_get_htlc_sigs(const struct LDKTrustedCommitmentTransaction *NONNULL_PTR this_arg, const uint8_t (*htlc_base_key)[32], const struct LDKDirectedChannelTransactionParameters *NONNULL_PTR channel_parameters); + +/** + * Get the transaction number obscure factor + */ +uint64_t get_commitment_transaction_number_obscure_factor(struct LDKPublicKey broadcaster_payment_basepoint, struct LDKPublicKey countersignatory_payment_basepoint, bool outbound_from_broadcaster); + +struct LDKInitFeatures InitFeatures_clone(const struct LDKInitFeatures *NONNULL_PTR orig); + +struct LDKNodeFeatures NodeFeatures_clone(const struct LDKNodeFeatures *NONNULL_PTR orig); + +struct LDKChannelFeatures ChannelFeatures_clone(const struct LDKChannelFeatures *NONNULL_PTR orig); + +void InitFeatures_free(struct LDKInitFeatures this_ptr); + +void NodeFeatures_free(struct LDKNodeFeatures this_ptr); + +void ChannelFeatures_free(struct LDKChannelFeatures this_ptr); + +/** + * Create a blank Features with no features set + */ +MUST_USE_RES struct LDKInitFeatures InitFeatures_empty(void); + +/** + * Creates features known by the implementation as defined by [`T::KNOWN_FEATURE_FLAGS`]. + * + * [`T::KNOWN_FEATURE_FLAGS`]: sealed/trait.Context.html#associatedconstant.KNOWN_FEATURE_FLAGS + */ +MUST_USE_RES struct LDKInitFeatures InitFeatures_known(void); + +/** + * Create a blank Features with no features set + */ +MUST_USE_RES struct LDKNodeFeatures NodeFeatures_empty(void); + +/** + * Creates features known by the implementation as defined by [`T::KNOWN_FEATURE_FLAGS`]. + * + * [`T::KNOWN_FEATURE_FLAGS`]: sealed/trait.Context.html#associatedconstant.KNOWN_FEATURE_FLAGS + */ +MUST_USE_RES struct LDKNodeFeatures NodeFeatures_known(void); + +/** + * Create a blank Features with no features set + */ +MUST_USE_RES struct LDKChannelFeatures ChannelFeatures_empty(void); + +/** + * Creates features known by the implementation as defined by [`T::KNOWN_FEATURE_FLAGS`]. + * + * [`T::KNOWN_FEATURE_FLAGS`]: sealed/trait.Context.html#associatedconstant.KNOWN_FEATURE_FLAGS + */ +MUST_USE_RES struct LDKChannelFeatures ChannelFeatures_known(void); + +struct LDKCVec_u8Z InitFeatures_write(const struct LDKInitFeatures *NONNULL_PTR obj); + +struct LDKCVec_u8Z NodeFeatures_write(const struct LDKNodeFeatures *NONNULL_PTR obj); + +struct LDKCVec_u8Z ChannelFeatures_write(const struct LDKChannelFeatures *NONNULL_PTR obj); + +struct LDKCResult_InitFeaturesDecodeErrorZ InitFeatures_read(struct LDKu8slice ser); + +struct LDKCResult_NodeFeaturesDecodeErrorZ NodeFeatures_read(struct LDKu8slice ser); + +struct LDKCResult_ChannelFeaturesDecodeErrorZ ChannelFeatures_read(struct LDKu8slice ser); + +void RouteHop_free(struct LDKRouteHop this_ptr); + +/** + * The node_id of the node at this hop. + */ +struct LDKPublicKey RouteHop_get_pubkey(const struct LDKRouteHop *NONNULL_PTR this_ptr); + +/** + * The node_id of the node at this hop. + */ +void RouteHop_set_pubkey(struct LDKRouteHop *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * The node_announcement features of the node at this hop. For the last hop, these may be + * amended to match the features present in the invoice this node generated. + */ +struct LDKNodeFeatures RouteHop_get_node_features(const struct LDKRouteHop *NONNULL_PTR this_ptr); + +/** + * The node_announcement features of the node at this hop. For the last hop, these may be + * amended to match the features present in the invoice this node generated. + */ +void RouteHop_set_node_features(struct LDKRouteHop *NONNULL_PTR this_ptr, struct LDKNodeFeatures val); + +/** + * The channel that should be used from the previous hop to reach this node. + */ +uint64_t RouteHop_get_short_channel_id(const struct LDKRouteHop *NONNULL_PTR this_ptr); + +/** + * The channel that should be used from the previous hop to reach this node. + */ +void RouteHop_set_short_channel_id(struct LDKRouteHop *NONNULL_PTR this_ptr, uint64_t val); + +/** + * The channel_announcement features of the channel that should be used from the previous hop + * to reach this node. + */ +struct LDKChannelFeatures RouteHop_get_channel_features(const struct LDKRouteHop *NONNULL_PTR this_ptr); + +/** + * The channel_announcement features of the channel that should be used from the previous hop + * to reach this node. + */ +void RouteHop_set_channel_features(struct LDKRouteHop *NONNULL_PTR this_ptr, struct LDKChannelFeatures val); + +/** + * The fee taken on this hop (for paying for the use of the *next* channel in the path). + * For the last hop, this should be the full value of the payment (might be more than + * requested if we had to match htlc_minimum_msat). + */ +uint64_t RouteHop_get_fee_msat(const struct LDKRouteHop *NONNULL_PTR this_ptr); + +/** + * The fee taken on this hop (for paying for the use of the *next* channel in the path). + * For the last hop, this should be the full value of the payment (might be more than + * requested if we had to match htlc_minimum_msat). + */ +void RouteHop_set_fee_msat(struct LDKRouteHop *NONNULL_PTR this_ptr, uint64_t val); + +/** + * The CLTV delta added for this hop. For the last hop, this should be the full CLTV value + * expected at the destination, in excess of the current block height. + */ +uint32_t RouteHop_get_cltv_expiry_delta(const struct LDKRouteHop *NONNULL_PTR this_ptr); + +/** + * The CLTV delta added for this hop. For the last hop, this should be the full CLTV value + * expected at the destination, in excess of the current block height. + */ +void RouteHop_set_cltv_expiry_delta(struct LDKRouteHop *NONNULL_PTR this_ptr, uint32_t val); + +MUST_USE_RES struct LDKRouteHop RouteHop_new(struct LDKPublicKey pubkey_arg, struct LDKNodeFeatures node_features_arg, uint64_t short_channel_id_arg, struct LDKChannelFeatures channel_features_arg, uint64_t fee_msat_arg, uint32_t cltv_expiry_delta_arg); + +struct LDKRouteHop RouteHop_clone(const struct LDKRouteHop *NONNULL_PTR orig); + +void Route_free(struct LDKRoute this_ptr); + +/** + * The list of routes taken for a single (potentially-)multi-part payment. The pubkey of the + * last RouteHop in each path must be the same. + * Each entry represents a list of hops, NOT INCLUDING our own, where the last hop is the + * destination. Thus, this must always be at least length one. While the maximum length of any + * given path is variable, keeping the length of any path to less than 20 should currently + * ensure it is viable. + */ +void Route_set_paths(struct LDKRoute *NONNULL_PTR this_ptr, struct LDKCVec_CVec_RouteHopZZ val); + +MUST_USE_RES struct LDKRoute Route_new(struct LDKCVec_CVec_RouteHopZZ paths_arg); + +struct LDKRoute Route_clone(const struct LDKRoute *NONNULL_PTR orig); + +struct LDKCVec_u8Z Route_write(const struct LDKRoute *NONNULL_PTR obj); + +struct LDKCResult_RouteDecodeErrorZ Route_read(struct LDKu8slice ser); + +void RouteHint_free(struct LDKRouteHint this_ptr); + +/** + * The node_id of the non-target end of the route + */ +struct LDKPublicKey RouteHint_get_src_node_id(const struct LDKRouteHint *NONNULL_PTR this_ptr); + +/** + * The node_id of the non-target end of the route + */ +void RouteHint_set_src_node_id(struct LDKRouteHint *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * The short_channel_id of this channel + */ +uint64_t RouteHint_get_short_channel_id(const struct LDKRouteHint *NONNULL_PTR this_ptr); + +/** + * The short_channel_id of this channel + */ +void RouteHint_set_short_channel_id(struct LDKRouteHint *NONNULL_PTR this_ptr, uint64_t val); + +/** + * The fees which must be paid to use this channel + */ +struct LDKRoutingFees RouteHint_get_fees(const struct LDKRouteHint *NONNULL_PTR this_ptr); + +/** + * The fees which must be paid to use this channel + */ +void RouteHint_set_fees(struct LDKRouteHint *NONNULL_PTR this_ptr, struct LDKRoutingFees val); + +/** + * The difference in CLTV values between this node and the next node. + */ +uint16_t RouteHint_get_cltv_expiry_delta(const struct LDKRouteHint *NONNULL_PTR this_ptr); + +/** + * The difference in CLTV values between this node and the next node. + */ +void RouteHint_set_cltv_expiry_delta(struct LDKRouteHint *NONNULL_PTR this_ptr, uint16_t val); + +struct LDKRouteHint RouteHint_clone(const struct LDKRouteHint *NONNULL_PTR orig); + +/** + * Gets a route from us (payer) to the given target node (payee). + * + * Extra routing hops between known nodes and the target will be used if they are included in + * last_hops. + * + * If some channels aren't announced, it may be useful to fill in a first_hops with the + * results from a local ChannelManager::list_usable_channels() call. If it is filled in, our + * view of our local channels (from net_graph_msg_handler) will be ignored, and only those + * in first_hops will be used. + * + * Panics if first_hops contains channels without short_channel_ids + * (ChannelManager::list_usable_channels will never include such channels). + * + * The fees on channels from us to next-hops are ignored (as they are assumed to all be + * equal), however the enabled/disabled bit on such channels as well as the + * htlc_minimum_msat/htlc_maximum_msat *are* checked as they may change based on the receiving node. + */ +struct LDKCResult_RouteLightningErrorZ get_route(struct LDKPublicKey our_node_id, const struct LDKNetworkGraph *NONNULL_PTR network, struct LDKPublicKey payee, struct LDKCVec_ChannelDetailsZ *first_hops, struct LDKCVec_RouteHintZ last_hops, uint64_t final_value_msat, uint32_t final_cltv, struct LDKLogger logger); + +void NetworkGraph_free(struct LDKNetworkGraph this_ptr); + +struct LDKNetworkGraph NetworkGraph_clone(const struct LDKNetworkGraph *NONNULL_PTR orig); + +void LockedNetworkGraph_free(struct LDKLockedNetworkGraph this_ptr); + +void NetGraphMsgHandler_free(struct LDKNetGraphMsgHandler this_ptr); + +/** + * Creates a new tracker of the actual state of the network of channels and nodes, + * assuming a fresh network graph. + * Chain monitor is used to make sure announced channels exist on-chain, + * channel data is correct, and that the announcement is signed with + * channel owners' keys. + */ +MUST_USE_RES struct LDKNetGraphMsgHandler NetGraphMsgHandler_new(struct LDKThirtyTwoBytes genesis_hash, struct LDKAccess *chain_access, struct LDKLogger logger); + +/** + * Creates a new tracker of the actual state of the network of channels and nodes, + * assuming an existing Network Graph. + */ +MUST_USE_RES struct LDKNetGraphMsgHandler NetGraphMsgHandler_from_net_graph(struct LDKAccess *chain_access, struct LDKLogger logger, struct LDKNetworkGraph network_graph); + +/** + * Adds a provider used to check new announcements. Does not affect + * existing announcements unless they are updated. + * Add, update or remove the provider would replace the current one. + */ +void NetGraphMsgHandler_add_chain_access(struct LDKNetGraphMsgHandler *NONNULL_PTR this_arg, struct LDKAccess *chain_access); + +/** + * Take a read lock on the network_graph and return it in the C-bindings + * newtype helper. This is likely only useful when called via the C + * bindings as you can call `self.network_graph.read().unwrap()` in Rust + * yourself. + */ +MUST_USE_RES struct LDKLockedNetworkGraph NetGraphMsgHandler_read_locked_graph(const struct LDKNetGraphMsgHandler *NONNULL_PTR this_arg); + +/** + * Get a reference to the NetworkGraph which this read-lock contains. + */ +MUST_USE_RES struct LDKNetworkGraph LockedNetworkGraph_graph(const struct LDKLockedNetworkGraph *NONNULL_PTR this_arg); + +struct LDKRoutingMessageHandler NetGraphMsgHandler_as_RoutingMessageHandler(const struct LDKNetGraphMsgHandler *NONNULL_PTR this_arg); + +struct LDKMessageSendEventsProvider NetGraphMsgHandler_as_MessageSendEventsProvider(const struct LDKNetGraphMsgHandler *NONNULL_PTR this_arg); + +void DirectionalChannelInfo_free(struct LDKDirectionalChannelInfo this_ptr); + +/** + * When the last update to the channel direction was issued. + * Value is opaque, as set in the announcement. + */ +uint32_t DirectionalChannelInfo_get_last_update(const struct LDKDirectionalChannelInfo *NONNULL_PTR this_ptr); + +/** + * When the last update to the channel direction was issued. + * Value is opaque, as set in the announcement. + */ +void DirectionalChannelInfo_set_last_update(struct LDKDirectionalChannelInfo *NONNULL_PTR this_ptr, uint32_t val); + +/** + * Whether the channel can be currently used for payments (in this one direction). + */ +bool DirectionalChannelInfo_get_enabled(const struct LDKDirectionalChannelInfo *NONNULL_PTR this_ptr); + +/** + * Whether the channel can be currently used for payments (in this one direction). + */ +void DirectionalChannelInfo_set_enabled(struct LDKDirectionalChannelInfo *NONNULL_PTR this_ptr, bool val); + +/** + * The difference in CLTV values that you must have when routing through this channel. + */ +uint16_t DirectionalChannelInfo_get_cltv_expiry_delta(const struct LDKDirectionalChannelInfo *NONNULL_PTR this_ptr); + +/** + * The difference in CLTV values that you must have when routing through this channel. + */ +void DirectionalChannelInfo_set_cltv_expiry_delta(struct LDKDirectionalChannelInfo *NONNULL_PTR this_ptr, uint16_t val); + +/** + * The minimum value, which must be relayed to the next hop via the channel + */ +uint64_t DirectionalChannelInfo_get_htlc_minimum_msat(const struct LDKDirectionalChannelInfo *NONNULL_PTR this_ptr); + +/** + * The minimum value, which must be relayed to the next hop via the channel + */ +void DirectionalChannelInfo_set_htlc_minimum_msat(struct LDKDirectionalChannelInfo *NONNULL_PTR this_ptr, uint64_t val); + +/** + * Fees charged when the channel is used for routing + */ +struct LDKRoutingFees DirectionalChannelInfo_get_fees(const struct LDKDirectionalChannelInfo *NONNULL_PTR this_ptr); + +/** + * Fees charged when the channel is used for routing + */ +void DirectionalChannelInfo_set_fees(struct LDKDirectionalChannelInfo *NONNULL_PTR this_ptr, struct LDKRoutingFees val); + +/** + * Most recent update for the channel received from the network + * Mostly redundant with the data we store in fields explicitly. + * Everything else is useful only for sending out for initial routing sync. + * Not stored if contains excess data to prevent DoS. + */ +struct LDKChannelUpdate DirectionalChannelInfo_get_last_update_message(const struct LDKDirectionalChannelInfo *NONNULL_PTR this_ptr); + +/** + * Most recent update for the channel received from the network + * Mostly redundant with the data we store in fields explicitly. + * Everything else is useful only for sending out for initial routing sync. + * Not stored if contains excess data to prevent DoS. + */ +void DirectionalChannelInfo_set_last_update_message(struct LDKDirectionalChannelInfo *NONNULL_PTR this_ptr, struct LDKChannelUpdate val); + +struct LDKDirectionalChannelInfo DirectionalChannelInfo_clone(const struct LDKDirectionalChannelInfo *NONNULL_PTR orig); + +struct LDKCVec_u8Z DirectionalChannelInfo_write(const struct LDKDirectionalChannelInfo *NONNULL_PTR obj); + +struct LDKCResult_DirectionalChannelInfoDecodeErrorZ DirectionalChannelInfo_read(struct LDKu8slice ser); + +void ChannelInfo_free(struct LDKChannelInfo this_ptr); + +/** + * Protocol features of a channel communicated during its announcement + */ +struct LDKChannelFeatures ChannelInfo_get_features(const struct LDKChannelInfo *NONNULL_PTR this_ptr); + +/** + * Protocol features of a channel communicated during its announcement + */ +void ChannelInfo_set_features(struct LDKChannelInfo *NONNULL_PTR this_ptr, struct LDKChannelFeatures val); + +/** + * Source node of the first direction of a channel + */ +struct LDKPublicKey ChannelInfo_get_node_one(const struct LDKChannelInfo *NONNULL_PTR this_ptr); + +/** + * Source node of the first direction of a channel + */ +void ChannelInfo_set_node_one(struct LDKChannelInfo *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * Details about the first direction of a channel + */ +struct LDKDirectionalChannelInfo ChannelInfo_get_one_to_two(const struct LDKChannelInfo *NONNULL_PTR this_ptr); + +/** + * Details about the first direction of a channel + */ +void ChannelInfo_set_one_to_two(struct LDKChannelInfo *NONNULL_PTR this_ptr, struct LDKDirectionalChannelInfo val); + +/** + * Source node of the second direction of a channel + */ +struct LDKPublicKey ChannelInfo_get_node_two(const struct LDKChannelInfo *NONNULL_PTR this_ptr); + +/** + * Source node of the second direction of a channel + */ +void ChannelInfo_set_node_two(struct LDKChannelInfo *NONNULL_PTR this_ptr, struct LDKPublicKey val); + +/** + * Details about the second direction of a channel + */ +struct LDKDirectionalChannelInfo ChannelInfo_get_two_to_one(const struct LDKChannelInfo *NONNULL_PTR this_ptr); + +/** + * Details about the second direction of a channel + */ +void ChannelInfo_set_two_to_one(struct LDKChannelInfo *NONNULL_PTR this_ptr, struct LDKDirectionalChannelInfo val); + +/** + * An initial announcement of the channel + * Mostly redundant with the data we store in fields explicitly. + * Everything else is useful only for sending out for initial routing sync. + * Not stored if contains excess data to prevent DoS. + */ +struct LDKChannelAnnouncement ChannelInfo_get_announcement_message(const struct LDKChannelInfo *NONNULL_PTR this_ptr); + +/** + * An initial announcement of the channel + * Mostly redundant with the data we store in fields explicitly. + * Everything else is useful only for sending out for initial routing sync. + * Not stored if contains excess data to prevent DoS. + */ +void ChannelInfo_set_announcement_message(struct LDKChannelInfo *NONNULL_PTR this_ptr, struct LDKChannelAnnouncement val); + +struct LDKChannelInfo ChannelInfo_clone(const struct LDKChannelInfo *NONNULL_PTR orig); + +struct LDKCVec_u8Z ChannelInfo_write(const struct LDKChannelInfo *NONNULL_PTR obj); + +struct LDKCResult_ChannelInfoDecodeErrorZ ChannelInfo_read(struct LDKu8slice ser); + +void RoutingFees_free(struct LDKRoutingFees this_ptr); + +/** + * Flat routing fee in satoshis + */ +uint32_t RoutingFees_get_base_msat(const struct LDKRoutingFees *NONNULL_PTR this_ptr); + +/** + * Flat routing fee in satoshis + */ +void RoutingFees_set_base_msat(struct LDKRoutingFees *NONNULL_PTR this_ptr, uint32_t val); + +/** + * Liquidity-based routing fee in millionths of a routed amount. + * In other words, 10000 is 1%. + */ +uint32_t RoutingFees_get_proportional_millionths(const struct LDKRoutingFees *NONNULL_PTR this_ptr); + +/** + * Liquidity-based routing fee in millionths of a routed amount. + * In other words, 10000 is 1%. + */ +void RoutingFees_set_proportional_millionths(struct LDKRoutingFees *NONNULL_PTR this_ptr, uint32_t val); + +MUST_USE_RES struct LDKRoutingFees RoutingFees_new(uint32_t base_msat_arg, uint32_t proportional_millionths_arg); + +struct LDKRoutingFees RoutingFees_clone(const struct LDKRoutingFees *NONNULL_PTR orig); + +struct LDKCResult_RoutingFeesDecodeErrorZ RoutingFees_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z RoutingFees_write(const struct LDKRoutingFees *NONNULL_PTR obj); + +void NodeAnnouncementInfo_free(struct LDKNodeAnnouncementInfo this_ptr); + +/** + * Protocol features the node announced support for + */ +struct LDKNodeFeatures NodeAnnouncementInfo_get_features(const struct LDKNodeAnnouncementInfo *NONNULL_PTR this_ptr); + +/** + * Protocol features the node announced support for + */ +void NodeAnnouncementInfo_set_features(struct LDKNodeAnnouncementInfo *NONNULL_PTR this_ptr, struct LDKNodeFeatures val); + +/** + * When the last known update to the node state was issued. + * Value is opaque, as set in the announcement. + */ +uint32_t NodeAnnouncementInfo_get_last_update(const struct LDKNodeAnnouncementInfo *NONNULL_PTR this_ptr); + +/** + * When the last known update to the node state was issued. + * Value is opaque, as set in the announcement. + */ +void NodeAnnouncementInfo_set_last_update(struct LDKNodeAnnouncementInfo *NONNULL_PTR this_ptr, uint32_t val); + +/** + * Color assigned to the node + */ +const uint8_t (*NodeAnnouncementInfo_get_rgb(const struct LDKNodeAnnouncementInfo *NONNULL_PTR this_ptr))[3]; + +/** + * Color assigned to the node + */ +void NodeAnnouncementInfo_set_rgb(struct LDKNodeAnnouncementInfo *NONNULL_PTR this_ptr, struct LDKThreeBytes val); + +/** + * Moniker assigned to the node. + * May be invalid or malicious (eg control chars), + * should not be exposed to the user. + */ +const uint8_t (*NodeAnnouncementInfo_get_alias(const struct LDKNodeAnnouncementInfo *NONNULL_PTR this_ptr))[32]; + +/** + * Moniker assigned to the node. + * May be invalid or malicious (eg control chars), + * should not be exposed to the user. + */ +void NodeAnnouncementInfo_set_alias(struct LDKNodeAnnouncementInfo *NONNULL_PTR this_ptr, struct LDKThirtyTwoBytes val); + +/** + * Internet-level addresses via which one can connect to the node + */ +void NodeAnnouncementInfo_set_addresses(struct LDKNodeAnnouncementInfo *NONNULL_PTR this_ptr, struct LDKCVec_NetAddressZ val); + +/** + * An initial announcement of the node + * Mostly redundant with the data we store in fields explicitly. + * Everything else is useful only for sending out for initial routing sync. + * Not stored if contains excess data to prevent DoS. + */ +struct LDKNodeAnnouncement NodeAnnouncementInfo_get_announcement_message(const struct LDKNodeAnnouncementInfo *NONNULL_PTR this_ptr); + +/** + * An initial announcement of the node + * Mostly redundant with the data we store in fields explicitly. + * Everything else is useful only for sending out for initial routing sync. + * Not stored if contains excess data to prevent DoS. + */ +void NodeAnnouncementInfo_set_announcement_message(struct LDKNodeAnnouncementInfo *NONNULL_PTR this_ptr, struct LDKNodeAnnouncement val); + +MUST_USE_RES struct LDKNodeAnnouncementInfo NodeAnnouncementInfo_new(struct LDKNodeFeatures features_arg, uint32_t last_update_arg, struct LDKThreeBytes rgb_arg, struct LDKThirtyTwoBytes alias_arg, struct LDKCVec_NetAddressZ addresses_arg, struct LDKNodeAnnouncement announcement_message_arg); + +struct LDKNodeAnnouncementInfo NodeAnnouncementInfo_clone(const struct LDKNodeAnnouncementInfo *NONNULL_PTR orig); + +struct LDKCVec_u8Z NodeAnnouncementInfo_write(const struct LDKNodeAnnouncementInfo *NONNULL_PTR obj); + +struct LDKCResult_NodeAnnouncementInfoDecodeErrorZ NodeAnnouncementInfo_read(struct LDKu8slice ser); + +void NodeInfo_free(struct LDKNodeInfo this_ptr); + +/** + * All valid channels a node has announced + */ +void NodeInfo_set_channels(struct LDKNodeInfo *NONNULL_PTR this_ptr, struct LDKCVec_u64Z val); + +/** + * Lowest fees enabling routing via any of the enabled, known channels to a node. + * The two fields (flat and proportional fee) are independent, + * meaning they don't have to refer to the same channel. + */ +struct LDKRoutingFees NodeInfo_get_lowest_inbound_channel_fees(const struct LDKNodeInfo *NONNULL_PTR this_ptr); + +/** + * Lowest fees enabling routing via any of the enabled, known channels to a node. + * The two fields (flat and proportional fee) are independent, + * meaning they don't have to refer to the same channel. + */ +void NodeInfo_set_lowest_inbound_channel_fees(struct LDKNodeInfo *NONNULL_PTR this_ptr, struct LDKRoutingFees val); + +/** + * More information about a node from node_announcement. + * Optional because we store a Node entry after learning about it from + * a channel announcement, but before receiving a node announcement. + */ +struct LDKNodeAnnouncementInfo NodeInfo_get_announcement_info(const struct LDKNodeInfo *NONNULL_PTR this_ptr); + +/** + * More information about a node from node_announcement. + * Optional because we store a Node entry after learning about it from + * a channel announcement, but before receiving a node announcement. + */ +void NodeInfo_set_announcement_info(struct LDKNodeInfo *NONNULL_PTR this_ptr, struct LDKNodeAnnouncementInfo val); + +MUST_USE_RES struct LDKNodeInfo NodeInfo_new(struct LDKCVec_u64Z channels_arg, struct LDKRoutingFees lowest_inbound_channel_fees_arg, struct LDKNodeAnnouncementInfo announcement_info_arg); + +struct LDKNodeInfo NodeInfo_clone(const struct LDKNodeInfo *NONNULL_PTR orig); + +struct LDKCVec_u8Z NodeInfo_write(const struct LDKNodeInfo *NONNULL_PTR obj); + +struct LDKCResult_NodeInfoDecodeErrorZ NodeInfo_read(struct LDKu8slice ser); + +struct LDKCVec_u8Z NetworkGraph_write(const struct LDKNetworkGraph *NONNULL_PTR obj); + +struct LDKCResult_NetworkGraphDecodeErrorZ NetworkGraph_read(struct LDKu8slice ser); + +/** + * Creates a new, empty, network graph. + */ +MUST_USE_RES struct LDKNetworkGraph NetworkGraph_new(struct LDKThirtyTwoBytes genesis_hash); + +/** + * For an already known node (from channel announcements), update its stored properties from a + * given node announcement. + * + * You probably don't want to call this directly, instead relying on a NetGraphMsgHandler's + * RoutingMessageHandler implementation to call it indirectly. This may be useful to accept + * routing messages from a source using a protocol other than the lightning P2P protocol. + */ +MUST_USE_RES struct LDKCResult_NoneLightningErrorZ NetworkGraph_update_node_from_announcement(struct LDKNetworkGraph *NONNULL_PTR this_arg, const struct LDKNodeAnnouncement *NONNULL_PTR msg); + +/** + * For an already known node (from channel announcements), update its stored properties from a + * given node announcement without verifying the associated signatures. Because we aren't + * given the associated signatures here we cannot relay the node announcement to any of our + * peers. + */ +MUST_USE_RES struct LDKCResult_NoneLightningErrorZ NetworkGraph_update_node_from_unsigned_announcement(struct LDKNetworkGraph *NONNULL_PTR this_arg, const struct LDKUnsignedNodeAnnouncement *NONNULL_PTR msg); + +/** + * Store or update channel info from a channel announcement. + * + * You probably don't want to call this directly, instead relying on a NetGraphMsgHandler's + * RoutingMessageHandler implementation to call it indirectly. This may be useful to accept + * routing messages from a source using a protocol other than the lightning P2P protocol. + * + * If a `chain::Access` object is provided via `chain_access`, it will be called to verify + * the corresponding UTXO exists on chain and is correctly-formatted. + */ +MUST_USE_RES struct LDKCResult_NoneLightningErrorZ NetworkGraph_update_channel_from_announcement(struct LDKNetworkGraph *NONNULL_PTR this_arg, const struct LDKChannelAnnouncement *NONNULL_PTR msg, struct LDKAccess *chain_access); + +/** + * Store or update channel info from a channel announcement without verifying the associated + * signatures. Because we aren't given the associated signatures here we cannot relay the + * channel announcement to any of our peers. + * + * If a `chain::Access` object is provided via `chain_access`, it will be called to verify + * the corresponding UTXO exists on chain and is correctly-formatted. + */ +MUST_USE_RES struct LDKCResult_NoneLightningErrorZ NetworkGraph_update_channel_from_unsigned_announcement(struct LDKNetworkGraph *NONNULL_PTR this_arg, const struct LDKUnsignedChannelAnnouncement *NONNULL_PTR msg, struct LDKAccess *chain_access); + +/** + * Close a channel if a corresponding HTLC fail was sent. + * If permanent, removes a channel from the local storage. + * May cause the removal of nodes too, if this was their last channel. + * If not permanent, makes channels unavailable for routing. + */ +void NetworkGraph_close_channel_from_update(struct LDKNetworkGraph *NONNULL_PTR this_arg, uint64_t short_channel_id, bool is_permanent); + +/** + * For an already known (from announcement) channel, update info about one of the directions + * of the channel. + * + * You probably don't want to call this directly, instead relying on a NetGraphMsgHandler's + * RoutingMessageHandler implementation to call it indirectly. This may be useful to accept + * routing messages from a source using a protocol other than the lightning P2P protocol. + */ +MUST_USE_RES struct LDKCResult_NoneLightningErrorZ NetworkGraph_update_channel(struct LDKNetworkGraph *NONNULL_PTR this_arg, const struct LDKChannelUpdate *NONNULL_PTR msg); + +/** + * For an already known (from announcement) channel, update info about one of the directions + * of the channel without verifying the associated signatures. Because we aren't given the + * associated signatures here we cannot relay the channel update to any of our peers. + */ +MUST_USE_RES struct LDKCResult_NoneLightningErrorZ NetworkGraph_update_channel_unsigned(struct LDKNetworkGraph *NONNULL_PTR this_arg, const struct LDKUnsignedChannelUpdate *NONNULL_PTR msg); + +/* Text to put at the end of the generated file */ diff --git a/lightning-c-bindings/include/lightningpp.hpp b/lightning-c-bindings/include/lightningpp.hpp new file mode 100644 index 0000000..3151b9c --- /dev/null +++ b/lightning-c-bindings/include/lightningpp.hpp @@ -0,0 +1,3389 @@ +#include +namespace LDK { +class APIError { +private: + LDKAPIError self; +public: + APIError(const APIError&) = delete; + APIError(APIError&& o) : self(o.self) { memset(&o, 0, sizeof(APIError)); } + APIError(LDKAPIError&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKAPIError)); } + operator LDKAPIError() && { LDKAPIError res = self; memset(&self, 0, sizeof(LDKAPIError)); return res; } + ~APIError() { APIError_free(self); } + APIError& operator=(APIError&& o) { APIError_free(self); self = o.self; memset(&o, 0, sizeof(APIError)); return *this; } + LDKAPIError* operator &() { return &self; } + LDKAPIError* operator ->() { return &self; } + const LDKAPIError* operator &() const { return &self; } + const LDKAPIError* operator ->() const { return &self; } +}; +class TxCreationKeys { +private: + LDKTxCreationKeys self; +public: + TxCreationKeys(const TxCreationKeys&) = delete; + TxCreationKeys(TxCreationKeys&& o) : self(o.self) { memset(&o, 0, sizeof(TxCreationKeys)); } + TxCreationKeys(LDKTxCreationKeys&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKTxCreationKeys)); } + operator LDKTxCreationKeys() && { LDKTxCreationKeys res = self; memset(&self, 0, sizeof(LDKTxCreationKeys)); return res; } + ~TxCreationKeys() { TxCreationKeys_free(self); } + TxCreationKeys& operator=(TxCreationKeys&& o) { TxCreationKeys_free(self); self = o.self; memset(&o, 0, sizeof(TxCreationKeys)); return *this; } + LDKTxCreationKeys* operator &() { return &self; } + LDKTxCreationKeys* operator ->() { return &self; } + const LDKTxCreationKeys* operator &() const { return &self; } + const LDKTxCreationKeys* operator ->() const { return &self; } +}; +class ChannelPublicKeys { +private: + LDKChannelPublicKeys self; +public: + ChannelPublicKeys(const ChannelPublicKeys&) = delete; + ChannelPublicKeys(ChannelPublicKeys&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelPublicKeys)); } + ChannelPublicKeys(LDKChannelPublicKeys&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelPublicKeys)); } + operator LDKChannelPublicKeys() && { LDKChannelPublicKeys res = self; memset(&self, 0, sizeof(LDKChannelPublicKeys)); return res; } + ~ChannelPublicKeys() { ChannelPublicKeys_free(self); } + ChannelPublicKeys& operator=(ChannelPublicKeys&& o) { ChannelPublicKeys_free(self); self = o.self; memset(&o, 0, sizeof(ChannelPublicKeys)); return *this; } + LDKChannelPublicKeys* operator &() { return &self; } + LDKChannelPublicKeys* operator ->() { return &self; } + const LDKChannelPublicKeys* operator &() const { return &self; } + const LDKChannelPublicKeys* operator ->() const { return &self; } +}; +class HTLCOutputInCommitment { +private: + LDKHTLCOutputInCommitment self; +public: + HTLCOutputInCommitment(const HTLCOutputInCommitment&) = delete; + HTLCOutputInCommitment(HTLCOutputInCommitment&& o) : self(o.self) { memset(&o, 0, sizeof(HTLCOutputInCommitment)); } + HTLCOutputInCommitment(LDKHTLCOutputInCommitment&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKHTLCOutputInCommitment)); } + operator LDKHTLCOutputInCommitment() && { LDKHTLCOutputInCommitment res = self; memset(&self, 0, sizeof(LDKHTLCOutputInCommitment)); return res; } + ~HTLCOutputInCommitment() { HTLCOutputInCommitment_free(self); } + HTLCOutputInCommitment& operator=(HTLCOutputInCommitment&& o) { HTLCOutputInCommitment_free(self); self = o.self; memset(&o, 0, sizeof(HTLCOutputInCommitment)); return *this; } + LDKHTLCOutputInCommitment* operator &() { return &self; } + LDKHTLCOutputInCommitment* operator ->() { return &self; } + const LDKHTLCOutputInCommitment* operator &() const { return &self; } + const LDKHTLCOutputInCommitment* operator ->() const { return &self; } +}; +class ChannelTransactionParameters { +private: + LDKChannelTransactionParameters self; +public: + ChannelTransactionParameters(const ChannelTransactionParameters&) = delete; + ChannelTransactionParameters(ChannelTransactionParameters&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelTransactionParameters)); } + ChannelTransactionParameters(LDKChannelTransactionParameters&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelTransactionParameters)); } + operator LDKChannelTransactionParameters() && { LDKChannelTransactionParameters res = self; memset(&self, 0, sizeof(LDKChannelTransactionParameters)); return res; } + ~ChannelTransactionParameters() { ChannelTransactionParameters_free(self); } + ChannelTransactionParameters& operator=(ChannelTransactionParameters&& o) { ChannelTransactionParameters_free(self); self = o.self; memset(&o, 0, sizeof(ChannelTransactionParameters)); return *this; } + LDKChannelTransactionParameters* operator &() { return &self; } + LDKChannelTransactionParameters* operator ->() { return &self; } + const LDKChannelTransactionParameters* operator &() const { return &self; } + const LDKChannelTransactionParameters* operator ->() const { return &self; } +}; +class CounterpartyChannelTransactionParameters { +private: + LDKCounterpartyChannelTransactionParameters self; +public: + CounterpartyChannelTransactionParameters(const CounterpartyChannelTransactionParameters&) = delete; + CounterpartyChannelTransactionParameters(CounterpartyChannelTransactionParameters&& o) : self(o.self) { memset(&o, 0, sizeof(CounterpartyChannelTransactionParameters)); } + CounterpartyChannelTransactionParameters(LDKCounterpartyChannelTransactionParameters&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCounterpartyChannelTransactionParameters)); } + operator LDKCounterpartyChannelTransactionParameters() && { LDKCounterpartyChannelTransactionParameters res = self; memset(&self, 0, sizeof(LDKCounterpartyChannelTransactionParameters)); return res; } + ~CounterpartyChannelTransactionParameters() { CounterpartyChannelTransactionParameters_free(self); } + CounterpartyChannelTransactionParameters& operator=(CounterpartyChannelTransactionParameters&& o) { CounterpartyChannelTransactionParameters_free(self); self = o.self; memset(&o, 0, sizeof(CounterpartyChannelTransactionParameters)); return *this; } + LDKCounterpartyChannelTransactionParameters* operator &() { return &self; } + LDKCounterpartyChannelTransactionParameters* operator ->() { return &self; } + const LDKCounterpartyChannelTransactionParameters* operator &() const { return &self; } + const LDKCounterpartyChannelTransactionParameters* operator ->() const { return &self; } +}; +class DirectedChannelTransactionParameters { +private: + LDKDirectedChannelTransactionParameters self; +public: + DirectedChannelTransactionParameters(const DirectedChannelTransactionParameters&) = delete; + DirectedChannelTransactionParameters(DirectedChannelTransactionParameters&& o) : self(o.self) { memset(&o, 0, sizeof(DirectedChannelTransactionParameters)); } + DirectedChannelTransactionParameters(LDKDirectedChannelTransactionParameters&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKDirectedChannelTransactionParameters)); } + operator LDKDirectedChannelTransactionParameters() && { LDKDirectedChannelTransactionParameters res = self; memset(&self, 0, sizeof(LDKDirectedChannelTransactionParameters)); return res; } + ~DirectedChannelTransactionParameters() { DirectedChannelTransactionParameters_free(self); } + DirectedChannelTransactionParameters& operator=(DirectedChannelTransactionParameters&& o) { DirectedChannelTransactionParameters_free(self); self = o.self; memset(&o, 0, sizeof(DirectedChannelTransactionParameters)); return *this; } + LDKDirectedChannelTransactionParameters* operator &() { return &self; } + LDKDirectedChannelTransactionParameters* operator ->() { return &self; } + const LDKDirectedChannelTransactionParameters* operator &() const { return &self; } + const LDKDirectedChannelTransactionParameters* operator ->() const { return &self; } +}; +class HolderCommitmentTransaction { +private: + LDKHolderCommitmentTransaction self; +public: + HolderCommitmentTransaction(const HolderCommitmentTransaction&) = delete; + HolderCommitmentTransaction(HolderCommitmentTransaction&& o) : self(o.self) { memset(&o, 0, sizeof(HolderCommitmentTransaction)); } + HolderCommitmentTransaction(LDKHolderCommitmentTransaction&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKHolderCommitmentTransaction)); } + operator LDKHolderCommitmentTransaction() && { LDKHolderCommitmentTransaction res = self; memset(&self, 0, sizeof(LDKHolderCommitmentTransaction)); return res; } + ~HolderCommitmentTransaction() { HolderCommitmentTransaction_free(self); } + HolderCommitmentTransaction& operator=(HolderCommitmentTransaction&& o) { HolderCommitmentTransaction_free(self); self = o.self; memset(&o, 0, sizeof(HolderCommitmentTransaction)); return *this; } + LDKHolderCommitmentTransaction* operator &() { return &self; } + LDKHolderCommitmentTransaction* operator ->() { return &self; } + const LDKHolderCommitmentTransaction* operator &() const { return &self; } + const LDKHolderCommitmentTransaction* operator ->() const { return &self; } +}; +class BuiltCommitmentTransaction { +private: + LDKBuiltCommitmentTransaction self; +public: + BuiltCommitmentTransaction(const BuiltCommitmentTransaction&) = delete; + BuiltCommitmentTransaction(BuiltCommitmentTransaction&& o) : self(o.self) { memset(&o, 0, sizeof(BuiltCommitmentTransaction)); } + BuiltCommitmentTransaction(LDKBuiltCommitmentTransaction&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKBuiltCommitmentTransaction)); } + operator LDKBuiltCommitmentTransaction() && { LDKBuiltCommitmentTransaction res = self; memset(&self, 0, sizeof(LDKBuiltCommitmentTransaction)); return res; } + ~BuiltCommitmentTransaction() { BuiltCommitmentTransaction_free(self); } + BuiltCommitmentTransaction& operator=(BuiltCommitmentTransaction&& o) { BuiltCommitmentTransaction_free(self); self = o.self; memset(&o, 0, sizeof(BuiltCommitmentTransaction)); return *this; } + LDKBuiltCommitmentTransaction* operator &() { return &self; } + LDKBuiltCommitmentTransaction* operator ->() { return &self; } + const LDKBuiltCommitmentTransaction* operator &() const { return &self; } + const LDKBuiltCommitmentTransaction* operator ->() const { return &self; } +}; +class CommitmentTransaction { +private: + LDKCommitmentTransaction self; +public: + CommitmentTransaction(const CommitmentTransaction&) = delete; + CommitmentTransaction(CommitmentTransaction&& o) : self(o.self) { memset(&o, 0, sizeof(CommitmentTransaction)); } + CommitmentTransaction(LDKCommitmentTransaction&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCommitmentTransaction)); } + operator LDKCommitmentTransaction() && { LDKCommitmentTransaction res = self; memset(&self, 0, sizeof(LDKCommitmentTransaction)); return res; } + ~CommitmentTransaction() { CommitmentTransaction_free(self); } + CommitmentTransaction& operator=(CommitmentTransaction&& o) { CommitmentTransaction_free(self); self = o.self; memset(&o, 0, sizeof(CommitmentTransaction)); return *this; } + LDKCommitmentTransaction* operator &() { return &self; } + LDKCommitmentTransaction* operator ->() { return &self; } + const LDKCommitmentTransaction* operator &() const { return &self; } + const LDKCommitmentTransaction* operator ->() const { return &self; } +}; +class TrustedCommitmentTransaction { +private: + LDKTrustedCommitmentTransaction self; +public: + TrustedCommitmentTransaction(const TrustedCommitmentTransaction&) = delete; + TrustedCommitmentTransaction(TrustedCommitmentTransaction&& o) : self(o.self) { memset(&o, 0, sizeof(TrustedCommitmentTransaction)); } + TrustedCommitmentTransaction(LDKTrustedCommitmentTransaction&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKTrustedCommitmentTransaction)); } + operator LDKTrustedCommitmentTransaction() && { LDKTrustedCommitmentTransaction res = self; memset(&self, 0, sizeof(LDKTrustedCommitmentTransaction)); return res; } + ~TrustedCommitmentTransaction() { TrustedCommitmentTransaction_free(self); } + TrustedCommitmentTransaction& operator=(TrustedCommitmentTransaction&& o) { TrustedCommitmentTransaction_free(self); self = o.self; memset(&o, 0, sizeof(TrustedCommitmentTransaction)); return *this; } + LDKTrustedCommitmentTransaction* operator &() { return &self; } + LDKTrustedCommitmentTransaction* operator ->() { return &self; } + const LDKTrustedCommitmentTransaction* operator &() const { return &self; } + const LDKTrustedCommitmentTransaction* operator ->() const { return &self; } +}; +class IgnoringMessageHandler { +private: + LDKIgnoringMessageHandler self; +public: + IgnoringMessageHandler(const IgnoringMessageHandler&) = delete; + IgnoringMessageHandler(IgnoringMessageHandler&& o) : self(o.self) { memset(&o, 0, sizeof(IgnoringMessageHandler)); } + IgnoringMessageHandler(LDKIgnoringMessageHandler&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKIgnoringMessageHandler)); } + operator LDKIgnoringMessageHandler() && { LDKIgnoringMessageHandler res = self; memset(&self, 0, sizeof(LDKIgnoringMessageHandler)); return res; } + ~IgnoringMessageHandler() { IgnoringMessageHandler_free(self); } + IgnoringMessageHandler& operator=(IgnoringMessageHandler&& o) { IgnoringMessageHandler_free(self); self = o.self; memset(&o, 0, sizeof(IgnoringMessageHandler)); return *this; } + LDKIgnoringMessageHandler* operator &() { return &self; } + LDKIgnoringMessageHandler* operator ->() { return &self; } + const LDKIgnoringMessageHandler* operator &() const { return &self; } + const LDKIgnoringMessageHandler* operator ->() const { return &self; } +}; +class ErroringMessageHandler { +private: + LDKErroringMessageHandler self; +public: + ErroringMessageHandler(const ErroringMessageHandler&) = delete; + ErroringMessageHandler(ErroringMessageHandler&& o) : self(o.self) { memset(&o, 0, sizeof(ErroringMessageHandler)); } + ErroringMessageHandler(LDKErroringMessageHandler&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKErroringMessageHandler)); } + operator LDKErroringMessageHandler() && { LDKErroringMessageHandler res = self; memset(&self, 0, sizeof(LDKErroringMessageHandler)); return res; } + ~ErroringMessageHandler() { ErroringMessageHandler_free(self); } + ErroringMessageHandler& operator=(ErroringMessageHandler&& o) { ErroringMessageHandler_free(self); self = o.self; memset(&o, 0, sizeof(ErroringMessageHandler)); return *this; } + LDKErroringMessageHandler* operator &() { return &self; } + LDKErroringMessageHandler* operator ->() { return &self; } + const LDKErroringMessageHandler* operator &() const { return &self; } + const LDKErroringMessageHandler* operator ->() const { return &self; } +}; +class MessageHandler { +private: + LDKMessageHandler self; +public: + MessageHandler(const MessageHandler&) = delete; + MessageHandler(MessageHandler&& o) : self(o.self) { memset(&o, 0, sizeof(MessageHandler)); } + MessageHandler(LDKMessageHandler&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKMessageHandler)); } + operator LDKMessageHandler() && { LDKMessageHandler res = self; memset(&self, 0, sizeof(LDKMessageHandler)); return res; } + ~MessageHandler() { MessageHandler_free(self); } + MessageHandler& operator=(MessageHandler&& o) { MessageHandler_free(self); self = o.self; memset(&o, 0, sizeof(MessageHandler)); return *this; } + LDKMessageHandler* operator &() { return &self; } + LDKMessageHandler* operator ->() { return &self; } + const LDKMessageHandler* operator &() const { return &self; } + const LDKMessageHandler* operator ->() const { return &self; } +}; +class SocketDescriptor { +private: + LDKSocketDescriptor self; +public: + SocketDescriptor(const SocketDescriptor&) = delete; + SocketDescriptor(SocketDescriptor&& o) : self(o.self) { memset(&o, 0, sizeof(SocketDescriptor)); } + SocketDescriptor(LDKSocketDescriptor&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKSocketDescriptor)); } + operator LDKSocketDescriptor() && { LDKSocketDescriptor res = self; memset(&self, 0, sizeof(LDKSocketDescriptor)); return res; } + ~SocketDescriptor() { SocketDescriptor_free(self); } + SocketDescriptor& operator=(SocketDescriptor&& o) { SocketDescriptor_free(self); self = o.self; memset(&o, 0, sizeof(SocketDescriptor)); return *this; } + LDKSocketDescriptor* operator &() { return &self; } + LDKSocketDescriptor* operator ->() { return &self; } + const LDKSocketDescriptor* operator &() const { return &self; } + const LDKSocketDescriptor* operator ->() const { return &self; } +}; +class PeerHandleError { +private: + LDKPeerHandleError self; +public: + PeerHandleError(const PeerHandleError&) = delete; + PeerHandleError(PeerHandleError&& o) : self(o.self) { memset(&o, 0, sizeof(PeerHandleError)); } + PeerHandleError(LDKPeerHandleError&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKPeerHandleError)); } + operator LDKPeerHandleError() && { LDKPeerHandleError res = self; memset(&self, 0, sizeof(LDKPeerHandleError)); return res; } + ~PeerHandleError() { PeerHandleError_free(self); } + PeerHandleError& operator=(PeerHandleError&& o) { PeerHandleError_free(self); self = o.self; memset(&o, 0, sizeof(PeerHandleError)); return *this; } + LDKPeerHandleError* operator &() { return &self; } + LDKPeerHandleError* operator ->() { return &self; } + const LDKPeerHandleError* operator &() const { return &self; } + const LDKPeerHandleError* operator ->() const { return &self; } +}; +class PeerManager { +private: + LDKPeerManager self; +public: + PeerManager(const PeerManager&) = delete; + PeerManager(PeerManager&& o) : self(o.self) { memset(&o, 0, sizeof(PeerManager)); } + PeerManager(LDKPeerManager&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKPeerManager)); } + operator LDKPeerManager() && { LDKPeerManager res = self; memset(&self, 0, sizeof(LDKPeerManager)); return res; } + ~PeerManager() { PeerManager_free(self); } + PeerManager& operator=(PeerManager&& o) { PeerManager_free(self); self = o.self; memset(&o, 0, sizeof(PeerManager)); return *this; } + LDKPeerManager* operator &() { return &self; } + LDKPeerManager* operator ->() { return &self; } + const LDKPeerManager* operator &() const { return &self; } + const LDKPeerManager* operator ->() const { return &self; } +}; +class InitFeatures { +private: + LDKInitFeatures self; +public: + InitFeatures(const InitFeatures&) = delete; + InitFeatures(InitFeatures&& o) : self(o.self) { memset(&o, 0, sizeof(InitFeatures)); } + InitFeatures(LDKInitFeatures&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKInitFeatures)); } + operator LDKInitFeatures() && { LDKInitFeatures res = self; memset(&self, 0, sizeof(LDKInitFeatures)); return res; } + ~InitFeatures() { InitFeatures_free(self); } + InitFeatures& operator=(InitFeatures&& o) { InitFeatures_free(self); self = o.self; memset(&o, 0, sizeof(InitFeatures)); return *this; } + LDKInitFeatures* operator &() { return &self; } + LDKInitFeatures* operator ->() { return &self; } + const LDKInitFeatures* operator &() const { return &self; } + const LDKInitFeatures* operator ->() const { return &self; } +}; +class NodeFeatures { +private: + LDKNodeFeatures self; +public: + NodeFeatures(const NodeFeatures&) = delete; + NodeFeatures(NodeFeatures&& o) : self(o.self) { memset(&o, 0, sizeof(NodeFeatures)); } + NodeFeatures(LDKNodeFeatures&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKNodeFeatures)); } + operator LDKNodeFeatures() && { LDKNodeFeatures res = self; memset(&self, 0, sizeof(LDKNodeFeatures)); return res; } + ~NodeFeatures() { NodeFeatures_free(self); } + NodeFeatures& operator=(NodeFeatures&& o) { NodeFeatures_free(self); self = o.self; memset(&o, 0, sizeof(NodeFeatures)); return *this; } + LDKNodeFeatures* operator &() { return &self; } + LDKNodeFeatures* operator ->() { return &self; } + const LDKNodeFeatures* operator &() const { return &self; } + const LDKNodeFeatures* operator ->() const { return &self; } +}; +class ChannelFeatures { +private: + LDKChannelFeatures self; +public: + ChannelFeatures(const ChannelFeatures&) = delete; + ChannelFeatures(ChannelFeatures&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelFeatures)); } + ChannelFeatures(LDKChannelFeatures&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelFeatures)); } + operator LDKChannelFeatures() && { LDKChannelFeatures res = self; memset(&self, 0, sizeof(LDKChannelFeatures)); return res; } + ~ChannelFeatures() { ChannelFeatures_free(self); } + ChannelFeatures& operator=(ChannelFeatures&& o) { ChannelFeatures_free(self); self = o.self; memset(&o, 0, sizeof(ChannelFeatures)); return *this; } + LDKChannelFeatures* operator &() { return &self; } + LDKChannelFeatures* operator ->() { return &self; } + const LDKChannelFeatures* operator &() const { return &self; } + const LDKChannelFeatures* operator ->() const { return &self; } +}; +class ChannelHandshakeConfig { +private: + LDKChannelHandshakeConfig self; +public: + ChannelHandshakeConfig(const ChannelHandshakeConfig&) = delete; + ChannelHandshakeConfig(ChannelHandshakeConfig&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelHandshakeConfig)); } + ChannelHandshakeConfig(LDKChannelHandshakeConfig&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelHandshakeConfig)); } + operator LDKChannelHandshakeConfig() && { LDKChannelHandshakeConfig res = self; memset(&self, 0, sizeof(LDKChannelHandshakeConfig)); return res; } + ~ChannelHandshakeConfig() { ChannelHandshakeConfig_free(self); } + ChannelHandshakeConfig& operator=(ChannelHandshakeConfig&& o) { ChannelHandshakeConfig_free(self); self = o.self; memset(&o, 0, sizeof(ChannelHandshakeConfig)); return *this; } + LDKChannelHandshakeConfig* operator &() { return &self; } + LDKChannelHandshakeConfig* operator ->() { return &self; } + const LDKChannelHandshakeConfig* operator &() const { return &self; } + const LDKChannelHandshakeConfig* operator ->() const { return &self; } +}; +class ChannelHandshakeLimits { +private: + LDKChannelHandshakeLimits self; +public: + ChannelHandshakeLimits(const ChannelHandshakeLimits&) = delete; + ChannelHandshakeLimits(ChannelHandshakeLimits&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelHandshakeLimits)); } + ChannelHandshakeLimits(LDKChannelHandshakeLimits&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelHandshakeLimits)); } + operator LDKChannelHandshakeLimits() && { LDKChannelHandshakeLimits res = self; memset(&self, 0, sizeof(LDKChannelHandshakeLimits)); return res; } + ~ChannelHandshakeLimits() { ChannelHandshakeLimits_free(self); } + ChannelHandshakeLimits& operator=(ChannelHandshakeLimits&& o) { ChannelHandshakeLimits_free(self); self = o.self; memset(&o, 0, sizeof(ChannelHandshakeLimits)); return *this; } + LDKChannelHandshakeLimits* operator &() { return &self; } + LDKChannelHandshakeLimits* operator ->() { return &self; } + const LDKChannelHandshakeLimits* operator &() const { return &self; } + const LDKChannelHandshakeLimits* operator ->() const { return &self; } +}; +class ChannelConfig { +private: + LDKChannelConfig self; +public: + ChannelConfig(const ChannelConfig&) = delete; + ChannelConfig(ChannelConfig&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelConfig)); } + ChannelConfig(LDKChannelConfig&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelConfig)); } + operator LDKChannelConfig() && { LDKChannelConfig res = self; memset(&self, 0, sizeof(LDKChannelConfig)); return res; } + ~ChannelConfig() { ChannelConfig_free(self); } + ChannelConfig& operator=(ChannelConfig&& o) { ChannelConfig_free(self); self = o.self; memset(&o, 0, sizeof(ChannelConfig)); return *this; } + LDKChannelConfig* operator &() { return &self; } + LDKChannelConfig* operator ->() { return &self; } + const LDKChannelConfig* operator &() const { return &self; } + const LDKChannelConfig* operator ->() const { return &self; } +}; +class UserConfig { +private: + LDKUserConfig self; +public: + UserConfig(const UserConfig&) = delete; + UserConfig(UserConfig&& o) : self(o.self) { memset(&o, 0, sizeof(UserConfig)); } + UserConfig(LDKUserConfig&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKUserConfig)); } + operator LDKUserConfig() && { LDKUserConfig res = self; memset(&self, 0, sizeof(LDKUserConfig)); return res; } + ~UserConfig() { UserConfig_free(self); } + UserConfig& operator=(UserConfig&& o) { UserConfig_free(self); self = o.self; memset(&o, 0, sizeof(UserConfig)); return *this; } + LDKUserConfig* operator &() { return &self; } + LDKUserConfig* operator ->() { return &self; } + const LDKUserConfig* operator &() const { return &self; } + const LDKUserConfig* operator ->() const { return &self; } +}; +class NetworkGraph { +private: + LDKNetworkGraph self; +public: + NetworkGraph(const NetworkGraph&) = delete; + NetworkGraph(NetworkGraph&& o) : self(o.self) { memset(&o, 0, sizeof(NetworkGraph)); } + NetworkGraph(LDKNetworkGraph&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKNetworkGraph)); } + operator LDKNetworkGraph() && { LDKNetworkGraph res = self; memset(&self, 0, sizeof(LDKNetworkGraph)); return res; } + ~NetworkGraph() { NetworkGraph_free(self); } + NetworkGraph& operator=(NetworkGraph&& o) { NetworkGraph_free(self); self = o.self; memset(&o, 0, sizeof(NetworkGraph)); return *this; } + LDKNetworkGraph* operator &() { return &self; } + LDKNetworkGraph* operator ->() { return &self; } + const LDKNetworkGraph* operator &() const { return &self; } + const LDKNetworkGraph* operator ->() const { return &self; } +}; +class LockedNetworkGraph { +private: + LDKLockedNetworkGraph self; +public: + LockedNetworkGraph(const LockedNetworkGraph&) = delete; + LockedNetworkGraph(LockedNetworkGraph&& o) : self(o.self) { memset(&o, 0, sizeof(LockedNetworkGraph)); } + LockedNetworkGraph(LDKLockedNetworkGraph&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKLockedNetworkGraph)); } + operator LDKLockedNetworkGraph() && { LDKLockedNetworkGraph res = self; memset(&self, 0, sizeof(LDKLockedNetworkGraph)); return res; } + ~LockedNetworkGraph() { LockedNetworkGraph_free(self); } + LockedNetworkGraph& operator=(LockedNetworkGraph&& o) { LockedNetworkGraph_free(self); self = o.self; memset(&o, 0, sizeof(LockedNetworkGraph)); return *this; } + LDKLockedNetworkGraph* operator &() { return &self; } + LDKLockedNetworkGraph* operator ->() { return &self; } + const LDKLockedNetworkGraph* operator &() const { return &self; } + const LDKLockedNetworkGraph* operator ->() const { return &self; } +}; +class NetGraphMsgHandler { +private: + LDKNetGraphMsgHandler self; +public: + NetGraphMsgHandler(const NetGraphMsgHandler&) = delete; + NetGraphMsgHandler(NetGraphMsgHandler&& o) : self(o.self) { memset(&o, 0, sizeof(NetGraphMsgHandler)); } + NetGraphMsgHandler(LDKNetGraphMsgHandler&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKNetGraphMsgHandler)); } + operator LDKNetGraphMsgHandler() && { LDKNetGraphMsgHandler res = self; memset(&self, 0, sizeof(LDKNetGraphMsgHandler)); return res; } + ~NetGraphMsgHandler() { NetGraphMsgHandler_free(self); } + NetGraphMsgHandler& operator=(NetGraphMsgHandler&& o) { NetGraphMsgHandler_free(self); self = o.self; memset(&o, 0, sizeof(NetGraphMsgHandler)); return *this; } + LDKNetGraphMsgHandler* operator &() { return &self; } + LDKNetGraphMsgHandler* operator ->() { return &self; } + const LDKNetGraphMsgHandler* operator &() const { return &self; } + const LDKNetGraphMsgHandler* operator ->() const { return &self; } +}; +class DirectionalChannelInfo { +private: + LDKDirectionalChannelInfo self; +public: + DirectionalChannelInfo(const DirectionalChannelInfo&) = delete; + DirectionalChannelInfo(DirectionalChannelInfo&& o) : self(o.self) { memset(&o, 0, sizeof(DirectionalChannelInfo)); } + DirectionalChannelInfo(LDKDirectionalChannelInfo&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKDirectionalChannelInfo)); } + operator LDKDirectionalChannelInfo() && { LDKDirectionalChannelInfo res = self; memset(&self, 0, sizeof(LDKDirectionalChannelInfo)); return res; } + ~DirectionalChannelInfo() { DirectionalChannelInfo_free(self); } + DirectionalChannelInfo& operator=(DirectionalChannelInfo&& o) { DirectionalChannelInfo_free(self); self = o.self; memset(&o, 0, sizeof(DirectionalChannelInfo)); return *this; } + LDKDirectionalChannelInfo* operator &() { return &self; } + LDKDirectionalChannelInfo* operator ->() { return &self; } + const LDKDirectionalChannelInfo* operator &() const { return &self; } + const LDKDirectionalChannelInfo* operator ->() const { return &self; } +}; +class ChannelInfo { +private: + LDKChannelInfo self; +public: + ChannelInfo(const ChannelInfo&) = delete; + ChannelInfo(ChannelInfo&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelInfo)); } + ChannelInfo(LDKChannelInfo&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelInfo)); } + operator LDKChannelInfo() && { LDKChannelInfo res = self; memset(&self, 0, sizeof(LDKChannelInfo)); return res; } + ~ChannelInfo() { ChannelInfo_free(self); } + ChannelInfo& operator=(ChannelInfo&& o) { ChannelInfo_free(self); self = o.self; memset(&o, 0, sizeof(ChannelInfo)); return *this; } + LDKChannelInfo* operator &() { return &self; } + LDKChannelInfo* operator ->() { return &self; } + const LDKChannelInfo* operator &() const { return &self; } + const LDKChannelInfo* operator ->() const { return &self; } +}; +class RoutingFees { +private: + LDKRoutingFees self; +public: + RoutingFees(const RoutingFees&) = delete; + RoutingFees(RoutingFees&& o) : self(o.self) { memset(&o, 0, sizeof(RoutingFees)); } + RoutingFees(LDKRoutingFees&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKRoutingFees)); } + operator LDKRoutingFees() && { LDKRoutingFees res = self; memset(&self, 0, sizeof(LDKRoutingFees)); return res; } + ~RoutingFees() { RoutingFees_free(self); } + RoutingFees& operator=(RoutingFees&& o) { RoutingFees_free(self); self = o.self; memset(&o, 0, sizeof(RoutingFees)); return *this; } + LDKRoutingFees* operator &() { return &self; } + LDKRoutingFees* operator ->() { return &self; } + const LDKRoutingFees* operator &() const { return &self; } + const LDKRoutingFees* operator ->() const { return &self; } +}; +class NodeAnnouncementInfo { +private: + LDKNodeAnnouncementInfo self; +public: + NodeAnnouncementInfo(const NodeAnnouncementInfo&) = delete; + NodeAnnouncementInfo(NodeAnnouncementInfo&& o) : self(o.self) { memset(&o, 0, sizeof(NodeAnnouncementInfo)); } + NodeAnnouncementInfo(LDKNodeAnnouncementInfo&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKNodeAnnouncementInfo)); } + operator LDKNodeAnnouncementInfo() && { LDKNodeAnnouncementInfo res = self; memset(&self, 0, sizeof(LDKNodeAnnouncementInfo)); return res; } + ~NodeAnnouncementInfo() { NodeAnnouncementInfo_free(self); } + NodeAnnouncementInfo& operator=(NodeAnnouncementInfo&& o) { NodeAnnouncementInfo_free(self); self = o.self; memset(&o, 0, sizeof(NodeAnnouncementInfo)); return *this; } + LDKNodeAnnouncementInfo* operator &() { return &self; } + LDKNodeAnnouncementInfo* operator ->() { return &self; } + const LDKNodeAnnouncementInfo* operator &() const { return &self; } + const LDKNodeAnnouncementInfo* operator ->() const { return &self; } +}; +class NodeInfo { +private: + LDKNodeInfo self; +public: + NodeInfo(const NodeInfo&) = delete; + NodeInfo(NodeInfo&& o) : self(o.self) { memset(&o, 0, sizeof(NodeInfo)); } + NodeInfo(LDKNodeInfo&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKNodeInfo)); } + operator LDKNodeInfo() && { LDKNodeInfo res = self; memset(&self, 0, sizeof(LDKNodeInfo)); return res; } + ~NodeInfo() { NodeInfo_free(self); } + NodeInfo& operator=(NodeInfo&& o) { NodeInfo_free(self); self = o.self; memset(&o, 0, sizeof(NodeInfo)); return *this; } + LDKNodeInfo* operator &() { return &self; } + LDKNodeInfo* operator ->() { return &self; } + const LDKNodeInfo* operator &() const { return &self; } + const LDKNodeInfo* operator ->() const { return &self; } +}; +class Level { +private: + LDKLevel self; +public: + Level(const Level&) = delete; + Level(Level&& o) : self(o.self) { memset(&o, 0, sizeof(Level)); } + Level(LDKLevel&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKLevel)); } + operator LDKLevel() && { LDKLevel res = self; memset(&self, 0, sizeof(LDKLevel)); return res; } + Level& operator=(Level&& o) { self = o.self; memset(&o, 0, sizeof(Level)); return *this; } + LDKLevel* operator &() { return &self; } + LDKLevel* operator ->() { return &self; } + const LDKLevel* operator &() const { return &self; } + const LDKLevel* operator ->() const { return &self; } +}; +class Logger { +private: + LDKLogger self; +public: + Logger(const Logger&) = delete; + Logger(Logger&& o) : self(o.self) { memset(&o, 0, sizeof(Logger)); } + Logger(LDKLogger&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKLogger)); } + operator LDKLogger() && { LDKLogger res = self; memset(&self, 0, sizeof(LDKLogger)); return res; } + ~Logger() { Logger_free(self); } + Logger& operator=(Logger&& o) { Logger_free(self); self = o.self; memset(&o, 0, sizeof(Logger)); return *this; } + LDKLogger* operator &() { return &self; } + LDKLogger* operator ->() { return &self; } + const LDKLogger* operator &() const { return &self; } + const LDKLogger* operator ->() const { return &self; } +}; +class ChainMonitor { +private: + LDKChainMonitor self; +public: + ChainMonitor(const ChainMonitor&) = delete; + ChainMonitor(ChainMonitor&& o) : self(o.self) { memset(&o, 0, sizeof(ChainMonitor)); } + ChainMonitor(LDKChainMonitor&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChainMonitor)); } + operator LDKChainMonitor() && { LDKChainMonitor res = self; memset(&self, 0, sizeof(LDKChainMonitor)); return res; } + ~ChainMonitor() { ChainMonitor_free(self); } + ChainMonitor& operator=(ChainMonitor&& o) { ChainMonitor_free(self); self = o.self; memset(&o, 0, sizeof(ChainMonitor)); return *this; } + LDKChainMonitor* operator &() { return &self; } + LDKChainMonitor* operator ->() { return &self; } + const LDKChainMonitor* operator &() const { return &self; } + const LDKChainMonitor* operator ->() const { return &self; } +}; +class OutPoint { +private: + LDKOutPoint self; +public: + OutPoint(const OutPoint&) = delete; + OutPoint(OutPoint&& o) : self(o.self) { memset(&o, 0, sizeof(OutPoint)); } + OutPoint(LDKOutPoint&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKOutPoint)); } + operator LDKOutPoint() && { LDKOutPoint res = self; memset(&self, 0, sizeof(LDKOutPoint)); return res; } + ~OutPoint() { OutPoint_free(self); } + OutPoint& operator=(OutPoint&& o) { OutPoint_free(self); self = o.self; memset(&o, 0, sizeof(OutPoint)); return *this; } + LDKOutPoint* operator &() { return &self; } + LDKOutPoint* operator ->() { return &self; } + const LDKOutPoint* operator &() const { return &self; } + const LDKOutPoint* operator ->() const { return &self; } +}; +class ChannelMonitorUpdate { +private: + LDKChannelMonitorUpdate self; +public: + ChannelMonitorUpdate(const ChannelMonitorUpdate&) = delete; + ChannelMonitorUpdate(ChannelMonitorUpdate&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelMonitorUpdate)); } + ChannelMonitorUpdate(LDKChannelMonitorUpdate&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelMonitorUpdate)); } + operator LDKChannelMonitorUpdate() && { LDKChannelMonitorUpdate res = self; memset(&self, 0, sizeof(LDKChannelMonitorUpdate)); return res; } + ~ChannelMonitorUpdate() { ChannelMonitorUpdate_free(self); } + ChannelMonitorUpdate& operator=(ChannelMonitorUpdate&& o) { ChannelMonitorUpdate_free(self); self = o.self; memset(&o, 0, sizeof(ChannelMonitorUpdate)); return *this; } + LDKChannelMonitorUpdate* operator &() { return &self; } + LDKChannelMonitorUpdate* operator ->() { return &self; } + const LDKChannelMonitorUpdate* operator &() const { return &self; } + const LDKChannelMonitorUpdate* operator ->() const { return &self; } +}; +class ChannelMonitorUpdateErr { +private: + LDKChannelMonitorUpdateErr self; +public: + ChannelMonitorUpdateErr(const ChannelMonitorUpdateErr&) = delete; + ChannelMonitorUpdateErr(ChannelMonitorUpdateErr&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelMonitorUpdateErr)); } + ChannelMonitorUpdateErr(LDKChannelMonitorUpdateErr&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelMonitorUpdateErr)); } + operator LDKChannelMonitorUpdateErr() && { LDKChannelMonitorUpdateErr res = self; memset(&self, 0, sizeof(LDKChannelMonitorUpdateErr)); return res; } + ChannelMonitorUpdateErr& operator=(ChannelMonitorUpdateErr&& o) { self = o.self; memset(&o, 0, sizeof(ChannelMonitorUpdateErr)); return *this; } + LDKChannelMonitorUpdateErr* operator &() { return &self; } + LDKChannelMonitorUpdateErr* operator ->() { return &self; } + const LDKChannelMonitorUpdateErr* operator &() const { return &self; } + const LDKChannelMonitorUpdateErr* operator ->() const { return &self; } +}; +class MonitorUpdateError { +private: + LDKMonitorUpdateError self; +public: + MonitorUpdateError(const MonitorUpdateError&) = delete; + MonitorUpdateError(MonitorUpdateError&& o) : self(o.self) { memset(&o, 0, sizeof(MonitorUpdateError)); } + MonitorUpdateError(LDKMonitorUpdateError&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKMonitorUpdateError)); } + operator LDKMonitorUpdateError() && { LDKMonitorUpdateError res = self; memset(&self, 0, sizeof(LDKMonitorUpdateError)); return res; } + ~MonitorUpdateError() { MonitorUpdateError_free(self); } + MonitorUpdateError& operator=(MonitorUpdateError&& o) { MonitorUpdateError_free(self); self = o.self; memset(&o, 0, sizeof(MonitorUpdateError)); return *this; } + LDKMonitorUpdateError* operator &() { return &self; } + LDKMonitorUpdateError* operator ->() { return &self; } + const LDKMonitorUpdateError* operator &() const { return &self; } + const LDKMonitorUpdateError* operator ->() const { return &self; } +}; +class MonitorEvent { +private: + LDKMonitorEvent self; +public: + MonitorEvent(const MonitorEvent&) = delete; + MonitorEvent(MonitorEvent&& o) : self(o.self) { memset(&o, 0, sizeof(MonitorEvent)); } + MonitorEvent(LDKMonitorEvent&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKMonitorEvent)); } + operator LDKMonitorEvent() && { LDKMonitorEvent res = self; memset(&self, 0, sizeof(LDKMonitorEvent)); return res; } + ~MonitorEvent() { MonitorEvent_free(self); } + MonitorEvent& operator=(MonitorEvent&& o) { MonitorEvent_free(self); self = o.self; memset(&o, 0, sizeof(MonitorEvent)); return *this; } + LDKMonitorEvent* operator &() { return &self; } + LDKMonitorEvent* operator ->() { return &self; } + const LDKMonitorEvent* operator &() const { return &self; } + const LDKMonitorEvent* operator ->() const { return &self; } +}; +class HTLCUpdate { +private: + LDKHTLCUpdate self; +public: + HTLCUpdate(const HTLCUpdate&) = delete; + HTLCUpdate(HTLCUpdate&& o) : self(o.self) { memset(&o, 0, sizeof(HTLCUpdate)); } + HTLCUpdate(LDKHTLCUpdate&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKHTLCUpdate)); } + operator LDKHTLCUpdate() && { LDKHTLCUpdate res = self; memset(&self, 0, sizeof(LDKHTLCUpdate)); return res; } + ~HTLCUpdate() { HTLCUpdate_free(self); } + HTLCUpdate& operator=(HTLCUpdate&& o) { HTLCUpdate_free(self); self = o.self; memset(&o, 0, sizeof(HTLCUpdate)); return *this; } + LDKHTLCUpdate* operator &() { return &self; } + LDKHTLCUpdate* operator ->() { return &self; } + const LDKHTLCUpdate* operator &() const { return &self; } + const LDKHTLCUpdate* operator ->() const { return &self; } +}; +class ChannelMonitor { +private: + LDKChannelMonitor self; +public: + ChannelMonitor(const ChannelMonitor&) = delete; + ChannelMonitor(ChannelMonitor&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelMonitor)); } + ChannelMonitor(LDKChannelMonitor&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelMonitor)); } + operator LDKChannelMonitor() && { LDKChannelMonitor res = self; memset(&self, 0, sizeof(LDKChannelMonitor)); return res; } + ~ChannelMonitor() { ChannelMonitor_free(self); } + ChannelMonitor& operator=(ChannelMonitor&& o) { ChannelMonitor_free(self); self = o.self; memset(&o, 0, sizeof(ChannelMonitor)); return *this; } + LDKChannelMonitor* operator &() { return &self; } + LDKChannelMonitor* operator ->() { return &self; } + const LDKChannelMonitor* operator &() const { return &self; } + const LDKChannelMonitor* operator ->() const { return &self; } +}; +class Persist { +private: + LDKPersist self; +public: + Persist(const Persist&) = delete; + Persist(Persist&& o) : self(o.self) { memset(&o, 0, sizeof(Persist)); } + Persist(LDKPersist&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKPersist)); } + operator LDKPersist() && { LDKPersist res = self; memset(&self, 0, sizeof(LDKPersist)); return res; } + ~Persist() { Persist_free(self); } + Persist& operator=(Persist&& o) { Persist_free(self); self = o.self; memset(&o, 0, sizeof(Persist)); return *this; } + LDKPersist* operator &() { return &self; } + LDKPersist* operator ->() { return &self; } + const LDKPersist* operator &() const { return &self; } + const LDKPersist* operator ->() const { return &self; } +}; +class Event { +private: + LDKEvent self; +public: + Event(const Event&) = delete; + Event(Event&& o) : self(o.self) { memset(&o, 0, sizeof(Event)); } + Event(LDKEvent&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKEvent)); } + operator LDKEvent() && { LDKEvent res = self; memset(&self, 0, sizeof(LDKEvent)); return res; } + ~Event() { Event_free(self); } + Event& operator=(Event&& o) { Event_free(self); self = o.self; memset(&o, 0, sizeof(Event)); return *this; } + LDKEvent* operator &() { return &self; } + LDKEvent* operator ->() { return &self; } + const LDKEvent* operator &() const { return &self; } + const LDKEvent* operator ->() const { return &self; } +}; +class MessageSendEvent { +private: + LDKMessageSendEvent self; +public: + MessageSendEvent(const MessageSendEvent&) = delete; + MessageSendEvent(MessageSendEvent&& o) : self(o.self) { memset(&o, 0, sizeof(MessageSendEvent)); } + MessageSendEvent(LDKMessageSendEvent&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKMessageSendEvent)); } + operator LDKMessageSendEvent() && { LDKMessageSendEvent res = self; memset(&self, 0, sizeof(LDKMessageSendEvent)); return res; } + ~MessageSendEvent() { MessageSendEvent_free(self); } + MessageSendEvent& operator=(MessageSendEvent&& o) { MessageSendEvent_free(self); self = o.self; memset(&o, 0, sizeof(MessageSendEvent)); return *this; } + LDKMessageSendEvent* operator &() { return &self; } + LDKMessageSendEvent* operator ->() { return &self; } + const LDKMessageSendEvent* operator &() const { return &self; } + const LDKMessageSendEvent* operator ->() const { return &self; } +}; +class MessageSendEventsProvider { +private: + LDKMessageSendEventsProvider self; +public: + MessageSendEventsProvider(const MessageSendEventsProvider&) = delete; + MessageSendEventsProvider(MessageSendEventsProvider&& o) : self(o.self) { memset(&o, 0, sizeof(MessageSendEventsProvider)); } + MessageSendEventsProvider(LDKMessageSendEventsProvider&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKMessageSendEventsProvider)); } + operator LDKMessageSendEventsProvider() && { LDKMessageSendEventsProvider res = self; memset(&self, 0, sizeof(LDKMessageSendEventsProvider)); return res; } + ~MessageSendEventsProvider() { MessageSendEventsProvider_free(self); } + MessageSendEventsProvider& operator=(MessageSendEventsProvider&& o) { MessageSendEventsProvider_free(self); self = o.self; memset(&o, 0, sizeof(MessageSendEventsProvider)); return *this; } + LDKMessageSendEventsProvider* operator &() { return &self; } + LDKMessageSendEventsProvider* operator ->() { return &self; } + const LDKMessageSendEventsProvider* operator &() const { return &self; } + const LDKMessageSendEventsProvider* operator ->() const { return &self; } +}; +class EventsProvider { +private: + LDKEventsProvider self; +public: + EventsProvider(const EventsProvider&) = delete; + EventsProvider(EventsProvider&& o) : self(o.self) { memset(&o, 0, sizeof(EventsProvider)); } + EventsProvider(LDKEventsProvider&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKEventsProvider)); } + operator LDKEventsProvider() && { LDKEventsProvider res = self; memset(&self, 0, sizeof(LDKEventsProvider)); return res; } + ~EventsProvider() { EventsProvider_free(self); } + EventsProvider& operator=(EventsProvider&& o) { EventsProvider_free(self); self = o.self; memset(&o, 0, sizeof(EventsProvider)); return *this; } + LDKEventsProvider* operator &() { return &self; } + LDKEventsProvider* operator ->() { return &self; } + const LDKEventsProvider* operator &() const { return &self; } + const LDKEventsProvider* operator ->() const { return &self; } +}; +class AccessError { +private: + LDKAccessError self; +public: + AccessError(const AccessError&) = delete; + AccessError(AccessError&& o) : self(o.self) { memset(&o, 0, sizeof(AccessError)); } + AccessError(LDKAccessError&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKAccessError)); } + operator LDKAccessError() && { LDKAccessError res = self; memset(&self, 0, sizeof(LDKAccessError)); return res; } + AccessError& operator=(AccessError&& o) { self = o.self; memset(&o, 0, sizeof(AccessError)); return *this; } + LDKAccessError* operator &() { return &self; } + LDKAccessError* operator ->() { return &self; } + const LDKAccessError* operator &() const { return &self; } + const LDKAccessError* operator ->() const { return &self; } +}; +class Access { +private: + LDKAccess self; +public: + Access(const Access&) = delete; + Access(Access&& o) : self(o.self) { memset(&o, 0, sizeof(Access)); } + Access(LDKAccess&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKAccess)); } + operator LDKAccess() && { LDKAccess res = self; memset(&self, 0, sizeof(LDKAccess)); return res; } + ~Access() { Access_free(self); } + Access& operator=(Access&& o) { Access_free(self); self = o.self; memset(&o, 0, sizeof(Access)); return *this; } + LDKAccess* operator &() { return &self; } + LDKAccess* operator ->() { return &self; } + const LDKAccess* operator &() const { return &self; } + const LDKAccess* operator ->() const { return &self; } +}; +class Listen { +private: + LDKListen self; +public: + Listen(const Listen&) = delete; + Listen(Listen&& o) : self(o.self) { memset(&o, 0, sizeof(Listen)); } + Listen(LDKListen&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKListen)); } + operator LDKListen() && { LDKListen res = self; memset(&self, 0, sizeof(LDKListen)); return res; } + ~Listen() { Listen_free(self); } + Listen& operator=(Listen&& o) { Listen_free(self); self = o.self; memset(&o, 0, sizeof(Listen)); return *this; } + LDKListen* operator &() { return &self; } + LDKListen* operator ->() { return &self; } + const LDKListen* operator &() const { return &self; } + const LDKListen* operator ->() const { return &self; } +}; +class Watch { +private: + LDKWatch self; +public: + Watch(const Watch&) = delete; + Watch(Watch&& o) : self(o.self) { memset(&o, 0, sizeof(Watch)); } + Watch(LDKWatch&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKWatch)); } + operator LDKWatch() && { LDKWatch res = self; memset(&self, 0, sizeof(LDKWatch)); return res; } + ~Watch() { Watch_free(self); } + Watch& operator=(Watch&& o) { Watch_free(self); self = o.self; memset(&o, 0, sizeof(Watch)); return *this; } + LDKWatch* operator &() { return &self; } + LDKWatch* operator ->() { return &self; } + const LDKWatch* operator &() const { return &self; } + const LDKWatch* operator ->() const { return &self; } +}; +class Filter { +private: + LDKFilter self; +public: + Filter(const Filter&) = delete; + Filter(Filter&& o) : self(o.self) { memset(&o, 0, sizeof(Filter)); } + Filter(LDKFilter&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKFilter)); } + operator LDKFilter() && { LDKFilter res = self; memset(&self, 0, sizeof(LDKFilter)); return res; } + ~Filter() { Filter_free(self); } + Filter& operator=(Filter&& o) { Filter_free(self); self = o.self; memset(&o, 0, sizeof(Filter)); return *this; } + LDKFilter* operator &() { return &self; } + LDKFilter* operator ->() { return &self; } + const LDKFilter* operator &() const { return &self; } + const LDKFilter* operator ->() const { return &self; } +}; +class BroadcasterInterface { +private: + LDKBroadcasterInterface self; +public: + BroadcasterInterface(const BroadcasterInterface&) = delete; + BroadcasterInterface(BroadcasterInterface&& o) : self(o.self) { memset(&o, 0, sizeof(BroadcasterInterface)); } + BroadcasterInterface(LDKBroadcasterInterface&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKBroadcasterInterface)); } + operator LDKBroadcasterInterface() && { LDKBroadcasterInterface res = self; memset(&self, 0, sizeof(LDKBroadcasterInterface)); return res; } + ~BroadcasterInterface() { BroadcasterInterface_free(self); } + BroadcasterInterface& operator=(BroadcasterInterface&& o) { BroadcasterInterface_free(self); self = o.self; memset(&o, 0, sizeof(BroadcasterInterface)); return *this; } + LDKBroadcasterInterface* operator &() { return &self; } + LDKBroadcasterInterface* operator ->() { return &self; } + const LDKBroadcasterInterface* operator &() const { return &self; } + const LDKBroadcasterInterface* operator ->() const { return &self; } +}; +class ConfirmationTarget { +private: + LDKConfirmationTarget self; +public: + ConfirmationTarget(const ConfirmationTarget&) = delete; + ConfirmationTarget(ConfirmationTarget&& o) : self(o.self) { memset(&o, 0, sizeof(ConfirmationTarget)); } + ConfirmationTarget(LDKConfirmationTarget&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKConfirmationTarget)); } + operator LDKConfirmationTarget() && { LDKConfirmationTarget res = self; memset(&self, 0, sizeof(LDKConfirmationTarget)); return res; } + ConfirmationTarget& operator=(ConfirmationTarget&& o) { self = o.self; memset(&o, 0, sizeof(ConfirmationTarget)); return *this; } + LDKConfirmationTarget* operator &() { return &self; } + LDKConfirmationTarget* operator ->() { return &self; } + const LDKConfirmationTarget* operator &() const { return &self; } + const LDKConfirmationTarget* operator ->() const { return &self; } +}; +class FeeEstimator { +private: + LDKFeeEstimator self; +public: + FeeEstimator(const FeeEstimator&) = delete; + FeeEstimator(FeeEstimator&& o) : self(o.self) { memset(&o, 0, sizeof(FeeEstimator)); } + FeeEstimator(LDKFeeEstimator&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKFeeEstimator)); } + operator LDKFeeEstimator() && { LDKFeeEstimator res = self; memset(&self, 0, sizeof(LDKFeeEstimator)); return res; } + ~FeeEstimator() { FeeEstimator_free(self); } + FeeEstimator& operator=(FeeEstimator&& o) { FeeEstimator_free(self); self = o.self; memset(&o, 0, sizeof(FeeEstimator)); return *this; } + LDKFeeEstimator* operator &() { return &self; } + LDKFeeEstimator* operator ->() { return &self; } + const LDKFeeEstimator* operator &() const { return &self; } + const LDKFeeEstimator* operator ->() const { return &self; } +}; +class ChannelManager { +private: + LDKChannelManager self; +public: + ChannelManager(const ChannelManager&) = delete; + ChannelManager(ChannelManager&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelManager)); } + ChannelManager(LDKChannelManager&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelManager)); } + operator LDKChannelManager() && { LDKChannelManager res = self; memset(&self, 0, sizeof(LDKChannelManager)); return res; } + ~ChannelManager() { ChannelManager_free(self); } + ChannelManager& operator=(ChannelManager&& o) { ChannelManager_free(self); self = o.self; memset(&o, 0, sizeof(ChannelManager)); return *this; } + LDKChannelManager* operator &() { return &self; } + LDKChannelManager* operator ->() { return &self; } + const LDKChannelManager* operator &() const { return &self; } + const LDKChannelManager* operator ->() const { return &self; } +}; +class ChainParameters { +private: + LDKChainParameters self; +public: + ChainParameters(const ChainParameters&) = delete; + ChainParameters(ChainParameters&& o) : self(o.self) { memset(&o, 0, sizeof(ChainParameters)); } + ChainParameters(LDKChainParameters&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChainParameters)); } + operator LDKChainParameters() && { LDKChainParameters res = self; memset(&self, 0, sizeof(LDKChainParameters)); return res; } + ~ChainParameters() { ChainParameters_free(self); } + ChainParameters& operator=(ChainParameters&& o) { ChainParameters_free(self); self = o.self; memset(&o, 0, sizeof(ChainParameters)); return *this; } + LDKChainParameters* operator &() { return &self; } + LDKChainParameters* operator ->() { return &self; } + const LDKChainParameters* operator &() const { return &self; } + const LDKChainParameters* operator ->() const { return &self; } +}; +class ChannelDetails { +private: + LDKChannelDetails self; +public: + ChannelDetails(const ChannelDetails&) = delete; + ChannelDetails(ChannelDetails&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelDetails)); } + ChannelDetails(LDKChannelDetails&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelDetails)); } + operator LDKChannelDetails() && { LDKChannelDetails res = self; memset(&self, 0, sizeof(LDKChannelDetails)); return res; } + ~ChannelDetails() { ChannelDetails_free(self); } + ChannelDetails& operator=(ChannelDetails&& o) { ChannelDetails_free(self); self = o.self; memset(&o, 0, sizeof(ChannelDetails)); return *this; } + LDKChannelDetails* operator &() { return &self; } + LDKChannelDetails* operator ->() { return &self; } + const LDKChannelDetails* operator &() const { return &self; } + const LDKChannelDetails* operator ->() const { return &self; } +}; +class PaymentSendFailure { +private: + LDKPaymentSendFailure self; +public: + PaymentSendFailure(const PaymentSendFailure&) = delete; + PaymentSendFailure(PaymentSendFailure&& o) : self(o.self) { memset(&o, 0, sizeof(PaymentSendFailure)); } + PaymentSendFailure(LDKPaymentSendFailure&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKPaymentSendFailure)); } + operator LDKPaymentSendFailure() && { LDKPaymentSendFailure res = self; memset(&self, 0, sizeof(LDKPaymentSendFailure)); return res; } + ~PaymentSendFailure() { PaymentSendFailure_free(self); } + PaymentSendFailure& operator=(PaymentSendFailure&& o) { PaymentSendFailure_free(self); self = o.self; memset(&o, 0, sizeof(PaymentSendFailure)); return *this; } + LDKPaymentSendFailure* operator &() { return &self; } + LDKPaymentSendFailure* operator ->() { return &self; } + const LDKPaymentSendFailure* operator &() const { return &self; } + const LDKPaymentSendFailure* operator ->() const { return &self; } +}; +class ChannelManagerReadArgs { +private: + LDKChannelManagerReadArgs self; +public: + ChannelManagerReadArgs(const ChannelManagerReadArgs&) = delete; + ChannelManagerReadArgs(ChannelManagerReadArgs&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelManagerReadArgs)); } + ChannelManagerReadArgs(LDKChannelManagerReadArgs&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelManagerReadArgs)); } + operator LDKChannelManagerReadArgs() && { LDKChannelManagerReadArgs res = self; memset(&self, 0, sizeof(LDKChannelManagerReadArgs)); return res; } + ~ChannelManagerReadArgs() { ChannelManagerReadArgs_free(self); } + ChannelManagerReadArgs& operator=(ChannelManagerReadArgs&& o) { ChannelManagerReadArgs_free(self); self = o.self; memset(&o, 0, sizeof(ChannelManagerReadArgs)); return *this; } + LDKChannelManagerReadArgs* operator &() { return &self; } + LDKChannelManagerReadArgs* operator ->() { return &self; } + const LDKChannelManagerReadArgs* operator &() const { return &self; } + const LDKChannelManagerReadArgs* operator ->() const { return &self; } +}; +class DelayedPaymentOutputDescriptor { +private: + LDKDelayedPaymentOutputDescriptor self; +public: + DelayedPaymentOutputDescriptor(const DelayedPaymentOutputDescriptor&) = delete; + DelayedPaymentOutputDescriptor(DelayedPaymentOutputDescriptor&& o) : self(o.self) { memset(&o, 0, sizeof(DelayedPaymentOutputDescriptor)); } + DelayedPaymentOutputDescriptor(LDKDelayedPaymentOutputDescriptor&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKDelayedPaymentOutputDescriptor)); } + operator LDKDelayedPaymentOutputDescriptor() && { LDKDelayedPaymentOutputDescriptor res = self; memset(&self, 0, sizeof(LDKDelayedPaymentOutputDescriptor)); return res; } + ~DelayedPaymentOutputDescriptor() { DelayedPaymentOutputDescriptor_free(self); } + DelayedPaymentOutputDescriptor& operator=(DelayedPaymentOutputDescriptor&& o) { DelayedPaymentOutputDescriptor_free(self); self = o.self; memset(&o, 0, sizeof(DelayedPaymentOutputDescriptor)); return *this; } + LDKDelayedPaymentOutputDescriptor* operator &() { return &self; } + LDKDelayedPaymentOutputDescriptor* operator ->() { return &self; } + const LDKDelayedPaymentOutputDescriptor* operator &() const { return &self; } + const LDKDelayedPaymentOutputDescriptor* operator ->() const { return &self; } +}; +class StaticPaymentOutputDescriptor { +private: + LDKStaticPaymentOutputDescriptor self; +public: + StaticPaymentOutputDescriptor(const StaticPaymentOutputDescriptor&) = delete; + StaticPaymentOutputDescriptor(StaticPaymentOutputDescriptor&& o) : self(o.self) { memset(&o, 0, sizeof(StaticPaymentOutputDescriptor)); } + StaticPaymentOutputDescriptor(LDKStaticPaymentOutputDescriptor&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKStaticPaymentOutputDescriptor)); } + operator LDKStaticPaymentOutputDescriptor() && { LDKStaticPaymentOutputDescriptor res = self; memset(&self, 0, sizeof(LDKStaticPaymentOutputDescriptor)); return res; } + ~StaticPaymentOutputDescriptor() { StaticPaymentOutputDescriptor_free(self); } + StaticPaymentOutputDescriptor& operator=(StaticPaymentOutputDescriptor&& o) { StaticPaymentOutputDescriptor_free(self); self = o.self; memset(&o, 0, sizeof(StaticPaymentOutputDescriptor)); return *this; } + LDKStaticPaymentOutputDescriptor* operator &() { return &self; } + LDKStaticPaymentOutputDescriptor* operator ->() { return &self; } + const LDKStaticPaymentOutputDescriptor* operator &() const { return &self; } + const LDKStaticPaymentOutputDescriptor* operator ->() const { return &self; } +}; +class SpendableOutputDescriptor { +private: + LDKSpendableOutputDescriptor self; +public: + SpendableOutputDescriptor(const SpendableOutputDescriptor&) = delete; + SpendableOutputDescriptor(SpendableOutputDescriptor&& o) : self(o.self) { memset(&o, 0, sizeof(SpendableOutputDescriptor)); } + SpendableOutputDescriptor(LDKSpendableOutputDescriptor&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKSpendableOutputDescriptor)); } + operator LDKSpendableOutputDescriptor() && { LDKSpendableOutputDescriptor res = self; memset(&self, 0, sizeof(LDKSpendableOutputDescriptor)); return res; } + ~SpendableOutputDescriptor() { SpendableOutputDescriptor_free(self); } + SpendableOutputDescriptor& operator=(SpendableOutputDescriptor&& o) { SpendableOutputDescriptor_free(self); self = o.self; memset(&o, 0, sizeof(SpendableOutputDescriptor)); return *this; } + LDKSpendableOutputDescriptor* operator &() { return &self; } + LDKSpendableOutputDescriptor* operator ->() { return &self; } + const LDKSpendableOutputDescriptor* operator &() const { return &self; } + const LDKSpendableOutputDescriptor* operator ->() const { return &self; } +}; +class Sign { +private: + LDKSign self; +public: + Sign(const Sign&) = delete; + Sign(Sign&& o) : self(o.self) { memset(&o, 0, sizeof(Sign)); } + Sign(LDKSign&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKSign)); } + operator LDKSign() && { LDKSign res = self; memset(&self, 0, sizeof(LDKSign)); return res; } + ~Sign() { Sign_free(self); } + Sign& operator=(Sign&& o) { Sign_free(self); self = o.self; memset(&o, 0, sizeof(Sign)); return *this; } + LDKSign* operator &() { return &self; } + LDKSign* operator ->() { return &self; } + const LDKSign* operator &() const { return &self; } + const LDKSign* operator ->() const { return &self; } +}; +class KeysInterface { +private: + LDKKeysInterface self; +public: + KeysInterface(const KeysInterface&) = delete; + KeysInterface(KeysInterface&& o) : self(o.self) { memset(&o, 0, sizeof(KeysInterface)); } + KeysInterface(LDKKeysInterface&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKKeysInterface)); } + operator LDKKeysInterface() && { LDKKeysInterface res = self; memset(&self, 0, sizeof(LDKKeysInterface)); return res; } + ~KeysInterface() { KeysInterface_free(self); } + KeysInterface& operator=(KeysInterface&& o) { KeysInterface_free(self); self = o.self; memset(&o, 0, sizeof(KeysInterface)); return *this; } + LDKKeysInterface* operator &() { return &self; } + LDKKeysInterface* operator ->() { return &self; } + const LDKKeysInterface* operator &() const { return &self; } + const LDKKeysInterface* operator ->() const { return &self; } +}; +class InMemorySigner { +private: + LDKInMemorySigner self; +public: + InMemorySigner(const InMemorySigner&) = delete; + InMemorySigner(InMemorySigner&& o) : self(o.self) { memset(&o, 0, sizeof(InMemorySigner)); } + InMemorySigner(LDKInMemorySigner&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKInMemorySigner)); } + operator LDKInMemorySigner() && { LDKInMemorySigner res = self; memset(&self, 0, sizeof(LDKInMemorySigner)); return res; } + ~InMemorySigner() { InMemorySigner_free(self); } + InMemorySigner& operator=(InMemorySigner&& o) { InMemorySigner_free(self); self = o.self; memset(&o, 0, sizeof(InMemorySigner)); return *this; } + LDKInMemorySigner* operator &() { return &self; } + LDKInMemorySigner* operator ->() { return &self; } + const LDKInMemorySigner* operator &() const { return &self; } + const LDKInMemorySigner* operator ->() const { return &self; } +}; +class KeysManager { +private: + LDKKeysManager self; +public: + KeysManager(const KeysManager&) = delete; + KeysManager(KeysManager&& o) : self(o.self) { memset(&o, 0, sizeof(KeysManager)); } + KeysManager(LDKKeysManager&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKKeysManager)); } + operator LDKKeysManager() && { LDKKeysManager res = self; memset(&self, 0, sizeof(LDKKeysManager)); return res; } + ~KeysManager() { KeysManager_free(self); } + KeysManager& operator=(KeysManager&& o) { KeysManager_free(self); self = o.self; memset(&o, 0, sizeof(KeysManager)); return *this; } + LDKKeysManager* operator &() { return &self; } + LDKKeysManager* operator ->() { return &self; } + const LDKKeysManager* operator &() const { return &self; } + const LDKKeysManager* operator ->() const { return &self; } +}; +class RouteHop { +private: + LDKRouteHop self; +public: + RouteHop(const RouteHop&) = delete; + RouteHop(RouteHop&& o) : self(o.self) { memset(&o, 0, sizeof(RouteHop)); } + RouteHop(LDKRouteHop&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKRouteHop)); } + operator LDKRouteHop() && { LDKRouteHop res = self; memset(&self, 0, sizeof(LDKRouteHop)); return res; } + ~RouteHop() { RouteHop_free(self); } + RouteHop& operator=(RouteHop&& o) { RouteHop_free(self); self = o.self; memset(&o, 0, sizeof(RouteHop)); return *this; } + LDKRouteHop* operator &() { return &self; } + LDKRouteHop* operator ->() { return &self; } + const LDKRouteHop* operator &() const { return &self; } + const LDKRouteHop* operator ->() const { return &self; } +}; +class Route { +private: + LDKRoute self; +public: + Route(const Route&) = delete; + Route(Route&& o) : self(o.self) { memset(&o, 0, sizeof(Route)); } + Route(LDKRoute&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKRoute)); } + operator LDKRoute() && { LDKRoute res = self; memset(&self, 0, sizeof(LDKRoute)); return res; } + ~Route() { Route_free(self); } + Route& operator=(Route&& o) { Route_free(self); self = o.self; memset(&o, 0, sizeof(Route)); return *this; } + LDKRoute* operator &() { return &self; } + LDKRoute* operator ->() { return &self; } + const LDKRoute* operator &() const { return &self; } + const LDKRoute* operator ->() const { return &self; } +}; +class RouteHint { +private: + LDKRouteHint self; +public: + RouteHint(const RouteHint&) = delete; + RouteHint(RouteHint&& o) : self(o.self) { memset(&o, 0, sizeof(RouteHint)); } + RouteHint(LDKRouteHint&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKRouteHint)); } + operator LDKRouteHint() && { LDKRouteHint res = self; memset(&self, 0, sizeof(LDKRouteHint)); return res; } + ~RouteHint() { RouteHint_free(self); } + RouteHint& operator=(RouteHint&& o) { RouteHint_free(self); self = o.self; memset(&o, 0, sizeof(RouteHint)); return *this; } + LDKRouteHint* operator &() { return &self; } + LDKRouteHint* operator ->() { return &self; } + const LDKRouteHint* operator &() const { return &self; } + const LDKRouteHint* operator ->() const { return &self; } +}; +class DecodeError { +private: + LDKDecodeError self; +public: + DecodeError(const DecodeError&) = delete; + DecodeError(DecodeError&& o) : self(o.self) { memset(&o, 0, sizeof(DecodeError)); } + DecodeError(LDKDecodeError&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKDecodeError)); } + operator LDKDecodeError() && { LDKDecodeError res = self; memset(&self, 0, sizeof(LDKDecodeError)); return res; } + ~DecodeError() { DecodeError_free(self); } + DecodeError& operator=(DecodeError&& o) { DecodeError_free(self); self = o.self; memset(&o, 0, sizeof(DecodeError)); return *this; } + LDKDecodeError* operator &() { return &self; } + LDKDecodeError* operator ->() { return &self; } + const LDKDecodeError* operator &() const { return &self; } + const LDKDecodeError* operator ->() const { return &self; } +}; +class Init { +private: + LDKInit self; +public: + Init(const Init&) = delete; + Init(Init&& o) : self(o.self) { memset(&o, 0, sizeof(Init)); } + Init(LDKInit&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKInit)); } + operator LDKInit() && { LDKInit res = self; memset(&self, 0, sizeof(LDKInit)); return res; } + ~Init() { Init_free(self); } + Init& operator=(Init&& o) { Init_free(self); self = o.self; memset(&o, 0, sizeof(Init)); return *this; } + LDKInit* operator &() { return &self; } + LDKInit* operator ->() { return &self; } + const LDKInit* operator &() const { return &self; } + const LDKInit* operator ->() const { return &self; } +}; +class ErrorMessage { +private: + LDKErrorMessage self; +public: + ErrorMessage(const ErrorMessage&) = delete; + ErrorMessage(ErrorMessage&& o) : self(o.self) { memset(&o, 0, sizeof(ErrorMessage)); } + ErrorMessage(LDKErrorMessage&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKErrorMessage)); } + operator LDKErrorMessage() && { LDKErrorMessage res = self; memset(&self, 0, sizeof(LDKErrorMessage)); return res; } + ~ErrorMessage() { ErrorMessage_free(self); } + ErrorMessage& operator=(ErrorMessage&& o) { ErrorMessage_free(self); self = o.self; memset(&o, 0, sizeof(ErrorMessage)); return *this; } + LDKErrorMessage* operator &() { return &self; } + LDKErrorMessage* operator ->() { return &self; } + const LDKErrorMessage* operator &() const { return &self; } + const LDKErrorMessage* operator ->() const { return &self; } +}; +class Ping { +private: + LDKPing self; +public: + Ping(const Ping&) = delete; + Ping(Ping&& o) : self(o.self) { memset(&o, 0, sizeof(Ping)); } + Ping(LDKPing&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKPing)); } + operator LDKPing() && { LDKPing res = self; memset(&self, 0, sizeof(LDKPing)); return res; } + ~Ping() { Ping_free(self); } + Ping& operator=(Ping&& o) { Ping_free(self); self = o.self; memset(&o, 0, sizeof(Ping)); return *this; } + LDKPing* operator &() { return &self; } + LDKPing* operator ->() { return &self; } + const LDKPing* operator &() const { return &self; } + const LDKPing* operator ->() const { return &self; } +}; +class Pong { +private: + LDKPong self; +public: + Pong(const Pong&) = delete; + Pong(Pong&& o) : self(o.self) { memset(&o, 0, sizeof(Pong)); } + Pong(LDKPong&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKPong)); } + operator LDKPong() && { LDKPong res = self; memset(&self, 0, sizeof(LDKPong)); return res; } + ~Pong() { Pong_free(self); } + Pong& operator=(Pong&& o) { Pong_free(self); self = o.self; memset(&o, 0, sizeof(Pong)); return *this; } + LDKPong* operator &() { return &self; } + LDKPong* operator ->() { return &self; } + const LDKPong* operator &() const { return &self; } + const LDKPong* operator ->() const { return &self; } +}; +class OpenChannel { +private: + LDKOpenChannel self; +public: + OpenChannel(const OpenChannel&) = delete; + OpenChannel(OpenChannel&& o) : self(o.self) { memset(&o, 0, sizeof(OpenChannel)); } + OpenChannel(LDKOpenChannel&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKOpenChannel)); } + operator LDKOpenChannel() && { LDKOpenChannel res = self; memset(&self, 0, sizeof(LDKOpenChannel)); return res; } + ~OpenChannel() { OpenChannel_free(self); } + OpenChannel& operator=(OpenChannel&& o) { OpenChannel_free(self); self = o.self; memset(&o, 0, sizeof(OpenChannel)); return *this; } + LDKOpenChannel* operator &() { return &self; } + LDKOpenChannel* operator ->() { return &self; } + const LDKOpenChannel* operator &() const { return &self; } + const LDKOpenChannel* operator ->() const { return &self; } +}; +class AcceptChannel { +private: + LDKAcceptChannel self; +public: + AcceptChannel(const AcceptChannel&) = delete; + AcceptChannel(AcceptChannel&& o) : self(o.self) { memset(&o, 0, sizeof(AcceptChannel)); } + AcceptChannel(LDKAcceptChannel&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKAcceptChannel)); } + operator LDKAcceptChannel() && { LDKAcceptChannel res = self; memset(&self, 0, sizeof(LDKAcceptChannel)); return res; } + ~AcceptChannel() { AcceptChannel_free(self); } + AcceptChannel& operator=(AcceptChannel&& o) { AcceptChannel_free(self); self = o.self; memset(&o, 0, sizeof(AcceptChannel)); return *this; } + LDKAcceptChannel* operator &() { return &self; } + LDKAcceptChannel* operator ->() { return &self; } + const LDKAcceptChannel* operator &() const { return &self; } + const LDKAcceptChannel* operator ->() const { return &self; } +}; +class FundingCreated { +private: + LDKFundingCreated self; +public: + FundingCreated(const FundingCreated&) = delete; + FundingCreated(FundingCreated&& o) : self(o.self) { memset(&o, 0, sizeof(FundingCreated)); } + FundingCreated(LDKFundingCreated&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKFundingCreated)); } + operator LDKFundingCreated() && { LDKFundingCreated res = self; memset(&self, 0, sizeof(LDKFundingCreated)); return res; } + ~FundingCreated() { FundingCreated_free(self); } + FundingCreated& operator=(FundingCreated&& o) { FundingCreated_free(self); self = o.self; memset(&o, 0, sizeof(FundingCreated)); return *this; } + LDKFundingCreated* operator &() { return &self; } + LDKFundingCreated* operator ->() { return &self; } + const LDKFundingCreated* operator &() const { return &self; } + const LDKFundingCreated* operator ->() const { return &self; } +}; +class FundingSigned { +private: + LDKFundingSigned self; +public: + FundingSigned(const FundingSigned&) = delete; + FundingSigned(FundingSigned&& o) : self(o.self) { memset(&o, 0, sizeof(FundingSigned)); } + FundingSigned(LDKFundingSigned&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKFundingSigned)); } + operator LDKFundingSigned() && { LDKFundingSigned res = self; memset(&self, 0, sizeof(LDKFundingSigned)); return res; } + ~FundingSigned() { FundingSigned_free(self); } + FundingSigned& operator=(FundingSigned&& o) { FundingSigned_free(self); self = o.self; memset(&o, 0, sizeof(FundingSigned)); return *this; } + LDKFundingSigned* operator &() { return &self; } + LDKFundingSigned* operator ->() { return &self; } + const LDKFundingSigned* operator &() const { return &self; } + const LDKFundingSigned* operator ->() const { return &self; } +}; +class FundingLocked { +private: + LDKFundingLocked self; +public: + FundingLocked(const FundingLocked&) = delete; + FundingLocked(FundingLocked&& o) : self(o.self) { memset(&o, 0, sizeof(FundingLocked)); } + FundingLocked(LDKFundingLocked&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKFundingLocked)); } + operator LDKFundingLocked() && { LDKFundingLocked res = self; memset(&self, 0, sizeof(LDKFundingLocked)); return res; } + ~FundingLocked() { FundingLocked_free(self); } + FundingLocked& operator=(FundingLocked&& o) { FundingLocked_free(self); self = o.self; memset(&o, 0, sizeof(FundingLocked)); return *this; } + LDKFundingLocked* operator &() { return &self; } + LDKFundingLocked* operator ->() { return &self; } + const LDKFundingLocked* operator &() const { return &self; } + const LDKFundingLocked* operator ->() const { return &self; } +}; +class Shutdown { +private: + LDKShutdown self; +public: + Shutdown(const Shutdown&) = delete; + Shutdown(Shutdown&& o) : self(o.self) { memset(&o, 0, sizeof(Shutdown)); } + Shutdown(LDKShutdown&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKShutdown)); } + operator LDKShutdown() && { LDKShutdown res = self; memset(&self, 0, sizeof(LDKShutdown)); return res; } + ~Shutdown() { Shutdown_free(self); } + Shutdown& operator=(Shutdown&& o) { Shutdown_free(self); self = o.self; memset(&o, 0, sizeof(Shutdown)); return *this; } + LDKShutdown* operator &() { return &self; } + LDKShutdown* operator ->() { return &self; } + const LDKShutdown* operator &() const { return &self; } + const LDKShutdown* operator ->() const { return &self; } +}; +class ClosingSigned { +private: + LDKClosingSigned self; +public: + ClosingSigned(const ClosingSigned&) = delete; + ClosingSigned(ClosingSigned&& o) : self(o.self) { memset(&o, 0, sizeof(ClosingSigned)); } + ClosingSigned(LDKClosingSigned&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKClosingSigned)); } + operator LDKClosingSigned() && { LDKClosingSigned res = self; memset(&self, 0, sizeof(LDKClosingSigned)); return res; } + ~ClosingSigned() { ClosingSigned_free(self); } + ClosingSigned& operator=(ClosingSigned&& o) { ClosingSigned_free(self); self = o.self; memset(&o, 0, sizeof(ClosingSigned)); return *this; } + LDKClosingSigned* operator &() { return &self; } + LDKClosingSigned* operator ->() { return &self; } + const LDKClosingSigned* operator &() const { return &self; } + const LDKClosingSigned* operator ->() const { return &self; } +}; +class UpdateAddHTLC { +private: + LDKUpdateAddHTLC self; +public: + UpdateAddHTLC(const UpdateAddHTLC&) = delete; + UpdateAddHTLC(UpdateAddHTLC&& o) : self(o.self) { memset(&o, 0, sizeof(UpdateAddHTLC)); } + UpdateAddHTLC(LDKUpdateAddHTLC&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKUpdateAddHTLC)); } + operator LDKUpdateAddHTLC() && { LDKUpdateAddHTLC res = self; memset(&self, 0, sizeof(LDKUpdateAddHTLC)); return res; } + ~UpdateAddHTLC() { UpdateAddHTLC_free(self); } + UpdateAddHTLC& operator=(UpdateAddHTLC&& o) { UpdateAddHTLC_free(self); self = o.self; memset(&o, 0, sizeof(UpdateAddHTLC)); return *this; } + LDKUpdateAddHTLC* operator &() { return &self; } + LDKUpdateAddHTLC* operator ->() { return &self; } + const LDKUpdateAddHTLC* operator &() const { return &self; } + const LDKUpdateAddHTLC* operator ->() const { return &self; } +}; +class UpdateFulfillHTLC { +private: + LDKUpdateFulfillHTLC self; +public: + UpdateFulfillHTLC(const UpdateFulfillHTLC&) = delete; + UpdateFulfillHTLC(UpdateFulfillHTLC&& o) : self(o.self) { memset(&o, 0, sizeof(UpdateFulfillHTLC)); } + UpdateFulfillHTLC(LDKUpdateFulfillHTLC&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKUpdateFulfillHTLC)); } + operator LDKUpdateFulfillHTLC() && { LDKUpdateFulfillHTLC res = self; memset(&self, 0, sizeof(LDKUpdateFulfillHTLC)); return res; } + ~UpdateFulfillHTLC() { UpdateFulfillHTLC_free(self); } + UpdateFulfillHTLC& operator=(UpdateFulfillHTLC&& o) { UpdateFulfillHTLC_free(self); self = o.self; memset(&o, 0, sizeof(UpdateFulfillHTLC)); return *this; } + LDKUpdateFulfillHTLC* operator &() { return &self; } + LDKUpdateFulfillHTLC* operator ->() { return &self; } + const LDKUpdateFulfillHTLC* operator &() const { return &self; } + const LDKUpdateFulfillHTLC* operator ->() const { return &self; } +}; +class UpdateFailHTLC { +private: + LDKUpdateFailHTLC self; +public: + UpdateFailHTLC(const UpdateFailHTLC&) = delete; + UpdateFailHTLC(UpdateFailHTLC&& o) : self(o.self) { memset(&o, 0, sizeof(UpdateFailHTLC)); } + UpdateFailHTLC(LDKUpdateFailHTLC&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKUpdateFailHTLC)); } + operator LDKUpdateFailHTLC() && { LDKUpdateFailHTLC res = self; memset(&self, 0, sizeof(LDKUpdateFailHTLC)); return res; } + ~UpdateFailHTLC() { UpdateFailHTLC_free(self); } + UpdateFailHTLC& operator=(UpdateFailHTLC&& o) { UpdateFailHTLC_free(self); self = o.self; memset(&o, 0, sizeof(UpdateFailHTLC)); return *this; } + LDKUpdateFailHTLC* operator &() { return &self; } + LDKUpdateFailHTLC* operator ->() { return &self; } + const LDKUpdateFailHTLC* operator &() const { return &self; } + const LDKUpdateFailHTLC* operator ->() const { return &self; } +}; +class UpdateFailMalformedHTLC { +private: + LDKUpdateFailMalformedHTLC self; +public: + UpdateFailMalformedHTLC(const UpdateFailMalformedHTLC&) = delete; + UpdateFailMalformedHTLC(UpdateFailMalformedHTLC&& o) : self(o.self) { memset(&o, 0, sizeof(UpdateFailMalformedHTLC)); } + UpdateFailMalformedHTLC(LDKUpdateFailMalformedHTLC&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKUpdateFailMalformedHTLC)); } + operator LDKUpdateFailMalformedHTLC() && { LDKUpdateFailMalformedHTLC res = self; memset(&self, 0, sizeof(LDKUpdateFailMalformedHTLC)); return res; } + ~UpdateFailMalformedHTLC() { UpdateFailMalformedHTLC_free(self); } + UpdateFailMalformedHTLC& operator=(UpdateFailMalformedHTLC&& o) { UpdateFailMalformedHTLC_free(self); self = o.self; memset(&o, 0, sizeof(UpdateFailMalformedHTLC)); return *this; } + LDKUpdateFailMalformedHTLC* operator &() { return &self; } + LDKUpdateFailMalformedHTLC* operator ->() { return &self; } + const LDKUpdateFailMalformedHTLC* operator &() const { return &self; } + const LDKUpdateFailMalformedHTLC* operator ->() const { return &self; } +}; +class CommitmentSigned { +private: + LDKCommitmentSigned self; +public: + CommitmentSigned(const CommitmentSigned&) = delete; + CommitmentSigned(CommitmentSigned&& o) : self(o.self) { memset(&o, 0, sizeof(CommitmentSigned)); } + CommitmentSigned(LDKCommitmentSigned&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCommitmentSigned)); } + operator LDKCommitmentSigned() && { LDKCommitmentSigned res = self; memset(&self, 0, sizeof(LDKCommitmentSigned)); return res; } + ~CommitmentSigned() { CommitmentSigned_free(self); } + CommitmentSigned& operator=(CommitmentSigned&& o) { CommitmentSigned_free(self); self = o.self; memset(&o, 0, sizeof(CommitmentSigned)); return *this; } + LDKCommitmentSigned* operator &() { return &self; } + LDKCommitmentSigned* operator ->() { return &self; } + const LDKCommitmentSigned* operator &() const { return &self; } + const LDKCommitmentSigned* operator ->() const { return &self; } +}; +class RevokeAndACK { +private: + LDKRevokeAndACK self; +public: + RevokeAndACK(const RevokeAndACK&) = delete; + RevokeAndACK(RevokeAndACK&& o) : self(o.self) { memset(&o, 0, sizeof(RevokeAndACK)); } + RevokeAndACK(LDKRevokeAndACK&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKRevokeAndACK)); } + operator LDKRevokeAndACK() && { LDKRevokeAndACK res = self; memset(&self, 0, sizeof(LDKRevokeAndACK)); return res; } + ~RevokeAndACK() { RevokeAndACK_free(self); } + RevokeAndACK& operator=(RevokeAndACK&& o) { RevokeAndACK_free(self); self = o.self; memset(&o, 0, sizeof(RevokeAndACK)); return *this; } + LDKRevokeAndACK* operator &() { return &self; } + LDKRevokeAndACK* operator ->() { return &self; } + const LDKRevokeAndACK* operator &() const { return &self; } + const LDKRevokeAndACK* operator ->() const { return &self; } +}; +class UpdateFee { +private: + LDKUpdateFee self; +public: + UpdateFee(const UpdateFee&) = delete; + UpdateFee(UpdateFee&& o) : self(o.self) { memset(&o, 0, sizeof(UpdateFee)); } + UpdateFee(LDKUpdateFee&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKUpdateFee)); } + operator LDKUpdateFee() && { LDKUpdateFee res = self; memset(&self, 0, sizeof(LDKUpdateFee)); return res; } + ~UpdateFee() { UpdateFee_free(self); } + UpdateFee& operator=(UpdateFee&& o) { UpdateFee_free(self); self = o.self; memset(&o, 0, sizeof(UpdateFee)); return *this; } + LDKUpdateFee* operator &() { return &self; } + LDKUpdateFee* operator ->() { return &self; } + const LDKUpdateFee* operator &() const { return &self; } + const LDKUpdateFee* operator ->() const { return &self; } +}; +class DataLossProtect { +private: + LDKDataLossProtect self; +public: + DataLossProtect(const DataLossProtect&) = delete; + DataLossProtect(DataLossProtect&& o) : self(o.self) { memset(&o, 0, sizeof(DataLossProtect)); } + DataLossProtect(LDKDataLossProtect&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKDataLossProtect)); } + operator LDKDataLossProtect() && { LDKDataLossProtect res = self; memset(&self, 0, sizeof(LDKDataLossProtect)); return res; } + ~DataLossProtect() { DataLossProtect_free(self); } + DataLossProtect& operator=(DataLossProtect&& o) { DataLossProtect_free(self); self = o.self; memset(&o, 0, sizeof(DataLossProtect)); return *this; } + LDKDataLossProtect* operator &() { return &self; } + LDKDataLossProtect* operator ->() { return &self; } + const LDKDataLossProtect* operator &() const { return &self; } + const LDKDataLossProtect* operator ->() const { return &self; } +}; +class ChannelReestablish { +private: + LDKChannelReestablish self; +public: + ChannelReestablish(const ChannelReestablish&) = delete; + ChannelReestablish(ChannelReestablish&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelReestablish)); } + ChannelReestablish(LDKChannelReestablish&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelReestablish)); } + operator LDKChannelReestablish() && { LDKChannelReestablish res = self; memset(&self, 0, sizeof(LDKChannelReestablish)); return res; } + ~ChannelReestablish() { ChannelReestablish_free(self); } + ChannelReestablish& operator=(ChannelReestablish&& o) { ChannelReestablish_free(self); self = o.self; memset(&o, 0, sizeof(ChannelReestablish)); return *this; } + LDKChannelReestablish* operator &() { return &self; } + LDKChannelReestablish* operator ->() { return &self; } + const LDKChannelReestablish* operator &() const { return &self; } + const LDKChannelReestablish* operator ->() const { return &self; } +}; +class AnnouncementSignatures { +private: + LDKAnnouncementSignatures self; +public: + AnnouncementSignatures(const AnnouncementSignatures&) = delete; + AnnouncementSignatures(AnnouncementSignatures&& o) : self(o.self) { memset(&o, 0, sizeof(AnnouncementSignatures)); } + AnnouncementSignatures(LDKAnnouncementSignatures&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKAnnouncementSignatures)); } + operator LDKAnnouncementSignatures() && { LDKAnnouncementSignatures res = self; memset(&self, 0, sizeof(LDKAnnouncementSignatures)); return res; } + ~AnnouncementSignatures() { AnnouncementSignatures_free(self); } + AnnouncementSignatures& operator=(AnnouncementSignatures&& o) { AnnouncementSignatures_free(self); self = o.self; memset(&o, 0, sizeof(AnnouncementSignatures)); return *this; } + LDKAnnouncementSignatures* operator &() { return &self; } + LDKAnnouncementSignatures* operator ->() { return &self; } + const LDKAnnouncementSignatures* operator &() const { return &self; } + const LDKAnnouncementSignatures* operator ->() const { return &self; } +}; +class NetAddress { +private: + LDKNetAddress self; +public: + NetAddress(const NetAddress&) = delete; + NetAddress(NetAddress&& o) : self(o.self) { memset(&o, 0, sizeof(NetAddress)); } + NetAddress(LDKNetAddress&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKNetAddress)); } + operator LDKNetAddress() && { LDKNetAddress res = self; memset(&self, 0, sizeof(LDKNetAddress)); return res; } + ~NetAddress() { NetAddress_free(self); } + NetAddress& operator=(NetAddress&& o) { NetAddress_free(self); self = o.self; memset(&o, 0, sizeof(NetAddress)); return *this; } + LDKNetAddress* operator &() { return &self; } + LDKNetAddress* operator ->() { return &self; } + const LDKNetAddress* operator &() const { return &self; } + const LDKNetAddress* operator ->() const { return &self; } +}; +class UnsignedNodeAnnouncement { +private: + LDKUnsignedNodeAnnouncement self; +public: + UnsignedNodeAnnouncement(const UnsignedNodeAnnouncement&) = delete; + UnsignedNodeAnnouncement(UnsignedNodeAnnouncement&& o) : self(o.self) { memset(&o, 0, sizeof(UnsignedNodeAnnouncement)); } + UnsignedNodeAnnouncement(LDKUnsignedNodeAnnouncement&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKUnsignedNodeAnnouncement)); } + operator LDKUnsignedNodeAnnouncement() && { LDKUnsignedNodeAnnouncement res = self; memset(&self, 0, sizeof(LDKUnsignedNodeAnnouncement)); return res; } + ~UnsignedNodeAnnouncement() { UnsignedNodeAnnouncement_free(self); } + UnsignedNodeAnnouncement& operator=(UnsignedNodeAnnouncement&& o) { UnsignedNodeAnnouncement_free(self); self = o.self; memset(&o, 0, sizeof(UnsignedNodeAnnouncement)); return *this; } + LDKUnsignedNodeAnnouncement* operator &() { return &self; } + LDKUnsignedNodeAnnouncement* operator ->() { return &self; } + const LDKUnsignedNodeAnnouncement* operator &() const { return &self; } + const LDKUnsignedNodeAnnouncement* operator ->() const { return &self; } +}; +class NodeAnnouncement { +private: + LDKNodeAnnouncement self; +public: + NodeAnnouncement(const NodeAnnouncement&) = delete; + NodeAnnouncement(NodeAnnouncement&& o) : self(o.self) { memset(&o, 0, sizeof(NodeAnnouncement)); } + NodeAnnouncement(LDKNodeAnnouncement&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKNodeAnnouncement)); } + operator LDKNodeAnnouncement() && { LDKNodeAnnouncement res = self; memset(&self, 0, sizeof(LDKNodeAnnouncement)); return res; } + ~NodeAnnouncement() { NodeAnnouncement_free(self); } + NodeAnnouncement& operator=(NodeAnnouncement&& o) { NodeAnnouncement_free(self); self = o.self; memset(&o, 0, sizeof(NodeAnnouncement)); return *this; } + LDKNodeAnnouncement* operator &() { return &self; } + LDKNodeAnnouncement* operator ->() { return &self; } + const LDKNodeAnnouncement* operator &() const { return &self; } + const LDKNodeAnnouncement* operator ->() const { return &self; } +}; +class UnsignedChannelAnnouncement { +private: + LDKUnsignedChannelAnnouncement self; +public: + UnsignedChannelAnnouncement(const UnsignedChannelAnnouncement&) = delete; + UnsignedChannelAnnouncement(UnsignedChannelAnnouncement&& o) : self(o.self) { memset(&o, 0, sizeof(UnsignedChannelAnnouncement)); } + UnsignedChannelAnnouncement(LDKUnsignedChannelAnnouncement&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKUnsignedChannelAnnouncement)); } + operator LDKUnsignedChannelAnnouncement() && { LDKUnsignedChannelAnnouncement res = self; memset(&self, 0, sizeof(LDKUnsignedChannelAnnouncement)); return res; } + ~UnsignedChannelAnnouncement() { UnsignedChannelAnnouncement_free(self); } + UnsignedChannelAnnouncement& operator=(UnsignedChannelAnnouncement&& o) { UnsignedChannelAnnouncement_free(self); self = o.self; memset(&o, 0, sizeof(UnsignedChannelAnnouncement)); return *this; } + LDKUnsignedChannelAnnouncement* operator &() { return &self; } + LDKUnsignedChannelAnnouncement* operator ->() { return &self; } + const LDKUnsignedChannelAnnouncement* operator &() const { return &self; } + const LDKUnsignedChannelAnnouncement* operator ->() const { return &self; } +}; +class ChannelAnnouncement { +private: + LDKChannelAnnouncement self; +public: + ChannelAnnouncement(const ChannelAnnouncement&) = delete; + ChannelAnnouncement(ChannelAnnouncement&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelAnnouncement)); } + ChannelAnnouncement(LDKChannelAnnouncement&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelAnnouncement)); } + operator LDKChannelAnnouncement() && { LDKChannelAnnouncement res = self; memset(&self, 0, sizeof(LDKChannelAnnouncement)); return res; } + ~ChannelAnnouncement() { ChannelAnnouncement_free(self); } + ChannelAnnouncement& operator=(ChannelAnnouncement&& o) { ChannelAnnouncement_free(self); self = o.self; memset(&o, 0, sizeof(ChannelAnnouncement)); return *this; } + LDKChannelAnnouncement* operator &() { return &self; } + LDKChannelAnnouncement* operator ->() { return &self; } + const LDKChannelAnnouncement* operator &() const { return &self; } + const LDKChannelAnnouncement* operator ->() const { return &self; } +}; +class UnsignedChannelUpdate { +private: + LDKUnsignedChannelUpdate self; +public: + UnsignedChannelUpdate(const UnsignedChannelUpdate&) = delete; + UnsignedChannelUpdate(UnsignedChannelUpdate&& o) : self(o.self) { memset(&o, 0, sizeof(UnsignedChannelUpdate)); } + UnsignedChannelUpdate(LDKUnsignedChannelUpdate&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKUnsignedChannelUpdate)); } + operator LDKUnsignedChannelUpdate() && { LDKUnsignedChannelUpdate res = self; memset(&self, 0, sizeof(LDKUnsignedChannelUpdate)); return res; } + ~UnsignedChannelUpdate() { UnsignedChannelUpdate_free(self); } + UnsignedChannelUpdate& operator=(UnsignedChannelUpdate&& o) { UnsignedChannelUpdate_free(self); self = o.self; memset(&o, 0, sizeof(UnsignedChannelUpdate)); return *this; } + LDKUnsignedChannelUpdate* operator &() { return &self; } + LDKUnsignedChannelUpdate* operator ->() { return &self; } + const LDKUnsignedChannelUpdate* operator &() const { return &self; } + const LDKUnsignedChannelUpdate* operator ->() const { return &self; } +}; +class ChannelUpdate { +private: + LDKChannelUpdate self; +public: + ChannelUpdate(const ChannelUpdate&) = delete; + ChannelUpdate(ChannelUpdate&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelUpdate)); } + ChannelUpdate(LDKChannelUpdate&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelUpdate)); } + operator LDKChannelUpdate() && { LDKChannelUpdate res = self; memset(&self, 0, sizeof(LDKChannelUpdate)); return res; } + ~ChannelUpdate() { ChannelUpdate_free(self); } + ChannelUpdate& operator=(ChannelUpdate&& o) { ChannelUpdate_free(self); self = o.self; memset(&o, 0, sizeof(ChannelUpdate)); return *this; } + LDKChannelUpdate* operator &() { return &self; } + LDKChannelUpdate* operator ->() { return &self; } + const LDKChannelUpdate* operator &() const { return &self; } + const LDKChannelUpdate* operator ->() const { return &self; } +}; +class QueryChannelRange { +private: + LDKQueryChannelRange self; +public: + QueryChannelRange(const QueryChannelRange&) = delete; + QueryChannelRange(QueryChannelRange&& o) : self(o.self) { memset(&o, 0, sizeof(QueryChannelRange)); } + QueryChannelRange(LDKQueryChannelRange&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKQueryChannelRange)); } + operator LDKQueryChannelRange() && { LDKQueryChannelRange res = self; memset(&self, 0, sizeof(LDKQueryChannelRange)); return res; } + ~QueryChannelRange() { QueryChannelRange_free(self); } + QueryChannelRange& operator=(QueryChannelRange&& o) { QueryChannelRange_free(self); self = o.self; memset(&o, 0, sizeof(QueryChannelRange)); return *this; } + LDKQueryChannelRange* operator &() { return &self; } + LDKQueryChannelRange* operator ->() { return &self; } + const LDKQueryChannelRange* operator &() const { return &self; } + const LDKQueryChannelRange* operator ->() const { return &self; } +}; +class ReplyChannelRange { +private: + LDKReplyChannelRange self; +public: + ReplyChannelRange(const ReplyChannelRange&) = delete; + ReplyChannelRange(ReplyChannelRange&& o) : self(o.self) { memset(&o, 0, sizeof(ReplyChannelRange)); } + ReplyChannelRange(LDKReplyChannelRange&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKReplyChannelRange)); } + operator LDKReplyChannelRange() && { LDKReplyChannelRange res = self; memset(&self, 0, sizeof(LDKReplyChannelRange)); return res; } + ~ReplyChannelRange() { ReplyChannelRange_free(self); } + ReplyChannelRange& operator=(ReplyChannelRange&& o) { ReplyChannelRange_free(self); self = o.self; memset(&o, 0, sizeof(ReplyChannelRange)); return *this; } + LDKReplyChannelRange* operator &() { return &self; } + LDKReplyChannelRange* operator ->() { return &self; } + const LDKReplyChannelRange* operator &() const { return &self; } + const LDKReplyChannelRange* operator ->() const { return &self; } +}; +class QueryShortChannelIds { +private: + LDKQueryShortChannelIds self; +public: + QueryShortChannelIds(const QueryShortChannelIds&) = delete; + QueryShortChannelIds(QueryShortChannelIds&& o) : self(o.self) { memset(&o, 0, sizeof(QueryShortChannelIds)); } + QueryShortChannelIds(LDKQueryShortChannelIds&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKQueryShortChannelIds)); } + operator LDKQueryShortChannelIds() && { LDKQueryShortChannelIds res = self; memset(&self, 0, sizeof(LDKQueryShortChannelIds)); return res; } + ~QueryShortChannelIds() { QueryShortChannelIds_free(self); } + QueryShortChannelIds& operator=(QueryShortChannelIds&& o) { QueryShortChannelIds_free(self); self = o.self; memset(&o, 0, sizeof(QueryShortChannelIds)); return *this; } + LDKQueryShortChannelIds* operator &() { return &self; } + LDKQueryShortChannelIds* operator ->() { return &self; } + const LDKQueryShortChannelIds* operator &() const { return &self; } + const LDKQueryShortChannelIds* operator ->() const { return &self; } +}; +class ReplyShortChannelIdsEnd { +private: + LDKReplyShortChannelIdsEnd self; +public: + ReplyShortChannelIdsEnd(const ReplyShortChannelIdsEnd&) = delete; + ReplyShortChannelIdsEnd(ReplyShortChannelIdsEnd&& o) : self(o.self) { memset(&o, 0, sizeof(ReplyShortChannelIdsEnd)); } + ReplyShortChannelIdsEnd(LDKReplyShortChannelIdsEnd&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKReplyShortChannelIdsEnd)); } + operator LDKReplyShortChannelIdsEnd() && { LDKReplyShortChannelIdsEnd res = self; memset(&self, 0, sizeof(LDKReplyShortChannelIdsEnd)); return res; } + ~ReplyShortChannelIdsEnd() { ReplyShortChannelIdsEnd_free(self); } + ReplyShortChannelIdsEnd& operator=(ReplyShortChannelIdsEnd&& o) { ReplyShortChannelIdsEnd_free(self); self = o.self; memset(&o, 0, sizeof(ReplyShortChannelIdsEnd)); return *this; } + LDKReplyShortChannelIdsEnd* operator &() { return &self; } + LDKReplyShortChannelIdsEnd* operator ->() { return &self; } + const LDKReplyShortChannelIdsEnd* operator &() const { return &self; } + const LDKReplyShortChannelIdsEnd* operator ->() const { return &self; } +}; +class GossipTimestampFilter { +private: + LDKGossipTimestampFilter self; +public: + GossipTimestampFilter(const GossipTimestampFilter&) = delete; + GossipTimestampFilter(GossipTimestampFilter&& o) : self(o.self) { memset(&o, 0, sizeof(GossipTimestampFilter)); } + GossipTimestampFilter(LDKGossipTimestampFilter&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKGossipTimestampFilter)); } + operator LDKGossipTimestampFilter() && { LDKGossipTimestampFilter res = self; memset(&self, 0, sizeof(LDKGossipTimestampFilter)); return res; } + ~GossipTimestampFilter() { GossipTimestampFilter_free(self); } + GossipTimestampFilter& operator=(GossipTimestampFilter&& o) { GossipTimestampFilter_free(self); self = o.self; memset(&o, 0, sizeof(GossipTimestampFilter)); return *this; } + LDKGossipTimestampFilter* operator &() { return &self; } + LDKGossipTimestampFilter* operator ->() { return &self; } + const LDKGossipTimestampFilter* operator &() const { return &self; } + const LDKGossipTimestampFilter* operator ->() const { return &self; } +}; +class ErrorAction { +private: + LDKErrorAction self; +public: + ErrorAction(const ErrorAction&) = delete; + ErrorAction(ErrorAction&& o) : self(o.self) { memset(&o, 0, sizeof(ErrorAction)); } + ErrorAction(LDKErrorAction&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKErrorAction)); } + operator LDKErrorAction() && { LDKErrorAction res = self; memset(&self, 0, sizeof(LDKErrorAction)); return res; } + ~ErrorAction() { ErrorAction_free(self); } + ErrorAction& operator=(ErrorAction&& o) { ErrorAction_free(self); self = o.self; memset(&o, 0, sizeof(ErrorAction)); return *this; } + LDKErrorAction* operator &() { return &self; } + LDKErrorAction* operator ->() { return &self; } + const LDKErrorAction* operator &() const { return &self; } + const LDKErrorAction* operator ->() const { return &self; } +}; +class LightningError { +private: + LDKLightningError self; +public: + LightningError(const LightningError&) = delete; + LightningError(LightningError&& o) : self(o.self) { memset(&o, 0, sizeof(LightningError)); } + LightningError(LDKLightningError&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKLightningError)); } + operator LDKLightningError() && { LDKLightningError res = self; memset(&self, 0, sizeof(LDKLightningError)); return res; } + ~LightningError() { LightningError_free(self); } + LightningError& operator=(LightningError&& o) { LightningError_free(self); self = o.self; memset(&o, 0, sizeof(LightningError)); return *this; } + LDKLightningError* operator &() { return &self; } + LDKLightningError* operator ->() { return &self; } + const LDKLightningError* operator &() const { return &self; } + const LDKLightningError* operator ->() const { return &self; } +}; +class CommitmentUpdate { +private: + LDKCommitmentUpdate self; +public: + CommitmentUpdate(const CommitmentUpdate&) = delete; + CommitmentUpdate(CommitmentUpdate&& o) : self(o.self) { memset(&o, 0, sizeof(CommitmentUpdate)); } + CommitmentUpdate(LDKCommitmentUpdate&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCommitmentUpdate)); } + operator LDKCommitmentUpdate() && { LDKCommitmentUpdate res = self; memset(&self, 0, sizeof(LDKCommitmentUpdate)); return res; } + ~CommitmentUpdate() { CommitmentUpdate_free(self); } + CommitmentUpdate& operator=(CommitmentUpdate&& o) { CommitmentUpdate_free(self); self = o.self; memset(&o, 0, sizeof(CommitmentUpdate)); return *this; } + LDKCommitmentUpdate* operator &() { return &self; } + LDKCommitmentUpdate* operator ->() { return &self; } + const LDKCommitmentUpdate* operator &() const { return &self; } + const LDKCommitmentUpdate* operator ->() const { return &self; } +}; +class HTLCFailChannelUpdate { +private: + LDKHTLCFailChannelUpdate self; +public: + HTLCFailChannelUpdate(const HTLCFailChannelUpdate&) = delete; + HTLCFailChannelUpdate(HTLCFailChannelUpdate&& o) : self(o.self) { memset(&o, 0, sizeof(HTLCFailChannelUpdate)); } + HTLCFailChannelUpdate(LDKHTLCFailChannelUpdate&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKHTLCFailChannelUpdate)); } + operator LDKHTLCFailChannelUpdate() && { LDKHTLCFailChannelUpdate res = self; memset(&self, 0, sizeof(LDKHTLCFailChannelUpdate)); return res; } + ~HTLCFailChannelUpdate() { HTLCFailChannelUpdate_free(self); } + HTLCFailChannelUpdate& operator=(HTLCFailChannelUpdate&& o) { HTLCFailChannelUpdate_free(self); self = o.self; memset(&o, 0, sizeof(HTLCFailChannelUpdate)); return *this; } + LDKHTLCFailChannelUpdate* operator &() { return &self; } + LDKHTLCFailChannelUpdate* operator ->() { return &self; } + const LDKHTLCFailChannelUpdate* operator &() const { return &self; } + const LDKHTLCFailChannelUpdate* operator ->() const { return &self; } +}; +class ChannelMessageHandler { +private: + LDKChannelMessageHandler self; +public: + ChannelMessageHandler(const ChannelMessageHandler&) = delete; + ChannelMessageHandler(ChannelMessageHandler&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelMessageHandler)); } + ChannelMessageHandler(LDKChannelMessageHandler&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelMessageHandler)); } + operator LDKChannelMessageHandler() && { LDKChannelMessageHandler res = self; memset(&self, 0, sizeof(LDKChannelMessageHandler)); return res; } + ~ChannelMessageHandler() { ChannelMessageHandler_free(self); } + ChannelMessageHandler& operator=(ChannelMessageHandler&& o) { ChannelMessageHandler_free(self); self = o.self; memset(&o, 0, sizeof(ChannelMessageHandler)); return *this; } + LDKChannelMessageHandler* operator &() { return &self; } + LDKChannelMessageHandler* operator ->() { return &self; } + const LDKChannelMessageHandler* operator &() const { return &self; } + const LDKChannelMessageHandler* operator ->() const { return &self; } +}; +class RoutingMessageHandler { +private: + LDKRoutingMessageHandler self; +public: + RoutingMessageHandler(const RoutingMessageHandler&) = delete; + RoutingMessageHandler(RoutingMessageHandler&& o) : self(o.self) { memset(&o, 0, sizeof(RoutingMessageHandler)); } + RoutingMessageHandler(LDKRoutingMessageHandler&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKRoutingMessageHandler)); } + operator LDKRoutingMessageHandler() && { LDKRoutingMessageHandler res = self; memset(&self, 0, sizeof(LDKRoutingMessageHandler)); return res; } + ~RoutingMessageHandler() { RoutingMessageHandler_free(self); } + RoutingMessageHandler& operator=(RoutingMessageHandler&& o) { RoutingMessageHandler_free(self); self = o.self; memset(&o, 0, sizeof(RoutingMessageHandler)); return *this; } + LDKRoutingMessageHandler* operator &() { return &self; } + LDKRoutingMessageHandler* operator ->() { return &self; } + const LDKRoutingMessageHandler* operator &() const { return &self; } + const LDKRoutingMessageHandler* operator ->() const { return &self; } +}; +class CVec_SpendableOutputDescriptorZ { +private: + LDKCVec_SpendableOutputDescriptorZ self; +public: + CVec_SpendableOutputDescriptorZ(const CVec_SpendableOutputDescriptorZ&) = delete; + CVec_SpendableOutputDescriptorZ(CVec_SpendableOutputDescriptorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_SpendableOutputDescriptorZ)); } + CVec_SpendableOutputDescriptorZ(LDKCVec_SpendableOutputDescriptorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_SpendableOutputDescriptorZ)); } + operator LDKCVec_SpendableOutputDescriptorZ() && { LDKCVec_SpendableOutputDescriptorZ res = self; memset(&self, 0, sizeof(LDKCVec_SpendableOutputDescriptorZ)); return res; } + ~CVec_SpendableOutputDescriptorZ() { CVec_SpendableOutputDescriptorZ_free(self); } + CVec_SpendableOutputDescriptorZ& operator=(CVec_SpendableOutputDescriptorZ&& o) { CVec_SpendableOutputDescriptorZ_free(self); self = o.self; memset(&o, 0, sizeof(CVec_SpendableOutputDescriptorZ)); return *this; } + LDKCVec_SpendableOutputDescriptorZ* operator &() { return &self; } + LDKCVec_SpendableOutputDescriptorZ* operator ->() { return &self; } + const LDKCVec_SpendableOutputDescriptorZ* operator &() const { return &self; } + const LDKCVec_SpendableOutputDescriptorZ* operator ->() const { return &self; } +}; +class CResult_FundingCreatedDecodeErrorZ { +private: + LDKCResult_FundingCreatedDecodeErrorZ self; +public: + CResult_FundingCreatedDecodeErrorZ(const CResult_FundingCreatedDecodeErrorZ&) = delete; + CResult_FundingCreatedDecodeErrorZ(CResult_FundingCreatedDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_FundingCreatedDecodeErrorZ)); } + CResult_FundingCreatedDecodeErrorZ(LDKCResult_FundingCreatedDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_FundingCreatedDecodeErrorZ)); } + operator LDKCResult_FundingCreatedDecodeErrorZ() && { LDKCResult_FundingCreatedDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_FundingCreatedDecodeErrorZ)); return res; } + ~CResult_FundingCreatedDecodeErrorZ() { CResult_FundingCreatedDecodeErrorZ_free(self); } + CResult_FundingCreatedDecodeErrorZ& operator=(CResult_FundingCreatedDecodeErrorZ&& o) { CResult_FundingCreatedDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_FundingCreatedDecodeErrorZ)); return *this; } + LDKCResult_FundingCreatedDecodeErrorZ* operator &() { return &self; } + LDKCResult_FundingCreatedDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_FundingCreatedDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_FundingCreatedDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_ChannelAnnouncementDecodeErrorZ { +private: + LDKCResult_ChannelAnnouncementDecodeErrorZ self; +public: + CResult_ChannelAnnouncementDecodeErrorZ(const CResult_ChannelAnnouncementDecodeErrorZ&) = delete; + CResult_ChannelAnnouncementDecodeErrorZ(CResult_ChannelAnnouncementDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_ChannelAnnouncementDecodeErrorZ)); } + CResult_ChannelAnnouncementDecodeErrorZ(LDKCResult_ChannelAnnouncementDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_ChannelAnnouncementDecodeErrorZ)); } + operator LDKCResult_ChannelAnnouncementDecodeErrorZ() && { LDKCResult_ChannelAnnouncementDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_ChannelAnnouncementDecodeErrorZ)); return res; } + ~CResult_ChannelAnnouncementDecodeErrorZ() { CResult_ChannelAnnouncementDecodeErrorZ_free(self); } + CResult_ChannelAnnouncementDecodeErrorZ& operator=(CResult_ChannelAnnouncementDecodeErrorZ&& o) { CResult_ChannelAnnouncementDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_ChannelAnnouncementDecodeErrorZ)); return *this; } + LDKCResult_ChannelAnnouncementDecodeErrorZ* operator &() { return &self; } + LDKCResult_ChannelAnnouncementDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_ChannelAnnouncementDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_ChannelAnnouncementDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_HTLCUpdateDecodeErrorZ { +private: + LDKCResult_HTLCUpdateDecodeErrorZ self; +public: + CResult_HTLCUpdateDecodeErrorZ(const CResult_HTLCUpdateDecodeErrorZ&) = delete; + CResult_HTLCUpdateDecodeErrorZ(CResult_HTLCUpdateDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_HTLCUpdateDecodeErrorZ)); } + CResult_HTLCUpdateDecodeErrorZ(LDKCResult_HTLCUpdateDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_HTLCUpdateDecodeErrorZ)); } + operator LDKCResult_HTLCUpdateDecodeErrorZ() && { LDKCResult_HTLCUpdateDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_HTLCUpdateDecodeErrorZ)); return res; } + ~CResult_HTLCUpdateDecodeErrorZ() { CResult_HTLCUpdateDecodeErrorZ_free(self); } + CResult_HTLCUpdateDecodeErrorZ& operator=(CResult_HTLCUpdateDecodeErrorZ&& o) { CResult_HTLCUpdateDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_HTLCUpdateDecodeErrorZ)); return *this; } + LDKCResult_HTLCUpdateDecodeErrorZ* operator &() { return &self; } + LDKCResult_HTLCUpdateDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_HTLCUpdateDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_HTLCUpdateDecodeErrorZ* operator ->() const { return &self; } +}; +class CVec_C2Tuple_u32TxOutZZ { +private: + LDKCVec_C2Tuple_u32TxOutZZ self; +public: + CVec_C2Tuple_u32TxOutZZ(const CVec_C2Tuple_u32TxOutZZ&) = delete; + CVec_C2Tuple_u32TxOutZZ(CVec_C2Tuple_u32TxOutZZ&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_C2Tuple_u32TxOutZZ)); } + CVec_C2Tuple_u32TxOutZZ(LDKCVec_C2Tuple_u32TxOutZZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_C2Tuple_u32TxOutZZ)); } + operator LDKCVec_C2Tuple_u32TxOutZZ() && { LDKCVec_C2Tuple_u32TxOutZZ res = self; memset(&self, 0, sizeof(LDKCVec_C2Tuple_u32TxOutZZ)); return res; } + ~CVec_C2Tuple_u32TxOutZZ() { CVec_C2Tuple_u32TxOutZZ_free(self); } + CVec_C2Tuple_u32TxOutZZ& operator=(CVec_C2Tuple_u32TxOutZZ&& o) { CVec_C2Tuple_u32TxOutZZ_free(self); self = o.self; memset(&o, 0, sizeof(CVec_C2Tuple_u32TxOutZZ)); return *this; } + LDKCVec_C2Tuple_u32TxOutZZ* operator &() { return &self; } + LDKCVec_C2Tuple_u32TxOutZZ* operator ->() { return &self; } + const LDKCVec_C2Tuple_u32TxOutZZ* operator &() const { return &self; } + const LDKCVec_C2Tuple_u32TxOutZZ* operator ->() const { return &self; } +}; +class C2Tuple_SignatureCVec_SignatureZZ { +private: + LDKC2Tuple_SignatureCVec_SignatureZZ self; +public: + C2Tuple_SignatureCVec_SignatureZZ(const C2Tuple_SignatureCVec_SignatureZZ&) = delete; + C2Tuple_SignatureCVec_SignatureZZ(C2Tuple_SignatureCVec_SignatureZZ&& o) : self(o.self) { memset(&o, 0, sizeof(C2Tuple_SignatureCVec_SignatureZZ)); } + C2Tuple_SignatureCVec_SignatureZZ(LDKC2Tuple_SignatureCVec_SignatureZZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKC2Tuple_SignatureCVec_SignatureZZ)); } + operator LDKC2Tuple_SignatureCVec_SignatureZZ() && { LDKC2Tuple_SignatureCVec_SignatureZZ res = self; memset(&self, 0, sizeof(LDKC2Tuple_SignatureCVec_SignatureZZ)); return res; } + ~C2Tuple_SignatureCVec_SignatureZZ() { C2Tuple_SignatureCVec_SignatureZZ_free(self); } + C2Tuple_SignatureCVec_SignatureZZ& operator=(C2Tuple_SignatureCVec_SignatureZZ&& o) { C2Tuple_SignatureCVec_SignatureZZ_free(self); self = o.self; memset(&o, 0, sizeof(C2Tuple_SignatureCVec_SignatureZZ)); return *this; } + LDKC2Tuple_SignatureCVec_SignatureZZ* operator &() { return &self; } + LDKC2Tuple_SignatureCVec_SignatureZZ* operator ->() { return &self; } + const LDKC2Tuple_SignatureCVec_SignatureZZ* operator &() const { return &self; } + const LDKC2Tuple_SignatureCVec_SignatureZZ* operator ->() const { return &self; } +}; +class CResult_ChannelInfoDecodeErrorZ { +private: + LDKCResult_ChannelInfoDecodeErrorZ self; +public: + CResult_ChannelInfoDecodeErrorZ(const CResult_ChannelInfoDecodeErrorZ&) = delete; + CResult_ChannelInfoDecodeErrorZ(CResult_ChannelInfoDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_ChannelInfoDecodeErrorZ)); } + CResult_ChannelInfoDecodeErrorZ(LDKCResult_ChannelInfoDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_ChannelInfoDecodeErrorZ)); } + operator LDKCResult_ChannelInfoDecodeErrorZ() && { LDKCResult_ChannelInfoDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_ChannelInfoDecodeErrorZ)); return res; } + ~CResult_ChannelInfoDecodeErrorZ() { CResult_ChannelInfoDecodeErrorZ_free(self); } + CResult_ChannelInfoDecodeErrorZ& operator=(CResult_ChannelInfoDecodeErrorZ&& o) { CResult_ChannelInfoDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_ChannelInfoDecodeErrorZ)); return *this; } + LDKCResult_ChannelInfoDecodeErrorZ* operator &() { return &self; } + LDKCResult_ChannelInfoDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_ChannelInfoDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_ChannelInfoDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_CVec_u8ZPeerHandleErrorZ { +private: + LDKCResult_CVec_u8ZPeerHandleErrorZ self; +public: + CResult_CVec_u8ZPeerHandleErrorZ(const CResult_CVec_u8ZPeerHandleErrorZ&) = delete; + CResult_CVec_u8ZPeerHandleErrorZ(CResult_CVec_u8ZPeerHandleErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_CVec_u8ZPeerHandleErrorZ)); } + CResult_CVec_u8ZPeerHandleErrorZ(LDKCResult_CVec_u8ZPeerHandleErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_CVec_u8ZPeerHandleErrorZ)); } + operator LDKCResult_CVec_u8ZPeerHandleErrorZ() && { LDKCResult_CVec_u8ZPeerHandleErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_CVec_u8ZPeerHandleErrorZ)); return res; } + ~CResult_CVec_u8ZPeerHandleErrorZ() { CResult_CVec_u8ZPeerHandleErrorZ_free(self); } + CResult_CVec_u8ZPeerHandleErrorZ& operator=(CResult_CVec_u8ZPeerHandleErrorZ&& o) { CResult_CVec_u8ZPeerHandleErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_CVec_u8ZPeerHandleErrorZ)); return *this; } + LDKCResult_CVec_u8ZPeerHandleErrorZ* operator &() { return &self; } + LDKCResult_CVec_u8ZPeerHandleErrorZ* operator ->() { return &self; } + const LDKCResult_CVec_u8ZPeerHandleErrorZ* operator &() const { return &self; } + const LDKCResult_CVec_u8ZPeerHandleErrorZ* operator ->() const { return &self; } +}; +class CResult_ChannelMonitorUpdateDecodeErrorZ { +private: + LDKCResult_ChannelMonitorUpdateDecodeErrorZ self; +public: + CResult_ChannelMonitorUpdateDecodeErrorZ(const CResult_ChannelMonitorUpdateDecodeErrorZ&) = delete; + CResult_ChannelMonitorUpdateDecodeErrorZ(CResult_ChannelMonitorUpdateDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_ChannelMonitorUpdateDecodeErrorZ)); } + CResult_ChannelMonitorUpdateDecodeErrorZ(LDKCResult_ChannelMonitorUpdateDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_ChannelMonitorUpdateDecodeErrorZ)); } + operator LDKCResult_ChannelMonitorUpdateDecodeErrorZ() && { LDKCResult_ChannelMonitorUpdateDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_ChannelMonitorUpdateDecodeErrorZ)); return res; } + ~CResult_ChannelMonitorUpdateDecodeErrorZ() { CResult_ChannelMonitorUpdateDecodeErrorZ_free(self); } + CResult_ChannelMonitorUpdateDecodeErrorZ& operator=(CResult_ChannelMonitorUpdateDecodeErrorZ&& o) { CResult_ChannelMonitorUpdateDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_ChannelMonitorUpdateDecodeErrorZ)); return *this; } + LDKCResult_ChannelMonitorUpdateDecodeErrorZ* operator &() { return &self; } + LDKCResult_ChannelMonitorUpdateDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_ChannelMonitorUpdateDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_ChannelMonitorUpdateDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_ReplyChannelRangeDecodeErrorZ { +private: + LDKCResult_ReplyChannelRangeDecodeErrorZ self; +public: + CResult_ReplyChannelRangeDecodeErrorZ(const CResult_ReplyChannelRangeDecodeErrorZ&) = delete; + CResult_ReplyChannelRangeDecodeErrorZ(CResult_ReplyChannelRangeDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_ReplyChannelRangeDecodeErrorZ)); } + CResult_ReplyChannelRangeDecodeErrorZ(LDKCResult_ReplyChannelRangeDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_ReplyChannelRangeDecodeErrorZ)); } + operator LDKCResult_ReplyChannelRangeDecodeErrorZ() && { LDKCResult_ReplyChannelRangeDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_ReplyChannelRangeDecodeErrorZ)); return res; } + ~CResult_ReplyChannelRangeDecodeErrorZ() { CResult_ReplyChannelRangeDecodeErrorZ_free(self); } + CResult_ReplyChannelRangeDecodeErrorZ& operator=(CResult_ReplyChannelRangeDecodeErrorZ&& o) { CResult_ReplyChannelRangeDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_ReplyChannelRangeDecodeErrorZ)); return *this; } + LDKCResult_ReplyChannelRangeDecodeErrorZ* operator &() { return &self; } + LDKCResult_ReplyChannelRangeDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_ReplyChannelRangeDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_ReplyChannelRangeDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_GossipTimestampFilterDecodeErrorZ { +private: + LDKCResult_GossipTimestampFilterDecodeErrorZ self; +public: + CResult_GossipTimestampFilterDecodeErrorZ(const CResult_GossipTimestampFilterDecodeErrorZ&) = delete; + CResult_GossipTimestampFilterDecodeErrorZ(CResult_GossipTimestampFilterDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_GossipTimestampFilterDecodeErrorZ)); } + CResult_GossipTimestampFilterDecodeErrorZ(LDKCResult_GossipTimestampFilterDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_GossipTimestampFilterDecodeErrorZ)); } + operator LDKCResult_GossipTimestampFilterDecodeErrorZ() && { LDKCResult_GossipTimestampFilterDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_GossipTimestampFilterDecodeErrorZ)); return res; } + ~CResult_GossipTimestampFilterDecodeErrorZ() { CResult_GossipTimestampFilterDecodeErrorZ_free(self); } + CResult_GossipTimestampFilterDecodeErrorZ& operator=(CResult_GossipTimestampFilterDecodeErrorZ&& o) { CResult_GossipTimestampFilterDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_GossipTimestampFilterDecodeErrorZ)); return *this; } + LDKCResult_GossipTimestampFilterDecodeErrorZ* operator &() { return &self; } + LDKCResult_GossipTimestampFilterDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_GossipTimestampFilterDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_GossipTimestampFilterDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_TxOutAccessErrorZ { +private: + LDKCResult_TxOutAccessErrorZ self; +public: + CResult_TxOutAccessErrorZ(const CResult_TxOutAccessErrorZ&) = delete; + CResult_TxOutAccessErrorZ(CResult_TxOutAccessErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_TxOutAccessErrorZ)); } + CResult_TxOutAccessErrorZ(LDKCResult_TxOutAccessErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_TxOutAccessErrorZ)); } + operator LDKCResult_TxOutAccessErrorZ() && { LDKCResult_TxOutAccessErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_TxOutAccessErrorZ)); return res; } + ~CResult_TxOutAccessErrorZ() { CResult_TxOutAccessErrorZ_free(self); } + CResult_TxOutAccessErrorZ& operator=(CResult_TxOutAccessErrorZ&& o) { CResult_TxOutAccessErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_TxOutAccessErrorZ)); return *this; } + LDKCResult_TxOutAccessErrorZ* operator &() { return &self; } + LDKCResult_TxOutAccessErrorZ* operator ->() { return &self; } + const LDKCResult_TxOutAccessErrorZ* operator &() const { return &self; } + const LDKCResult_TxOutAccessErrorZ* operator ->() const { return &self; } +}; +class CResult_UnsignedNodeAnnouncementDecodeErrorZ { +private: + LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ self; +public: + CResult_UnsignedNodeAnnouncementDecodeErrorZ(const CResult_UnsignedNodeAnnouncementDecodeErrorZ&) = delete; + CResult_UnsignedNodeAnnouncementDecodeErrorZ(CResult_UnsignedNodeAnnouncementDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_UnsignedNodeAnnouncementDecodeErrorZ)); } + CResult_UnsignedNodeAnnouncementDecodeErrorZ(LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ)); } + operator LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ() && { LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ)); return res; } + ~CResult_UnsignedNodeAnnouncementDecodeErrorZ() { CResult_UnsignedNodeAnnouncementDecodeErrorZ_free(self); } + CResult_UnsignedNodeAnnouncementDecodeErrorZ& operator=(CResult_UnsignedNodeAnnouncementDecodeErrorZ&& o) { CResult_UnsignedNodeAnnouncementDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_UnsignedNodeAnnouncementDecodeErrorZ)); return *this; } + LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ* operator &() { return &self; } + LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_ChannelReestablishDecodeErrorZ { +private: + LDKCResult_ChannelReestablishDecodeErrorZ self; +public: + CResult_ChannelReestablishDecodeErrorZ(const CResult_ChannelReestablishDecodeErrorZ&) = delete; + CResult_ChannelReestablishDecodeErrorZ(CResult_ChannelReestablishDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_ChannelReestablishDecodeErrorZ)); } + CResult_ChannelReestablishDecodeErrorZ(LDKCResult_ChannelReestablishDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_ChannelReestablishDecodeErrorZ)); } + operator LDKCResult_ChannelReestablishDecodeErrorZ() && { LDKCResult_ChannelReestablishDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_ChannelReestablishDecodeErrorZ)); return res; } + ~CResult_ChannelReestablishDecodeErrorZ() { CResult_ChannelReestablishDecodeErrorZ_free(self); } + CResult_ChannelReestablishDecodeErrorZ& operator=(CResult_ChannelReestablishDecodeErrorZ&& o) { CResult_ChannelReestablishDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_ChannelReestablishDecodeErrorZ)); return *this; } + LDKCResult_ChannelReestablishDecodeErrorZ* operator &() { return &self; } + LDKCResult_ChannelReestablishDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_ChannelReestablishDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_ChannelReestablishDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_CommitmentSignedDecodeErrorZ { +private: + LDKCResult_CommitmentSignedDecodeErrorZ self; +public: + CResult_CommitmentSignedDecodeErrorZ(const CResult_CommitmentSignedDecodeErrorZ&) = delete; + CResult_CommitmentSignedDecodeErrorZ(CResult_CommitmentSignedDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_CommitmentSignedDecodeErrorZ)); } + CResult_CommitmentSignedDecodeErrorZ(LDKCResult_CommitmentSignedDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_CommitmentSignedDecodeErrorZ)); } + operator LDKCResult_CommitmentSignedDecodeErrorZ() && { LDKCResult_CommitmentSignedDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_CommitmentSignedDecodeErrorZ)); return res; } + ~CResult_CommitmentSignedDecodeErrorZ() { CResult_CommitmentSignedDecodeErrorZ_free(self); } + CResult_CommitmentSignedDecodeErrorZ& operator=(CResult_CommitmentSignedDecodeErrorZ&& o) { CResult_CommitmentSignedDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_CommitmentSignedDecodeErrorZ)); return *this; } + LDKCResult_CommitmentSignedDecodeErrorZ* operator &() { return &self; } + LDKCResult_CommitmentSignedDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_CommitmentSignedDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_CommitmentSignedDecodeErrorZ* operator ->() const { return &self; } +}; +class CVec_UpdateAddHTLCZ { +private: + LDKCVec_UpdateAddHTLCZ self; +public: + CVec_UpdateAddHTLCZ(const CVec_UpdateAddHTLCZ&) = delete; + CVec_UpdateAddHTLCZ(CVec_UpdateAddHTLCZ&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_UpdateAddHTLCZ)); } + CVec_UpdateAddHTLCZ(LDKCVec_UpdateAddHTLCZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_UpdateAddHTLCZ)); } + operator LDKCVec_UpdateAddHTLCZ() && { LDKCVec_UpdateAddHTLCZ res = self; memset(&self, 0, sizeof(LDKCVec_UpdateAddHTLCZ)); return res; } + ~CVec_UpdateAddHTLCZ() { CVec_UpdateAddHTLCZ_free(self); } + CVec_UpdateAddHTLCZ& operator=(CVec_UpdateAddHTLCZ&& o) { CVec_UpdateAddHTLCZ_free(self); self = o.self; memset(&o, 0, sizeof(CVec_UpdateAddHTLCZ)); return *this; } + LDKCVec_UpdateAddHTLCZ* operator &() { return &self; } + LDKCVec_UpdateAddHTLCZ* operator ->() { return &self; } + const LDKCVec_UpdateAddHTLCZ* operator &() const { return &self; } + const LDKCVec_UpdateAddHTLCZ* operator ->() const { return &self; } +}; +class CResult_InitFeaturesDecodeErrorZ { +private: + LDKCResult_InitFeaturesDecodeErrorZ self; +public: + CResult_InitFeaturesDecodeErrorZ(const CResult_InitFeaturesDecodeErrorZ&) = delete; + CResult_InitFeaturesDecodeErrorZ(CResult_InitFeaturesDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_InitFeaturesDecodeErrorZ)); } + CResult_InitFeaturesDecodeErrorZ(LDKCResult_InitFeaturesDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_InitFeaturesDecodeErrorZ)); } + operator LDKCResult_InitFeaturesDecodeErrorZ() && { LDKCResult_InitFeaturesDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_InitFeaturesDecodeErrorZ)); return res; } + ~CResult_InitFeaturesDecodeErrorZ() { CResult_InitFeaturesDecodeErrorZ_free(self); } + CResult_InitFeaturesDecodeErrorZ& operator=(CResult_InitFeaturesDecodeErrorZ&& o) { CResult_InitFeaturesDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_InitFeaturesDecodeErrorZ)); return *this; } + LDKCResult_InitFeaturesDecodeErrorZ* operator &() { return &self; } + LDKCResult_InitFeaturesDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_InitFeaturesDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_InitFeaturesDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_CommitmentTransactionDecodeErrorZ { +private: + LDKCResult_CommitmentTransactionDecodeErrorZ self; +public: + CResult_CommitmentTransactionDecodeErrorZ(const CResult_CommitmentTransactionDecodeErrorZ&) = delete; + CResult_CommitmentTransactionDecodeErrorZ(CResult_CommitmentTransactionDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_CommitmentTransactionDecodeErrorZ)); } + CResult_CommitmentTransactionDecodeErrorZ(LDKCResult_CommitmentTransactionDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_CommitmentTransactionDecodeErrorZ)); } + operator LDKCResult_CommitmentTransactionDecodeErrorZ() && { LDKCResult_CommitmentTransactionDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_CommitmentTransactionDecodeErrorZ)); return res; } + ~CResult_CommitmentTransactionDecodeErrorZ() { CResult_CommitmentTransactionDecodeErrorZ_free(self); } + CResult_CommitmentTransactionDecodeErrorZ& operator=(CResult_CommitmentTransactionDecodeErrorZ&& o) { CResult_CommitmentTransactionDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_CommitmentTransactionDecodeErrorZ)); return *this; } + LDKCResult_CommitmentTransactionDecodeErrorZ* operator &() { return &self; } + LDKCResult_CommitmentTransactionDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_CommitmentTransactionDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_CommitmentTransactionDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_TransactionNoneZ { +private: + LDKCResult_TransactionNoneZ self; +public: + CResult_TransactionNoneZ(const CResult_TransactionNoneZ&) = delete; + CResult_TransactionNoneZ(CResult_TransactionNoneZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_TransactionNoneZ)); } + CResult_TransactionNoneZ(LDKCResult_TransactionNoneZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_TransactionNoneZ)); } + operator LDKCResult_TransactionNoneZ() && { LDKCResult_TransactionNoneZ res = self; memset(&self, 0, sizeof(LDKCResult_TransactionNoneZ)); return res; } + ~CResult_TransactionNoneZ() { CResult_TransactionNoneZ_free(self); } + CResult_TransactionNoneZ& operator=(CResult_TransactionNoneZ&& o) { CResult_TransactionNoneZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_TransactionNoneZ)); return *this; } + LDKCResult_TransactionNoneZ* operator &() { return &self; } + LDKCResult_TransactionNoneZ* operator ->() { return &self; } + const LDKCResult_TransactionNoneZ* operator &() const { return &self; } + const LDKCResult_TransactionNoneZ* operator ->() const { return &self; } +}; +class CResult_PingDecodeErrorZ { +private: + LDKCResult_PingDecodeErrorZ self; +public: + CResult_PingDecodeErrorZ(const CResult_PingDecodeErrorZ&) = delete; + CResult_PingDecodeErrorZ(CResult_PingDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_PingDecodeErrorZ)); } + CResult_PingDecodeErrorZ(LDKCResult_PingDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_PingDecodeErrorZ)); } + operator LDKCResult_PingDecodeErrorZ() && { LDKCResult_PingDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_PingDecodeErrorZ)); return res; } + ~CResult_PingDecodeErrorZ() { CResult_PingDecodeErrorZ_free(self); } + CResult_PingDecodeErrorZ& operator=(CResult_PingDecodeErrorZ&& o) { CResult_PingDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_PingDecodeErrorZ)); return *this; } + LDKCResult_PingDecodeErrorZ* operator &() { return &self; } + LDKCResult_PingDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_PingDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_PingDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_ErrorMessageDecodeErrorZ { +private: + LDKCResult_ErrorMessageDecodeErrorZ self; +public: + CResult_ErrorMessageDecodeErrorZ(const CResult_ErrorMessageDecodeErrorZ&) = delete; + CResult_ErrorMessageDecodeErrorZ(CResult_ErrorMessageDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_ErrorMessageDecodeErrorZ)); } + CResult_ErrorMessageDecodeErrorZ(LDKCResult_ErrorMessageDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_ErrorMessageDecodeErrorZ)); } + operator LDKCResult_ErrorMessageDecodeErrorZ() && { LDKCResult_ErrorMessageDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_ErrorMessageDecodeErrorZ)); return res; } + ~CResult_ErrorMessageDecodeErrorZ() { CResult_ErrorMessageDecodeErrorZ_free(self); } + CResult_ErrorMessageDecodeErrorZ& operator=(CResult_ErrorMessageDecodeErrorZ&& o) { CResult_ErrorMessageDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_ErrorMessageDecodeErrorZ)); return *this; } + LDKCResult_ErrorMessageDecodeErrorZ* operator &() { return &self; } + LDKCResult_ErrorMessageDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_ErrorMessageDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_ErrorMessageDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_OpenChannelDecodeErrorZ { +private: + LDKCResult_OpenChannelDecodeErrorZ self; +public: + CResult_OpenChannelDecodeErrorZ(const CResult_OpenChannelDecodeErrorZ&) = delete; + CResult_OpenChannelDecodeErrorZ(CResult_OpenChannelDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_OpenChannelDecodeErrorZ)); } + CResult_OpenChannelDecodeErrorZ(LDKCResult_OpenChannelDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_OpenChannelDecodeErrorZ)); } + operator LDKCResult_OpenChannelDecodeErrorZ() && { LDKCResult_OpenChannelDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_OpenChannelDecodeErrorZ)); return res; } + ~CResult_OpenChannelDecodeErrorZ() { CResult_OpenChannelDecodeErrorZ_free(self); } + CResult_OpenChannelDecodeErrorZ& operator=(CResult_OpenChannelDecodeErrorZ&& o) { CResult_OpenChannelDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_OpenChannelDecodeErrorZ)); return *this; } + LDKCResult_OpenChannelDecodeErrorZ* operator &() { return &self; } + LDKCResult_OpenChannelDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_OpenChannelDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_OpenChannelDecodeErrorZ* operator ->() const { return &self; } +}; +class CVec_CVec_u8ZZ { +private: + LDKCVec_CVec_u8ZZ self; +public: + CVec_CVec_u8ZZ(const CVec_CVec_u8ZZ&) = delete; + CVec_CVec_u8ZZ(CVec_CVec_u8ZZ&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_CVec_u8ZZ)); } + CVec_CVec_u8ZZ(LDKCVec_CVec_u8ZZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_CVec_u8ZZ)); } + operator LDKCVec_CVec_u8ZZ() && { LDKCVec_CVec_u8ZZ res = self; memset(&self, 0, sizeof(LDKCVec_CVec_u8ZZ)); return res; } + ~CVec_CVec_u8ZZ() { CVec_CVec_u8ZZ_free(self); } + CVec_CVec_u8ZZ& operator=(CVec_CVec_u8ZZ&& o) { CVec_CVec_u8ZZ_free(self); self = o.self; memset(&o, 0, sizeof(CVec_CVec_u8ZZ)); return *this; } + LDKCVec_CVec_u8ZZ* operator &() { return &self; } + LDKCVec_CVec_u8ZZ* operator ->() { return &self; } + const LDKCVec_CVec_u8ZZ* operator &() const { return &self; } + const LDKCVec_CVec_u8ZZ* operator ->() const { return &self; } +}; +class CResult_SecretKeyErrorZ { +private: + LDKCResult_SecretKeyErrorZ self; +public: + CResult_SecretKeyErrorZ(const CResult_SecretKeyErrorZ&) = delete; + CResult_SecretKeyErrorZ(CResult_SecretKeyErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_SecretKeyErrorZ)); } + CResult_SecretKeyErrorZ(LDKCResult_SecretKeyErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_SecretKeyErrorZ)); } + operator LDKCResult_SecretKeyErrorZ() && { LDKCResult_SecretKeyErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_SecretKeyErrorZ)); return res; } + ~CResult_SecretKeyErrorZ() { CResult_SecretKeyErrorZ_free(self); } + CResult_SecretKeyErrorZ& operator=(CResult_SecretKeyErrorZ&& o) { CResult_SecretKeyErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_SecretKeyErrorZ)); return *this; } + LDKCResult_SecretKeyErrorZ* operator &() { return &self; } + LDKCResult_SecretKeyErrorZ* operator ->() { return &self; } + const LDKCResult_SecretKeyErrorZ* operator &() const { return &self; } + const LDKCResult_SecretKeyErrorZ* operator ->() const { return &self; } +}; +class CResult_QueryChannelRangeDecodeErrorZ { +private: + LDKCResult_QueryChannelRangeDecodeErrorZ self; +public: + CResult_QueryChannelRangeDecodeErrorZ(const CResult_QueryChannelRangeDecodeErrorZ&) = delete; + CResult_QueryChannelRangeDecodeErrorZ(CResult_QueryChannelRangeDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_QueryChannelRangeDecodeErrorZ)); } + CResult_QueryChannelRangeDecodeErrorZ(LDKCResult_QueryChannelRangeDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_QueryChannelRangeDecodeErrorZ)); } + operator LDKCResult_QueryChannelRangeDecodeErrorZ() && { LDKCResult_QueryChannelRangeDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_QueryChannelRangeDecodeErrorZ)); return res; } + ~CResult_QueryChannelRangeDecodeErrorZ() { CResult_QueryChannelRangeDecodeErrorZ_free(self); } + CResult_QueryChannelRangeDecodeErrorZ& operator=(CResult_QueryChannelRangeDecodeErrorZ&& o) { CResult_QueryChannelRangeDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_QueryChannelRangeDecodeErrorZ)); return *this; } + LDKCResult_QueryChannelRangeDecodeErrorZ* operator &() { return &self; } + LDKCResult_QueryChannelRangeDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_QueryChannelRangeDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_QueryChannelRangeDecodeErrorZ* operator ->() const { return &self; } +}; +class CVec_TransactionZ { +private: + LDKCVec_TransactionZ self; +public: + CVec_TransactionZ(const CVec_TransactionZ&) = delete; + CVec_TransactionZ(CVec_TransactionZ&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_TransactionZ)); } + CVec_TransactionZ(LDKCVec_TransactionZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_TransactionZ)); } + operator LDKCVec_TransactionZ() && { LDKCVec_TransactionZ res = self; memset(&self, 0, sizeof(LDKCVec_TransactionZ)); return res; } + ~CVec_TransactionZ() { CVec_TransactionZ_free(self); } + CVec_TransactionZ& operator=(CVec_TransactionZ&& o) { CVec_TransactionZ_free(self); self = o.self; memset(&o, 0, sizeof(CVec_TransactionZ)); return *this; } + LDKCVec_TransactionZ* operator &() { return &self; } + LDKCVec_TransactionZ* operator ->() { return &self; } + const LDKCVec_TransactionZ* operator &() const { return &self; } + const LDKCVec_TransactionZ* operator ->() const { return &self; } +}; +class CResult_TxCreationKeysDecodeErrorZ { +private: + LDKCResult_TxCreationKeysDecodeErrorZ self; +public: + CResult_TxCreationKeysDecodeErrorZ(const CResult_TxCreationKeysDecodeErrorZ&) = delete; + CResult_TxCreationKeysDecodeErrorZ(CResult_TxCreationKeysDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_TxCreationKeysDecodeErrorZ)); } + CResult_TxCreationKeysDecodeErrorZ(LDKCResult_TxCreationKeysDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_TxCreationKeysDecodeErrorZ)); } + operator LDKCResult_TxCreationKeysDecodeErrorZ() && { LDKCResult_TxCreationKeysDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_TxCreationKeysDecodeErrorZ)); return res; } + ~CResult_TxCreationKeysDecodeErrorZ() { CResult_TxCreationKeysDecodeErrorZ_free(self); } + CResult_TxCreationKeysDecodeErrorZ& operator=(CResult_TxCreationKeysDecodeErrorZ&& o) { CResult_TxCreationKeysDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_TxCreationKeysDecodeErrorZ)); return *this; } + LDKCResult_TxCreationKeysDecodeErrorZ* operator &() { return &self; } + LDKCResult_TxCreationKeysDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_TxCreationKeysDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_TxCreationKeysDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_ChannelFeaturesDecodeErrorZ { +private: + LDKCResult_ChannelFeaturesDecodeErrorZ self; +public: + CResult_ChannelFeaturesDecodeErrorZ(const CResult_ChannelFeaturesDecodeErrorZ&) = delete; + CResult_ChannelFeaturesDecodeErrorZ(CResult_ChannelFeaturesDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_ChannelFeaturesDecodeErrorZ)); } + CResult_ChannelFeaturesDecodeErrorZ(LDKCResult_ChannelFeaturesDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_ChannelFeaturesDecodeErrorZ)); } + operator LDKCResult_ChannelFeaturesDecodeErrorZ() && { LDKCResult_ChannelFeaturesDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_ChannelFeaturesDecodeErrorZ)); return res; } + ~CResult_ChannelFeaturesDecodeErrorZ() { CResult_ChannelFeaturesDecodeErrorZ_free(self); } + CResult_ChannelFeaturesDecodeErrorZ& operator=(CResult_ChannelFeaturesDecodeErrorZ&& o) { CResult_ChannelFeaturesDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_ChannelFeaturesDecodeErrorZ)); return *this; } + LDKCResult_ChannelFeaturesDecodeErrorZ* operator &() { return &self; } + LDKCResult_ChannelFeaturesDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_ChannelFeaturesDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_ChannelFeaturesDecodeErrorZ* operator ->() const { return &self; } +}; +class C2Tuple_usizeTransactionZ { +private: + LDKC2Tuple_usizeTransactionZ self; +public: + C2Tuple_usizeTransactionZ(const C2Tuple_usizeTransactionZ&) = delete; + C2Tuple_usizeTransactionZ(C2Tuple_usizeTransactionZ&& o) : self(o.self) { memset(&o, 0, sizeof(C2Tuple_usizeTransactionZ)); } + C2Tuple_usizeTransactionZ(LDKC2Tuple_usizeTransactionZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKC2Tuple_usizeTransactionZ)); } + operator LDKC2Tuple_usizeTransactionZ() && { LDKC2Tuple_usizeTransactionZ res = self; memset(&self, 0, sizeof(LDKC2Tuple_usizeTransactionZ)); return res; } + ~C2Tuple_usizeTransactionZ() { C2Tuple_usizeTransactionZ_free(self); } + C2Tuple_usizeTransactionZ& operator=(C2Tuple_usizeTransactionZ&& o) { C2Tuple_usizeTransactionZ_free(self); self = o.self; memset(&o, 0, sizeof(C2Tuple_usizeTransactionZ)); return *this; } + LDKC2Tuple_usizeTransactionZ* operator &() { return &self; } + LDKC2Tuple_usizeTransactionZ* operator ->() { return &self; } + const LDKC2Tuple_usizeTransactionZ* operator &() const { return &self; } + const LDKC2Tuple_usizeTransactionZ* operator ->() const { return &self; } +}; +class CVec_ChannelMonitorZ { +private: + LDKCVec_ChannelMonitorZ self; +public: + CVec_ChannelMonitorZ(const CVec_ChannelMonitorZ&) = delete; + CVec_ChannelMonitorZ(CVec_ChannelMonitorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_ChannelMonitorZ)); } + CVec_ChannelMonitorZ(LDKCVec_ChannelMonitorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_ChannelMonitorZ)); } + operator LDKCVec_ChannelMonitorZ() && { LDKCVec_ChannelMonitorZ res = self; memset(&self, 0, sizeof(LDKCVec_ChannelMonitorZ)); return res; } + ~CVec_ChannelMonitorZ() { CVec_ChannelMonitorZ_free(self); } + CVec_ChannelMonitorZ& operator=(CVec_ChannelMonitorZ&& o) { CVec_ChannelMonitorZ_free(self); self = o.self; memset(&o, 0, sizeof(CVec_ChannelMonitorZ)); return *this; } + LDKCVec_ChannelMonitorZ* operator &() { return &self; } + LDKCVec_ChannelMonitorZ* operator ->() { return &self; } + const LDKCVec_ChannelMonitorZ* operator &() const { return &self; } + const LDKCVec_ChannelMonitorZ* operator ->() const { return &self; } +}; +class CResult_UpdateFeeDecodeErrorZ { +private: + LDKCResult_UpdateFeeDecodeErrorZ self; +public: + CResult_UpdateFeeDecodeErrorZ(const CResult_UpdateFeeDecodeErrorZ&) = delete; + CResult_UpdateFeeDecodeErrorZ(CResult_UpdateFeeDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_UpdateFeeDecodeErrorZ)); } + CResult_UpdateFeeDecodeErrorZ(LDKCResult_UpdateFeeDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_UpdateFeeDecodeErrorZ)); } + operator LDKCResult_UpdateFeeDecodeErrorZ() && { LDKCResult_UpdateFeeDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_UpdateFeeDecodeErrorZ)); return res; } + ~CResult_UpdateFeeDecodeErrorZ() { CResult_UpdateFeeDecodeErrorZ_free(self); } + CResult_UpdateFeeDecodeErrorZ& operator=(CResult_UpdateFeeDecodeErrorZ&& o) { CResult_UpdateFeeDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_UpdateFeeDecodeErrorZ)); return *this; } + LDKCResult_UpdateFeeDecodeErrorZ* operator &() { return &self; } + LDKCResult_UpdateFeeDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_UpdateFeeDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_UpdateFeeDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_NodeAnnouncementDecodeErrorZ { +private: + LDKCResult_NodeAnnouncementDecodeErrorZ self; +public: + CResult_NodeAnnouncementDecodeErrorZ(const CResult_NodeAnnouncementDecodeErrorZ&) = delete; + CResult_NodeAnnouncementDecodeErrorZ(CResult_NodeAnnouncementDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_NodeAnnouncementDecodeErrorZ)); } + CResult_NodeAnnouncementDecodeErrorZ(LDKCResult_NodeAnnouncementDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_NodeAnnouncementDecodeErrorZ)); } + operator LDKCResult_NodeAnnouncementDecodeErrorZ() && { LDKCResult_NodeAnnouncementDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_NodeAnnouncementDecodeErrorZ)); return res; } + ~CResult_NodeAnnouncementDecodeErrorZ() { CResult_NodeAnnouncementDecodeErrorZ_free(self); } + CResult_NodeAnnouncementDecodeErrorZ& operator=(CResult_NodeAnnouncementDecodeErrorZ&& o) { CResult_NodeAnnouncementDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_NodeAnnouncementDecodeErrorZ)); return *this; } + LDKCResult_NodeAnnouncementDecodeErrorZ* operator &() { return &self; } + LDKCResult_NodeAnnouncementDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_NodeAnnouncementDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_NodeAnnouncementDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_HTLCOutputInCommitmentDecodeErrorZ { +private: + LDKCResult_HTLCOutputInCommitmentDecodeErrorZ self; +public: + CResult_HTLCOutputInCommitmentDecodeErrorZ(const CResult_HTLCOutputInCommitmentDecodeErrorZ&) = delete; + CResult_HTLCOutputInCommitmentDecodeErrorZ(CResult_HTLCOutputInCommitmentDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_HTLCOutputInCommitmentDecodeErrorZ)); } + CResult_HTLCOutputInCommitmentDecodeErrorZ(LDKCResult_HTLCOutputInCommitmentDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_HTLCOutputInCommitmentDecodeErrorZ)); } + operator LDKCResult_HTLCOutputInCommitmentDecodeErrorZ() && { LDKCResult_HTLCOutputInCommitmentDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_HTLCOutputInCommitmentDecodeErrorZ)); return res; } + ~CResult_HTLCOutputInCommitmentDecodeErrorZ() { CResult_HTLCOutputInCommitmentDecodeErrorZ_free(self); } + CResult_HTLCOutputInCommitmentDecodeErrorZ& operator=(CResult_HTLCOutputInCommitmentDecodeErrorZ&& o) { CResult_HTLCOutputInCommitmentDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_HTLCOutputInCommitmentDecodeErrorZ)); return *this; } + LDKCResult_HTLCOutputInCommitmentDecodeErrorZ* operator &() { return &self; } + LDKCResult_HTLCOutputInCommitmentDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_HTLCOutputInCommitmentDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_HTLCOutputInCommitmentDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_boolLightningErrorZ { +private: + LDKCResult_boolLightningErrorZ self; +public: + CResult_boolLightningErrorZ(const CResult_boolLightningErrorZ&) = delete; + CResult_boolLightningErrorZ(CResult_boolLightningErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_boolLightningErrorZ)); } + CResult_boolLightningErrorZ(LDKCResult_boolLightningErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_boolLightningErrorZ)); } + operator LDKCResult_boolLightningErrorZ() && { LDKCResult_boolLightningErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_boolLightningErrorZ)); return res; } + ~CResult_boolLightningErrorZ() { CResult_boolLightningErrorZ_free(self); } + CResult_boolLightningErrorZ& operator=(CResult_boolLightningErrorZ&& o) { CResult_boolLightningErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_boolLightningErrorZ)); return *this; } + LDKCResult_boolLightningErrorZ* operator &() { return &self; } + LDKCResult_boolLightningErrorZ* operator ->() { return &self; } + const LDKCResult_boolLightningErrorZ* operator &() const { return &self; } + const LDKCResult_boolLightningErrorZ* operator ->() const { return &self; } +}; +class CResult_TxCreationKeysErrorZ { +private: + LDKCResult_TxCreationKeysErrorZ self; +public: + CResult_TxCreationKeysErrorZ(const CResult_TxCreationKeysErrorZ&) = delete; + CResult_TxCreationKeysErrorZ(CResult_TxCreationKeysErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_TxCreationKeysErrorZ)); } + CResult_TxCreationKeysErrorZ(LDKCResult_TxCreationKeysErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_TxCreationKeysErrorZ)); } + operator LDKCResult_TxCreationKeysErrorZ() && { LDKCResult_TxCreationKeysErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_TxCreationKeysErrorZ)); return res; } + ~CResult_TxCreationKeysErrorZ() { CResult_TxCreationKeysErrorZ_free(self); } + CResult_TxCreationKeysErrorZ& operator=(CResult_TxCreationKeysErrorZ&& o) { CResult_TxCreationKeysErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_TxCreationKeysErrorZ)); return *this; } + LDKCResult_TxCreationKeysErrorZ* operator &() { return &self; } + LDKCResult_TxCreationKeysErrorZ* operator ->() { return &self; } + const LDKCResult_TxCreationKeysErrorZ* operator &() const { return &self; } + const LDKCResult_TxCreationKeysErrorZ* operator ->() const { return &self; } +}; +class C2Tuple_BlockHashChannelMonitorZ { +private: + LDKC2Tuple_BlockHashChannelMonitorZ self; +public: + C2Tuple_BlockHashChannelMonitorZ(const C2Tuple_BlockHashChannelMonitorZ&) = delete; + C2Tuple_BlockHashChannelMonitorZ(C2Tuple_BlockHashChannelMonitorZ&& o) : self(o.self) { memset(&o, 0, sizeof(C2Tuple_BlockHashChannelMonitorZ)); } + C2Tuple_BlockHashChannelMonitorZ(LDKC2Tuple_BlockHashChannelMonitorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKC2Tuple_BlockHashChannelMonitorZ)); } + operator LDKC2Tuple_BlockHashChannelMonitorZ() && { LDKC2Tuple_BlockHashChannelMonitorZ res = self; memset(&self, 0, sizeof(LDKC2Tuple_BlockHashChannelMonitorZ)); return res; } + ~C2Tuple_BlockHashChannelMonitorZ() { C2Tuple_BlockHashChannelMonitorZ_free(self); } + C2Tuple_BlockHashChannelMonitorZ& operator=(C2Tuple_BlockHashChannelMonitorZ&& o) { C2Tuple_BlockHashChannelMonitorZ_free(self); self = o.self; memset(&o, 0, sizeof(C2Tuple_BlockHashChannelMonitorZ)); return *this; } + LDKC2Tuple_BlockHashChannelMonitorZ* operator &() { return &self; } + LDKC2Tuple_BlockHashChannelMonitorZ* operator ->() { return &self; } + const LDKC2Tuple_BlockHashChannelMonitorZ* operator &() const { return &self; } + const LDKC2Tuple_BlockHashChannelMonitorZ* operator ->() const { return &self; } +}; +class CResult_FundingSignedDecodeErrorZ { +private: + LDKCResult_FundingSignedDecodeErrorZ self; +public: + CResult_FundingSignedDecodeErrorZ(const CResult_FundingSignedDecodeErrorZ&) = delete; + CResult_FundingSignedDecodeErrorZ(CResult_FundingSignedDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_FundingSignedDecodeErrorZ)); } + CResult_FundingSignedDecodeErrorZ(LDKCResult_FundingSignedDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_FundingSignedDecodeErrorZ)); } + operator LDKCResult_FundingSignedDecodeErrorZ() && { LDKCResult_FundingSignedDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_FundingSignedDecodeErrorZ)); return res; } + ~CResult_FundingSignedDecodeErrorZ() { CResult_FundingSignedDecodeErrorZ_free(self); } + CResult_FundingSignedDecodeErrorZ& operator=(CResult_FundingSignedDecodeErrorZ&& o) { CResult_FundingSignedDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_FundingSignedDecodeErrorZ)); return *this; } + LDKCResult_FundingSignedDecodeErrorZ* operator &() { return &self; } + LDKCResult_FundingSignedDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_FundingSignedDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_FundingSignedDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_NodeAnnouncementInfoDecodeErrorZ { +private: + LDKCResult_NodeAnnouncementInfoDecodeErrorZ self; +public: + CResult_NodeAnnouncementInfoDecodeErrorZ(const CResult_NodeAnnouncementInfoDecodeErrorZ&) = delete; + CResult_NodeAnnouncementInfoDecodeErrorZ(CResult_NodeAnnouncementInfoDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_NodeAnnouncementInfoDecodeErrorZ)); } + CResult_NodeAnnouncementInfoDecodeErrorZ(LDKCResult_NodeAnnouncementInfoDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_NodeAnnouncementInfoDecodeErrorZ)); } + operator LDKCResult_NodeAnnouncementInfoDecodeErrorZ() && { LDKCResult_NodeAnnouncementInfoDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_NodeAnnouncementInfoDecodeErrorZ)); return res; } + ~CResult_NodeAnnouncementInfoDecodeErrorZ() { CResult_NodeAnnouncementInfoDecodeErrorZ_free(self); } + CResult_NodeAnnouncementInfoDecodeErrorZ& operator=(CResult_NodeAnnouncementInfoDecodeErrorZ&& o) { CResult_NodeAnnouncementInfoDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_NodeAnnouncementInfoDecodeErrorZ)); return *this; } + LDKCResult_NodeAnnouncementInfoDecodeErrorZ* operator &() { return &self; } + LDKCResult_NodeAnnouncementInfoDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_NodeAnnouncementInfoDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_NodeAnnouncementInfoDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_NetAddressu8Z { +private: + LDKCResult_NetAddressu8Z self; +public: + CResult_NetAddressu8Z(const CResult_NetAddressu8Z&) = delete; + CResult_NetAddressu8Z(CResult_NetAddressu8Z&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_NetAddressu8Z)); } + CResult_NetAddressu8Z(LDKCResult_NetAddressu8Z&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_NetAddressu8Z)); } + operator LDKCResult_NetAddressu8Z() && { LDKCResult_NetAddressu8Z res = self; memset(&self, 0, sizeof(LDKCResult_NetAddressu8Z)); return res; } + ~CResult_NetAddressu8Z() { CResult_NetAddressu8Z_free(self); } + CResult_NetAddressu8Z& operator=(CResult_NetAddressu8Z&& o) { CResult_NetAddressu8Z_free(self); self = o.self; memset(&o, 0, sizeof(CResult_NetAddressu8Z)); return *this; } + LDKCResult_NetAddressu8Z* operator &() { return &self; } + LDKCResult_NetAddressu8Z* operator ->() { return &self; } + const LDKCResult_NetAddressu8Z* operator &() const { return &self; } + const LDKCResult_NetAddressu8Z* operator ->() const { return &self; } +}; +class CVec_UpdateFailMalformedHTLCZ { +private: + LDKCVec_UpdateFailMalformedHTLCZ self; +public: + CVec_UpdateFailMalformedHTLCZ(const CVec_UpdateFailMalformedHTLCZ&) = delete; + CVec_UpdateFailMalformedHTLCZ(CVec_UpdateFailMalformedHTLCZ&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_UpdateFailMalformedHTLCZ)); } + CVec_UpdateFailMalformedHTLCZ(LDKCVec_UpdateFailMalformedHTLCZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_UpdateFailMalformedHTLCZ)); } + operator LDKCVec_UpdateFailMalformedHTLCZ() && { LDKCVec_UpdateFailMalformedHTLCZ res = self; memset(&self, 0, sizeof(LDKCVec_UpdateFailMalformedHTLCZ)); return res; } + ~CVec_UpdateFailMalformedHTLCZ() { CVec_UpdateFailMalformedHTLCZ_free(self); } + CVec_UpdateFailMalformedHTLCZ& operator=(CVec_UpdateFailMalformedHTLCZ&& o) { CVec_UpdateFailMalformedHTLCZ_free(self); self = o.self; memset(&o, 0, sizeof(CVec_UpdateFailMalformedHTLCZ)); return *this; } + LDKCVec_UpdateFailMalformedHTLCZ* operator &() { return &self; } + LDKCVec_UpdateFailMalformedHTLCZ* operator ->() { return &self; } + const LDKCVec_UpdateFailMalformedHTLCZ* operator &() const { return &self; } + const LDKCVec_UpdateFailMalformedHTLCZ* operator ->() const { return &self; } +}; +class CResult_NetworkGraphDecodeErrorZ { +private: + LDKCResult_NetworkGraphDecodeErrorZ self; +public: + CResult_NetworkGraphDecodeErrorZ(const CResult_NetworkGraphDecodeErrorZ&) = delete; + CResult_NetworkGraphDecodeErrorZ(CResult_NetworkGraphDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_NetworkGraphDecodeErrorZ)); } + CResult_NetworkGraphDecodeErrorZ(LDKCResult_NetworkGraphDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_NetworkGraphDecodeErrorZ)); } + operator LDKCResult_NetworkGraphDecodeErrorZ() && { LDKCResult_NetworkGraphDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_NetworkGraphDecodeErrorZ)); return res; } + ~CResult_NetworkGraphDecodeErrorZ() { CResult_NetworkGraphDecodeErrorZ_free(self); } + CResult_NetworkGraphDecodeErrorZ& operator=(CResult_NetworkGraphDecodeErrorZ&& o) { CResult_NetworkGraphDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_NetworkGraphDecodeErrorZ)); return *this; } + LDKCResult_NetworkGraphDecodeErrorZ* operator &() { return &self; } + LDKCResult_NetworkGraphDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_NetworkGraphDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_NetworkGraphDecodeErrorZ* operator ->() const { return &self; } +}; +class CVec_RouteHopZ { +private: + LDKCVec_RouteHopZ self; +public: + CVec_RouteHopZ(const CVec_RouteHopZ&) = delete; + CVec_RouteHopZ(CVec_RouteHopZ&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_RouteHopZ)); } + CVec_RouteHopZ(LDKCVec_RouteHopZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_RouteHopZ)); } + operator LDKCVec_RouteHopZ() && { LDKCVec_RouteHopZ res = self; memset(&self, 0, sizeof(LDKCVec_RouteHopZ)); return res; } + ~CVec_RouteHopZ() { CVec_RouteHopZ_free(self); } + CVec_RouteHopZ& operator=(CVec_RouteHopZ&& o) { CVec_RouteHopZ_free(self); self = o.self; memset(&o, 0, sizeof(CVec_RouteHopZ)); return *this; } + LDKCVec_RouteHopZ* operator &() { return &self; } + LDKCVec_RouteHopZ* operator ->() { return &self; } + const LDKCVec_RouteHopZ* operator &() const { return &self; } + const LDKCVec_RouteHopZ* operator ->() const { return &self; } +}; +class CResult_NodeInfoDecodeErrorZ { +private: + LDKCResult_NodeInfoDecodeErrorZ self; +public: + CResult_NodeInfoDecodeErrorZ(const CResult_NodeInfoDecodeErrorZ&) = delete; + CResult_NodeInfoDecodeErrorZ(CResult_NodeInfoDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_NodeInfoDecodeErrorZ)); } + CResult_NodeInfoDecodeErrorZ(LDKCResult_NodeInfoDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_NodeInfoDecodeErrorZ)); } + operator LDKCResult_NodeInfoDecodeErrorZ() && { LDKCResult_NodeInfoDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_NodeInfoDecodeErrorZ)); return res; } + ~CResult_NodeInfoDecodeErrorZ() { CResult_NodeInfoDecodeErrorZ_free(self); } + CResult_NodeInfoDecodeErrorZ& operator=(CResult_NodeInfoDecodeErrorZ&& o) { CResult_NodeInfoDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_NodeInfoDecodeErrorZ)); return *this; } + LDKCResult_NodeInfoDecodeErrorZ* operator &() { return &self; } + LDKCResult_NodeInfoDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_NodeInfoDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_NodeInfoDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_NonePaymentSendFailureZ { +private: + LDKCResult_NonePaymentSendFailureZ self; +public: + CResult_NonePaymentSendFailureZ(const CResult_NonePaymentSendFailureZ&) = delete; + CResult_NonePaymentSendFailureZ(CResult_NonePaymentSendFailureZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_NonePaymentSendFailureZ)); } + CResult_NonePaymentSendFailureZ(LDKCResult_NonePaymentSendFailureZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_NonePaymentSendFailureZ)); } + operator LDKCResult_NonePaymentSendFailureZ() && { LDKCResult_NonePaymentSendFailureZ res = self; memset(&self, 0, sizeof(LDKCResult_NonePaymentSendFailureZ)); return res; } + ~CResult_NonePaymentSendFailureZ() { CResult_NonePaymentSendFailureZ_free(self); } + CResult_NonePaymentSendFailureZ& operator=(CResult_NonePaymentSendFailureZ&& o) { CResult_NonePaymentSendFailureZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_NonePaymentSendFailureZ)); return *this; } + LDKCResult_NonePaymentSendFailureZ* operator &() { return &self; } + LDKCResult_NonePaymentSendFailureZ* operator ->() { return &self; } + const LDKCResult_NonePaymentSendFailureZ* operator &() const { return &self; } + const LDKCResult_NonePaymentSendFailureZ* operator ->() const { return &self; } +}; +class CVec_u8Z { +private: + LDKCVec_u8Z self; +public: + CVec_u8Z(const CVec_u8Z&) = delete; + CVec_u8Z(CVec_u8Z&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_u8Z)); } + CVec_u8Z(LDKCVec_u8Z&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_u8Z)); } + operator LDKCVec_u8Z() && { LDKCVec_u8Z res = self; memset(&self, 0, sizeof(LDKCVec_u8Z)); return res; } + ~CVec_u8Z() { CVec_u8Z_free(self); } + CVec_u8Z& operator=(CVec_u8Z&& o) { CVec_u8Z_free(self); self = o.self; memset(&o, 0, sizeof(CVec_u8Z)); return *this; } + LDKCVec_u8Z* operator &() { return &self; } + LDKCVec_u8Z* operator ->() { return &self; } + const LDKCVec_u8Z* operator &() const { return &self; } + const LDKCVec_u8Z* operator ->() const { return &self; } +}; +class CResult_ChannelPublicKeysDecodeErrorZ { +private: + LDKCResult_ChannelPublicKeysDecodeErrorZ self; +public: + CResult_ChannelPublicKeysDecodeErrorZ(const CResult_ChannelPublicKeysDecodeErrorZ&) = delete; + CResult_ChannelPublicKeysDecodeErrorZ(CResult_ChannelPublicKeysDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_ChannelPublicKeysDecodeErrorZ)); } + CResult_ChannelPublicKeysDecodeErrorZ(LDKCResult_ChannelPublicKeysDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_ChannelPublicKeysDecodeErrorZ)); } + operator LDKCResult_ChannelPublicKeysDecodeErrorZ() && { LDKCResult_ChannelPublicKeysDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_ChannelPublicKeysDecodeErrorZ)); return res; } + ~CResult_ChannelPublicKeysDecodeErrorZ() { CResult_ChannelPublicKeysDecodeErrorZ_free(self); } + CResult_ChannelPublicKeysDecodeErrorZ& operator=(CResult_ChannelPublicKeysDecodeErrorZ&& o) { CResult_ChannelPublicKeysDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_ChannelPublicKeysDecodeErrorZ)); return *this; } + LDKCResult_ChannelPublicKeysDecodeErrorZ* operator &() { return &self; } + LDKCResult_ChannelPublicKeysDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_ChannelPublicKeysDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_ChannelPublicKeysDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_RouteLightningErrorZ { +private: + LDKCResult_RouteLightningErrorZ self; +public: + CResult_RouteLightningErrorZ(const CResult_RouteLightningErrorZ&) = delete; + CResult_RouteLightningErrorZ(CResult_RouteLightningErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_RouteLightningErrorZ)); } + CResult_RouteLightningErrorZ(LDKCResult_RouteLightningErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_RouteLightningErrorZ)); } + operator LDKCResult_RouteLightningErrorZ() && { LDKCResult_RouteLightningErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_RouteLightningErrorZ)); return res; } + ~CResult_RouteLightningErrorZ() { CResult_RouteLightningErrorZ_free(self); } + CResult_RouteLightningErrorZ& operator=(CResult_RouteLightningErrorZ&& o) { CResult_RouteLightningErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_RouteLightningErrorZ)); return *this; } + LDKCResult_RouteLightningErrorZ* operator &() { return &self; } + LDKCResult_RouteLightningErrorZ* operator ->() { return &self; } + const LDKCResult_RouteLightningErrorZ* operator &() const { return &self; } + const LDKCResult_RouteLightningErrorZ* operator ->() const { return &self; } +}; +class CResult_ClosingSignedDecodeErrorZ { +private: + LDKCResult_ClosingSignedDecodeErrorZ self; +public: + CResult_ClosingSignedDecodeErrorZ(const CResult_ClosingSignedDecodeErrorZ&) = delete; + CResult_ClosingSignedDecodeErrorZ(CResult_ClosingSignedDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_ClosingSignedDecodeErrorZ)); } + CResult_ClosingSignedDecodeErrorZ(LDKCResult_ClosingSignedDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_ClosingSignedDecodeErrorZ)); } + operator LDKCResult_ClosingSignedDecodeErrorZ() && { LDKCResult_ClosingSignedDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_ClosingSignedDecodeErrorZ)); return res; } + ~CResult_ClosingSignedDecodeErrorZ() { CResult_ClosingSignedDecodeErrorZ_free(self); } + CResult_ClosingSignedDecodeErrorZ& operator=(CResult_ClosingSignedDecodeErrorZ&& o) { CResult_ClosingSignedDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_ClosingSignedDecodeErrorZ)); return *this; } + LDKCResult_ClosingSignedDecodeErrorZ* operator &() { return &self; } + LDKCResult_ClosingSignedDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_ClosingSignedDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_ClosingSignedDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_HolderCommitmentTransactionDecodeErrorZ { +private: + LDKCResult_HolderCommitmentTransactionDecodeErrorZ self; +public: + CResult_HolderCommitmentTransactionDecodeErrorZ(const CResult_HolderCommitmentTransactionDecodeErrorZ&) = delete; + CResult_HolderCommitmentTransactionDecodeErrorZ(CResult_HolderCommitmentTransactionDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_HolderCommitmentTransactionDecodeErrorZ)); } + CResult_HolderCommitmentTransactionDecodeErrorZ(LDKCResult_HolderCommitmentTransactionDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_HolderCommitmentTransactionDecodeErrorZ)); } + operator LDKCResult_HolderCommitmentTransactionDecodeErrorZ() && { LDKCResult_HolderCommitmentTransactionDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_HolderCommitmentTransactionDecodeErrorZ)); return res; } + ~CResult_HolderCommitmentTransactionDecodeErrorZ() { CResult_HolderCommitmentTransactionDecodeErrorZ_free(self); } + CResult_HolderCommitmentTransactionDecodeErrorZ& operator=(CResult_HolderCommitmentTransactionDecodeErrorZ&& o) { CResult_HolderCommitmentTransactionDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_HolderCommitmentTransactionDecodeErrorZ)); return *this; } + LDKCResult_HolderCommitmentTransactionDecodeErrorZ* operator &() { return &self; } + LDKCResult_HolderCommitmentTransactionDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_HolderCommitmentTransactionDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_HolderCommitmentTransactionDecodeErrorZ* operator ->() const { return &self; } +}; +class CVec_CResult_NoneAPIErrorZZ { +private: + LDKCVec_CResult_NoneAPIErrorZZ self; +public: + CVec_CResult_NoneAPIErrorZZ(const CVec_CResult_NoneAPIErrorZZ&) = delete; + CVec_CResult_NoneAPIErrorZZ(CVec_CResult_NoneAPIErrorZZ&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_CResult_NoneAPIErrorZZ)); } + CVec_CResult_NoneAPIErrorZZ(LDKCVec_CResult_NoneAPIErrorZZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_CResult_NoneAPIErrorZZ)); } + operator LDKCVec_CResult_NoneAPIErrorZZ() && { LDKCVec_CResult_NoneAPIErrorZZ res = self; memset(&self, 0, sizeof(LDKCVec_CResult_NoneAPIErrorZZ)); return res; } + ~CVec_CResult_NoneAPIErrorZZ() { CVec_CResult_NoneAPIErrorZZ_free(self); } + CVec_CResult_NoneAPIErrorZZ& operator=(CVec_CResult_NoneAPIErrorZZ&& o) { CVec_CResult_NoneAPIErrorZZ_free(self); self = o.self; memset(&o, 0, sizeof(CVec_CResult_NoneAPIErrorZZ)); return *this; } + LDKCVec_CResult_NoneAPIErrorZZ* operator &() { return &self; } + LDKCVec_CResult_NoneAPIErrorZZ* operator ->() { return &self; } + const LDKCVec_CResult_NoneAPIErrorZZ* operator &() const { return &self; } + const LDKCVec_CResult_NoneAPIErrorZZ* operator ->() const { return &self; } +}; +class CResult_SignatureNoneZ { +private: + LDKCResult_SignatureNoneZ self; +public: + CResult_SignatureNoneZ(const CResult_SignatureNoneZ&) = delete; + CResult_SignatureNoneZ(CResult_SignatureNoneZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_SignatureNoneZ)); } + CResult_SignatureNoneZ(LDKCResult_SignatureNoneZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_SignatureNoneZ)); } + operator LDKCResult_SignatureNoneZ() && { LDKCResult_SignatureNoneZ res = self; memset(&self, 0, sizeof(LDKCResult_SignatureNoneZ)); return res; } + ~CResult_SignatureNoneZ() { CResult_SignatureNoneZ_free(self); } + CResult_SignatureNoneZ& operator=(CResult_SignatureNoneZ&& o) { CResult_SignatureNoneZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_SignatureNoneZ)); return *this; } + LDKCResult_SignatureNoneZ* operator &() { return &self; } + LDKCResult_SignatureNoneZ* operator ->() { return &self; } + const LDKCResult_SignatureNoneZ* operator &() const { return &self; } + const LDKCResult_SignatureNoneZ* operator ->() const { return &self; } +}; +class C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ { +private: + LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ self; +public: + C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ(const C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ&) = delete; + C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ(C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ&& o) : self(o.self) { memset(&o, 0, sizeof(C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ)); } + C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ(LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ)); } + operator LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ() && { LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ res = self; memset(&self, 0, sizeof(LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ)); return res; } + ~C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ() { C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ_free(self); } + C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ& operator=(C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ&& o) { C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ_free(self); self = o.self; memset(&o, 0, sizeof(C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ)); return *this; } + LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ* operator &() { return &self; } + LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ* operator ->() { return &self; } + const LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ* operator &() const { return &self; } + const LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ* operator ->() const { return &self; } +}; +class CResult_InitDecodeErrorZ { +private: + LDKCResult_InitDecodeErrorZ self; +public: + CResult_InitDecodeErrorZ(const CResult_InitDecodeErrorZ&) = delete; + CResult_InitDecodeErrorZ(CResult_InitDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_InitDecodeErrorZ)); } + CResult_InitDecodeErrorZ(LDKCResult_InitDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_InitDecodeErrorZ)); } + operator LDKCResult_InitDecodeErrorZ() && { LDKCResult_InitDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_InitDecodeErrorZ)); return res; } + ~CResult_InitDecodeErrorZ() { CResult_InitDecodeErrorZ_free(self); } + CResult_InitDecodeErrorZ& operator=(CResult_InitDecodeErrorZ&& o) { CResult_InitDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_InitDecodeErrorZ)); return *this; } + LDKCResult_InitDecodeErrorZ* operator &() { return &self; } + LDKCResult_InitDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_InitDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_InitDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_OutPointDecodeErrorZ { +private: + LDKCResult_OutPointDecodeErrorZ self; +public: + CResult_OutPointDecodeErrorZ(const CResult_OutPointDecodeErrorZ&) = delete; + CResult_OutPointDecodeErrorZ(CResult_OutPointDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_OutPointDecodeErrorZ)); } + CResult_OutPointDecodeErrorZ(LDKCResult_OutPointDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_OutPointDecodeErrorZ)); } + operator LDKCResult_OutPointDecodeErrorZ() && { LDKCResult_OutPointDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_OutPointDecodeErrorZ)); return res; } + ~CResult_OutPointDecodeErrorZ() { CResult_OutPointDecodeErrorZ_free(self); } + CResult_OutPointDecodeErrorZ& operator=(CResult_OutPointDecodeErrorZ&& o) { CResult_OutPointDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_OutPointDecodeErrorZ)); return *this; } + LDKCResult_OutPointDecodeErrorZ* operator &() { return &self; } + LDKCResult_OutPointDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_OutPointDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_OutPointDecodeErrorZ* operator ->() const { return &self; } +}; +class CVec_ChannelDetailsZ { +private: + LDKCVec_ChannelDetailsZ self; +public: + CVec_ChannelDetailsZ(const CVec_ChannelDetailsZ&) = delete; + CVec_ChannelDetailsZ(CVec_ChannelDetailsZ&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_ChannelDetailsZ)); } + CVec_ChannelDetailsZ(LDKCVec_ChannelDetailsZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_ChannelDetailsZ)); } + operator LDKCVec_ChannelDetailsZ() && { LDKCVec_ChannelDetailsZ res = self; memset(&self, 0, sizeof(LDKCVec_ChannelDetailsZ)); return res; } + ~CVec_ChannelDetailsZ() { CVec_ChannelDetailsZ_free(self); } + CVec_ChannelDetailsZ& operator=(CVec_ChannelDetailsZ&& o) { CVec_ChannelDetailsZ_free(self); self = o.self; memset(&o, 0, sizeof(CVec_ChannelDetailsZ)); return *this; } + LDKCVec_ChannelDetailsZ* operator &() { return &self; } + LDKCVec_ChannelDetailsZ* operator ->() { return &self; } + const LDKCVec_ChannelDetailsZ* operator &() const { return &self; } + const LDKCVec_ChannelDetailsZ* operator ->() const { return &self; } +}; +class CResult_SignDecodeErrorZ { +private: + LDKCResult_SignDecodeErrorZ self; +public: + CResult_SignDecodeErrorZ(const CResult_SignDecodeErrorZ&) = delete; + CResult_SignDecodeErrorZ(CResult_SignDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_SignDecodeErrorZ)); } + CResult_SignDecodeErrorZ(LDKCResult_SignDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_SignDecodeErrorZ)); } + operator LDKCResult_SignDecodeErrorZ() && { LDKCResult_SignDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_SignDecodeErrorZ)); return res; } + ~CResult_SignDecodeErrorZ() { CResult_SignDecodeErrorZ_free(self); } + CResult_SignDecodeErrorZ& operator=(CResult_SignDecodeErrorZ&& o) { CResult_SignDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_SignDecodeErrorZ)); return *this; } + LDKCResult_SignDecodeErrorZ* operator &() { return &self; } + LDKCResult_SignDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_SignDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_SignDecodeErrorZ* operator ->() const { return &self; } +}; +class CVec_MessageSendEventZ { +private: + LDKCVec_MessageSendEventZ self; +public: + CVec_MessageSendEventZ(const CVec_MessageSendEventZ&) = delete; + CVec_MessageSendEventZ(CVec_MessageSendEventZ&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_MessageSendEventZ)); } + CVec_MessageSendEventZ(LDKCVec_MessageSendEventZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_MessageSendEventZ)); } + operator LDKCVec_MessageSendEventZ() && { LDKCVec_MessageSendEventZ res = self; memset(&self, 0, sizeof(LDKCVec_MessageSendEventZ)); return res; } + ~CVec_MessageSendEventZ() { CVec_MessageSendEventZ_free(self); } + CVec_MessageSendEventZ& operator=(CVec_MessageSendEventZ&& o) { CVec_MessageSendEventZ_free(self); self = o.self; memset(&o, 0, sizeof(CVec_MessageSendEventZ)); return *this; } + LDKCVec_MessageSendEventZ* operator &() { return &self; } + LDKCVec_MessageSendEventZ* operator ->() { return &self; } + const LDKCVec_MessageSendEventZ* operator &() const { return &self; } + const LDKCVec_MessageSendEventZ* operator ->() const { return &self; } +}; +class CVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ { +private: + LDKCVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ self; +public: + CVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ(const CVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ&) = delete; + CVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ(CVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ)); } + CVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ(LDKCVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ)); } + operator LDKCVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ() && { LDKCVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ res = self; memset(&self, 0, sizeof(LDKCVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ)); return res; } + ~CVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ() { CVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ_free(self); } + CVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ& operator=(CVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ&& o) { CVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ_free(self); self = o.self; memset(&o, 0, sizeof(CVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ)); return *this; } + LDKCVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ* operator &() { return &self; } + LDKCVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ* operator ->() { return &self; } + const LDKCVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ* operator &() const { return &self; } + const LDKCVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ* operator ->() const { return &self; } +}; +class C2Tuple_OutPointScriptZ { +private: + LDKC2Tuple_OutPointScriptZ self; +public: + C2Tuple_OutPointScriptZ(const C2Tuple_OutPointScriptZ&) = delete; + C2Tuple_OutPointScriptZ(C2Tuple_OutPointScriptZ&& o) : self(o.self) { memset(&o, 0, sizeof(C2Tuple_OutPointScriptZ)); } + C2Tuple_OutPointScriptZ(LDKC2Tuple_OutPointScriptZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKC2Tuple_OutPointScriptZ)); } + operator LDKC2Tuple_OutPointScriptZ() && { LDKC2Tuple_OutPointScriptZ res = self; memset(&self, 0, sizeof(LDKC2Tuple_OutPointScriptZ)); return res; } + ~C2Tuple_OutPointScriptZ() { C2Tuple_OutPointScriptZ_free(self); } + C2Tuple_OutPointScriptZ& operator=(C2Tuple_OutPointScriptZ&& o) { C2Tuple_OutPointScriptZ_free(self); self = o.self; memset(&o, 0, sizeof(C2Tuple_OutPointScriptZ)); return *this; } + LDKC2Tuple_OutPointScriptZ* operator &() { return &self; } + LDKC2Tuple_OutPointScriptZ* operator ->() { return &self; } + const LDKC2Tuple_OutPointScriptZ* operator &() const { return &self; } + const LDKC2Tuple_OutPointScriptZ* operator ->() const { return &self; } +}; +class CResult_UpdateFailMalformedHTLCDecodeErrorZ { +private: + LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ self; +public: + CResult_UpdateFailMalformedHTLCDecodeErrorZ(const CResult_UpdateFailMalformedHTLCDecodeErrorZ&) = delete; + CResult_UpdateFailMalformedHTLCDecodeErrorZ(CResult_UpdateFailMalformedHTLCDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_UpdateFailMalformedHTLCDecodeErrorZ)); } + CResult_UpdateFailMalformedHTLCDecodeErrorZ(LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ)); } + operator LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ() && { LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ)); return res; } + ~CResult_UpdateFailMalformedHTLCDecodeErrorZ() { CResult_UpdateFailMalformedHTLCDecodeErrorZ_free(self); } + CResult_UpdateFailMalformedHTLCDecodeErrorZ& operator=(CResult_UpdateFailMalformedHTLCDecodeErrorZ&& o) { CResult_UpdateFailMalformedHTLCDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_UpdateFailMalformedHTLCDecodeErrorZ)); return *this; } + LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ* operator &() { return &self; } + LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ* operator ->() const { return &self; } +}; +class CVec_NodeAnnouncementZ { +private: + LDKCVec_NodeAnnouncementZ self; +public: + CVec_NodeAnnouncementZ(const CVec_NodeAnnouncementZ&) = delete; + CVec_NodeAnnouncementZ(CVec_NodeAnnouncementZ&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_NodeAnnouncementZ)); } + CVec_NodeAnnouncementZ(LDKCVec_NodeAnnouncementZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_NodeAnnouncementZ)); } + operator LDKCVec_NodeAnnouncementZ() && { LDKCVec_NodeAnnouncementZ res = self; memset(&self, 0, sizeof(LDKCVec_NodeAnnouncementZ)); return res; } + ~CVec_NodeAnnouncementZ() { CVec_NodeAnnouncementZ_free(self); } + CVec_NodeAnnouncementZ& operator=(CVec_NodeAnnouncementZ&& o) { CVec_NodeAnnouncementZ_free(self); self = o.self; memset(&o, 0, sizeof(CVec_NodeAnnouncementZ)); return *this; } + LDKCVec_NodeAnnouncementZ* operator &() { return &self; } + LDKCVec_NodeAnnouncementZ* operator ->() { return &self; } + const LDKCVec_NodeAnnouncementZ* operator &() const { return &self; } + const LDKCVec_NodeAnnouncementZ* operator ->() const { return &self; } +}; +class CResult_UnsignedChannelAnnouncementDecodeErrorZ { +private: + LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ self; +public: + CResult_UnsignedChannelAnnouncementDecodeErrorZ(const CResult_UnsignedChannelAnnouncementDecodeErrorZ&) = delete; + CResult_UnsignedChannelAnnouncementDecodeErrorZ(CResult_UnsignedChannelAnnouncementDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_UnsignedChannelAnnouncementDecodeErrorZ)); } + CResult_UnsignedChannelAnnouncementDecodeErrorZ(LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ)); } + operator LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ() && { LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ)); return res; } + ~CResult_UnsignedChannelAnnouncementDecodeErrorZ() { CResult_UnsignedChannelAnnouncementDecodeErrorZ_free(self); } + CResult_UnsignedChannelAnnouncementDecodeErrorZ& operator=(CResult_UnsignedChannelAnnouncementDecodeErrorZ&& o) { CResult_UnsignedChannelAnnouncementDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_UnsignedChannelAnnouncementDecodeErrorZ)); return *this; } + LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ* operator &() { return &self; } + LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_PongDecodeErrorZ { +private: + LDKCResult_PongDecodeErrorZ self; +public: + CResult_PongDecodeErrorZ(const CResult_PongDecodeErrorZ&) = delete; + CResult_PongDecodeErrorZ(CResult_PongDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_PongDecodeErrorZ)); } + CResult_PongDecodeErrorZ(LDKCResult_PongDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_PongDecodeErrorZ)); } + operator LDKCResult_PongDecodeErrorZ() && { LDKCResult_PongDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_PongDecodeErrorZ)); return res; } + ~CResult_PongDecodeErrorZ() { CResult_PongDecodeErrorZ_free(self); } + CResult_PongDecodeErrorZ& operator=(CResult_PongDecodeErrorZ&& o) { CResult_PongDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_PongDecodeErrorZ)); return *this; } + LDKCResult_PongDecodeErrorZ* operator &() { return &self; } + LDKCResult_PongDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_PongDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_PongDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_NoneMonitorUpdateErrorZ { +private: + LDKCResult_NoneMonitorUpdateErrorZ self; +public: + CResult_NoneMonitorUpdateErrorZ(const CResult_NoneMonitorUpdateErrorZ&) = delete; + CResult_NoneMonitorUpdateErrorZ(CResult_NoneMonitorUpdateErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_NoneMonitorUpdateErrorZ)); } + CResult_NoneMonitorUpdateErrorZ(LDKCResult_NoneMonitorUpdateErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_NoneMonitorUpdateErrorZ)); } + operator LDKCResult_NoneMonitorUpdateErrorZ() && { LDKCResult_NoneMonitorUpdateErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_NoneMonitorUpdateErrorZ)); return res; } + ~CResult_NoneMonitorUpdateErrorZ() { CResult_NoneMonitorUpdateErrorZ_free(self); } + CResult_NoneMonitorUpdateErrorZ& operator=(CResult_NoneMonitorUpdateErrorZ&& o) { CResult_NoneMonitorUpdateErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_NoneMonitorUpdateErrorZ)); return *this; } + LDKCResult_NoneMonitorUpdateErrorZ* operator &() { return &self; } + LDKCResult_NoneMonitorUpdateErrorZ* operator ->() { return &self; } + const LDKCResult_NoneMonitorUpdateErrorZ* operator &() const { return &self; } + const LDKCResult_NoneMonitorUpdateErrorZ* operator ->() const { return &self; } +}; +class CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ { +private: + LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ self; +public: + CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ(const CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ&) = delete; + CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ(CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ)); } + CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ(LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ)); } + operator LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ() && { LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ res = self; memset(&self, 0, sizeof(LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ)); return res; } + ~CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ() { CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_free(self); } + CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ& operator=(CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ&& o) { CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ)); return *this; } + LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ* operator &() { return &self; } + LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ* operator ->() { return &self; } + const LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ* operator &() const { return &self; } + const LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ* operator ->() const { return &self; } +}; +class CVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ { +private: + LDKCVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ self; +public: + CVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ(const CVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ&) = delete; + CVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ(CVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ)); } + CVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ(LDKCVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ)); } + operator LDKCVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ() && { LDKCVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ res = self; memset(&self, 0, sizeof(LDKCVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ)); return res; } + ~CVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ() { CVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ_free(self); } + CVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ& operator=(CVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ&& o) { CVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ_free(self); self = o.self; memset(&o, 0, sizeof(CVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ)); return *this; } + LDKCVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ* operator &() { return &self; } + LDKCVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ* operator ->() { return &self; } + const LDKCVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ* operator &() const { return &self; } + const LDKCVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ* operator ->() const { return &self; } +}; +class CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ { +private: + LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ self; +public: + CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ(const CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ&) = delete; + CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ(CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ)); } + CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ(LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ)); } + operator LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ() && { LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ)); return res; } + ~CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ() { CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_free(self); } + CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ& operator=(CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ&& o) { CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ)); return *this; } + LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ* operator &() { return &self; } + LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_CVec_CVec_u8ZZNoneZ { +private: + LDKCResult_CVec_CVec_u8ZZNoneZ self; +public: + CResult_CVec_CVec_u8ZZNoneZ(const CResult_CVec_CVec_u8ZZNoneZ&) = delete; + CResult_CVec_CVec_u8ZZNoneZ(CResult_CVec_CVec_u8ZZNoneZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_CVec_CVec_u8ZZNoneZ)); } + CResult_CVec_CVec_u8ZZNoneZ(LDKCResult_CVec_CVec_u8ZZNoneZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_CVec_CVec_u8ZZNoneZ)); } + operator LDKCResult_CVec_CVec_u8ZZNoneZ() && { LDKCResult_CVec_CVec_u8ZZNoneZ res = self; memset(&self, 0, sizeof(LDKCResult_CVec_CVec_u8ZZNoneZ)); return res; } + ~CResult_CVec_CVec_u8ZZNoneZ() { CResult_CVec_CVec_u8ZZNoneZ_free(self); } + CResult_CVec_CVec_u8ZZNoneZ& operator=(CResult_CVec_CVec_u8ZZNoneZ&& o) { CResult_CVec_CVec_u8ZZNoneZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_CVec_CVec_u8ZZNoneZ)); return *this; } + LDKCResult_CVec_CVec_u8ZZNoneZ* operator &() { return &self; } + LDKCResult_CVec_CVec_u8ZZNoneZ* operator ->() { return &self; } + const LDKCResult_CVec_CVec_u8ZZNoneZ* operator &() const { return &self; } + const LDKCResult_CVec_CVec_u8ZZNoneZ* operator ->() const { return &self; } +}; +class CResult_AcceptChannelDecodeErrorZ { +private: + LDKCResult_AcceptChannelDecodeErrorZ self; +public: + CResult_AcceptChannelDecodeErrorZ(const CResult_AcceptChannelDecodeErrorZ&) = delete; + CResult_AcceptChannelDecodeErrorZ(CResult_AcceptChannelDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_AcceptChannelDecodeErrorZ)); } + CResult_AcceptChannelDecodeErrorZ(LDKCResult_AcceptChannelDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_AcceptChannelDecodeErrorZ)); } + operator LDKCResult_AcceptChannelDecodeErrorZ() && { LDKCResult_AcceptChannelDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_AcceptChannelDecodeErrorZ)); return res; } + ~CResult_AcceptChannelDecodeErrorZ() { CResult_AcceptChannelDecodeErrorZ_free(self); } + CResult_AcceptChannelDecodeErrorZ& operator=(CResult_AcceptChannelDecodeErrorZ&& o) { CResult_AcceptChannelDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_AcceptChannelDecodeErrorZ)); return *this; } + LDKCResult_AcceptChannelDecodeErrorZ* operator &() { return &self; } + LDKCResult_AcceptChannelDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_AcceptChannelDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_AcceptChannelDecodeErrorZ* operator ->() const { return &self; } +}; +class C2Tuple_BlockHashChannelManagerZ { +private: + LDKC2Tuple_BlockHashChannelManagerZ self; +public: + C2Tuple_BlockHashChannelManagerZ(const C2Tuple_BlockHashChannelManagerZ&) = delete; + C2Tuple_BlockHashChannelManagerZ(C2Tuple_BlockHashChannelManagerZ&& o) : self(o.self) { memset(&o, 0, sizeof(C2Tuple_BlockHashChannelManagerZ)); } + C2Tuple_BlockHashChannelManagerZ(LDKC2Tuple_BlockHashChannelManagerZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKC2Tuple_BlockHashChannelManagerZ)); } + operator LDKC2Tuple_BlockHashChannelManagerZ() && { LDKC2Tuple_BlockHashChannelManagerZ res = self; memset(&self, 0, sizeof(LDKC2Tuple_BlockHashChannelManagerZ)); return res; } + ~C2Tuple_BlockHashChannelManagerZ() { C2Tuple_BlockHashChannelManagerZ_free(self); } + C2Tuple_BlockHashChannelManagerZ& operator=(C2Tuple_BlockHashChannelManagerZ&& o) { C2Tuple_BlockHashChannelManagerZ_free(self); self = o.self; memset(&o, 0, sizeof(C2Tuple_BlockHashChannelManagerZ)); return *this; } + LDKC2Tuple_BlockHashChannelManagerZ* operator &() { return &self; } + LDKC2Tuple_BlockHashChannelManagerZ* operator ->() { return &self; } + const LDKC2Tuple_BlockHashChannelManagerZ* operator &() const { return &self; } + const LDKC2Tuple_BlockHashChannelManagerZ* operator ->() const { return &self; } +}; +class CResult_ChannelTransactionParametersDecodeErrorZ { +private: + LDKCResult_ChannelTransactionParametersDecodeErrorZ self; +public: + CResult_ChannelTransactionParametersDecodeErrorZ(const CResult_ChannelTransactionParametersDecodeErrorZ&) = delete; + CResult_ChannelTransactionParametersDecodeErrorZ(CResult_ChannelTransactionParametersDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_ChannelTransactionParametersDecodeErrorZ)); } + CResult_ChannelTransactionParametersDecodeErrorZ(LDKCResult_ChannelTransactionParametersDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_ChannelTransactionParametersDecodeErrorZ)); } + operator LDKCResult_ChannelTransactionParametersDecodeErrorZ() && { LDKCResult_ChannelTransactionParametersDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_ChannelTransactionParametersDecodeErrorZ)); return res; } + ~CResult_ChannelTransactionParametersDecodeErrorZ() { CResult_ChannelTransactionParametersDecodeErrorZ_free(self); } + CResult_ChannelTransactionParametersDecodeErrorZ& operator=(CResult_ChannelTransactionParametersDecodeErrorZ&& o) { CResult_ChannelTransactionParametersDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_ChannelTransactionParametersDecodeErrorZ)); return *this; } + LDKCResult_ChannelTransactionParametersDecodeErrorZ* operator &() { return &self; } + LDKCResult_ChannelTransactionParametersDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_ChannelTransactionParametersDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_ChannelTransactionParametersDecodeErrorZ* operator ->() const { return &self; } +}; +class CVec_SignatureZ { +private: + LDKCVec_SignatureZ self; +public: + CVec_SignatureZ(const CVec_SignatureZ&) = delete; + CVec_SignatureZ(CVec_SignatureZ&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_SignatureZ)); } + CVec_SignatureZ(LDKCVec_SignatureZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_SignatureZ)); } + operator LDKCVec_SignatureZ() && { LDKCVec_SignatureZ res = self; memset(&self, 0, sizeof(LDKCVec_SignatureZ)); return res; } + ~CVec_SignatureZ() { CVec_SignatureZ_free(self); } + CVec_SignatureZ& operator=(CVec_SignatureZ&& o) { CVec_SignatureZ_free(self); self = o.self; memset(&o, 0, sizeof(CVec_SignatureZ)); return *this; } + LDKCVec_SignatureZ* operator &() { return &self; } + LDKCVec_SignatureZ* operator ->() { return &self; } + const LDKCVec_SignatureZ* operator &() const { return &self; } + const LDKCVec_SignatureZ* operator ->() const { return &self; } +}; +class CVec_u64Z { +private: + LDKCVec_u64Z self; +public: + CVec_u64Z(const CVec_u64Z&) = delete; + CVec_u64Z(CVec_u64Z&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_u64Z)); } + CVec_u64Z(LDKCVec_u64Z&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_u64Z)); } + operator LDKCVec_u64Z() && { LDKCVec_u64Z res = self; memset(&self, 0, sizeof(LDKCVec_u64Z)); return res; } + ~CVec_u64Z() { CVec_u64Z_free(self); } + CVec_u64Z& operator=(CVec_u64Z&& o) { CVec_u64Z_free(self); self = o.self; memset(&o, 0, sizeof(CVec_u64Z)); return *this; } + LDKCVec_u64Z* operator &() { return &self; } + LDKCVec_u64Z* operator ->() { return &self; } + const LDKCVec_u64Z* operator &() const { return &self; } + const LDKCVec_u64Z* operator ->() const { return &self; } +}; +class CVec_RouteHintZ { +private: + LDKCVec_RouteHintZ self; +public: + CVec_RouteHintZ(const CVec_RouteHintZ&) = delete; + CVec_RouteHintZ(CVec_RouteHintZ&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_RouteHintZ)); } + CVec_RouteHintZ(LDKCVec_RouteHintZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_RouteHintZ)); } + operator LDKCVec_RouteHintZ() && { LDKCVec_RouteHintZ res = self; memset(&self, 0, sizeof(LDKCVec_RouteHintZ)); return res; } + ~CVec_RouteHintZ() { CVec_RouteHintZ_free(self); } + CVec_RouteHintZ& operator=(CVec_RouteHintZ&& o) { CVec_RouteHintZ_free(self); self = o.self; memset(&o, 0, sizeof(CVec_RouteHintZ)); return *this; } + LDKCVec_RouteHintZ* operator &() { return &self; } + LDKCVec_RouteHintZ* operator ->() { return &self; } + const LDKCVec_RouteHintZ* operator &() const { return &self; } + const LDKCVec_RouteHintZ* operator ->() const { return &self; } +}; +class CVec_CVec_RouteHopZZ { +private: + LDKCVec_CVec_RouteHopZZ self; +public: + CVec_CVec_RouteHopZZ(const CVec_CVec_RouteHopZZ&) = delete; + CVec_CVec_RouteHopZZ(CVec_CVec_RouteHopZZ&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_CVec_RouteHopZZ)); } + CVec_CVec_RouteHopZZ(LDKCVec_CVec_RouteHopZZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_CVec_RouteHopZZ)); } + operator LDKCVec_CVec_RouteHopZZ() && { LDKCVec_CVec_RouteHopZZ res = self; memset(&self, 0, sizeof(LDKCVec_CVec_RouteHopZZ)); return res; } + ~CVec_CVec_RouteHopZZ() { CVec_CVec_RouteHopZZ_free(self); } + CVec_CVec_RouteHopZZ& operator=(CVec_CVec_RouteHopZZ&& o) { CVec_CVec_RouteHopZZ_free(self); self = o.self; memset(&o, 0, sizeof(CVec_CVec_RouteHopZZ)); return *this; } + LDKCVec_CVec_RouteHopZZ* operator &() { return &self; } + LDKCVec_CVec_RouteHopZZ* operator ->() { return &self; } + const LDKCVec_CVec_RouteHopZZ* operator &() const { return &self; } + const LDKCVec_CVec_RouteHopZZ* operator ->() const { return &self; } +}; +class CResult_TrustedCommitmentTransactionNoneZ { +private: + LDKCResult_TrustedCommitmentTransactionNoneZ self; +public: + CResult_TrustedCommitmentTransactionNoneZ(const CResult_TrustedCommitmentTransactionNoneZ&) = delete; + CResult_TrustedCommitmentTransactionNoneZ(CResult_TrustedCommitmentTransactionNoneZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_TrustedCommitmentTransactionNoneZ)); } + CResult_TrustedCommitmentTransactionNoneZ(LDKCResult_TrustedCommitmentTransactionNoneZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_TrustedCommitmentTransactionNoneZ)); } + operator LDKCResult_TrustedCommitmentTransactionNoneZ() && { LDKCResult_TrustedCommitmentTransactionNoneZ res = self; memset(&self, 0, sizeof(LDKCResult_TrustedCommitmentTransactionNoneZ)); return res; } + ~CResult_TrustedCommitmentTransactionNoneZ() { CResult_TrustedCommitmentTransactionNoneZ_free(self); } + CResult_TrustedCommitmentTransactionNoneZ& operator=(CResult_TrustedCommitmentTransactionNoneZ&& o) { CResult_TrustedCommitmentTransactionNoneZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_TrustedCommitmentTransactionNoneZ)); return *this; } + LDKCResult_TrustedCommitmentTransactionNoneZ* operator &() { return &self; } + LDKCResult_TrustedCommitmentTransactionNoneZ* operator ->() { return &self; } + const LDKCResult_TrustedCommitmentTransactionNoneZ* operator &() const { return &self; } + const LDKCResult_TrustedCommitmentTransactionNoneZ* operator ->() const { return &self; } +}; +class CResult_NoneLightningErrorZ { +private: + LDKCResult_NoneLightningErrorZ self; +public: + CResult_NoneLightningErrorZ(const CResult_NoneLightningErrorZ&) = delete; + CResult_NoneLightningErrorZ(CResult_NoneLightningErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_NoneLightningErrorZ)); } + CResult_NoneLightningErrorZ(LDKCResult_NoneLightningErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_NoneLightningErrorZ)); } + operator LDKCResult_NoneLightningErrorZ() && { LDKCResult_NoneLightningErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_NoneLightningErrorZ)); return res; } + ~CResult_NoneLightningErrorZ() { CResult_NoneLightningErrorZ_free(self); } + CResult_NoneLightningErrorZ& operator=(CResult_NoneLightningErrorZ&& o) { CResult_NoneLightningErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_NoneLightningErrorZ)); return *this; } + LDKCResult_NoneLightningErrorZ* operator &() { return &self; } + LDKCResult_NoneLightningErrorZ* operator ->() { return &self; } + const LDKCResult_NoneLightningErrorZ* operator &() const { return &self; } + const LDKCResult_NoneLightningErrorZ* operator ->() const { return &self; } +}; +class CResult_NonePeerHandleErrorZ { +private: + LDKCResult_NonePeerHandleErrorZ self; +public: + CResult_NonePeerHandleErrorZ(const CResult_NonePeerHandleErrorZ&) = delete; + CResult_NonePeerHandleErrorZ(CResult_NonePeerHandleErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_NonePeerHandleErrorZ)); } + CResult_NonePeerHandleErrorZ(LDKCResult_NonePeerHandleErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_NonePeerHandleErrorZ)); } + operator LDKCResult_NonePeerHandleErrorZ() && { LDKCResult_NonePeerHandleErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_NonePeerHandleErrorZ)); return res; } + ~CResult_NonePeerHandleErrorZ() { CResult_NonePeerHandleErrorZ_free(self); } + CResult_NonePeerHandleErrorZ& operator=(CResult_NonePeerHandleErrorZ&& o) { CResult_NonePeerHandleErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_NonePeerHandleErrorZ)); return *this; } + LDKCResult_NonePeerHandleErrorZ* operator &() { return &self; } + LDKCResult_NonePeerHandleErrorZ* operator ->() { return &self; } + const LDKCResult_NonePeerHandleErrorZ* operator &() const { return &self; } + const LDKCResult_NonePeerHandleErrorZ* operator ->() const { return &self; } +}; +class CResult_CVec_SignatureZNoneZ { +private: + LDKCResult_CVec_SignatureZNoneZ self; +public: + CResult_CVec_SignatureZNoneZ(const CResult_CVec_SignatureZNoneZ&) = delete; + CResult_CVec_SignatureZNoneZ(CResult_CVec_SignatureZNoneZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_CVec_SignatureZNoneZ)); } + CResult_CVec_SignatureZNoneZ(LDKCResult_CVec_SignatureZNoneZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_CVec_SignatureZNoneZ)); } + operator LDKCResult_CVec_SignatureZNoneZ() && { LDKCResult_CVec_SignatureZNoneZ res = self; memset(&self, 0, sizeof(LDKCResult_CVec_SignatureZNoneZ)); return res; } + ~CResult_CVec_SignatureZNoneZ() { CResult_CVec_SignatureZNoneZ_free(self); } + CResult_CVec_SignatureZNoneZ& operator=(CResult_CVec_SignatureZNoneZ&& o) { CResult_CVec_SignatureZNoneZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_CVec_SignatureZNoneZ)); return *this; } + LDKCResult_CVec_SignatureZNoneZ* operator &() { return &self; } + LDKCResult_CVec_SignatureZNoneZ* operator ->() { return &self; } + const LDKCResult_CVec_SignatureZNoneZ* operator &() const { return &self; } + const LDKCResult_CVec_SignatureZNoneZ* operator ->() const { return &self; } +}; +class CResult_RoutingFeesDecodeErrorZ { +private: + LDKCResult_RoutingFeesDecodeErrorZ self; +public: + CResult_RoutingFeesDecodeErrorZ(const CResult_RoutingFeesDecodeErrorZ&) = delete; + CResult_RoutingFeesDecodeErrorZ(CResult_RoutingFeesDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_RoutingFeesDecodeErrorZ)); } + CResult_RoutingFeesDecodeErrorZ(LDKCResult_RoutingFeesDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_RoutingFeesDecodeErrorZ)); } + operator LDKCResult_RoutingFeesDecodeErrorZ() && { LDKCResult_RoutingFeesDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_RoutingFeesDecodeErrorZ)); return res; } + ~CResult_RoutingFeesDecodeErrorZ() { CResult_RoutingFeesDecodeErrorZ_free(self); } + CResult_RoutingFeesDecodeErrorZ& operator=(CResult_RoutingFeesDecodeErrorZ&& o) { CResult_RoutingFeesDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_RoutingFeesDecodeErrorZ)); return *this; } + LDKCResult_RoutingFeesDecodeErrorZ* operator &() { return &self; } + LDKCResult_RoutingFeesDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_RoutingFeesDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_RoutingFeesDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_QueryShortChannelIdsDecodeErrorZ { +private: + LDKCResult_QueryShortChannelIdsDecodeErrorZ self; +public: + CResult_QueryShortChannelIdsDecodeErrorZ(const CResult_QueryShortChannelIdsDecodeErrorZ&) = delete; + CResult_QueryShortChannelIdsDecodeErrorZ(CResult_QueryShortChannelIdsDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_QueryShortChannelIdsDecodeErrorZ)); } + CResult_QueryShortChannelIdsDecodeErrorZ(LDKCResult_QueryShortChannelIdsDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_QueryShortChannelIdsDecodeErrorZ)); } + operator LDKCResult_QueryShortChannelIdsDecodeErrorZ() && { LDKCResult_QueryShortChannelIdsDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_QueryShortChannelIdsDecodeErrorZ)); return res; } + ~CResult_QueryShortChannelIdsDecodeErrorZ() { CResult_QueryShortChannelIdsDecodeErrorZ_free(self); } + CResult_QueryShortChannelIdsDecodeErrorZ& operator=(CResult_QueryShortChannelIdsDecodeErrorZ&& o) { CResult_QueryShortChannelIdsDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_QueryShortChannelIdsDecodeErrorZ)); return *this; } + LDKCResult_QueryShortChannelIdsDecodeErrorZ* operator &() { return &self; } + LDKCResult_QueryShortChannelIdsDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_QueryShortChannelIdsDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_QueryShortChannelIdsDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_UpdateAddHTLCDecodeErrorZ { +private: + LDKCResult_UpdateAddHTLCDecodeErrorZ self; +public: + CResult_UpdateAddHTLCDecodeErrorZ(const CResult_UpdateAddHTLCDecodeErrorZ&) = delete; + CResult_UpdateAddHTLCDecodeErrorZ(CResult_UpdateAddHTLCDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_UpdateAddHTLCDecodeErrorZ)); } + CResult_UpdateAddHTLCDecodeErrorZ(LDKCResult_UpdateAddHTLCDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_UpdateAddHTLCDecodeErrorZ)); } + operator LDKCResult_UpdateAddHTLCDecodeErrorZ() && { LDKCResult_UpdateAddHTLCDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_UpdateAddHTLCDecodeErrorZ)); return res; } + ~CResult_UpdateAddHTLCDecodeErrorZ() { CResult_UpdateAddHTLCDecodeErrorZ_free(self); } + CResult_UpdateAddHTLCDecodeErrorZ& operator=(CResult_UpdateAddHTLCDecodeErrorZ&& o) { CResult_UpdateAddHTLCDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_UpdateAddHTLCDecodeErrorZ)); return *this; } + LDKCResult_UpdateAddHTLCDecodeErrorZ* operator &() { return &self; } + LDKCResult_UpdateAddHTLCDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_UpdateAddHTLCDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_UpdateAddHTLCDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_CounterpartyChannelTransactionParametersDecodeErrorZ { +private: + LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ self; +public: + CResult_CounterpartyChannelTransactionParametersDecodeErrorZ(const CResult_CounterpartyChannelTransactionParametersDecodeErrorZ&) = delete; + CResult_CounterpartyChannelTransactionParametersDecodeErrorZ(CResult_CounterpartyChannelTransactionParametersDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_CounterpartyChannelTransactionParametersDecodeErrorZ)); } + CResult_CounterpartyChannelTransactionParametersDecodeErrorZ(LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ)); } + operator LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ() && { LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ)); return res; } + ~CResult_CounterpartyChannelTransactionParametersDecodeErrorZ() { CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_free(self); } + CResult_CounterpartyChannelTransactionParametersDecodeErrorZ& operator=(CResult_CounterpartyChannelTransactionParametersDecodeErrorZ&& o) { CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_CounterpartyChannelTransactionParametersDecodeErrorZ)); return *this; } + LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ* operator &() { return &self; } + LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_NoneAPIErrorZ { +private: + LDKCResult_NoneAPIErrorZ self; +public: + CResult_NoneAPIErrorZ(const CResult_NoneAPIErrorZ&) = delete; + CResult_NoneAPIErrorZ(CResult_NoneAPIErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_NoneAPIErrorZ)); } + CResult_NoneAPIErrorZ(LDKCResult_NoneAPIErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_NoneAPIErrorZ)); } + operator LDKCResult_NoneAPIErrorZ() && { LDKCResult_NoneAPIErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_NoneAPIErrorZ)); return res; } + ~CResult_NoneAPIErrorZ() { CResult_NoneAPIErrorZ_free(self); } + CResult_NoneAPIErrorZ& operator=(CResult_NoneAPIErrorZ&& o) { CResult_NoneAPIErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_NoneAPIErrorZ)); return *this; } + LDKCResult_NoneAPIErrorZ* operator &() { return &self; } + LDKCResult_NoneAPIErrorZ* operator ->() { return &self; } + const LDKCResult_NoneAPIErrorZ* operator &() const { return &self; } + const LDKCResult_NoneAPIErrorZ* operator ->() const { return &self; } +}; +class CVec_NetAddressZ { +private: + LDKCVec_NetAddressZ self; +public: + CVec_NetAddressZ(const CVec_NetAddressZ&) = delete; + CVec_NetAddressZ(CVec_NetAddressZ&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_NetAddressZ)); } + CVec_NetAddressZ(LDKCVec_NetAddressZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_NetAddressZ)); } + operator LDKCVec_NetAddressZ() && { LDKCVec_NetAddressZ res = self; memset(&self, 0, sizeof(LDKCVec_NetAddressZ)); return res; } + ~CVec_NetAddressZ() { CVec_NetAddressZ_free(self); } + CVec_NetAddressZ& operator=(CVec_NetAddressZ&& o) { CVec_NetAddressZ_free(self); self = o.self; memset(&o, 0, sizeof(CVec_NetAddressZ)); return *this; } + LDKCVec_NetAddressZ* operator &() { return &self; } + LDKCVec_NetAddressZ* operator ->() { return &self; } + const LDKCVec_NetAddressZ* operator &() const { return &self; } + const LDKCVec_NetAddressZ* operator ->() const { return &self; } +}; +class CVec_PublicKeyZ { +private: + LDKCVec_PublicKeyZ self; +public: + CVec_PublicKeyZ(const CVec_PublicKeyZ&) = delete; + CVec_PublicKeyZ(CVec_PublicKeyZ&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_PublicKeyZ)); } + CVec_PublicKeyZ(LDKCVec_PublicKeyZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_PublicKeyZ)); } + operator LDKCVec_PublicKeyZ() && { LDKCVec_PublicKeyZ res = self; memset(&self, 0, sizeof(LDKCVec_PublicKeyZ)); return res; } + ~CVec_PublicKeyZ() { CVec_PublicKeyZ_free(self); } + CVec_PublicKeyZ& operator=(CVec_PublicKeyZ&& o) { CVec_PublicKeyZ_free(self); self = o.self; memset(&o, 0, sizeof(CVec_PublicKeyZ)); return *this; } + LDKCVec_PublicKeyZ* operator &() { return &self; } + LDKCVec_PublicKeyZ* operator ->() { return &self; } + const LDKCVec_PublicKeyZ* operator &() const { return &self; } + const LDKCVec_PublicKeyZ* operator ->() const { return &self; } +}; +class CVec_C2Tuple_usizeTransactionZZ { +private: + LDKCVec_C2Tuple_usizeTransactionZZ self; +public: + CVec_C2Tuple_usizeTransactionZZ(const CVec_C2Tuple_usizeTransactionZZ&) = delete; + CVec_C2Tuple_usizeTransactionZZ(CVec_C2Tuple_usizeTransactionZZ&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_C2Tuple_usizeTransactionZZ)); } + CVec_C2Tuple_usizeTransactionZZ(LDKCVec_C2Tuple_usizeTransactionZZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_C2Tuple_usizeTransactionZZ)); } + operator LDKCVec_C2Tuple_usizeTransactionZZ() && { LDKCVec_C2Tuple_usizeTransactionZZ res = self; memset(&self, 0, sizeof(LDKCVec_C2Tuple_usizeTransactionZZ)); return res; } + ~CVec_C2Tuple_usizeTransactionZZ() { CVec_C2Tuple_usizeTransactionZZ_free(self); } + CVec_C2Tuple_usizeTransactionZZ& operator=(CVec_C2Tuple_usizeTransactionZZ&& o) { CVec_C2Tuple_usizeTransactionZZ_free(self); self = o.self; memset(&o, 0, sizeof(CVec_C2Tuple_usizeTransactionZZ)); return *this; } + LDKCVec_C2Tuple_usizeTransactionZZ* operator &() { return &self; } + LDKCVec_C2Tuple_usizeTransactionZZ* operator ->() { return &self; } + const LDKCVec_C2Tuple_usizeTransactionZZ* operator &() const { return &self; } + const LDKCVec_C2Tuple_usizeTransactionZZ* operator ->() const { return &self; } +}; +class CResult_DirectionalChannelInfoDecodeErrorZ { +private: + LDKCResult_DirectionalChannelInfoDecodeErrorZ self; +public: + CResult_DirectionalChannelInfoDecodeErrorZ(const CResult_DirectionalChannelInfoDecodeErrorZ&) = delete; + CResult_DirectionalChannelInfoDecodeErrorZ(CResult_DirectionalChannelInfoDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_DirectionalChannelInfoDecodeErrorZ)); } + CResult_DirectionalChannelInfoDecodeErrorZ(LDKCResult_DirectionalChannelInfoDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_DirectionalChannelInfoDecodeErrorZ)); } + operator LDKCResult_DirectionalChannelInfoDecodeErrorZ() && { LDKCResult_DirectionalChannelInfoDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_DirectionalChannelInfoDecodeErrorZ)); return res; } + ~CResult_DirectionalChannelInfoDecodeErrorZ() { CResult_DirectionalChannelInfoDecodeErrorZ_free(self); } + CResult_DirectionalChannelInfoDecodeErrorZ& operator=(CResult_DirectionalChannelInfoDecodeErrorZ&& o) { CResult_DirectionalChannelInfoDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_DirectionalChannelInfoDecodeErrorZ)); return *this; } + LDKCResult_DirectionalChannelInfoDecodeErrorZ* operator &() { return &self; } + LDKCResult_DirectionalChannelInfoDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_DirectionalChannelInfoDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_DirectionalChannelInfoDecodeErrorZ* operator ->() const { return &self; } +}; +class C2Tuple_u32TxOutZ { +private: + LDKC2Tuple_u32TxOutZ self; +public: + C2Tuple_u32TxOutZ(const C2Tuple_u32TxOutZ&) = delete; + C2Tuple_u32TxOutZ(C2Tuple_u32TxOutZ&& o) : self(o.self) { memset(&o, 0, sizeof(C2Tuple_u32TxOutZ)); } + C2Tuple_u32TxOutZ(LDKC2Tuple_u32TxOutZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKC2Tuple_u32TxOutZ)); } + operator LDKC2Tuple_u32TxOutZ() && { LDKC2Tuple_u32TxOutZ res = self; memset(&self, 0, sizeof(LDKC2Tuple_u32TxOutZ)); return res; } + ~C2Tuple_u32TxOutZ() { C2Tuple_u32TxOutZ_free(self); } + C2Tuple_u32TxOutZ& operator=(C2Tuple_u32TxOutZ&& o) { C2Tuple_u32TxOutZ_free(self); self = o.self; memset(&o, 0, sizeof(C2Tuple_u32TxOutZ)); return *this; } + LDKC2Tuple_u32TxOutZ* operator &() { return &self; } + LDKC2Tuple_u32TxOutZ* operator ->() { return &self; } + const LDKC2Tuple_u32TxOutZ* operator &() const { return &self; } + const LDKC2Tuple_u32TxOutZ* operator ->() const { return &self; } +}; +class CResult_UpdateFailHTLCDecodeErrorZ { +private: + LDKCResult_UpdateFailHTLCDecodeErrorZ self; +public: + CResult_UpdateFailHTLCDecodeErrorZ(const CResult_UpdateFailHTLCDecodeErrorZ&) = delete; + CResult_UpdateFailHTLCDecodeErrorZ(CResult_UpdateFailHTLCDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_UpdateFailHTLCDecodeErrorZ)); } + CResult_UpdateFailHTLCDecodeErrorZ(LDKCResult_UpdateFailHTLCDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_UpdateFailHTLCDecodeErrorZ)); } + operator LDKCResult_UpdateFailHTLCDecodeErrorZ() && { LDKCResult_UpdateFailHTLCDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_UpdateFailHTLCDecodeErrorZ)); return res; } + ~CResult_UpdateFailHTLCDecodeErrorZ() { CResult_UpdateFailHTLCDecodeErrorZ_free(self); } + CResult_UpdateFailHTLCDecodeErrorZ& operator=(CResult_UpdateFailHTLCDecodeErrorZ&& o) { CResult_UpdateFailHTLCDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_UpdateFailHTLCDecodeErrorZ)); return *this; } + LDKCResult_UpdateFailHTLCDecodeErrorZ* operator &() { return &self; } + LDKCResult_UpdateFailHTLCDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_UpdateFailHTLCDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_UpdateFailHTLCDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_ChannelConfigDecodeErrorZ { +private: + LDKCResult_ChannelConfigDecodeErrorZ self; +public: + CResult_ChannelConfigDecodeErrorZ(const CResult_ChannelConfigDecodeErrorZ&) = delete; + CResult_ChannelConfigDecodeErrorZ(CResult_ChannelConfigDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_ChannelConfigDecodeErrorZ)); } + CResult_ChannelConfigDecodeErrorZ(LDKCResult_ChannelConfigDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_ChannelConfigDecodeErrorZ)); } + operator LDKCResult_ChannelConfigDecodeErrorZ() && { LDKCResult_ChannelConfigDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_ChannelConfigDecodeErrorZ)); return res; } + ~CResult_ChannelConfigDecodeErrorZ() { CResult_ChannelConfigDecodeErrorZ_free(self); } + CResult_ChannelConfigDecodeErrorZ& operator=(CResult_ChannelConfigDecodeErrorZ&& o) { CResult_ChannelConfigDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_ChannelConfigDecodeErrorZ)); return *this; } + LDKCResult_ChannelConfigDecodeErrorZ* operator &() { return &self; } + LDKCResult_ChannelConfigDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_ChannelConfigDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_ChannelConfigDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_RevokeAndACKDecodeErrorZ { +private: + LDKCResult_RevokeAndACKDecodeErrorZ self; +public: + CResult_RevokeAndACKDecodeErrorZ(const CResult_RevokeAndACKDecodeErrorZ&) = delete; + CResult_RevokeAndACKDecodeErrorZ(CResult_RevokeAndACKDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_RevokeAndACKDecodeErrorZ)); } + CResult_RevokeAndACKDecodeErrorZ(LDKCResult_RevokeAndACKDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_RevokeAndACKDecodeErrorZ)); } + operator LDKCResult_RevokeAndACKDecodeErrorZ() && { LDKCResult_RevokeAndACKDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_RevokeAndACKDecodeErrorZ)); return res; } + ~CResult_RevokeAndACKDecodeErrorZ() { CResult_RevokeAndACKDecodeErrorZ_free(self); } + CResult_RevokeAndACKDecodeErrorZ& operator=(CResult_RevokeAndACKDecodeErrorZ&& o) { CResult_RevokeAndACKDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_RevokeAndACKDecodeErrorZ)); return *this; } + LDKCResult_RevokeAndACKDecodeErrorZ* operator &() { return &self; } + LDKCResult_RevokeAndACKDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_RevokeAndACKDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_RevokeAndACKDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_SpendableOutputDescriptorDecodeErrorZ { +private: + LDKCResult_SpendableOutputDescriptorDecodeErrorZ self; +public: + CResult_SpendableOutputDescriptorDecodeErrorZ(const CResult_SpendableOutputDescriptorDecodeErrorZ&) = delete; + CResult_SpendableOutputDescriptorDecodeErrorZ(CResult_SpendableOutputDescriptorDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_SpendableOutputDescriptorDecodeErrorZ)); } + CResult_SpendableOutputDescriptorDecodeErrorZ(LDKCResult_SpendableOutputDescriptorDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_SpendableOutputDescriptorDecodeErrorZ)); } + operator LDKCResult_SpendableOutputDescriptorDecodeErrorZ() && { LDKCResult_SpendableOutputDescriptorDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_SpendableOutputDescriptorDecodeErrorZ)); return res; } + ~CResult_SpendableOutputDescriptorDecodeErrorZ() { CResult_SpendableOutputDescriptorDecodeErrorZ_free(self); } + CResult_SpendableOutputDescriptorDecodeErrorZ& operator=(CResult_SpendableOutputDescriptorDecodeErrorZ&& o) { CResult_SpendableOutputDescriptorDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_SpendableOutputDescriptorDecodeErrorZ)); return *this; } + LDKCResult_SpendableOutputDescriptorDecodeErrorZ* operator &() { return &self; } + LDKCResult_SpendableOutputDescriptorDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_SpendableOutputDescriptorDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_SpendableOutputDescriptorDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_UnsignedChannelUpdateDecodeErrorZ { +private: + LDKCResult_UnsignedChannelUpdateDecodeErrorZ self; +public: + CResult_UnsignedChannelUpdateDecodeErrorZ(const CResult_UnsignedChannelUpdateDecodeErrorZ&) = delete; + CResult_UnsignedChannelUpdateDecodeErrorZ(CResult_UnsignedChannelUpdateDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_UnsignedChannelUpdateDecodeErrorZ)); } + CResult_UnsignedChannelUpdateDecodeErrorZ(LDKCResult_UnsignedChannelUpdateDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_UnsignedChannelUpdateDecodeErrorZ)); } + operator LDKCResult_UnsignedChannelUpdateDecodeErrorZ() && { LDKCResult_UnsignedChannelUpdateDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_UnsignedChannelUpdateDecodeErrorZ)); return res; } + ~CResult_UnsignedChannelUpdateDecodeErrorZ() { CResult_UnsignedChannelUpdateDecodeErrorZ_free(self); } + CResult_UnsignedChannelUpdateDecodeErrorZ& operator=(CResult_UnsignedChannelUpdateDecodeErrorZ&& o) { CResult_UnsignedChannelUpdateDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_UnsignedChannelUpdateDecodeErrorZ)); return *this; } + LDKCResult_UnsignedChannelUpdateDecodeErrorZ* operator &() { return &self; } + LDKCResult_UnsignedChannelUpdateDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_UnsignedChannelUpdateDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_UnsignedChannelUpdateDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_ShutdownDecodeErrorZ { +private: + LDKCResult_ShutdownDecodeErrorZ self; +public: + CResult_ShutdownDecodeErrorZ(const CResult_ShutdownDecodeErrorZ&) = delete; + CResult_ShutdownDecodeErrorZ(CResult_ShutdownDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_ShutdownDecodeErrorZ)); } + CResult_ShutdownDecodeErrorZ(LDKCResult_ShutdownDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_ShutdownDecodeErrorZ)); } + operator LDKCResult_ShutdownDecodeErrorZ() && { LDKCResult_ShutdownDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_ShutdownDecodeErrorZ)); return res; } + ~CResult_ShutdownDecodeErrorZ() { CResult_ShutdownDecodeErrorZ_free(self); } + CResult_ShutdownDecodeErrorZ& operator=(CResult_ShutdownDecodeErrorZ&& o) { CResult_ShutdownDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_ShutdownDecodeErrorZ)); return *this; } + LDKCResult_ShutdownDecodeErrorZ* operator &() { return &self; } + LDKCResult_ShutdownDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_ShutdownDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_ShutdownDecodeErrorZ* operator ->() const { return &self; } +}; +class CVec_EventZ { +private: + LDKCVec_EventZ self; +public: + CVec_EventZ(const CVec_EventZ&) = delete; + CVec_EventZ(CVec_EventZ&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_EventZ)); } + CVec_EventZ(LDKCVec_EventZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_EventZ)); } + operator LDKCVec_EventZ() && { LDKCVec_EventZ res = self; memset(&self, 0, sizeof(LDKCVec_EventZ)); return res; } + ~CVec_EventZ() { CVec_EventZ_free(self); } + CVec_EventZ& operator=(CVec_EventZ&& o) { CVec_EventZ_free(self); self = o.self; memset(&o, 0, sizeof(CVec_EventZ)); return *this; } + LDKCVec_EventZ* operator &() { return &self; } + LDKCVec_EventZ* operator ->() { return &self; } + const LDKCVec_EventZ* operator &() const { return &self; } + const LDKCVec_EventZ* operator ->() const { return &self; } +}; +class CVec_MonitorEventZ { +private: + LDKCVec_MonitorEventZ self; +public: + CVec_MonitorEventZ(const CVec_MonitorEventZ&) = delete; + CVec_MonitorEventZ(CVec_MonitorEventZ&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_MonitorEventZ)); } + CVec_MonitorEventZ(LDKCVec_MonitorEventZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_MonitorEventZ)); } + operator LDKCVec_MonitorEventZ() && { LDKCVec_MonitorEventZ res = self; memset(&self, 0, sizeof(LDKCVec_MonitorEventZ)); return res; } + ~CVec_MonitorEventZ() { CVec_MonitorEventZ_free(self); } + CVec_MonitorEventZ& operator=(CVec_MonitorEventZ&& o) { CVec_MonitorEventZ_free(self); self = o.self; memset(&o, 0, sizeof(CVec_MonitorEventZ)); return *this; } + LDKCVec_MonitorEventZ* operator &() { return &self; } + LDKCVec_MonitorEventZ* operator ->() { return &self; } + const LDKCVec_MonitorEventZ* operator &() const { return &self; } + const LDKCVec_MonitorEventZ* operator ->() const { return &self; } +}; +class CResult_NoneChannelMonitorUpdateErrZ { +private: + LDKCResult_NoneChannelMonitorUpdateErrZ self; +public: + CResult_NoneChannelMonitorUpdateErrZ(const CResult_NoneChannelMonitorUpdateErrZ&) = delete; + CResult_NoneChannelMonitorUpdateErrZ(CResult_NoneChannelMonitorUpdateErrZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_NoneChannelMonitorUpdateErrZ)); } + CResult_NoneChannelMonitorUpdateErrZ(LDKCResult_NoneChannelMonitorUpdateErrZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_NoneChannelMonitorUpdateErrZ)); } + operator LDKCResult_NoneChannelMonitorUpdateErrZ() && { LDKCResult_NoneChannelMonitorUpdateErrZ res = self; memset(&self, 0, sizeof(LDKCResult_NoneChannelMonitorUpdateErrZ)); return res; } + ~CResult_NoneChannelMonitorUpdateErrZ() { CResult_NoneChannelMonitorUpdateErrZ_free(self); } + CResult_NoneChannelMonitorUpdateErrZ& operator=(CResult_NoneChannelMonitorUpdateErrZ&& o) { CResult_NoneChannelMonitorUpdateErrZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_NoneChannelMonitorUpdateErrZ)); return *this; } + LDKCResult_NoneChannelMonitorUpdateErrZ* operator &() { return &self; } + LDKCResult_NoneChannelMonitorUpdateErrZ* operator ->() { return &self; } + const LDKCResult_NoneChannelMonitorUpdateErrZ* operator &() const { return &self; } + const LDKCResult_NoneChannelMonitorUpdateErrZ* operator ->() const { return &self; } +}; +class CResult_PublicKeyErrorZ { +private: + LDKCResult_PublicKeyErrorZ self; +public: + CResult_PublicKeyErrorZ(const CResult_PublicKeyErrorZ&) = delete; + CResult_PublicKeyErrorZ(CResult_PublicKeyErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_PublicKeyErrorZ)); } + CResult_PublicKeyErrorZ(LDKCResult_PublicKeyErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_PublicKeyErrorZ)); } + operator LDKCResult_PublicKeyErrorZ() && { LDKCResult_PublicKeyErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_PublicKeyErrorZ)); return res; } + ~CResult_PublicKeyErrorZ() { CResult_PublicKeyErrorZ_free(self); } + CResult_PublicKeyErrorZ& operator=(CResult_PublicKeyErrorZ&& o) { CResult_PublicKeyErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_PublicKeyErrorZ)); return *this; } + LDKCResult_PublicKeyErrorZ* operator &() { return &self; } + LDKCResult_PublicKeyErrorZ* operator ->() { return &self; } + const LDKCResult_PublicKeyErrorZ* operator &() const { return &self; } + const LDKCResult_PublicKeyErrorZ* operator ->() const { return &self; } +}; +class C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ { +private: + LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ self; +public: + C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ(const C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ&) = delete; + C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ(C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ&& o) : self(o.self) { memset(&o, 0, sizeof(C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ)); } + C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ(LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ)); } + operator LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ() && { LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ res = self; memset(&self, 0, sizeof(LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ)); return res; } + ~C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ() { C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_free(self); } + C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ& operator=(C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ&& o) { C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_free(self); self = o.self; memset(&o, 0, sizeof(C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ)); return *this; } + LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ* operator &() { return &self; } + LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ* operator ->() { return &self; } + const LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ* operator &() const { return &self; } + const LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ* operator ->() const { return &self; } +}; +class CResult_boolPeerHandleErrorZ { +private: + LDKCResult_boolPeerHandleErrorZ self; +public: + CResult_boolPeerHandleErrorZ(const CResult_boolPeerHandleErrorZ&) = delete; + CResult_boolPeerHandleErrorZ(CResult_boolPeerHandleErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_boolPeerHandleErrorZ)); } + CResult_boolPeerHandleErrorZ(LDKCResult_boolPeerHandleErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_boolPeerHandleErrorZ)); } + operator LDKCResult_boolPeerHandleErrorZ() && { LDKCResult_boolPeerHandleErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_boolPeerHandleErrorZ)); return res; } + ~CResult_boolPeerHandleErrorZ() { CResult_boolPeerHandleErrorZ_free(self); } + CResult_boolPeerHandleErrorZ& operator=(CResult_boolPeerHandleErrorZ&& o) { CResult_boolPeerHandleErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_boolPeerHandleErrorZ)); return *this; } + LDKCResult_boolPeerHandleErrorZ* operator &() { return &self; } + LDKCResult_boolPeerHandleErrorZ* operator ->() { return &self; } + const LDKCResult_boolPeerHandleErrorZ* operator &() const { return &self; } + const LDKCResult_boolPeerHandleErrorZ* operator ->() const { return &self; } +}; +class CResult_ChannelUpdateDecodeErrorZ { +private: + LDKCResult_ChannelUpdateDecodeErrorZ self; +public: + CResult_ChannelUpdateDecodeErrorZ(const CResult_ChannelUpdateDecodeErrorZ&) = delete; + CResult_ChannelUpdateDecodeErrorZ(CResult_ChannelUpdateDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_ChannelUpdateDecodeErrorZ)); } + CResult_ChannelUpdateDecodeErrorZ(LDKCResult_ChannelUpdateDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_ChannelUpdateDecodeErrorZ)); } + operator LDKCResult_ChannelUpdateDecodeErrorZ() && { LDKCResult_ChannelUpdateDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_ChannelUpdateDecodeErrorZ)); return res; } + ~CResult_ChannelUpdateDecodeErrorZ() { CResult_ChannelUpdateDecodeErrorZ_free(self); } + CResult_ChannelUpdateDecodeErrorZ& operator=(CResult_ChannelUpdateDecodeErrorZ&& o) { CResult_ChannelUpdateDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_ChannelUpdateDecodeErrorZ)); return *this; } + LDKCResult_ChannelUpdateDecodeErrorZ* operator &() { return &self; } + LDKCResult_ChannelUpdateDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_ChannelUpdateDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_ChannelUpdateDecodeErrorZ* operator ->() const { return &self; } +}; +class CVec_APIErrorZ { +private: + LDKCVec_APIErrorZ self; +public: + CVec_APIErrorZ(const CVec_APIErrorZ&) = delete; + CVec_APIErrorZ(CVec_APIErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_APIErrorZ)); } + CVec_APIErrorZ(LDKCVec_APIErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_APIErrorZ)); } + operator LDKCVec_APIErrorZ() && { LDKCVec_APIErrorZ res = self; memset(&self, 0, sizeof(LDKCVec_APIErrorZ)); return res; } + ~CVec_APIErrorZ() { CVec_APIErrorZ_free(self); } + CVec_APIErrorZ& operator=(CVec_APIErrorZ&& o) { CVec_APIErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CVec_APIErrorZ)); return *this; } + LDKCVec_APIErrorZ* operator &() { return &self; } + LDKCVec_APIErrorZ* operator ->() { return &self; } + const LDKCVec_APIErrorZ* operator &() const { return &self; } + const LDKCVec_APIErrorZ* operator ->() const { return &self; } +}; +class CVec_UpdateFulfillHTLCZ { +private: + LDKCVec_UpdateFulfillHTLCZ self; +public: + CVec_UpdateFulfillHTLCZ(const CVec_UpdateFulfillHTLCZ&) = delete; + CVec_UpdateFulfillHTLCZ(CVec_UpdateFulfillHTLCZ&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_UpdateFulfillHTLCZ)); } + CVec_UpdateFulfillHTLCZ(LDKCVec_UpdateFulfillHTLCZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_UpdateFulfillHTLCZ)); } + operator LDKCVec_UpdateFulfillHTLCZ() && { LDKCVec_UpdateFulfillHTLCZ res = self; memset(&self, 0, sizeof(LDKCVec_UpdateFulfillHTLCZ)); return res; } + ~CVec_UpdateFulfillHTLCZ() { CVec_UpdateFulfillHTLCZ_free(self); } + CVec_UpdateFulfillHTLCZ& operator=(CVec_UpdateFulfillHTLCZ&& o) { CVec_UpdateFulfillHTLCZ_free(self); self = o.self; memset(&o, 0, sizeof(CVec_UpdateFulfillHTLCZ)); return *this; } + LDKCVec_UpdateFulfillHTLCZ* operator &() { return &self; } + LDKCVec_UpdateFulfillHTLCZ* operator ->() { return &self; } + const LDKCVec_UpdateFulfillHTLCZ* operator &() const { return &self; } + const LDKCVec_UpdateFulfillHTLCZ* operator ->() const { return &self; } +}; +class CResult_AnnouncementSignaturesDecodeErrorZ { +private: + LDKCResult_AnnouncementSignaturesDecodeErrorZ self; +public: + CResult_AnnouncementSignaturesDecodeErrorZ(const CResult_AnnouncementSignaturesDecodeErrorZ&) = delete; + CResult_AnnouncementSignaturesDecodeErrorZ(CResult_AnnouncementSignaturesDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_AnnouncementSignaturesDecodeErrorZ)); } + CResult_AnnouncementSignaturesDecodeErrorZ(LDKCResult_AnnouncementSignaturesDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_AnnouncementSignaturesDecodeErrorZ)); } + operator LDKCResult_AnnouncementSignaturesDecodeErrorZ() && { LDKCResult_AnnouncementSignaturesDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_AnnouncementSignaturesDecodeErrorZ)); return res; } + ~CResult_AnnouncementSignaturesDecodeErrorZ() { CResult_AnnouncementSignaturesDecodeErrorZ_free(self); } + CResult_AnnouncementSignaturesDecodeErrorZ& operator=(CResult_AnnouncementSignaturesDecodeErrorZ&& o) { CResult_AnnouncementSignaturesDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_AnnouncementSignaturesDecodeErrorZ)); return *this; } + LDKCResult_AnnouncementSignaturesDecodeErrorZ* operator &() { return &self; } + LDKCResult_AnnouncementSignaturesDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_AnnouncementSignaturesDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_AnnouncementSignaturesDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_UpdateFulfillHTLCDecodeErrorZ { +private: + LDKCResult_UpdateFulfillHTLCDecodeErrorZ self; +public: + CResult_UpdateFulfillHTLCDecodeErrorZ(const CResult_UpdateFulfillHTLCDecodeErrorZ&) = delete; + CResult_UpdateFulfillHTLCDecodeErrorZ(CResult_UpdateFulfillHTLCDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_UpdateFulfillHTLCDecodeErrorZ)); } + CResult_UpdateFulfillHTLCDecodeErrorZ(LDKCResult_UpdateFulfillHTLCDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_UpdateFulfillHTLCDecodeErrorZ)); } + operator LDKCResult_UpdateFulfillHTLCDecodeErrorZ() && { LDKCResult_UpdateFulfillHTLCDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_UpdateFulfillHTLCDecodeErrorZ)); return res; } + ~CResult_UpdateFulfillHTLCDecodeErrorZ() { CResult_UpdateFulfillHTLCDecodeErrorZ_free(self); } + CResult_UpdateFulfillHTLCDecodeErrorZ& operator=(CResult_UpdateFulfillHTLCDecodeErrorZ&& o) { CResult_UpdateFulfillHTLCDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_UpdateFulfillHTLCDecodeErrorZ)); return *this; } + LDKCResult_UpdateFulfillHTLCDecodeErrorZ* operator &() { return &self; } + LDKCResult_UpdateFulfillHTLCDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_UpdateFulfillHTLCDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_UpdateFulfillHTLCDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_NodeFeaturesDecodeErrorZ { +private: + LDKCResult_NodeFeaturesDecodeErrorZ self; +public: + CResult_NodeFeaturesDecodeErrorZ(const CResult_NodeFeaturesDecodeErrorZ&) = delete; + CResult_NodeFeaturesDecodeErrorZ(CResult_NodeFeaturesDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_NodeFeaturesDecodeErrorZ)); } + CResult_NodeFeaturesDecodeErrorZ(LDKCResult_NodeFeaturesDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_NodeFeaturesDecodeErrorZ)); } + operator LDKCResult_NodeFeaturesDecodeErrorZ() && { LDKCResult_NodeFeaturesDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_NodeFeaturesDecodeErrorZ)); return res; } + ~CResult_NodeFeaturesDecodeErrorZ() { CResult_NodeFeaturesDecodeErrorZ_free(self); } + CResult_NodeFeaturesDecodeErrorZ& operator=(CResult_NodeFeaturesDecodeErrorZ&& o) { CResult_NodeFeaturesDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_NodeFeaturesDecodeErrorZ)); return *this; } + LDKCResult_NodeFeaturesDecodeErrorZ* operator &() { return &self; } + LDKCResult_NodeFeaturesDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_NodeFeaturesDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_NodeFeaturesDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_InMemorySignerDecodeErrorZ { +private: + LDKCResult_InMemorySignerDecodeErrorZ self; +public: + CResult_InMemorySignerDecodeErrorZ(const CResult_InMemorySignerDecodeErrorZ&) = delete; + CResult_InMemorySignerDecodeErrorZ(CResult_InMemorySignerDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_InMemorySignerDecodeErrorZ)); } + CResult_InMemorySignerDecodeErrorZ(LDKCResult_InMemorySignerDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_InMemorySignerDecodeErrorZ)); } + operator LDKCResult_InMemorySignerDecodeErrorZ() && { LDKCResult_InMemorySignerDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_InMemorySignerDecodeErrorZ)); return res; } + ~CResult_InMemorySignerDecodeErrorZ() { CResult_InMemorySignerDecodeErrorZ_free(self); } + CResult_InMemorySignerDecodeErrorZ& operator=(CResult_InMemorySignerDecodeErrorZ&& o) { CResult_InMemorySignerDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_InMemorySignerDecodeErrorZ)); return *this; } + LDKCResult_InMemorySignerDecodeErrorZ* operator &() { return &self; } + LDKCResult_InMemorySignerDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_InMemorySignerDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_InMemorySignerDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_ReplyShortChannelIdsEndDecodeErrorZ { +private: + LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ self; +public: + CResult_ReplyShortChannelIdsEndDecodeErrorZ(const CResult_ReplyShortChannelIdsEndDecodeErrorZ&) = delete; + CResult_ReplyShortChannelIdsEndDecodeErrorZ(CResult_ReplyShortChannelIdsEndDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_ReplyShortChannelIdsEndDecodeErrorZ)); } + CResult_ReplyShortChannelIdsEndDecodeErrorZ(LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ)); } + operator LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ() && { LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ)); return res; } + ~CResult_ReplyShortChannelIdsEndDecodeErrorZ() { CResult_ReplyShortChannelIdsEndDecodeErrorZ_free(self); } + CResult_ReplyShortChannelIdsEndDecodeErrorZ& operator=(CResult_ReplyShortChannelIdsEndDecodeErrorZ&& o) { CResult_ReplyShortChannelIdsEndDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_ReplyShortChannelIdsEndDecodeErrorZ)); return *this; } + LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ* operator &() { return &self; } + LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_CResult_NetAddressu8ZDecodeErrorZ { +private: + LDKCResult_CResult_NetAddressu8ZDecodeErrorZ self; +public: + CResult_CResult_NetAddressu8ZDecodeErrorZ(const CResult_CResult_NetAddressu8ZDecodeErrorZ&) = delete; + CResult_CResult_NetAddressu8ZDecodeErrorZ(CResult_CResult_NetAddressu8ZDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_CResult_NetAddressu8ZDecodeErrorZ)); } + CResult_CResult_NetAddressu8ZDecodeErrorZ(LDKCResult_CResult_NetAddressu8ZDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_CResult_NetAddressu8ZDecodeErrorZ)); } + operator LDKCResult_CResult_NetAddressu8ZDecodeErrorZ() && { LDKCResult_CResult_NetAddressu8ZDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_CResult_NetAddressu8ZDecodeErrorZ)); return res; } + ~CResult_CResult_NetAddressu8ZDecodeErrorZ() { CResult_CResult_NetAddressu8ZDecodeErrorZ_free(self); } + CResult_CResult_NetAddressu8ZDecodeErrorZ& operator=(CResult_CResult_NetAddressu8ZDecodeErrorZ&& o) { CResult_CResult_NetAddressu8ZDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_CResult_NetAddressu8ZDecodeErrorZ)); return *this; } + LDKCResult_CResult_NetAddressu8ZDecodeErrorZ* operator &() { return &self; } + LDKCResult_CResult_NetAddressu8ZDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_CResult_NetAddressu8ZDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_CResult_NetAddressu8ZDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ { +private: + LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ self; +public: + CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ(const CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ&) = delete; + CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ(CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ)); } + CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ(LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ)); } + operator LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ() && { LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ)); return res; } + ~CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ() { CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_free(self); } + CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ& operator=(CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ&& o) { CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ)); return *this; } + LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ* operator &() { return &self; } + LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_BuiltCommitmentTransactionDecodeErrorZ { +private: + LDKCResult_BuiltCommitmentTransactionDecodeErrorZ self; +public: + CResult_BuiltCommitmentTransactionDecodeErrorZ(const CResult_BuiltCommitmentTransactionDecodeErrorZ&) = delete; + CResult_BuiltCommitmentTransactionDecodeErrorZ(CResult_BuiltCommitmentTransactionDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_BuiltCommitmentTransactionDecodeErrorZ)); } + CResult_BuiltCommitmentTransactionDecodeErrorZ(LDKCResult_BuiltCommitmentTransactionDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_BuiltCommitmentTransactionDecodeErrorZ)); } + operator LDKCResult_BuiltCommitmentTransactionDecodeErrorZ() && { LDKCResult_BuiltCommitmentTransactionDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_BuiltCommitmentTransactionDecodeErrorZ)); return res; } + ~CResult_BuiltCommitmentTransactionDecodeErrorZ() { CResult_BuiltCommitmentTransactionDecodeErrorZ_free(self); } + CResult_BuiltCommitmentTransactionDecodeErrorZ& operator=(CResult_BuiltCommitmentTransactionDecodeErrorZ&& o) { CResult_BuiltCommitmentTransactionDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_BuiltCommitmentTransactionDecodeErrorZ)); return *this; } + LDKCResult_BuiltCommitmentTransactionDecodeErrorZ* operator &() { return &self; } + LDKCResult_BuiltCommitmentTransactionDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_BuiltCommitmentTransactionDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_BuiltCommitmentTransactionDecodeErrorZ* operator ->() const { return &self; } +}; +class CResult_RouteDecodeErrorZ { +private: + LDKCResult_RouteDecodeErrorZ self; +public: + CResult_RouteDecodeErrorZ(const CResult_RouteDecodeErrorZ&) = delete; + CResult_RouteDecodeErrorZ(CResult_RouteDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_RouteDecodeErrorZ)); } + CResult_RouteDecodeErrorZ(LDKCResult_RouteDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_RouteDecodeErrorZ)); } + operator LDKCResult_RouteDecodeErrorZ() && { LDKCResult_RouteDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_RouteDecodeErrorZ)); return res; } + ~CResult_RouteDecodeErrorZ() { CResult_RouteDecodeErrorZ_free(self); } + CResult_RouteDecodeErrorZ& operator=(CResult_RouteDecodeErrorZ&& o) { CResult_RouteDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_RouteDecodeErrorZ)); return *this; } + LDKCResult_RouteDecodeErrorZ* operator &() { return &self; } + LDKCResult_RouteDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_RouteDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_RouteDecodeErrorZ* operator ->() const { return &self; } +}; +class CVec_TxOutZ { +private: + LDKCVec_TxOutZ self; +public: + CVec_TxOutZ(const CVec_TxOutZ&) = delete; + CVec_TxOutZ(CVec_TxOutZ&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_TxOutZ)); } + CVec_TxOutZ(LDKCVec_TxOutZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_TxOutZ)); } + operator LDKCVec_TxOutZ() && { LDKCVec_TxOutZ res = self; memset(&self, 0, sizeof(LDKCVec_TxOutZ)); return res; } + ~CVec_TxOutZ() { CVec_TxOutZ_free(self); } + CVec_TxOutZ& operator=(CVec_TxOutZ&& o) { CVec_TxOutZ_free(self); self = o.self; memset(&o, 0, sizeof(CVec_TxOutZ)); return *this; } + LDKCVec_TxOutZ* operator &() { return &self; } + LDKCVec_TxOutZ* operator ->() { return &self; } + const LDKCVec_TxOutZ* operator &() const { return &self; } + const LDKCVec_TxOutZ* operator ->() const { return &self; } +}; +class CVec_UpdateFailHTLCZ { +private: + LDKCVec_UpdateFailHTLCZ self; +public: + CVec_UpdateFailHTLCZ(const CVec_UpdateFailHTLCZ&) = delete; + CVec_UpdateFailHTLCZ(CVec_UpdateFailHTLCZ&& o) : self(o.self) { memset(&o, 0, sizeof(CVec_UpdateFailHTLCZ)); } + CVec_UpdateFailHTLCZ(LDKCVec_UpdateFailHTLCZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCVec_UpdateFailHTLCZ)); } + operator LDKCVec_UpdateFailHTLCZ() && { LDKCVec_UpdateFailHTLCZ res = self; memset(&self, 0, sizeof(LDKCVec_UpdateFailHTLCZ)); return res; } + ~CVec_UpdateFailHTLCZ() { CVec_UpdateFailHTLCZ_free(self); } + CVec_UpdateFailHTLCZ& operator=(CVec_UpdateFailHTLCZ&& o) { CVec_UpdateFailHTLCZ_free(self); self = o.self; memset(&o, 0, sizeof(CVec_UpdateFailHTLCZ)); return *this; } + LDKCVec_UpdateFailHTLCZ* operator &() { return &self; } + LDKCVec_UpdateFailHTLCZ* operator ->() { return &self; } + const LDKCVec_UpdateFailHTLCZ* operator &() const { return &self; } + const LDKCVec_UpdateFailHTLCZ* operator ->() const { return &self; } +}; +class CResult_FundingLockedDecodeErrorZ { +private: + LDKCResult_FundingLockedDecodeErrorZ self; +public: + CResult_FundingLockedDecodeErrorZ(const CResult_FundingLockedDecodeErrorZ&) = delete; + CResult_FundingLockedDecodeErrorZ(CResult_FundingLockedDecodeErrorZ&& o) : self(o.self) { memset(&o, 0, sizeof(CResult_FundingLockedDecodeErrorZ)); } + CResult_FundingLockedDecodeErrorZ(LDKCResult_FundingLockedDecodeErrorZ&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCResult_FundingLockedDecodeErrorZ)); } + operator LDKCResult_FundingLockedDecodeErrorZ() && { LDKCResult_FundingLockedDecodeErrorZ res = self; memset(&self, 0, sizeof(LDKCResult_FundingLockedDecodeErrorZ)); return res; } + ~CResult_FundingLockedDecodeErrorZ() { CResult_FundingLockedDecodeErrorZ_free(self); } + CResult_FundingLockedDecodeErrorZ& operator=(CResult_FundingLockedDecodeErrorZ&& o) { CResult_FundingLockedDecodeErrorZ_free(self); self = o.self; memset(&o, 0, sizeof(CResult_FundingLockedDecodeErrorZ)); return *this; } + LDKCResult_FundingLockedDecodeErrorZ* operator &() { return &self; } + LDKCResult_FundingLockedDecodeErrorZ* operator ->() { return &self; } + const LDKCResult_FundingLockedDecodeErrorZ* operator &() const { return &self; } + const LDKCResult_FundingLockedDecodeErrorZ* operator ->() const { return &self; } +}; +} diff --git a/lightning-c-bindings/include/rust_types.h b/lightning-c-bindings/include/rust_types.h new file mode 100644 index 0000000..6d573e9 --- /dev/null +++ b/lightning-c-bindings/include/rust_types.h @@ -0,0 +1,179 @@ +#if defined(__GNUC__) +#define MUST_USE_STRUCT __attribute__((warn_unused)) +#define MUST_USE_RES __attribute__((warn_unused_result)) +#else +#define MUST_USE_STRUCT +#define MUST_USE_RES +#endif +#if defined(__clang__) +#define NONNULL_PTR _Nonnull +#else +#define NONNULL_PTR +#endif +struct nativeTxCreationKeysOpaque; +typedef struct nativeTxCreationKeysOpaque LDKnativeTxCreationKeys; +struct nativeChannelPublicKeysOpaque; +typedef struct nativeChannelPublicKeysOpaque LDKnativeChannelPublicKeys; +struct nativeHTLCOutputInCommitmentOpaque; +typedef struct nativeHTLCOutputInCommitmentOpaque LDKnativeHTLCOutputInCommitment; +struct nativeChannelTransactionParametersOpaque; +typedef struct nativeChannelTransactionParametersOpaque LDKnativeChannelTransactionParameters; +struct nativeCounterpartyChannelTransactionParametersOpaque; +typedef struct nativeCounterpartyChannelTransactionParametersOpaque LDKnativeCounterpartyChannelTransactionParameters; +struct nativeDirectedChannelTransactionParametersOpaque; +typedef struct nativeDirectedChannelTransactionParametersOpaque LDKnativeDirectedChannelTransactionParameters; +struct nativeHolderCommitmentTransactionOpaque; +typedef struct nativeHolderCommitmentTransactionOpaque LDKnativeHolderCommitmentTransaction; +struct nativeBuiltCommitmentTransactionOpaque; +typedef struct nativeBuiltCommitmentTransactionOpaque LDKnativeBuiltCommitmentTransaction; +struct nativeCommitmentTransactionOpaque; +typedef struct nativeCommitmentTransactionOpaque LDKnativeCommitmentTransaction; +struct nativeTrustedCommitmentTransactionOpaque; +typedef struct nativeTrustedCommitmentTransactionOpaque LDKnativeTrustedCommitmentTransaction; +struct nativeIgnoringMessageHandlerOpaque; +typedef struct nativeIgnoringMessageHandlerOpaque LDKnativeIgnoringMessageHandler; +struct nativeErroringMessageHandlerOpaque; +typedef struct nativeErroringMessageHandlerOpaque LDKnativeErroringMessageHandler; +struct nativeMessageHandlerOpaque; +typedef struct nativeMessageHandlerOpaque LDKnativeMessageHandler; +typedef struct LDKSocketDescriptor LDKSocketDescriptor; +struct nativePeerHandleErrorOpaque; +typedef struct nativePeerHandleErrorOpaque LDKnativePeerHandleError; +struct nativePeerManagerOpaque; +typedef struct nativePeerManagerOpaque LDKnativePeerManager; +struct nativeInitFeaturesOpaque; +typedef struct nativeInitFeaturesOpaque LDKnativeInitFeatures; +struct nativeNodeFeaturesOpaque; +typedef struct nativeNodeFeaturesOpaque LDKnativeNodeFeatures; +struct nativeChannelFeaturesOpaque; +typedef struct nativeChannelFeaturesOpaque LDKnativeChannelFeatures; +struct nativeChannelHandshakeConfigOpaque; +typedef struct nativeChannelHandshakeConfigOpaque LDKnativeChannelHandshakeConfig; +struct nativeChannelHandshakeLimitsOpaque; +typedef struct nativeChannelHandshakeLimitsOpaque LDKnativeChannelHandshakeLimits; +struct nativeChannelConfigOpaque; +typedef struct nativeChannelConfigOpaque LDKnativeChannelConfig; +struct nativeUserConfigOpaque; +typedef struct nativeUserConfigOpaque LDKnativeUserConfig; +struct nativeNetworkGraphOpaque; +typedef struct nativeNetworkGraphOpaque LDKnativeNetworkGraph; +struct nativeLockedNetworkGraphOpaque; +typedef struct nativeLockedNetworkGraphOpaque LDKnativeLockedNetworkGraph; +struct nativeNetGraphMsgHandlerOpaque; +typedef struct nativeNetGraphMsgHandlerOpaque LDKnativeNetGraphMsgHandler; +struct nativeDirectionalChannelInfoOpaque; +typedef struct nativeDirectionalChannelInfoOpaque LDKnativeDirectionalChannelInfo; +struct nativeChannelInfoOpaque; +typedef struct nativeChannelInfoOpaque LDKnativeChannelInfo; +struct nativeRoutingFeesOpaque; +typedef struct nativeRoutingFeesOpaque LDKnativeRoutingFees; +struct nativeNodeAnnouncementInfoOpaque; +typedef struct nativeNodeAnnouncementInfoOpaque LDKnativeNodeAnnouncementInfo; +struct nativeNodeInfoOpaque; +typedef struct nativeNodeInfoOpaque LDKnativeNodeInfo; +struct nativeChainMonitorOpaque; +typedef struct nativeChainMonitorOpaque LDKnativeChainMonitor; +struct nativeOutPointOpaque; +typedef struct nativeOutPointOpaque LDKnativeOutPoint; +struct nativeChannelMonitorUpdateOpaque; +typedef struct nativeChannelMonitorUpdateOpaque LDKnativeChannelMonitorUpdate; +struct nativeMonitorUpdateErrorOpaque; +typedef struct nativeMonitorUpdateErrorOpaque LDKnativeMonitorUpdateError; +struct nativeHTLCUpdateOpaque; +typedef struct nativeHTLCUpdateOpaque LDKnativeHTLCUpdate; +struct nativeChannelMonitorOpaque; +typedef struct nativeChannelMonitorOpaque LDKnativeChannelMonitor; +struct nativeChannelManagerOpaque; +typedef struct nativeChannelManagerOpaque LDKnativeChannelManager; +struct nativeChainParametersOpaque; +typedef struct nativeChainParametersOpaque LDKnativeChainParameters; +struct nativeChannelDetailsOpaque; +typedef struct nativeChannelDetailsOpaque LDKnativeChannelDetails; +struct nativeChannelManagerReadArgsOpaque; +typedef struct nativeChannelManagerReadArgsOpaque LDKnativeChannelManagerReadArgs; +struct nativeDelayedPaymentOutputDescriptorOpaque; +typedef struct nativeDelayedPaymentOutputDescriptorOpaque LDKnativeDelayedPaymentOutputDescriptor; +struct nativeStaticPaymentOutputDescriptorOpaque; +typedef struct nativeStaticPaymentOutputDescriptorOpaque LDKnativeStaticPaymentOutputDescriptor; +struct LDKSign; +typedef struct LDKSign LDKSign; +struct nativeInMemorySignerOpaque; +typedef struct nativeInMemorySignerOpaque LDKnativeInMemorySigner; +struct nativeKeysManagerOpaque; +typedef struct nativeKeysManagerOpaque LDKnativeKeysManager; +struct nativeRouteHopOpaque; +typedef struct nativeRouteHopOpaque LDKnativeRouteHop; +struct nativeRouteOpaque; +typedef struct nativeRouteOpaque LDKnativeRoute; +struct nativeRouteHintOpaque; +typedef struct nativeRouteHintOpaque LDKnativeRouteHint; +struct nativeDecodeErrorOpaque; +typedef struct nativeDecodeErrorOpaque LDKnativeDecodeError; +struct nativeInitOpaque; +typedef struct nativeInitOpaque LDKnativeInit; +struct nativeErrorMessageOpaque; +typedef struct nativeErrorMessageOpaque LDKnativeErrorMessage; +struct nativePingOpaque; +typedef struct nativePingOpaque LDKnativePing; +struct nativePongOpaque; +typedef struct nativePongOpaque LDKnativePong; +struct nativeOpenChannelOpaque; +typedef struct nativeOpenChannelOpaque LDKnativeOpenChannel; +struct nativeAcceptChannelOpaque; +typedef struct nativeAcceptChannelOpaque LDKnativeAcceptChannel; +struct nativeFundingCreatedOpaque; +typedef struct nativeFundingCreatedOpaque LDKnativeFundingCreated; +struct nativeFundingSignedOpaque; +typedef struct nativeFundingSignedOpaque LDKnativeFundingSigned; +struct nativeFundingLockedOpaque; +typedef struct nativeFundingLockedOpaque LDKnativeFundingLocked; +struct nativeShutdownOpaque; +typedef struct nativeShutdownOpaque LDKnativeShutdown; +struct nativeClosingSignedOpaque; +typedef struct nativeClosingSignedOpaque LDKnativeClosingSigned; +struct nativeUpdateAddHTLCOpaque; +typedef struct nativeUpdateAddHTLCOpaque LDKnativeUpdateAddHTLC; +struct nativeUpdateFulfillHTLCOpaque; +typedef struct nativeUpdateFulfillHTLCOpaque LDKnativeUpdateFulfillHTLC; +struct nativeUpdateFailHTLCOpaque; +typedef struct nativeUpdateFailHTLCOpaque LDKnativeUpdateFailHTLC; +struct nativeUpdateFailMalformedHTLCOpaque; +typedef struct nativeUpdateFailMalformedHTLCOpaque LDKnativeUpdateFailMalformedHTLC; +struct nativeCommitmentSignedOpaque; +typedef struct nativeCommitmentSignedOpaque LDKnativeCommitmentSigned; +struct nativeRevokeAndACKOpaque; +typedef struct nativeRevokeAndACKOpaque LDKnativeRevokeAndACK; +struct nativeUpdateFeeOpaque; +typedef struct nativeUpdateFeeOpaque LDKnativeUpdateFee; +struct nativeDataLossProtectOpaque; +typedef struct nativeDataLossProtectOpaque LDKnativeDataLossProtect; +struct nativeChannelReestablishOpaque; +typedef struct nativeChannelReestablishOpaque LDKnativeChannelReestablish; +struct nativeAnnouncementSignaturesOpaque; +typedef struct nativeAnnouncementSignaturesOpaque LDKnativeAnnouncementSignatures; +struct nativeUnsignedNodeAnnouncementOpaque; +typedef struct nativeUnsignedNodeAnnouncementOpaque LDKnativeUnsignedNodeAnnouncement; +struct nativeNodeAnnouncementOpaque; +typedef struct nativeNodeAnnouncementOpaque LDKnativeNodeAnnouncement; +struct nativeUnsignedChannelAnnouncementOpaque; +typedef struct nativeUnsignedChannelAnnouncementOpaque LDKnativeUnsignedChannelAnnouncement; +struct nativeChannelAnnouncementOpaque; +typedef struct nativeChannelAnnouncementOpaque LDKnativeChannelAnnouncement; +struct nativeUnsignedChannelUpdateOpaque; +typedef struct nativeUnsignedChannelUpdateOpaque LDKnativeUnsignedChannelUpdate; +struct nativeChannelUpdateOpaque; +typedef struct nativeChannelUpdateOpaque LDKnativeChannelUpdate; +struct nativeQueryChannelRangeOpaque; +typedef struct nativeQueryChannelRangeOpaque LDKnativeQueryChannelRange; +struct nativeReplyChannelRangeOpaque; +typedef struct nativeReplyChannelRangeOpaque LDKnativeReplyChannelRange; +struct nativeQueryShortChannelIdsOpaque; +typedef struct nativeQueryShortChannelIdsOpaque LDKnativeQueryShortChannelIds; +struct nativeReplyShortChannelIdsEndOpaque; +typedef struct nativeReplyShortChannelIdsEndOpaque LDKnativeReplyShortChannelIdsEnd; +struct nativeGossipTimestampFilterOpaque; +typedef struct nativeGossipTimestampFilterOpaque LDKnativeGossipTimestampFilter; +struct nativeLightningErrorOpaque; +typedef struct nativeLightningErrorOpaque LDKnativeLightningError; +struct nativeCommitmentUpdateOpaque; +typedef struct nativeCommitmentUpdateOpaque LDKnativeCommitmentUpdate; diff --git a/lightning-c-bindings/src/bitcoin/mod.rs b/lightning-c-bindings/src/bitcoin/mod.rs new file mode 100644 index 0000000..a61610b --- /dev/null +++ b/lightning-c-bindings/src/bitcoin/mod.rs @@ -0,0 +1 @@ +pub mod network; diff --git a/lightning-c-bindings/src/bitcoin/network.rs b/lightning-c-bindings/src/bitcoin/network.rs new file mode 100644 index 0000000..52cb2ce --- /dev/null +++ b/lightning-c-bindings/src/bitcoin/network.rs @@ -0,0 +1,28 @@ +use bitcoin::network::constants::Network as BitcoinNetwork; + +#[repr(C)] +pub enum Network { + Bitcoin, + Testnet, + Regtest, + Signet, +} + +impl Network { + pub(crate) fn into_bitcoin(&self) -> BitcoinNetwork { + match self { + Network::Bitcoin => BitcoinNetwork::Bitcoin, + Network::Testnet => BitcoinNetwork::Testnet, + Network::Regtest => BitcoinNetwork::Regtest, + Network::Signet => BitcoinNetwork::Signet, + } + } + pub(crate) fn from_bitcoin(net: BitcoinNetwork) -> Self { + match net { + BitcoinNetwork::Bitcoin => Network::Bitcoin, + BitcoinNetwork::Testnet => Network::Testnet, + BitcoinNetwork::Regtest => Network::Regtest, + BitcoinNetwork::Signet => Network::Signet, + } + } +} diff --git a/lightning-c-bindings/src/c_types/derived.rs b/lightning-c-bindings/src/c_types/derived.rs new file mode 100644 index 0000000..c16f9a2 --- /dev/null +++ b/lightning-c-bindings/src/c_types/derived.rs @@ -0,0 +1,7149 @@ +#[repr(C)] +pub union CResult_SecretKeyErrorZPtr { + pub result: *mut crate::c_types::SecretKey, + pub err: *mut crate::c_types::Secp256k1Error, +} +#[repr(C)] +pub struct CResult_SecretKeyErrorZ { + pub contents: CResult_SecretKeyErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_SecretKeyErrorZ_ok(o: crate::c_types::SecretKey) -> CResult_SecretKeyErrorZ { + CResult_SecretKeyErrorZ { + contents: CResult_SecretKeyErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_SecretKeyErrorZ_err(e: crate::c_types::Secp256k1Error) -> CResult_SecretKeyErrorZ { + CResult_SecretKeyErrorZ { + contents: CResult_SecretKeyErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_SecretKeyErrorZ_free(_res: CResult_SecretKeyErrorZ) { } +impl Drop for CResult_SecretKeyErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_SecretKeyErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_SecretKeyErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_SecretKeyErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +#[repr(C)] +pub union CResult_PublicKeyErrorZPtr { + pub result: *mut crate::c_types::PublicKey, + pub err: *mut crate::c_types::Secp256k1Error, +} +#[repr(C)] +pub struct CResult_PublicKeyErrorZ { + pub contents: CResult_PublicKeyErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_PublicKeyErrorZ_ok(o: crate::c_types::PublicKey) -> CResult_PublicKeyErrorZ { + CResult_PublicKeyErrorZ { + contents: CResult_PublicKeyErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_PublicKeyErrorZ_err(e: crate::c_types::Secp256k1Error) -> CResult_PublicKeyErrorZ { + CResult_PublicKeyErrorZ { + contents: CResult_PublicKeyErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_PublicKeyErrorZ_free(_res: CResult_PublicKeyErrorZ) { } +impl Drop for CResult_PublicKeyErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_PublicKeyErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_PublicKeyErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_PublicKeyErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +#[repr(C)] +pub union CResult_TxCreationKeysDecodeErrorZPtr { + pub result: *mut crate::ln::chan_utils::TxCreationKeys, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_TxCreationKeysDecodeErrorZ { + pub contents: CResult_TxCreationKeysDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_TxCreationKeysDecodeErrorZ_ok(o: crate::ln::chan_utils::TxCreationKeys) -> CResult_TxCreationKeysDecodeErrorZ { + CResult_TxCreationKeysDecodeErrorZ { + contents: CResult_TxCreationKeysDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_TxCreationKeysDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_TxCreationKeysDecodeErrorZ { + CResult_TxCreationKeysDecodeErrorZ { + contents: CResult_TxCreationKeysDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_TxCreationKeysDecodeErrorZ_free(_res: CResult_TxCreationKeysDecodeErrorZ) { } +impl Drop for CResult_TxCreationKeysDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_TxCreationKeysDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_TxCreationKeysDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_TxCreationKeysDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_TxCreationKeysDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_TxCreationKeysDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_TxCreationKeysDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_TxCreationKeysDecodeErrorZ_clone(orig: &CResult_TxCreationKeysDecodeErrorZ) -> CResult_TxCreationKeysDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_ChannelPublicKeysDecodeErrorZPtr { + pub result: *mut crate::ln::chan_utils::ChannelPublicKeys, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_ChannelPublicKeysDecodeErrorZ { + pub contents: CResult_ChannelPublicKeysDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_ChannelPublicKeysDecodeErrorZ_ok(o: crate::ln::chan_utils::ChannelPublicKeys) -> CResult_ChannelPublicKeysDecodeErrorZ { + CResult_ChannelPublicKeysDecodeErrorZ { + contents: CResult_ChannelPublicKeysDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_ChannelPublicKeysDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_ChannelPublicKeysDecodeErrorZ { + CResult_ChannelPublicKeysDecodeErrorZ { + contents: CResult_ChannelPublicKeysDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_ChannelPublicKeysDecodeErrorZ_free(_res: CResult_ChannelPublicKeysDecodeErrorZ) { } +impl Drop for CResult_ChannelPublicKeysDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_ChannelPublicKeysDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_ChannelPublicKeysDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_ChannelPublicKeysDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_ChannelPublicKeysDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_ChannelPublicKeysDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_ChannelPublicKeysDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_ChannelPublicKeysDecodeErrorZ_clone(orig: &CResult_ChannelPublicKeysDecodeErrorZ) -> CResult_ChannelPublicKeysDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_TxCreationKeysErrorZPtr { + pub result: *mut crate::ln::chan_utils::TxCreationKeys, + pub err: *mut crate::c_types::Secp256k1Error, +} +#[repr(C)] +pub struct CResult_TxCreationKeysErrorZ { + pub contents: CResult_TxCreationKeysErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_TxCreationKeysErrorZ_ok(o: crate::ln::chan_utils::TxCreationKeys) -> CResult_TxCreationKeysErrorZ { + CResult_TxCreationKeysErrorZ { + contents: CResult_TxCreationKeysErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_TxCreationKeysErrorZ_err(e: crate::c_types::Secp256k1Error) -> CResult_TxCreationKeysErrorZ { + CResult_TxCreationKeysErrorZ { + contents: CResult_TxCreationKeysErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_TxCreationKeysErrorZ_free(_res: CResult_TxCreationKeysErrorZ) { } +impl Drop for CResult_TxCreationKeysErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_TxCreationKeysErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_TxCreationKeysErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_TxCreationKeysErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +#[repr(C)] +pub union CResult_HTLCOutputInCommitmentDecodeErrorZPtr { + pub result: *mut crate::ln::chan_utils::HTLCOutputInCommitment, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_HTLCOutputInCommitmentDecodeErrorZ { + pub contents: CResult_HTLCOutputInCommitmentDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_HTLCOutputInCommitmentDecodeErrorZ_ok(o: crate::ln::chan_utils::HTLCOutputInCommitment) -> CResult_HTLCOutputInCommitmentDecodeErrorZ { + CResult_HTLCOutputInCommitmentDecodeErrorZ { + contents: CResult_HTLCOutputInCommitmentDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_HTLCOutputInCommitmentDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_HTLCOutputInCommitmentDecodeErrorZ { + CResult_HTLCOutputInCommitmentDecodeErrorZ { + contents: CResult_HTLCOutputInCommitmentDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_HTLCOutputInCommitmentDecodeErrorZ_free(_res: CResult_HTLCOutputInCommitmentDecodeErrorZ) { } +impl Drop for CResult_HTLCOutputInCommitmentDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_HTLCOutputInCommitmentDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_HTLCOutputInCommitmentDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_HTLCOutputInCommitmentDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_HTLCOutputInCommitmentDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_HTLCOutputInCommitmentDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_HTLCOutputInCommitmentDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_HTLCOutputInCommitmentDecodeErrorZ_clone(orig: &CResult_HTLCOutputInCommitmentDecodeErrorZ) -> CResult_HTLCOutputInCommitmentDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_CounterpartyChannelTransactionParametersDecodeErrorZPtr { + pub result: *mut crate::ln::chan_utils::CounterpartyChannelTransactionParameters, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_CounterpartyChannelTransactionParametersDecodeErrorZ { + pub contents: CResult_CounterpartyChannelTransactionParametersDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_ok(o: crate::ln::chan_utils::CounterpartyChannelTransactionParameters) -> CResult_CounterpartyChannelTransactionParametersDecodeErrorZ { + CResult_CounterpartyChannelTransactionParametersDecodeErrorZ { + contents: CResult_CounterpartyChannelTransactionParametersDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_CounterpartyChannelTransactionParametersDecodeErrorZ { + CResult_CounterpartyChannelTransactionParametersDecodeErrorZ { + contents: CResult_CounterpartyChannelTransactionParametersDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_free(_res: CResult_CounterpartyChannelTransactionParametersDecodeErrorZ) { } +impl Drop for CResult_CounterpartyChannelTransactionParametersDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_CounterpartyChannelTransactionParametersDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_CounterpartyChannelTransactionParametersDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_CounterpartyChannelTransactionParametersDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_CounterpartyChannelTransactionParametersDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_CounterpartyChannelTransactionParametersDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_CounterpartyChannelTransactionParametersDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_clone(orig: &CResult_CounterpartyChannelTransactionParametersDecodeErrorZ) -> CResult_CounterpartyChannelTransactionParametersDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_ChannelTransactionParametersDecodeErrorZPtr { + pub result: *mut crate::ln::chan_utils::ChannelTransactionParameters, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_ChannelTransactionParametersDecodeErrorZ { + pub contents: CResult_ChannelTransactionParametersDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_ChannelTransactionParametersDecodeErrorZ_ok(o: crate::ln::chan_utils::ChannelTransactionParameters) -> CResult_ChannelTransactionParametersDecodeErrorZ { + CResult_ChannelTransactionParametersDecodeErrorZ { + contents: CResult_ChannelTransactionParametersDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_ChannelTransactionParametersDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_ChannelTransactionParametersDecodeErrorZ { + CResult_ChannelTransactionParametersDecodeErrorZ { + contents: CResult_ChannelTransactionParametersDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_ChannelTransactionParametersDecodeErrorZ_free(_res: CResult_ChannelTransactionParametersDecodeErrorZ) { } +impl Drop for CResult_ChannelTransactionParametersDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_ChannelTransactionParametersDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_ChannelTransactionParametersDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_ChannelTransactionParametersDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_ChannelTransactionParametersDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_ChannelTransactionParametersDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_ChannelTransactionParametersDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_ChannelTransactionParametersDecodeErrorZ_clone(orig: &CResult_ChannelTransactionParametersDecodeErrorZ) -> CResult_ChannelTransactionParametersDecodeErrorZ { orig.clone() } +#[repr(C)] +pub struct CVec_SignatureZ { + pub data: *mut crate::c_types::Signature, + pub datalen: usize +} +impl CVec_SignatureZ { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[crate::c_types::Signature] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_SignatureZ { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_SignatureZ_free(_res: CVec_SignatureZ) { } +impl Drop for CVec_SignatureZ { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +impl Clone for CVec_SignatureZ { + fn clone(&self) -> Self { + let mut res = Vec::new(); + if self.datalen == 0 { return Self::from(res); } + res.extend_from_slice(unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) }); + Self::from(res) + } +} +#[repr(C)] +pub union CResult_HolderCommitmentTransactionDecodeErrorZPtr { + pub result: *mut crate::ln::chan_utils::HolderCommitmentTransaction, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_HolderCommitmentTransactionDecodeErrorZ { + pub contents: CResult_HolderCommitmentTransactionDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_HolderCommitmentTransactionDecodeErrorZ_ok(o: crate::ln::chan_utils::HolderCommitmentTransaction) -> CResult_HolderCommitmentTransactionDecodeErrorZ { + CResult_HolderCommitmentTransactionDecodeErrorZ { + contents: CResult_HolderCommitmentTransactionDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_HolderCommitmentTransactionDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_HolderCommitmentTransactionDecodeErrorZ { + CResult_HolderCommitmentTransactionDecodeErrorZ { + contents: CResult_HolderCommitmentTransactionDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_HolderCommitmentTransactionDecodeErrorZ_free(_res: CResult_HolderCommitmentTransactionDecodeErrorZ) { } +impl Drop for CResult_HolderCommitmentTransactionDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_HolderCommitmentTransactionDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_HolderCommitmentTransactionDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_HolderCommitmentTransactionDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_HolderCommitmentTransactionDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_HolderCommitmentTransactionDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_HolderCommitmentTransactionDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_HolderCommitmentTransactionDecodeErrorZ_clone(orig: &CResult_HolderCommitmentTransactionDecodeErrorZ) -> CResult_HolderCommitmentTransactionDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_BuiltCommitmentTransactionDecodeErrorZPtr { + pub result: *mut crate::ln::chan_utils::BuiltCommitmentTransaction, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_BuiltCommitmentTransactionDecodeErrorZ { + pub contents: CResult_BuiltCommitmentTransactionDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_BuiltCommitmentTransactionDecodeErrorZ_ok(o: crate::ln::chan_utils::BuiltCommitmentTransaction) -> CResult_BuiltCommitmentTransactionDecodeErrorZ { + CResult_BuiltCommitmentTransactionDecodeErrorZ { + contents: CResult_BuiltCommitmentTransactionDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_BuiltCommitmentTransactionDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_BuiltCommitmentTransactionDecodeErrorZ { + CResult_BuiltCommitmentTransactionDecodeErrorZ { + contents: CResult_BuiltCommitmentTransactionDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_BuiltCommitmentTransactionDecodeErrorZ_free(_res: CResult_BuiltCommitmentTransactionDecodeErrorZ) { } +impl Drop for CResult_BuiltCommitmentTransactionDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_BuiltCommitmentTransactionDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_BuiltCommitmentTransactionDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_BuiltCommitmentTransactionDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_BuiltCommitmentTransactionDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_BuiltCommitmentTransactionDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_BuiltCommitmentTransactionDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_BuiltCommitmentTransactionDecodeErrorZ_clone(orig: &CResult_BuiltCommitmentTransactionDecodeErrorZ) -> CResult_BuiltCommitmentTransactionDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_CommitmentTransactionDecodeErrorZPtr { + pub result: *mut crate::ln::chan_utils::CommitmentTransaction, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_CommitmentTransactionDecodeErrorZ { + pub contents: CResult_CommitmentTransactionDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_CommitmentTransactionDecodeErrorZ_ok(o: crate::ln::chan_utils::CommitmentTransaction) -> CResult_CommitmentTransactionDecodeErrorZ { + CResult_CommitmentTransactionDecodeErrorZ { + contents: CResult_CommitmentTransactionDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_CommitmentTransactionDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_CommitmentTransactionDecodeErrorZ { + CResult_CommitmentTransactionDecodeErrorZ { + contents: CResult_CommitmentTransactionDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_CommitmentTransactionDecodeErrorZ_free(_res: CResult_CommitmentTransactionDecodeErrorZ) { } +impl Drop for CResult_CommitmentTransactionDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_CommitmentTransactionDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_CommitmentTransactionDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_CommitmentTransactionDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_CommitmentTransactionDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_CommitmentTransactionDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_CommitmentTransactionDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_CommitmentTransactionDecodeErrorZ_clone(orig: &CResult_CommitmentTransactionDecodeErrorZ) -> CResult_CommitmentTransactionDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_TrustedCommitmentTransactionNoneZPtr { + pub result: *mut crate::ln::chan_utils::TrustedCommitmentTransaction, + /// Note that this value is always NULL, as there are no contents in the Err variant + pub err: *mut std::ffi::c_void, +} +#[repr(C)] +pub struct CResult_TrustedCommitmentTransactionNoneZ { + pub contents: CResult_TrustedCommitmentTransactionNoneZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_TrustedCommitmentTransactionNoneZ_ok(o: crate::ln::chan_utils::TrustedCommitmentTransaction) -> CResult_TrustedCommitmentTransactionNoneZ { + CResult_TrustedCommitmentTransactionNoneZ { + contents: CResult_TrustedCommitmentTransactionNoneZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_TrustedCommitmentTransactionNoneZ_err() -> CResult_TrustedCommitmentTransactionNoneZ { + CResult_TrustedCommitmentTransactionNoneZ { + contents: CResult_TrustedCommitmentTransactionNoneZPtr { + err: std::ptr::null_mut(), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_TrustedCommitmentTransactionNoneZ_free(_res: CResult_TrustedCommitmentTransactionNoneZ) { } +impl Drop for CResult_TrustedCommitmentTransactionNoneZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + } + } +} +impl From> for CResult_TrustedCommitmentTransactionNoneZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_TrustedCommitmentTransactionNoneZPtr { result } + } else { + let _ = unsafe { Box::from_raw(o.contents.err) }; + o.contents.err = std::ptr::null_mut(); + CResult_TrustedCommitmentTransactionNoneZPtr { err: std::ptr::null_mut() } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +#[repr(C)] +pub union CResult_CVec_SignatureZNoneZPtr { + pub result: *mut crate::c_types::derived::CVec_SignatureZ, + /// Note that this value is always NULL, as there are no contents in the Err variant + pub err: *mut std::ffi::c_void, +} +#[repr(C)] +pub struct CResult_CVec_SignatureZNoneZ { + pub contents: CResult_CVec_SignatureZNoneZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_CVec_SignatureZNoneZ_ok(o: crate::c_types::derived::CVec_SignatureZ) -> CResult_CVec_SignatureZNoneZ { + CResult_CVec_SignatureZNoneZ { + contents: CResult_CVec_SignatureZNoneZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_CVec_SignatureZNoneZ_err() -> CResult_CVec_SignatureZNoneZ { + CResult_CVec_SignatureZNoneZ { + contents: CResult_CVec_SignatureZNoneZPtr { + err: std::ptr::null_mut(), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_CVec_SignatureZNoneZ_free(_res: CResult_CVec_SignatureZNoneZ) { } +impl Drop for CResult_CVec_SignatureZNoneZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + } + } +} +impl From> for CResult_CVec_SignatureZNoneZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_CVec_SignatureZNoneZPtr { result } + } else { + let _ = unsafe { Box::from_raw(o.contents.err) }; + o.contents.err = std::ptr::null_mut(); + CResult_CVec_SignatureZNoneZPtr { err: std::ptr::null_mut() } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_CVec_SignatureZNoneZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_CVec_SignatureZNoneZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_CVec_SignatureZNoneZPtr { + err: std::ptr::null_mut() + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_CVec_SignatureZNoneZ_clone(orig: &CResult_CVec_SignatureZNoneZ) -> CResult_CVec_SignatureZNoneZ { orig.clone() } +#[repr(C)] +pub struct CVec_MessageSendEventZ { + pub data: *mut crate::util::events::MessageSendEvent, + pub datalen: usize +} +impl CVec_MessageSendEventZ { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[crate::util::events::MessageSendEvent] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_MessageSendEventZ { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_MessageSendEventZ_free(_res: CVec_MessageSendEventZ) { } +impl Drop for CVec_MessageSendEventZ { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +impl Clone for CVec_MessageSendEventZ { + fn clone(&self) -> Self { + let mut res = Vec::new(); + if self.datalen == 0 { return Self::from(res); } + res.extend_from_slice(unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) }); + Self::from(res) + } +} +#[repr(C)] +pub union CResult_boolLightningErrorZPtr { + pub result: *mut bool, + pub err: *mut crate::ln::msgs::LightningError, +} +#[repr(C)] +pub struct CResult_boolLightningErrorZ { + pub contents: CResult_boolLightningErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_boolLightningErrorZ_ok(o: bool) -> CResult_boolLightningErrorZ { + CResult_boolLightningErrorZ { + contents: CResult_boolLightningErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_boolLightningErrorZ_err(e: crate::ln::msgs::LightningError) -> CResult_boolLightningErrorZ { + CResult_boolLightningErrorZ { + contents: CResult_boolLightningErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_boolLightningErrorZ_free(_res: CResult_boolLightningErrorZ) { } +impl Drop for CResult_boolLightningErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_boolLightningErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_boolLightningErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_boolLightningErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_boolLightningErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_boolLightningErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_boolLightningErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_boolLightningErrorZ_clone(orig: &CResult_boolLightningErrorZ) -> CResult_boolLightningErrorZ { orig.clone() } +#[repr(C)] +pub struct C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ { + pub a: crate::ln::msgs::ChannelAnnouncement, + pub b: crate::ln::msgs::ChannelUpdate, + pub c: crate::ln::msgs::ChannelUpdate, +} +impl From<(crate::ln::msgs::ChannelAnnouncement, crate::ln::msgs::ChannelUpdate, crate::ln::msgs::ChannelUpdate)> for C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ { + fn from (tup: (crate::ln::msgs::ChannelAnnouncement, crate::ln::msgs::ChannelUpdate, crate::ln::msgs::ChannelUpdate)) -> Self { + Self { + a: tup.0, + b: tup.1, + c: tup.2, + } + } +} +impl C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ { + #[allow(unused)] pub(crate) fn to_rust(mut self) -> (crate::ln::msgs::ChannelAnnouncement, crate::ln::msgs::ChannelUpdate, crate::ln::msgs::ChannelUpdate) { + (self.a, self.b, self.c) + } +} +impl Clone for C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ { + fn clone(&self) -> Self { + Self { + a: self.a.clone(), + b: self.b.clone(), + c: self.c.clone(), + } + } +} +#[no_mangle] +pub extern "C" fn C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_clone(orig: &C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ) -> C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ { orig.clone() } +#[no_mangle] +pub extern "C" fn C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_new(a: crate::ln::msgs::ChannelAnnouncement, b: crate::ln::msgs::ChannelUpdate, c: crate::ln::msgs::ChannelUpdate) -> C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ { + C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ { a, b, c, } +} + +#[no_mangle] +pub extern "C" fn C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_free(_res: C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ) { } +#[repr(C)] +pub struct CVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ { + pub data: *mut crate::c_types::derived::C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ, + pub datalen: usize +} +impl CVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[crate::c_types::derived::C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ_free(_res: CVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ) { } +impl Drop for CVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +impl Clone for CVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ { + fn clone(&self) -> Self { + let mut res = Vec::new(); + if self.datalen == 0 { return Self::from(res); } + res.extend_from_slice(unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) }); + Self::from(res) + } +} +#[repr(C)] +pub struct CVec_NodeAnnouncementZ { + pub data: *mut crate::ln::msgs::NodeAnnouncement, + pub datalen: usize +} +impl CVec_NodeAnnouncementZ { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[crate::ln::msgs::NodeAnnouncement] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_NodeAnnouncementZ { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_NodeAnnouncementZ_free(_res: CVec_NodeAnnouncementZ) { } +impl Drop for CVec_NodeAnnouncementZ { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +impl Clone for CVec_NodeAnnouncementZ { + fn clone(&self) -> Self { + let mut res = Vec::new(); + if self.datalen == 0 { return Self::from(res); } + res.extend_from_slice(unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) }); + Self::from(res) + } +} +#[repr(C)] +pub union CResult_NoneLightningErrorZPtr { + /// Note that this value is always NULL, as there are no contents in the OK variant + pub result: *mut std::ffi::c_void, + pub err: *mut crate::ln::msgs::LightningError, +} +#[repr(C)] +pub struct CResult_NoneLightningErrorZ { + pub contents: CResult_NoneLightningErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_NoneLightningErrorZ_ok() -> CResult_NoneLightningErrorZ { + CResult_NoneLightningErrorZ { + contents: CResult_NoneLightningErrorZPtr { + result: std::ptr::null_mut(), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_NoneLightningErrorZ_err(e: crate::ln::msgs::LightningError) -> CResult_NoneLightningErrorZ { + CResult_NoneLightningErrorZ { + contents: CResult_NoneLightningErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_NoneLightningErrorZ_free(_res: CResult_NoneLightningErrorZ) { } +impl Drop for CResult_NoneLightningErrorZ { + fn drop(&mut self) { + if self.result_ok { + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_NoneLightningErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let _ = unsafe { Box::from_raw(o.contents.result) }; + o.contents.result = std::ptr::null_mut(); + CResult_NoneLightningErrorZPtr { result: std::ptr::null_mut() } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_NoneLightningErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_NoneLightningErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_NoneLightningErrorZPtr { + result: std::ptr::null_mut() + } } + } else { + Self { result_ok: false, contents: CResult_NoneLightningErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_NoneLightningErrorZ_clone(orig: &CResult_NoneLightningErrorZ) -> CResult_NoneLightningErrorZ { orig.clone() } +#[repr(C)] +pub struct CVec_PublicKeyZ { + pub data: *mut crate::c_types::PublicKey, + pub datalen: usize +} +impl CVec_PublicKeyZ { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[crate::c_types::PublicKey] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_PublicKeyZ { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_PublicKeyZ_free(_res: CVec_PublicKeyZ) { } +impl Drop for CVec_PublicKeyZ { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +#[repr(C)] +pub struct CVec_u8Z { + pub data: *mut u8, + pub datalen: usize +} +impl CVec_u8Z { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[u8] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_u8Z { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_u8Z_free(_res: CVec_u8Z) { } +impl Drop for CVec_u8Z { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +impl Clone for CVec_u8Z { + fn clone(&self) -> Self { + let mut res = Vec::new(); + if self.datalen == 0 { return Self::from(res); } + res.extend_from_slice(unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) }); + Self::from(res) + } +} +#[repr(C)] +pub union CResult_CVec_u8ZPeerHandleErrorZPtr { + pub result: *mut crate::c_types::derived::CVec_u8Z, + pub err: *mut crate::ln::peer_handler::PeerHandleError, +} +#[repr(C)] +pub struct CResult_CVec_u8ZPeerHandleErrorZ { + pub contents: CResult_CVec_u8ZPeerHandleErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_CVec_u8ZPeerHandleErrorZ_ok(o: crate::c_types::derived::CVec_u8Z) -> CResult_CVec_u8ZPeerHandleErrorZ { + CResult_CVec_u8ZPeerHandleErrorZ { + contents: CResult_CVec_u8ZPeerHandleErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_CVec_u8ZPeerHandleErrorZ_err(e: crate::ln::peer_handler::PeerHandleError) -> CResult_CVec_u8ZPeerHandleErrorZ { + CResult_CVec_u8ZPeerHandleErrorZ { + contents: CResult_CVec_u8ZPeerHandleErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_CVec_u8ZPeerHandleErrorZ_free(_res: CResult_CVec_u8ZPeerHandleErrorZ) { } +impl Drop for CResult_CVec_u8ZPeerHandleErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_CVec_u8ZPeerHandleErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_CVec_u8ZPeerHandleErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_CVec_u8ZPeerHandleErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_CVec_u8ZPeerHandleErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_CVec_u8ZPeerHandleErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_CVec_u8ZPeerHandleErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_CVec_u8ZPeerHandleErrorZ_clone(orig: &CResult_CVec_u8ZPeerHandleErrorZ) -> CResult_CVec_u8ZPeerHandleErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_NonePeerHandleErrorZPtr { + /// Note that this value is always NULL, as there are no contents in the OK variant + pub result: *mut std::ffi::c_void, + pub err: *mut crate::ln::peer_handler::PeerHandleError, +} +#[repr(C)] +pub struct CResult_NonePeerHandleErrorZ { + pub contents: CResult_NonePeerHandleErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_NonePeerHandleErrorZ_ok() -> CResult_NonePeerHandleErrorZ { + CResult_NonePeerHandleErrorZ { + contents: CResult_NonePeerHandleErrorZPtr { + result: std::ptr::null_mut(), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_NonePeerHandleErrorZ_err(e: crate::ln::peer_handler::PeerHandleError) -> CResult_NonePeerHandleErrorZ { + CResult_NonePeerHandleErrorZ { + contents: CResult_NonePeerHandleErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_NonePeerHandleErrorZ_free(_res: CResult_NonePeerHandleErrorZ) { } +impl Drop for CResult_NonePeerHandleErrorZ { + fn drop(&mut self) { + if self.result_ok { + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_NonePeerHandleErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let _ = unsafe { Box::from_raw(o.contents.result) }; + o.contents.result = std::ptr::null_mut(); + CResult_NonePeerHandleErrorZPtr { result: std::ptr::null_mut() } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_NonePeerHandleErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_NonePeerHandleErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_NonePeerHandleErrorZPtr { + result: std::ptr::null_mut() + } } + } else { + Self { result_ok: false, contents: CResult_NonePeerHandleErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_NonePeerHandleErrorZ_clone(orig: &CResult_NonePeerHandleErrorZ) -> CResult_NonePeerHandleErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_boolPeerHandleErrorZPtr { + pub result: *mut bool, + pub err: *mut crate::ln::peer_handler::PeerHandleError, +} +#[repr(C)] +pub struct CResult_boolPeerHandleErrorZ { + pub contents: CResult_boolPeerHandleErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_boolPeerHandleErrorZ_ok(o: bool) -> CResult_boolPeerHandleErrorZ { + CResult_boolPeerHandleErrorZ { + contents: CResult_boolPeerHandleErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_boolPeerHandleErrorZ_err(e: crate::ln::peer_handler::PeerHandleError) -> CResult_boolPeerHandleErrorZ { + CResult_boolPeerHandleErrorZ { + contents: CResult_boolPeerHandleErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_boolPeerHandleErrorZ_free(_res: CResult_boolPeerHandleErrorZ) { } +impl Drop for CResult_boolPeerHandleErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_boolPeerHandleErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_boolPeerHandleErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_boolPeerHandleErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_boolPeerHandleErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_boolPeerHandleErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_boolPeerHandleErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_boolPeerHandleErrorZ_clone(orig: &CResult_boolPeerHandleErrorZ) -> CResult_boolPeerHandleErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_InitFeaturesDecodeErrorZPtr { + pub result: *mut crate::ln::features::InitFeatures, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_InitFeaturesDecodeErrorZ { + pub contents: CResult_InitFeaturesDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_InitFeaturesDecodeErrorZ_ok(o: crate::ln::features::InitFeatures) -> CResult_InitFeaturesDecodeErrorZ { + CResult_InitFeaturesDecodeErrorZ { + contents: CResult_InitFeaturesDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_InitFeaturesDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_InitFeaturesDecodeErrorZ { + CResult_InitFeaturesDecodeErrorZ { + contents: CResult_InitFeaturesDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_InitFeaturesDecodeErrorZ_free(_res: CResult_InitFeaturesDecodeErrorZ) { } +impl Drop for CResult_InitFeaturesDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_InitFeaturesDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_InitFeaturesDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_InitFeaturesDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +#[repr(C)] +pub union CResult_NodeFeaturesDecodeErrorZPtr { + pub result: *mut crate::ln::features::NodeFeatures, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_NodeFeaturesDecodeErrorZ { + pub contents: CResult_NodeFeaturesDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_NodeFeaturesDecodeErrorZ_ok(o: crate::ln::features::NodeFeatures) -> CResult_NodeFeaturesDecodeErrorZ { + CResult_NodeFeaturesDecodeErrorZ { + contents: CResult_NodeFeaturesDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_NodeFeaturesDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_NodeFeaturesDecodeErrorZ { + CResult_NodeFeaturesDecodeErrorZ { + contents: CResult_NodeFeaturesDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_NodeFeaturesDecodeErrorZ_free(_res: CResult_NodeFeaturesDecodeErrorZ) { } +impl Drop for CResult_NodeFeaturesDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_NodeFeaturesDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_NodeFeaturesDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_NodeFeaturesDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +#[repr(C)] +pub union CResult_ChannelFeaturesDecodeErrorZPtr { + pub result: *mut crate::ln::features::ChannelFeatures, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_ChannelFeaturesDecodeErrorZ { + pub contents: CResult_ChannelFeaturesDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_ChannelFeaturesDecodeErrorZ_ok(o: crate::ln::features::ChannelFeatures) -> CResult_ChannelFeaturesDecodeErrorZ { + CResult_ChannelFeaturesDecodeErrorZ { + contents: CResult_ChannelFeaturesDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_ChannelFeaturesDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_ChannelFeaturesDecodeErrorZ { + CResult_ChannelFeaturesDecodeErrorZ { + contents: CResult_ChannelFeaturesDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_ChannelFeaturesDecodeErrorZ_free(_res: CResult_ChannelFeaturesDecodeErrorZ) { } +impl Drop for CResult_ChannelFeaturesDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_ChannelFeaturesDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_ChannelFeaturesDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_ChannelFeaturesDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +#[repr(C)] +pub union CResult_ChannelConfigDecodeErrorZPtr { + pub result: *mut crate::util::config::ChannelConfig, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_ChannelConfigDecodeErrorZ { + pub contents: CResult_ChannelConfigDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_ChannelConfigDecodeErrorZ_ok(o: crate::util::config::ChannelConfig) -> CResult_ChannelConfigDecodeErrorZ { + CResult_ChannelConfigDecodeErrorZ { + contents: CResult_ChannelConfigDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_ChannelConfigDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_ChannelConfigDecodeErrorZ { + CResult_ChannelConfigDecodeErrorZ { + contents: CResult_ChannelConfigDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_ChannelConfigDecodeErrorZ_free(_res: CResult_ChannelConfigDecodeErrorZ) { } +impl Drop for CResult_ChannelConfigDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_ChannelConfigDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_ChannelConfigDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_ChannelConfigDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_ChannelConfigDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_ChannelConfigDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_ChannelConfigDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_ChannelConfigDecodeErrorZ_clone(orig: &CResult_ChannelConfigDecodeErrorZ) -> CResult_ChannelConfigDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_DirectionalChannelInfoDecodeErrorZPtr { + pub result: *mut crate::routing::network_graph::DirectionalChannelInfo, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_DirectionalChannelInfoDecodeErrorZ { + pub contents: CResult_DirectionalChannelInfoDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_DirectionalChannelInfoDecodeErrorZ_ok(o: crate::routing::network_graph::DirectionalChannelInfo) -> CResult_DirectionalChannelInfoDecodeErrorZ { + CResult_DirectionalChannelInfoDecodeErrorZ { + contents: CResult_DirectionalChannelInfoDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_DirectionalChannelInfoDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_DirectionalChannelInfoDecodeErrorZ { + CResult_DirectionalChannelInfoDecodeErrorZ { + contents: CResult_DirectionalChannelInfoDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_DirectionalChannelInfoDecodeErrorZ_free(_res: CResult_DirectionalChannelInfoDecodeErrorZ) { } +impl Drop for CResult_DirectionalChannelInfoDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_DirectionalChannelInfoDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_DirectionalChannelInfoDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_DirectionalChannelInfoDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_DirectionalChannelInfoDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_DirectionalChannelInfoDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_DirectionalChannelInfoDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_DirectionalChannelInfoDecodeErrorZ_clone(orig: &CResult_DirectionalChannelInfoDecodeErrorZ) -> CResult_DirectionalChannelInfoDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_ChannelInfoDecodeErrorZPtr { + pub result: *mut crate::routing::network_graph::ChannelInfo, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_ChannelInfoDecodeErrorZ { + pub contents: CResult_ChannelInfoDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_ChannelInfoDecodeErrorZ_ok(o: crate::routing::network_graph::ChannelInfo) -> CResult_ChannelInfoDecodeErrorZ { + CResult_ChannelInfoDecodeErrorZ { + contents: CResult_ChannelInfoDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_ChannelInfoDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_ChannelInfoDecodeErrorZ { + CResult_ChannelInfoDecodeErrorZ { + contents: CResult_ChannelInfoDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_ChannelInfoDecodeErrorZ_free(_res: CResult_ChannelInfoDecodeErrorZ) { } +impl Drop for CResult_ChannelInfoDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_ChannelInfoDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_ChannelInfoDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_ChannelInfoDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_ChannelInfoDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_ChannelInfoDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_ChannelInfoDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_ChannelInfoDecodeErrorZ_clone(orig: &CResult_ChannelInfoDecodeErrorZ) -> CResult_ChannelInfoDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_RoutingFeesDecodeErrorZPtr { + pub result: *mut crate::routing::network_graph::RoutingFees, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_RoutingFeesDecodeErrorZ { + pub contents: CResult_RoutingFeesDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_RoutingFeesDecodeErrorZ_ok(o: crate::routing::network_graph::RoutingFees) -> CResult_RoutingFeesDecodeErrorZ { + CResult_RoutingFeesDecodeErrorZ { + contents: CResult_RoutingFeesDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_RoutingFeesDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_RoutingFeesDecodeErrorZ { + CResult_RoutingFeesDecodeErrorZ { + contents: CResult_RoutingFeesDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_RoutingFeesDecodeErrorZ_free(_res: CResult_RoutingFeesDecodeErrorZ) { } +impl Drop for CResult_RoutingFeesDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_RoutingFeesDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_RoutingFeesDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_RoutingFeesDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_RoutingFeesDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_RoutingFeesDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_RoutingFeesDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_RoutingFeesDecodeErrorZ_clone(orig: &CResult_RoutingFeesDecodeErrorZ) -> CResult_RoutingFeesDecodeErrorZ { orig.clone() } +#[repr(C)] +pub struct CVec_NetAddressZ { + pub data: *mut crate::ln::msgs::NetAddress, + pub datalen: usize +} +impl CVec_NetAddressZ { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[crate::ln::msgs::NetAddress] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_NetAddressZ { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_NetAddressZ_free(_res: CVec_NetAddressZ) { } +impl Drop for CVec_NetAddressZ { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +impl Clone for CVec_NetAddressZ { + fn clone(&self) -> Self { + let mut res = Vec::new(); + if self.datalen == 0 { return Self::from(res); } + res.extend_from_slice(unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) }); + Self::from(res) + } +} +#[repr(C)] +pub union CResult_NodeAnnouncementInfoDecodeErrorZPtr { + pub result: *mut crate::routing::network_graph::NodeAnnouncementInfo, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_NodeAnnouncementInfoDecodeErrorZ { + pub contents: CResult_NodeAnnouncementInfoDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_NodeAnnouncementInfoDecodeErrorZ_ok(o: crate::routing::network_graph::NodeAnnouncementInfo) -> CResult_NodeAnnouncementInfoDecodeErrorZ { + CResult_NodeAnnouncementInfoDecodeErrorZ { + contents: CResult_NodeAnnouncementInfoDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_NodeAnnouncementInfoDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_NodeAnnouncementInfoDecodeErrorZ { + CResult_NodeAnnouncementInfoDecodeErrorZ { + contents: CResult_NodeAnnouncementInfoDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_NodeAnnouncementInfoDecodeErrorZ_free(_res: CResult_NodeAnnouncementInfoDecodeErrorZ) { } +impl Drop for CResult_NodeAnnouncementInfoDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_NodeAnnouncementInfoDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_NodeAnnouncementInfoDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_NodeAnnouncementInfoDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_NodeAnnouncementInfoDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_NodeAnnouncementInfoDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_NodeAnnouncementInfoDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_NodeAnnouncementInfoDecodeErrorZ_clone(orig: &CResult_NodeAnnouncementInfoDecodeErrorZ) -> CResult_NodeAnnouncementInfoDecodeErrorZ { orig.clone() } +#[repr(C)] +pub struct CVec_u64Z { + pub data: *mut u64, + pub datalen: usize +} +impl CVec_u64Z { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[u64] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_u64Z { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_u64Z_free(_res: CVec_u64Z) { } +impl Drop for CVec_u64Z { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +impl Clone for CVec_u64Z { + fn clone(&self) -> Self { + let mut res = Vec::new(); + if self.datalen == 0 { return Self::from(res); } + res.extend_from_slice(unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) }); + Self::from(res) + } +} +#[repr(C)] +pub union CResult_NodeInfoDecodeErrorZPtr { + pub result: *mut crate::routing::network_graph::NodeInfo, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_NodeInfoDecodeErrorZ { + pub contents: CResult_NodeInfoDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_NodeInfoDecodeErrorZ_ok(o: crate::routing::network_graph::NodeInfo) -> CResult_NodeInfoDecodeErrorZ { + CResult_NodeInfoDecodeErrorZ { + contents: CResult_NodeInfoDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_NodeInfoDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_NodeInfoDecodeErrorZ { + CResult_NodeInfoDecodeErrorZ { + contents: CResult_NodeInfoDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_NodeInfoDecodeErrorZ_free(_res: CResult_NodeInfoDecodeErrorZ) { } +impl Drop for CResult_NodeInfoDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_NodeInfoDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_NodeInfoDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_NodeInfoDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_NodeInfoDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_NodeInfoDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_NodeInfoDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_NodeInfoDecodeErrorZ_clone(orig: &CResult_NodeInfoDecodeErrorZ) -> CResult_NodeInfoDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_NetworkGraphDecodeErrorZPtr { + pub result: *mut crate::routing::network_graph::NetworkGraph, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_NetworkGraphDecodeErrorZ { + pub contents: CResult_NetworkGraphDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_NetworkGraphDecodeErrorZ_ok(o: crate::routing::network_graph::NetworkGraph) -> CResult_NetworkGraphDecodeErrorZ { + CResult_NetworkGraphDecodeErrorZ { + contents: CResult_NetworkGraphDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_NetworkGraphDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_NetworkGraphDecodeErrorZ { + CResult_NetworkGraphDecodeErrorZ { + contents: CResult_NetworkGraphDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_NetworkGraphDecodeErrorZ_free(_res: CResult_NetworkGraphDecodeErrorZ) { } +impl Drop for CResult_NetworkGraphDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_NetworkGraphDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_NetworkGraphDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_NetworkGraphDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_NetworkGraphDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_NetworkGraphDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_NetworkGraphDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_NetworkGraphDecodeErrorZ_clone(orig: &CResult_NetworkGraphDecodeErrorZ) -> CResult_NetworkGraphDecodeErrorZ { orig.clone() } +#[repr(C)] +pub struct C2Tuple_usizeTransactionZ { + pub a: usize, + pub b: crate::c_types::Transaction, +} +impl From<(usize, crate::c_types::Transaction)> for C2Tuple_usizeTransactionZ { + fn from (tup: (usize, crate::c_types::Transaction)) -> Self { + Self { + a: tup.0, + b: tup.1, + } + } +} +impl C2Tuple_usizeTransactionZ { + #[allow(unused)] pub(crate) fn to_rust(mut self) -> (usize, crate::c_types::Transaction) { + (self.a, self.b) + } +} +#[no_mangle] +pub extern "C" fn C2Tuple_usizeTransactionZ_new(a: usize, b: crate::c_types::Transaction) -> C2Tuple_usizeTransactionZ { + C2Tuple_usizeTransactionZ { a, b, } +} + +#[no_mangle] +pub extern "C" fn C2Tuple_usizeTransactionZ_free(_res: C2Tuple_usizeTransactionZ) { } +#[repr(C)] +pub struct CVec_C2Tuple_usizeTransactionZZ { + pub data: *mut crate::c_types::derived::C2Tuple_usizeTransactionZ, + pub datalen: usize +} +impl CVec_C2Tuple_usizeTransactionZZ { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[crate::c_types::derived::C2Tuple_usizeTransactionZ] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_C2Tuple_usizeTransactionZZ { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_C2Tuple_usizeTransactionZZ_free(_res: CVec_C2Tuple_usizeTransactionZZ) { } +impl Drop for CVec_C2Tuple_usizeTransactionZZ { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +#[repr(C)] +pub union CResult_NoneChannelMonitorUpdateErrZPtr { + /// Note that this value is always NULL, as there are no contents in the OK variant + pub result: *mut std::ffi::c_void, + pub err: *mut crate::chain::channelmonitor::ChannelMonitorUpdateErr, +} +#[repr(C)] +pub struct CResult_NoneChannelMonitorUpdateErrZ { + pub contents: CResult_NoneChannelMonitorUpdateErrZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_NoneChannelMonitorUpdateErrZ_ok() -> CResult_NoneChannelMonitorUpdateErrZ { + CResult_NoneChannelMonitorUpdateErrZ { + contents: CResult_NoneChannelMonitorUpdateErrZPtr { + result: std::ptr::null_mut(), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_NoneChannelMonitorUpdateErrZ_err(e: crate::chain::channelmonitor::ChannelMonitorUpdateErr) -> CResult_NoneChannelMonitorUpdateErrZ { + CResult_NoneChannelMonitorUpdateErrZ { + contents: CResult_NoneChannelMonitorUpdateErrZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_NoneChannelMonitorUpdateErrZ_free(_res: CResult_NoneChannelMonitorUpdateErrZ) { } +impl Drop for CResult_NoneChannelMonitorUpdateErrZ { + fn drop(&mut self) { + if self.result_ok { + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_NoneChannelMonitorUpdateErrZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let _ = unsafe { Box::from_raw(o.contents.result) }; + o.contents.result = std::ptr::null_mut(); + CResult_NoneChannelMonitorUpdateErrZPtr { result: std::ptr::null_mut() } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_NoneChannelMonitorUpdateErrZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_NoneChannelMonitorUpdateErrZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_NoneChannelMonitorUpdateErrZPtr { + result: std::ptr::null_mut() + } } + } else { + Self { result_ok: false, contents: CResult_NoneChannelMonitorUpdateErrZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_NoneChannelMonitorUpdateErrZ_clone(orig: &CResult_NoneChannelMonitorUpdateErrZ) -> CResult_NoneChannelMonitorUpdateErrZ { orig.clone() } +#[repr(C)] +pub struct CVec_MonitorEventZ { + pub data: *mut crate::chain::channelmonitor::MonitorEvent, + pub datalen: usize +} +impl CVec_MonitorEventZ { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[crate::chain::channelmonitor::MonitorEvent] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_MonitorEventZ { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_MonitorEventZ_free(_res: CVec_MonitorEventZ) { } +impl Drop for CVec_MonitorEventZ { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +impl Clone for CVec_MonitorEventZ { + fn clone(&self) -> Self { + let mut res = Vec::new(); + if self.datalen == 0 { return Self::from(res); } + res.extend_from_slice(unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) }); + Self::from(res) + } +} +#[repr(C)] +pub struct CVec_EventZ { + pub data: *mut crate::util::events::Event, + pub datalen: usize +} +impl CVec_EventZ { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[crate::util::events::Event] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_EventZ { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_EventZ_free(_res: CVec_EventZ) { } +impl Drop for CVec_EventZ { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +impl Clone for CVec_EventZ { + fn clone(&self) -> Self { + let mut res = Vec::new(); + if self.datalen == 0 { return Self::from(res); } + res.extend_from_slice(unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) }); + Self::from(res) + } +} +#[repr(C)] +pub union CResult_OutPointDecodeErrorZPtr { + pub result: *mut crate::chain::transaction::OutPoint, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_OutPointDecodeErrorZ { + pub contents: CResult_OutPointDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_OutPointDecodeErrorZ_ok(o: crate::chain::transaction::OutPoint) -> CResult_OutPointDecodeErrorZ { + CResult_OutPointDecodeErrorZ { + contents: CResult_OutPointDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_OutPointDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_OutPointDecodeErrorZ { + CResult_OutPointDecodeErrorZ { + contents: CResult_OutPointDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_OutPointDecodeErrorZ_free(_res: CResult_OutPointDecodeErrorZ) { } +impl Drop for CResult_OutPointDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_OutPointDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_OutPointDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_OutPointDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_OutPointDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_OutPointDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_OutPointDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_OutPointDecodeErrorZ_clone(orig: &CResult_OutPointDecodeErrorZ) -> CResult_OutPointDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_ChannelMonitorUpdateDecodeErrorZPtr { + pub result: *mut crate::chain::channelmonitor::ChannelMonitorUpdate, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_ChannelMonitorUpdateDecodeErrorZ { + pub contents: CResult_ChannelMonitorUpdateDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_ChannelMonitorUpdateDecodeErrorZ_ok(o: crate::chain::channelmonitor::ChannelMonitorUpdate) -> CResult_ChannelMonitorUpdateDecodeErrorZ { + CResult_ChannelMonitorUpdateDecodeErrorZ { + contents: CResult_ChannelMonitorUpdateDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_ChannelMonitorUpdateDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_ChannelMonitorUpdateDecodeErrorZ { + CResult_ChannelMonitorUpdateDecodeErrorZ { + contents: CResult_ChannelMonitorUpdateDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_ChannelMonitorUpdateDecodeErrorZ_free(_res: CResult_ChannelMonitorUpdateDecodeErrorZ) { } +impl Drop for CResult_ChannelMonitorUpdateDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_ChannelMonitorUpdateDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_ChannelMonitorUpdateDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_ChannelMonitorUpdateDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_ChannelMonitorUpdateDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_ChannelMonitorUpdateDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_ChannelMonitorUpdateDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_ChannelMonitorUpdateDecodeErrorZ_clone(orig: &CResult_ChannelMonitorUpdateDecodeErrorZ) -> CResult_ChannelMonitorUpdateDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_HTLCUpdateDecodeErrorZPtr { + pub result: *mut crate::chain::channelmonitor::HTLCUpdate, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_HTLCUpdateDecodeErrorZ { + pub contents: CResult_HTLCUpdateDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_HTLCUpdateDecodeErrorZ_ok(o: crate::chain::channelmonitor::HTLCUpdate) -> CResult_HTLCUpdateDecodeErrorZ { + CResult_HTLCUpdateDecodeErrorZ { + contents: CResult_HTLCUpdateDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_HTLCUpdateDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_HTLCUpdateDecodeErrorZ { + CResult_HTLCUpdateDecodeErrorZ { + contents: CResult_HTLCUpdateDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_HTLCUpdateDecodeErrorZ_free(_res: CResult_HTLCUpdateDecodeErrorZ) { } +impl Drop for CResult_HTLCUpdateDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_HTLCUpdateDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_HTLCUpdateDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_HTLCUpdateDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_HTLCUpdateDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_HTLCUpdateDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_HTLCUpdateDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_HTLCUpdateDecodeErrorZ_clone(orig: &CResult_HTLCUpdateDecodeErrorZ) -> CResult_HTLCUpdateDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_NoneMonitorUpdateErrorZPtr { + /// Note that this value is always NULL, as there are no contents in the OK variant + pub result: *mut std::ffi::c_void, + pub err: *mut crate::chain::channelmonitor::MonitorUpdateError, +} +#[repr(C)] +pub struct CResult_NoneMonitorUpdateErrorZ { + pub contents: CResult_NoneMonitorUpdateErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_NoneMonitorUpdateErrorZ_ok() -> CResult_NoneMonitorUpdateErrorZ { + CResult_NoneMonitorUpdateErrorZ { + contents: CResult_NoneMonitorUpdateErrorZPtr { + result: std::ptr::null_mut(), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_NoneMonitorUpdateErrorZ_err(e: crate::chain::channelmonitor::MonitorUpdateError) -> CResult_NoneMonitorUpdateErrorZ { + CResult_NoneMonitorUpdateErrorZ { + contents: CResult_NoneMonitorUpdateErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_NoneMonitorUpdateErrorZ_free(_res: CResult_NoneMonitorUpdateErrorZ) { } +impl Drop for CResult_NoneMonitorUpdateErrorZ { + fn drop(&mut self) { + if self.result_ok { + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_NoneMonitorUpdateErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let _ = unsafe { Box::from_raw(o.contents.result) }; + o.contents.result = std::ptr::null_mut(); + CResult_NoneMonitorUpdateErrorZPtr { result: std::ptr::null_mut() } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_NoneMonitorUpdateErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_NoneMonitorUpdateErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_NoneMonitorUpdateErrorZPtr { + result: std::ptr::null_mut() + } } + } else { + Self { result_ok: false, contents: CResult_NoneMonitorUpdateErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_NoneMonitorUpdateErrorZ_clone(orig: &CResult_NoneMonitorUpdateErrorZ) -> CResult_NoneMonitorUpdateErrorZ { orig.clone() } +#[repr(C)] +pub struct C2Tuple_OutPointScriptZ { + pub a: crate::chain::transaction::OutPoint, + pub b: crate::c_types::derived::CVec_u8Z, +} +impl From<(crate::chain::transaction::OutPoint, crate::c_types::derived::CVec_u8Z)> for C2Tuple_OutPointScriptZ { + fn from (tup: (crate::chain::transaction::OutPoint, crate::c_types::derived::CVec_u8Z)) -> Self { + Self { + a: tup.0, + b: tup.1, + } + } +} +impl C2Tuple_OutPointScriptZ { + #[allow(unused)] pub(crate) fn to_rust(mut self) -> (crate::chain::transaction::OutPoint, crate::c_types::derived::CVec_u8Z) { + (self.a, self.b) + } +} +impl Clone for C2Tuple_OutPointScriptZ { + fn clone(&self) -> Self { + Self { + a: self.a.clone(), + b: self.b.clone(), + } + } +} +#[no_mangle] +pub extern "C" fn C2Tuple_OutPointScriptZ_clone(orig: &C2Tuple_OutPointScriptZ) -> C2Tuple_OutPointScriptZ { orig.clone() } +#[no_mangle] +pub extern "C" fn C2Tuple_OutPointScriptZ_new(a: crate::chain::transaction::OutPoint, b: crate::c_types::derived::CVec_u8Z) -> C2Tuple_OutPointScriptZ { + C2Tuple_OutPointScriptZ { a, b, } +} + +#[no_mangle] +pub extern "C" fn C2Tuple_OutPointScriptZ_free(_res: C2Tuple_OutPointScriptZ) { } +#[repr(C)] +pub struct CVec_TransactionZ { + pub data: *mut crate::c_types::Transaction, + pub datalen: usize +} +impl CVec_TransactionZ { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[crate::c_types::Transaction] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_TransactionZ { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_TransactionZ_free(_res: CVec_TransactionZ) { } +impl Drop for CVec_TransactionZ { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +#[repr(C)] +pub struct C2Tuple_u32TxOutZ { + pub a: u32, + pub b: crate::c_types::TxOut, +} +impl From<(u32, crate::c_types::TxOut)> for C2Tuple_u32TxOutZ { + fn from (tup: (u32, crate::c_types::TxOut)) -> Self { + Self { + a: tup.0, + b: tup.1, + } + } +} +impl C2Tuple_u32TxOutZ { + #[allow(unused)] pub(crate) fn to_rust(mut self) -> (u32, crate::c_types::TxOut) { + (self.a, self.b) + } +} +impl Clone for C2Tuple_u32TxOutZ { + fn clone(&self) -> Self { + Self { + a: self.a.clone(), + b: self.b.clone(), + } + } +} +#[no_mangle] +pub extern "C" fn C2Tuple_u32TxOutZ_clone(orig: &C2Tuple_u32TxOutZ) -> C2Tuple_u32TxOutZ { orig.clone() } +#[no_mangle] +pub extern "C" fn C2Tuple_u32TxOutZ_new(a: u32, b: crate::c_types::TxOut) -> C2Tuple_u32TxOutZ { + C2Tuple_u32TxOutZ { a, b, } +} + +#[no_mangle] +pub extern "C" fn C2Tuple_u32TxOutZ_free(_res: C2Tuple_u32TxOutZ) { } +#[repr(C)] +pub struct CVec_C2Tuple_u32TxOutZZ { + pub data: *mut crate::c_types::derived::C2Tuple_u32TxOutZ, + pub datalen: usize +} +impl CVec_C2Tuple_u32TxOutZZ { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[crate::c_types::derived::C2Tuple_u32TxOutZ] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_C2Tuple_u32TxOutZZ { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_C2Tuple_u32TxOutZZ_free(_res: CVec_C2Tuple_u32TxOutZZ) { } +impl Drop for CVec_C2Tuple_u32TxOutZZ { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +impl Clone for CVec_C2Tuple_u32TxOutZZ { + fn clone(&self) -> Self { + let mut res = Vec::new(); + if self.datalen == 0 { return Self::from(res); } + res.extend_from_slice(unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) }); + Self::from(res) + } +} +#[repr(C)] +pub struct C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ { + pub a: crate::c_types::ThirtyTwoBytes, + pub b: crate::c_types::derived::CVec_C2Tuple_u32TxOutZZ, +} +impl From<(crate::c_types::ThirtyTwoBytes, crate::c_types::derived::CVec_C2Tuple_u32TxOutZZ)> for C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ { + fn from (tup: (crate::c_types::ThirtyTwoBytes, crate::c_types::derived::CVec_C2Tuple_u32TxOutZZ)) -> Self { + Self { + a: tup.0, + b: tup.1, + } + } +} +impl C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ { + #[allow(unused)] pub(crate) fn to_rust(mut self) -> (crate::c_types::ThirtyTwoBytes, crate::c_types::derived::CVec_C2Tuple_u32TxOutZZ) { + (self.a, self.b) + } +} +#[no_mangle] +pub extern "C" fn C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ_new(a: crate::c_types::ThirtyTwoBytes, b: crate::c_types::derived::CVec_C2Tuple_u32TxOutZZ) -> C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ { + C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ { a, b, } +} + +#[no_mangle] +pub extern "C" fn C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ_free(_res: C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ) { } +#[repr(C)] +pub struct CVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ { + pub data: *mut crate::c_types::derived::C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ, + pub datalen: usize +} +impl CVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[crate::c_types::derived::C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ_free(_res: CVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ) { } +impl Drop for CVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +#[repr(C)] +pub struct C2Tuple_BlockHashChannelMonitorZ { + pub a: crate::c_types::ThirtyTwoBytes, + pub b: crate::chain::channelmonitor::ChannelMonitor, +} +impl From<(crate::c_types::ThirtyTwoBytes, crate::chain::channelmonitor::ChannelMonitor)> for C2Tuple_BlockHashChannelMonitorZ { + fn from (tup: (crate::c_types::ThirtyTwoBytes, crate::chain::channelmonitor::ChannelMonitor)) -> Self { + Self { + a: tup.0, + b: tup.1, + } + } +} +impl C2Tuple_BlockHashChannelMonitorZ { + #[allow(unused)] pub(crate) fn to_rust(mut self) -> (crate::c_types::ThirtyTwoBytes, crate::chain::channelmonitor::ChannelMonitor) { + (self.a, self.b) + } +} +#[no_mangle] +pub extern "C" fn C2Tuple_BlockHashChannelMonitorZ_new(a: crate::c_types::ThirtyTwoBytes, b: crate::chain::channelmonitor::ChannelMonitor) -> C2Tuple_BlockHashChannelMonitorZ { + C2Tuple_BlockHashChannelMonitorZ { a, b, } +} + +#[no_mangle] +pub extern "C" fn C2Tuple_BlockHashChannelMonitorZ_free(_res: C2Tuple_BlockHashChannelMonitorZ) { } +#[repr(C)] +pub union CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZPtr { + pub result: *mut crate::c_types::derived::C2Tuple_BlockHashChannelMonitorZ, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ { + pub contents: CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_ok(o: crate::c_types::derived::C2Tuple_BlockHashChannelMonitorZ) -> CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ { + CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ { + contents: CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ { + CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ { + contents: CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_free(_res: CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ) { } +impl Drop for CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +#[repr(C)] +pub struct CVec_SpendableOutputDescriptorZ { + pub data: *mut crate::chain::keysinterface::SpendableOutputDescriptor, + pub datalen: usize +} +impl CVec_SpendableOutputDescriptorZ { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[crate::chain::keysinterface::SpendableOutputDescriptor] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_SpendableOutputDescriptorZ { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_SpendableOutputDescriptorZ_free(_res: CVec_SpendableOutputDescriptorZ) { } +impl Drop for CVec_SpendableOutputDescriptorZ { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +impl Clone for CVec_SpendableOutputDescriptorZ { + fn clone(&self) -> Self { + let mut res = Vec::new(); + if self.datalen == 0 { return Self::from(res); } + res.extend_from_slice(unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) }); + Self::from(res) + } +} +#[repr(C)] +pub union CResult_TxOutAccessErrorZPtr { + pub result: *mut crate::c_types::TxOut, + pub err: *mut crate::chain::AccessError, +} +#[repr(C)] +pub struct CResult_TxOutAccessErrorZ { + pub contents: CResult_TxOutAccessErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_TxOutAccessErrorZ_ok(o: crate::c_types::TxOut) -> CResult_TxOutAccessErrorZ { + CResult_TxOutAccessErrorZ { + contents: CResult_TxOutAccessErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_TxOutAccessErrorZ_err(e: crate::chain::AccessError) -> CResult_TxOutAccessErrorZ { + CResult_TxOutAccessErrorZ { + contents: CResult_TxOutAccessErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_TxOutAccessErrorZ_free(_res: CResult_TxOutAccessErrorZ) { } +impl Drop for CResult_TxOutAccessErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_TxOutAccessErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_TxOutAccessErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_TxOutAccessErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_TxOutAccessErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_TxOutAccessErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_TxOutAccessErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_TxOutAccessErrorZ_clone(orig: &CResult_TxOutAccessErrorZ) -> CResult_TxOutAccessErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_NoneAPIErrorZPtr { + /// Note that this value is always NULL, as there are no contents in the OK variant + pub result: *mut std::ffi::c_void, + pub err: *mut crate::util::errors::APIError, +} +#[repr(C)] +pub struct CResult_NoneAPIErrorZ { + pub contents: CResult_NoneAPIErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_NoneAPIErrorZ_ok() -> CResult_NoneAPIErrorZ { + CResult_NoneAPIErrorZ { + contents: CResult_NoneAPIErrorZPtr { + result: std::ptr::null_mut(), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_NoneAPIErrorZ_err(e: crate::util::errors::APIError) -> CResult_NoneAPIErrorZ { + CResult_NoneAPIErrorZ { + contents: CResult_NoneAPIErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_NoneAPIErrorZ_free(_res: CResult_NoneAPIErrorZ) { } +impl Drop for CResult_NoneAPIErrorZ { + fn drop(&mut self) { + if self.result_ok { + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_NoneAPIErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let _ = unsafe { Box::from_raw(o.contents.result) }; + o.contents.result = std::ptr::null_mut(); + CResult_NoneAPIErrorZPtr { result: std::ptr::null_mut() } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_NoneAPIErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_NoneAPIErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_NoneAPIErrorZPtr { + result: std::ptr::null_mut() + } } + } else { + Self { result_ok: false, contents: CResult_NoneAPIErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_NoneAPIErrorZ_clone(orig: &CResult_NoneAPIErrorZ) -> CResult_NoneAPIErrorZ { orig.clone() } +#[repr(C)] +pub struct CVec_CResult_NoneAPIErrorZZ { + pub data: *mut crate::c_types::derived::CResult_NoneAPIErrorZ, + pub datalen: usize +} +impl CVec_CResult_NoneAPIErrorZZ { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[crate::c_types::derived::CResult_NoneAPIErrorZ] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_CResult_NoneAPIErrorZZ { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_CResult_NoneAPIErrorZZ_free(_res: CVec_CResult_NoneAPIErrorZZ) { } +impl Drop for CVec_CResult_NoneAPIErrorZZ { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +impl Clone for CVec_CResult_NoneAPIErrorZZ { + fn clone(&self) -> Self { + let mut res = Vec::new(); + if self.datalen == 0 { return Self::from(res); } + res.extend_from_slice(unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) }); + Self::from(res) + } +} +#[repr(C)] +pub struct CVec_APIErrorZ { + pub data: *mut crate::util::errors::APIError, + pub datalen: usize +} +impl CVec_APIErrorZ { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[crate::util::errors::APIError] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_APIErrorZ { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_APIErrorZ_free(_res: CVec_APIErrorZ) { } +impl Drop for CVec_APIErrorZ { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +impl Clone for CVec_APIErrorZ { + fn clone(&self) -> Self { + let mut res = Vec::new(); + if self.datalen == 0 { return Self::from(res); } + res.extend_from_slice(unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) }); + Self::from(res) + } +} +#[repr(C)] +pub struct CVec_ChannelDetailsZ { + pub data: *mut crate::ln::channelmanager::ChannelDetails, + pub datalen: usize +} +impl CVec_ChannelDetailsZ { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[crate::ln::channelmanager::ChannelDetails] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_ChannelDetailsZ { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_ChannelDetailsZ_free(_res: CVec_ChannelDetailsZ) { } +impl Drop for CVec_ChannelDetailsZ { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +impl Clone for CVec_ChannelDetailsZ { + fn clone(&self) -> Self { + let mut res = Vec::new(); + if self.datalen == 0 { return Self::from(res); } + res.extend_from_slice(unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) }); + Self::from(res) + } +} +#[repr(C)] +pub union CResult_NonePaymentSendFailureZPtr { + /// Note that this value is always NULL, as there are no contents in the OK variant + pub result: *mut std::ffi::c_void, + pub err: *mut crate::ln::channelmanager::PaymentSendFailure, +} +#[repr(C)] +pub struct CResult_NonePaymentSendFailureZ { + pub contents: CResult_NonePaymentSendFailureZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_NonePaymentSendFailureZ_ok() -> CResult_NonePaymentSendFailureZ { + CResult_NonePaymentSendFailureZ { + contents: CResult_NonePaymentSendFailureZPtr { + result: std::ptr::null_mut(), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_NonePaymentSendFailureZ_err(e: crate::ln::channelmanager::PaymentSendFailure) -> CResult_NonePaymentSendFailureZ { + CResult_NonePaymentSendFailureZ { + contents: CResult_NonePaymentSendFailureZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_NonePaymentSendFailureZ_free(_res: CResult_NonePaymentSendFailureZ) { } +impl Drop for CResult_NonePaymentSendFailureZ { + fn drop(&mut self) { + if self.result_ok { + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_NonePaymentSendFailureZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let _ = unsafe { Box::from_raw(o.contents.result) }; + o.contents.result = std::ptr::null_mut(); + CResult_NonePaymentSendFailureZPtr { result: std::ptr::null_mut() } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_NonePaymentSendFailureZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_NonePaymentSendFailureZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_NonePaymentSendFailureZPtr { + result: std::ptr::null_mut() + } } + } else { + Self { result_ok: false, contents: CResult_NonePaymentSendFailureZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_NonePaymentSendFailureZ_clone(orig: &CResult_NonePaymentSendFailureZ) -> CResult_NonePaymentSendFailureZ { orig.clone() } +#[repr(C)] +pub struct CVec_ChannelMonitorZ { + pub data: *mut crate::chain::channelmonitor::ChannelMonitor, + pub datalen: usize +} +impl CVec_ChannelMonitorZ { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[crate::chain::channelmonitor::ChannelMonitor] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_ChannelMonitorZ { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_ChannelMonitorZ_free(_res: CVec_ChannelMonitorZ) { } +impl Drop for CVec_ChannelMonitorZ { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +#[repr(C)] +pub struct C2Tuple_BlockHashChannelManagerZ { + pub a: crate::c_types::ThirtyTwoBytes, + pub b: crate::ln::channelmanager::ChannelManager, +} +impl From<(crate::c_types::ThirtyTwoBytes, crate::ln::channelmanager::ChannelManager)> for C2Tuple_BlockHashChannelManagerZ { + fn from (tup: (crate::c_types::ThirtyTwoBytes, crate::ln::channelmanager::ChannelManager)) -> Self { + Self { + a: tup.0, + b: tup.1, + } + } +} +impl C2Tuple_BlockHashChannelManagerZ { + #[allow(unused)] pub(crate) fn to_rust(mut self) -> (crate::c_types::ThirtyTwoBytes, crate::ln::channelmanager::ChannelManager) { + (self.a, self.b) + } +} +#[no_mangle] +pub extern "C" fn C2Tuple_BlockHashChannelManagerZ_new(a: crate::c_types::ThirtyTwoBytes, b: crate::ln::channelmanager::ChannelManager) -> C2Tuple_BlockHashChannelManagerZ { + C2Tuple_BlockHashChannelManagerZ { a, b, } +} + +#[no_mangle] +pub extern "C" fn C2Tuple_BlockHashChannelManagerZ_free(_res: C2Tuple_BlockHashChannelManagerZ) { } +#[repr(C)] +pub union CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZPtr { + pub result: *mut crate::c_types::derived::C2Tuple_BlockHashChannelManagerZ, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ { + pub contents: CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_ok(o: crate::c_types::derived::C2Tuple_BlockHashChannelManagerZ) -> CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ { + CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ { + contents: CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ { + CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ { + contents: CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_free(_res: CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ) { } +impl Drop for CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +#[repr(C)] +pub union CResult_SpendableOutputDescriptorDecodeErrorZPtr { + pub result: *mut crate::chain::keysinterface::SpendableOutputDescriptor, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_SpendableOutputDescriptorDecodeErrorZ { + pub contents: CResult_SpendableOutputDescriptorDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_SpendableOutputDescriptorDecodeErrorZ_ok(o: crate::chain::keysinterface::SpendableOutputDescriptor) -> CResult_SpendableOutputDescriptorDecodeErrorZ { + CResult_SpendableOutputDescriptorDecodeErrorZ { + contents: CResult_SpendableOutputDescriptorDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_SpendableOutputDescriptorDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_SpendableOutputDescriptorDecodeErrorZ { + CResult_SpendableOutputDescriptorDecodeErrorZ { + contents: CResult_SpendableOutputDescriptorDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_SpendableOutputDescriptorDecodeErrorZ_free(_res: CResult_SpendableOutputDescriptorDecodeErrorZ) { } +impl Drop for CResult_SpendableOutputDescriptorDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_SpendableOutputDescriptorDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_SpendableOutputDescriptorDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_SpendableOutputDescriptorDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_SpendableOutputDescriptorDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_SpendableOutputDescriptorDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_SpendableOutputDescriptorDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_SpendableOutputDescriptorDecodeErrorZ_clone(orig: &CResult_SpendableOutputDescriptorDecodeErrorZ) -> CResult_SpendableOutputDescriptorDecodeErrorZ { orig.clone() } +#[repr(C)] +pub struct C2Tuple_SignatureCVec_SignatureZZ { + pub a: crate::c_types::Signature, + pub b: crate::c_types::derived::CVec_SignatureZ, +} +impl From<(crate::c_types::Signature, crate::c_types::derived::CVec_SignatureZ)> for C2Tuple_SignatureCVec_SignatureZZ { + fn from (tup: (crate::c_types::Signature, crate::c_types::derived::CVec_SignatureZ)) -> Self { + Self { + a: tup.0, + b: tup.1, + } + } +} +impl C2Tuple_SignatureCVec_SignatureZZ { + #[allow(unused)] pub(crate) fn to_rust(mut self) -> (crate::c_types::Signature, crate::c_types::derived::CVec_SignatureZ) { + (self.a, self.b) + } +} +impl Clone for C2Tuple_SignatureCVec_SignatureZZ { + fn clone(&self) -> Self { + Self { + a: self.a.clone(), + b: self.b.clone(), + } + } +} +#[no_mangle] +pub extern "C" fn C2Tuple_SignatureCVec_SignatureZZ_clone(orig: &C2Tuple_SignatureCVec_SignatureZZ) -> C2Tuple_SignatureCVec_SignatureZZ { orig.clone() } +#[no_mangle] +pub extern "C" fn C2Tuple_SignatureCVec_SignatureZZ_new(a: crate::c_types::Signature, b: crate::c_types::derived::CVec_SignatureZ) -> C2Tuple_SignatureCVec_SignatureZZ { + C2Tuple_SignatureCVec_SignatureZZ { a, b, } +} + +#[no_mangle] +pub extern "C" fn C2Tuple_SignatureCVec_SignatureZZ_free(_res: C2Tuple_SignatureCVec_SignatureZZ) { } +#[repr(C)] +pub union CResult_C2Tuple_SignatureCVec_SignatureZZNoneZPtr { + pub result: *mut crate::c_types::derived::C2Tuple_SignatureCVec_SignatureZZ, + /// Note that this value is always NULL, as there are no contents in the Err variant + pub err: *mut std::ffi::c_void, +} +#[repr(C)] +pub struct CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ { + pub contents: CResult_C2Tuple_SignatureCVec_SignatureZZNoneZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_ok(o: crate::c_types::derived::C2Tuple_SignatureCVec_SignatureZZ) -> CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ { + CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ { + contents: CResult_C2Tuple_SignatureCVec_SignatureZZNoneZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_err() -> CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ { + CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ { + contents: CResult_C2Tuple_SignatureCVec_SignatureZZNoneZPtr { + err: std::ptr::null_mut(), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_free(_res: CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ) { } +impl Drop for CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + } + } +} +impl From> for CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_C2Tuple_SignatureCVec_SignatureZZNoneZPtr { result } + } else { + let _ = unsafe { Box::from_raw(o.contents.err) }; + o.contents.err = std::ptr::null_mut(); + CResult_C2Tuple_SignatureCVec_SignatureZZNoneZPtr { err: std::ptr::null_mut() } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_C2Tuple_SignatureCVec_SignatureZZNoneZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_C2Tuple_SignatureCVec_SignatureZZNoneZPtr { + err: std::ptr::null_mut() + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_clone(orig: &CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ) -> CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ { orig.clone() } +#[repr(C)] +pub union CResult_SignatureNoneZPtr { + pub result: *mut crate::c_types::Signature, + /// Note that this value is always NULL, as there are no contents in the Err variant + pub err: *mut std::ffi::c_void, +} +#[repr(C)] +pub struct CResult_SignatureNoneZ { + pub contents: CResult_SignatureNoneZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_SignatureNoneZ_ok(o: crate::c_types::Signature) -> CResult_SignatureNoneZ { + CResult_SignatureNoneZ { + contents: CResult_SignatureNoneZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_SignatureNoneZ_err() -> CResult_SignatureNoneZ { + CResult_SignatureNoneZ { + contents: CResult_SignatureNoneZPtr { + err: std::ptr::null_mut(), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_SignatureNoneZ_free(_res: CResult_SignatureNoneZ) { } +impl Drop for CResult_SignatureNoneZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + } + } +} +impl From> for CResult_SignatureNoneZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_SignatureNoneZPtr { result } + } else { + let _ = unsafe { Box::from_raw(o.contents.err) }; + o.contents.err = std::ptr::null_mut(); + CResult_SignatureNoneZPtr { err: std::ptr::null_mut() } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_SignatureNoneZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_SignatureNoneZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_SignatureNoneZPtr { + err: std::ptr::null_mut() + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_SignatureNoneZ_clone(orig: &CResult_SignatureNoneZ) -> CResult_SignatureNoneZ { orig.clone() } +#[repr(C)] +pub union CResult_SignDecodeErrorZPtr { + pub result: *mut crate::chain::keysinterface::Sign, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_SignDecodeErrorZ { + pub contents: CResult_SignDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_SignDecodeErrorZ_ok(o: crate::chain::keysinterface::Sign) -> CResult_SignDecodeErrorZ { + CResult_SignDecodeErrorZ { + contents: CResult_SignDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_SignDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_SignDecodeErrorZ { + CResult_SignDecodeErrorZ { + contents: CResult_SignDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_SignDecodeErrorZ_free(_res: CResult_SignDecodeErrorZ) { } +impl Drop for CResult_SignDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_SignDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_SignDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_SignDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_SignDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_SignDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_SignDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_SignDecodeErrorZ_clone(orig: &CResult_SignDecodeErrorZ) -> CResult_SignDecodeErrorZ { orig.clone() } +#[repr(C)] +pub struct CVec_CVec_u8ZZ { + pub data: *mut crate::c_types::derived::CVec_u8Z, + pub datalen: usize +} +impl CVec_CVec_u8ZZ { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[crate::c_types::derived::CVec_u8Z] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_CVec_u8ZZ { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_CVec_u8ZZ_free(_res: CVec_CVec_u8ZZ) { } +impl Drop for CVec_CVec_u8ZZ { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +impl Clone for CVec_CVec_u8ZZ { + fn clone(&self) -> Self { + let mut res = Vec::new(); + if self.datalen == 0 { return Self::from(res); } + res.extend_from_slice(unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) }); + Self::from(res) + } +} +#[repr(C)] +pub union CResult_CVec_CVec_u8ZZNoneZPtr { + pub result: *mut crate::c_types::derived::CVec_CVec_u8ZZ, + /// Note that this value is always NULL, as there are no contents in the Err variant + pub err: *mut std::ffi::c_void, +} +#[repr(C)] +pub struct CResult_CVec_CVec_u8ZZNoneZ { + pub contents: CResult_CVec_CVec_u8ZZNoneZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_CVec_CVec_u8ZZNoneZ_ok(o: crate::c_types::derived::CVec_CVec_u8ZZ) -> CResult_CVec_CVec_u8ZZNoneZ { + CResult_CVec_CVec_u8ZZNoneZ { + contents: CResult_CVec_CVec_u8ZZNoneZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_CVec_CVec_u8ZZNoneZ_err() -> CResult_CVec_CVec_u8ZZNoneZ { + CResult_CVec_CVec_u8ZZNoneZ { + contents: CResult_CVec_CVec_u8ZZNoneZPtr { + err: std::ptr::null_mut(), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_CVec_CVec_u8ZZNoneZ_free(_res: CResult_CVec_CVec_u8ZZNoneZ) { } +impl Drop for CResult_CVec_CVec_u8ZZNoneZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + } + } +} +impl From> for CResult_CVec_CVec_u8ZZNoneZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_CVec_CVec_u8ZZNoneZPtr { result } + } else { + let _ = unsafe { Box::from_raw(o.contents.err) }; + o.contents.err = std::ptr::null_mut(); + CResult_CVec_CVec_u8ZZNoneZPtr { err: std::ptr::null_mut() } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_CVec_CVec_u8ZZNoneZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_CVec_CVec_u8ZZNoneZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_CVec_CVec_u8ZZNoneZPtr { + err: std::ptr::null_mut() + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_CVec_CVec_u8ZZNoneZ_clone(orig: &CResult_CVec_CVec_u8ZZNoneZ) -> CResult_CVec_CVec_u8ZZNoneZ { orig.clone() } +#[repr(C)] +pub union CResult_InMemorySignerDecodeErrorZPtr { + pub result: *mut crate::chain::keysinterface::InMemorySigner, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_InMemorySignerDecodeErrorZ { + pub contents: CResult_InMemorySignerDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_InMemorySignerDecodeErrorZ_ok(o: crate::chain::keysinterface::InMemorySigner) -> CResult_InMemorySignerDecodeErrorZ { + CResult_InMemorySignerDecodeErrorZ { + contents: CResult_InMemorySignerDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_InMemorySignerDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_InMemorySignerDecodeErrorZ { + CResult_InMemorySignerDecodeErrorZ { + contents: CResult_InMemorySignerDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_InMemorySignerDecodeErrorZ_free(_res: CResult_InMemorySignerDecodeErrorZ) { } +impl Drop for CResult_InMemorySignerDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_InMemorySignerDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_InMemorySignerDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_InMemorySignerDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_InMemorySignerDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_InMemorySignerDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_InMemorySignerDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_InMemorySignerDecodeErrorZ_clone(orig: &CResult_InMemorySignerDecodeErrorZ) -> CResult_InMemorySignerDecodeErrorZ { orig.clone() } +#[repr(C)] +pub struct CVec_TxOutZ { + pub data: *mut crate::c_types::TxOut, + pub datalen: usize +} +impl CVec_TxOutZ { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[crate::c_types::TxOut] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_TxOutZ { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_TxOutZ_free(_res: CVec_TxOutZ) { } +impl Drop for CVec_TxOutZ { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +impl Clone for CVec_TxOutZ { + fn clone(&self) -> Self { + let mut res = Vec::new(); + if self.datalen == 0 { return Self::from(res); } + res.extend_from_slice(unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) }); + Self::from(res) + } +} +#[repr(C)] +pub union CResult_TransactionNoneZPtr { + pub result: *mut crate::c_types::Transaction, + /// Note that this value is always NULL, as there are no contents in the Err variant + pub err: *mut std::ffi::c_void, +} +#[repr(C)] +pub struct CResult_TransactionNoneZ { + pub contents: CResult_TransactionNoneZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_TransactionNoneZ_ok(o: crate::c_types::Transaction) -> CResult_TransactionNoneZ { + CResult_TransactionNoneZ { + contents: CResult_TransactionNoneZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_TransactionNoneZ_err() -> CResult_TransactionNoneZ { + CResult_TransactionNoneZ { + contents: CResult_TransactionNoneZPtr { + err: std::ptr::null_mut(), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_TransactionNoneZ_free(_res: CResult_TransactionNoneZ) { } +impl Drop for CResult_TransactionNoneZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + } + } +} +impl From> for CResult_TransactionNoneZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_TransactionNoneZPtr { result } + } else { + let _ = unsafe { Box::from_raw(o.contents.err) }; + o.contents.err = std::ptr::null_mut(); + CResult_TransactionNoneZPtr { err: std::ptr::null_mut() } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +#[repr(C)] +pub struct CVec_RouteHopZ { + pub data: *mut crate::routing::router::RouteHop, + pub datalen: usize +} +impl CVec_RouteHopZ { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[crate::routing::router::RouteHop] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_RouteHopZ { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_RouteHopZ_free(_res: CVec_RouteHopZ) { } +impl Drop for CVec_RouteHopZ { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +impl Clone for CVec_RouteHopZ { + fn clone(&self) -> Self { + let mut res = Vec::new(); + if self.datalen == 0 { return Self::from(res); } + res.extend_from_slice(unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) }); + Self::from(res) + } +} +#[repr(C)] +pub struct CVec_CVec_RouteHopZZ { + pub data: *mut crate::c_types::derived::CVec_RouteHopZ, + pub datalen: usize +} +impl CVec_CVec_RouteHopZZ { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[crate::c_types::derived::CVec_RouteHopZ] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_CVec_RouteHopZZ { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_CVec_RouteHopZZ_free(_res: CVec_CVec_RouteHopZZ) { } +impl Drop for CVec_CVec_RouteHopZZ { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +impl Clone for CVec_CVec_RouteHopZZ { + fn clone(&self) -> Self { + let mut res = Vec::new(); + if self.datalen == 0 { return Self::from(res); } + res.extend_from_slice(unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) }); + Self::from(res) + } +} +#[repr(C)] +pub union CResult_RouteDecodeErrorZPtr { + pub result: *mut crate::routing::router::Route, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_RouteDecodeErrorZ { + pub contents: CResult_RouteDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_RouteDecodeErrorZ_ok(o: crate::routing::router::Route) -> CResult_RouteDecodeErrorZ { + CResult_RouteDecodeErrorZ { + contents: CResult_RouteDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_RouteDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_RouteDecodeErrorZ { + CResult_RouteDecodeErrorZ { + contents: CResult_RouteDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_RouteDecodeErrorZ_free(_res: CResult_RouteDecodeErrorZ) { } +impl Drop for CResult_RouteDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_RouteDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_RouteDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_RouteDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_RouteDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_RouteDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_RouteDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_RouteDecodeErrorZ_clone(orig: &CResult_RouteDecodeErrorZ) -> CResult_RouteDecodeErrorZ { orig.clone() } +#[repr(C)] +pub struct CVec_RouteHintZ { + pub data: *mut crate::routing::router::RouteHint, + pub datalen: usize +} +impl CVec_RouteHintZ { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[crate::routing::router::RouteHint] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_RouteHintZ { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_RouteHintZ_free(_res: CVec_RouteHintZ) { } +impl Drop for CVec_RouteHintZ { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +impl Clone for CVec_RouteHintZ { + fn clone(&self) -> Self { + let mut res = Vec::new(); + if self.datalen == 0 { return Self::from(res); } + res.extend_from_slice(unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) }); + Self::from(res) + } +} +#[repr(C)] +pub union CResult_RouteLightningErrorZPtr { + pub result: *mut crate::routing::router::Route, + pub err: *mut crate::ln::msgs::LightningError, +} +#[repr(C)] +pub struct CResult_RouteLightningErrorZ { + pub contents: CResult_RouteLightningErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_RouteLightningErrorZ_ok(o: crate::routing::router::Route) -> CResult_RouteLightningErrorZ { + CResult_RouteLightningErrorZ { + contents: CResult_RouteLightningErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_RouteLightningErrorZ_err(e: crate::ln::msgs::LightningError) -> CResult_RouteLightningErrorZ { + CResult_RouteLightningErrorZ { + contents: CResult_RouteLightningErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_RouteLightningErrorZ_free(_res: CResult_RouteLightningErrorZ) { } +impl Drop for CResult_RouteLightningErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_RouteLightningErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_RouteLightningErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_RouteLightningErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_RouteLightningErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_RouteLightningErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_RouteLightningErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_RouteLightningErrorZ_clone(orig: &CResult_RouteLightningErrorZ) -> CResult_RouteLightningErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_NetAddressu8ZPtr { + pub result: *mut crate::ln::msgs::NetAddress, + pub err: *mut u8, +} +#[repr(C)] +pub struct CResult_NetAddressu8Z { + pub contents: CResult_NetAddressu8ZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_NetAddressu8Z_ok(o: crate::ln::msgs::NetAddress) -> CResult_NetAddressu8Z { + CResult_NetAddressu8Z { + contents: CResult_NetAddressu8ZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_NetAddressu8Z_err(e: u8) -> CResult_NetAddressu8Z { + CResult_NetAddressu8Z { + contents: CResult_NetAddressu8ZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_NetAddressu8Z_free(_res: CResult_NetAddressu8Z) { } +impl Drop for CResult_NetAddressu8Z { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_NetAddressu8Z { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_NetAddressu8ZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_NetAddressu8ZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_NetAddressu8Z { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_NetAddressu8ZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_NetAddressu8ZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_NetAddressu8Z_clone(orig: &CResult_NetAddressu8Z) -> CResult_NetAddressu8Z { orig.clone() } +#[repr(C)] +pub union CResult_CResult_NetAddressu8ZDecodeErrorZPtr { + pub result: *mut crate::c_types::derived::CResult_NetAddressu8Z, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_CResult_NetAddressu8ZDecodeErrorZ { + pub contents: CResult_CResult_NetAddressu8ZDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_CResult_NetAddressu8ZDecodeErrorZ_ok(o: crate::c_types::derived::CResult_NetAddressu8Z) -> CResult_CResult_NetAddressu8ZDecodeErrorZ { + CResult_CResult_NetAddressu8ZDecodeErrorZ { + contents: CResult_CResult_NetAddressu8ZDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_CResult_NetAddressu8ZDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_CResult_NetAddressu8ZDecodeErrorZ { + CResult_CResult_NetAddressu8ZDecodeErrorZ { + contents: CResult_CResult_NetAddressu8ZDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_CResult_NetAddressu8ZDecodeErrorZ_free(_res: CResult_CResult_NetAddressu8ZDecodeErrorZ) { } +impl Drop for CResult_CResult_NetAddressu8ZDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_CResult_NetAddressu8ZDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_CResult_NetAddressu8ZDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_CResult_NetAddressu8ZDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_CResult_NetAddressu8ZDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_CResult_NetAddressu8ZDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_CResult_NetAddressu8ZDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_CResult_NetAddressu8ZDecodeErrorZ_clone(orig: &CResult_CResult_NetAddressu8ZDecodeErrorZ) -> CResult_CResult_NetAddressu8ZDecodeErrorZ { orig.clone() } +#[repr(C)] +pub struct CVec_UpdateAddHTLCZ { + pub data: *mut crate::ln::msgs::UpdateAddHTLC, + pub datalen: usize +} +impl CVec_UpdateAddHTLCZ { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[crate::ln::msgs::UpdateAddHTLC] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_UpdateAddHTLCZ { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_UpdateAddHTLCZ_free(_res: CVec_UpdateAddHTLCZ) { } +impl Drop for CVec_UpdateAddHTLCZ { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +impl Clone for CVec_UpdateAddHTLCZ { + fn clone(&self) -> Self { + let mut res = Vec::new(); + if self.datalen == 0 { return Self::from(res); } + res.extend_from_slice(unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) }); + Self::from(res) + } +} +#[repr(C)] +pub struct CVec_UpdateFulfillHTLCZ { + pub data: *mut crate::ln::msgs::UpdateFulfillHTLC, + pub datalen: usize +} +impl CVec_UpdateFulfillHTLCZ { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[crate::ln::msgs::UpdateFulfillHTLC] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_UpdateFulfillHTLCZ { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_UpdateFulfillHTLCZ_free(_res: CVec_UpdateFulfillHTLCZ) { } +impl Drop for CVec_UpdateFulfillHTLCZ { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +impl Clone for CVec_UpdateFulfillHTLCZ { + fn clone(&self) -> Self { + let mut res = Vec::new(); + if self.datalen == 0 { return Self::from(res); } + res.extend_from_slice(unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) }); + Self::from(res) + } +} +#[repr(C)] +pub struct CVec_UpdateFailHTLCZ { + pub data: *mut crate::ln::msgs::UpdateFailHTLC, + pub datalen: usize +} +impl CVec_UpdateFailHTLCZ { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[crate::ln::msgs::UpdateFailHTLC] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_UpdateFailHTLCZ { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_UpdateFailHTLCZ_free(_res: CVec_UpdateFailHTLCZ) { } +impl Drop for CVec_UpdateFailHTLCZ { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +impl Clone for CVec_UpdateFailHTLCZ { + fn clone(&self) -> Self { + let mut res = Vec::new(); + if self.datalen == 0 { return Self::from(res); } + res.extend_from_slice(unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) }); + Self::from(res) + } +} +#[repr(C)] +pub struct CVec_UpdateFailMalformedHTLCZ { + pub data: *mut crate::ln::msgs::UpdateFailMalformedHTLC, + pub datalen: usize +} +impl CVec_UpdateFailMalformedHTLCZ { + #[allow(unused)] pub(crate) fn into_rust(&mut self) -> Vec { + if self.datalen == 0 { return Vec::new(); } + let ret = unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }.into(); + self.data = std::ptr::null_mut(); + self.datalen = 0; + ret + } + #[allow(unused)] pub(crate) fn as_slice(&self) -> &[crate::ln::msgs::UpdateFailMalformedHTLC] { + unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) } + } +} +impl From> for CVec_UpdateFailMalformedHTLCZ { + fn from(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { datalen, data: unsafe { (*data).as_mut_ptr() } } + } +} +#[no_mangle] +pub extern "C" fn CVec_UpdateFailMalformedHTLCZ_free(_res: CVec_UpdateFailMalformedHTLCZ) { } +impl Drop for CVec_UpdateFailMalformedHTLCZ { + fn drop(&mut self) { + if self.datalen == 0 { return; } + unsafe { Box::from_raw(std::slice::from_raw_parts_mut(self.data, self.datalen)) }; + } +} +impl Clone for CVec_UpdateFailMalformedHTLCZ { + fn clone(&self) -> Self { + let mut res = Vec::new(); + if self.datalen == 0 { return Self::from(res); } + res.extend_from_slice(unsafe { std::slice::from_raw_parts_mut(self.data, self.datalen) }); + Self::from(res) + } +} +#[repr(C)] +pub union CResult_AcceptChannelDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::AcceptChannel, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_AcceptChannelDecodeErrorZ { + pub contents: CResult_AcceptChannelDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_AcceptChannelDecodeErrorZ_ok(o: crate::ln::msgs::AcceptChannel) -> CResult_AcceptChannelDecodeErrorZ { + CResult_AcceptChannelDecodeErrorZ { + contents: CResult_AcceptChannelDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_AcceptChannelDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_AcceptChannelDecodeErrorZ { + CResult_AcceptChannelDecodeErrorZ { + contents: CResult_AcceptChannelDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_AcceptChannelDecodeErrorZ_free(_res: CResult_AcceptChannelDecodeErrorZ) { } +impl Drop for CResult_AcceptChannelDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_AcceptChannelDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_AcceptChannelDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_AcceptChannelDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_AcceptChannelDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_AcceptChannelDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_AcceptChannelDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_AcceptChannelDecodeErrorZ_clone(orig: &CResult_AcceptChannelDecodeErrorZ) -> CResult_AcceptChannelDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_AnnouncementSignaturesDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::AnnouncementSignatures, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_AnnouncementSignaturesDecodeErrorZ { + pub contents: CResult_AnnouncementSignaturesDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_AnnouncementSignaturesDecodeErrorZ_ok(o: crate::ln::msgs::AnnouncementSignatures) -> CResult_AnnouncementSignaturesDecodeErrorZ { + CResult_AnnouncementSignaturesDecodeErrorZ { + contents: CResult_AnnouncementSignaturesDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_AnnouncementSignaturesDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_AnnouncementSignaturesDecodeErrorZ { + CResult_AnnouncementSignaturesDecodeErrorZ { + contents: CResult_AnnouncementSignaturesDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_AnnouncementSignaturesDecodeErrorZ_free(_res: CResult_AnnouncementSignaturesDecodeErrorZ) { } +impl Drop for CResult_AnnouncementSignaturesDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_AnnouncementSignaturesDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_AnnouncementSignaturesDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_AnnouncementSignaturesDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_AnnouncementSignaturesDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_AnnouncementSignaturesDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_AnnouncementSignaturesDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_AnnouncementSignaturesDecodeErrorZ_clone(orig: &CResult_AnnouncementSignaturesDecodeErrorZ) -> CResult_AnnouncementSignaturesDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_ChannelReestablishDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::ChannelReestablish, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_ChannelReestablishDecodeErrorZ { + pub contents: CResult_ChannelReestablishDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_ChannelReestablishDecodeErrorZ_ok(o: crate::ln::msgs::ChannelReestablish) -> CResult_ChannelReestablishDecodeErrorZ { + CResult_ChannelReestablishDecodeErrorZ { + contents: CResult_ChannelReestablishDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_ChannelReestablishDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_ChannelReestablishDecodeErrorZ { + CResult_ChannelReestablishDecodeErrorZ { + contents: CResult_ChannelReestablishDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_ChannelReestablishDecodeErrorZ_free(_res: CResult_ChannelReestablishDecodeErrorZ) { } +impl Drop for CResult_ChannelReestablishDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_ChannelReestablishDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_ChannelReestablishDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_ChannelReestablishDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_ChannelReestablishDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_ChannelReestablishDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_ChannelReestablishDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_ChannelReestablishDecodeErrorZ_clone(orig: &CResult_ChannelReestablishDecodeErrorZ) -> CResult_ChannelReestablishDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_ClosingSignedDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::ClosingSigned, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_ClosingSignedDecodeErrorZ { + pub contents: CResult_ClosingSignedDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_ClosingSignedDecodeErrorZ_ok(o: crate::ln::msgs::ClosingSigned) -> CResult_ClosingSignedDecodeErrorZ { + CResult_ClosingSignedDecodeErrorZ { + contents: CResult_ClosingSignedDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_ClosingSignedDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_ClosingSignedDecodeErrorZ { + CResult_ClosingSignedDecodeErrorZ { + contents: CResult_ClosingSignedDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_ClosingSignedDecodeErrorZ_free(_res: CResult_ClosingSignedDecodeErrorZ) { } +impl Drop for CResult_ClosingSignedDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_ClosingSignedDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_ClosingSignedDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_ClosingSignedDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_ClosingSignedDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_ClosingSignedDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_ClosingSignedDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_ClosingSignedDecodeErrorZ_clone(orig: &CResult_ClosingSignedDecodeErrorZ) -> CResult_ClosingSignedDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_CommitmentSignedDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::CommitmentSigned, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_CommitmentSignedDecodeErrorZ { + pub contents: CResult_CommitmentSignedDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_CommitmentSignedDecodeErrorZ_ok(o: crate::ln::msgs::CommitmentSigned) -> CResult_CommitmentSignedDecodeErrorZ { + CResult_CommitmentSignedDecodeErrorZ { + contents: CResult_CommitmentSignedDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_CommitmentSignedDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_CommitmentSignedDecodeErrorZ { + CResult_CommitmentSignedDecodeErrorZ { + contents: CResult_CommitmentSignedDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_CommitmentSignedDecodeErrorZ_free(_res: CResult_CommitmentSignedDecodeErrorZ) { } +impl Drop for CResult_CommitmentSignedDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_CommitmentSignedDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_CommitmentSignedDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_CommitmentSignedDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_CommitmentSignedDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_CommitmentSignedDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_CommitmentSignedDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_CommitmentSignedDecodeErrorZ_clone(orig: &CResult_CommitmentSignedDecodeErrorZ) -> CResult_CommitmentSignedDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_FundingCreatedDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::FundingCreated, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_FundingCreatedDecodeErrorZ { + pub contents: CResult_FundingCreatedDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_FundingCreatedDecodeErrorZ_ok(o: crate::ln::msgs::FundingCreated) -> CResult_FundingCreatedDecodeErrorZ { + CResult_FundingCreatedDecodeErrorZ { + contents: CResult_FundingCreatedDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_FundingCreatedDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_FundingCreatedDecodeErrorZ { + CResult_FundingCreatedDecodeErrorZ { + contents: CResult_FundingCreatedDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_FundingCreatedDecodeErrorZ_free(_res: CResult_FundingCreatedDecodeErrorZ) { } +impl Drop for CResult_FundingCreatedDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_FundingCreatedDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_FundingCreatedDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_FundingCreatedDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_FundingCreatedDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_FundingCreatedDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_FundingCreatedDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_FundingCreatedDecodeErrorZ_clone(orig: &CResult_FundingCreatedDecodeErrorZ) -> CResult_FundingCreatedDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_FundingSignedDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::FundingSigned, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_FundingSignedDecodeErrorZ { + pub contents: CResult_FundingSignedDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_FundingSignedDecodeErrorZ_ok(o: crate::ln::msgs::FundingSigned) -> CResult_FundingSignedDecodeErrorZ { + CResult_FundingSignedDecodeErrorZ { + contents: CResult_FundingSignedDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_FundingSignedDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_FundingSignedDecodeErrorZ { + CResult_FundingSignedDecodeErrorZ { + contents: CResult_FundingSignedDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_FundingSignedDecodeErrorZ_free(_res: CResult_FundingSignedDecodeErrorZ) { } +impl Drop for CResult_FundingSignedDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_FundingSignedDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_FundingSignedDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_FundingSignedDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_FundingSignedDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_FundingSignedDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_FundingSignedDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_FundingSignedDecodeErrorZ_clone(orig: &CResult_FundingSignedDecodeErrorZ) -> CResult_FundingSignedDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_FundingLockedDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::FundingLocked, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_FundingLockedDecodeErrorZ { + pub contents: CResult_FundingLockedDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_FundingLockedDecodeErrorZ_ok(o: crate::ln::msgs::FundingLocked) -> CResult_FundingLockedDecodeErrorZ { + CResult_FundingLockedDecodeErrorZ { + contents: CResult_FundingLockedDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_FundingLockedDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_FundingLockedDecodeErrorZ { + CResult_FundingLockedDecodeErrorZ { + contents: CResult_FundingLockedDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_FundingLockedDecodeErrorZ_free(_res: CResult_FundingLockedDecodeErrorZ) { } +impl Drop for CResult_FundingLockedDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_FundingLockedDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_FundingLockedDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_FundingLockedDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_FundingLockedDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_FundingLockedDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_FundingLockedDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_FundingLockedDecodeErrorZ_clone(orig: &CResult_FundingLockedDecodeErrorZ) -> CResult_FundingLockedDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_InitDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::Init, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_InitDecodeErrorZ { + pub contents: CResult_InitDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_InitDecodeErrorZ_ok(o: crate::ln::msgs::Init) -> CResult_InitDecodeErrorZ { + CResult_InitDecodeErrorZ { + contents: CResult_InitDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_InitDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_InitDecodeErrorZ { + CResult_InitDecodeErrorZ { + contents: CResult_InitDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_InitDecodeErrorZ_free(_res: CResult_InitDecodeErrorZ) { } +impl Drop for CResult_InitDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_InitDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_InitDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_InitDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_InitDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_InitDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_InitDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_InitDecodeErrorZ_clone(orig: &CResult_InitDecodeErrorZ) -> CResult_InitDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_OpenChannelDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::OpenChannel, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_OpenChannelDecodeErrorZ { + pub contents: CResult_OpenChannelDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_OpenChannelDecodeErrorZ_ok(o: crate::ln::msgs::OpenChannel) -> CResult_OpenChannelDecodeErrorZ { + CResult_OpenChannelDecodeErrorZ { + contents: CResult_OpenChannelDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_OpenChannelDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_OpenChannelDecodeErrorZ { + CResult_OpenChannelDecodeErrorZ { + contents: CResult_OpenChannelDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_OpenChannelDecodeErrorZ_free(_res: CResult_OpenChannelDecodeErrorZ) { } +impl Drop for CResult_OpenChannelDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_OpenChannelDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_OpenChannelDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_OpenChannelDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_OpenChannelDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_OpenChannelDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_OpenChannelDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_OpenChannelDecodeErrorZ_clone(orig: &CResult_OpenChannelDecodeErrorZ) -> CResult_OpenChannelDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_RevokeAndACKDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::RevokeAndACK, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_RevokeAndACKDecodeErrorZ { + pub contents: CResult_RevokeAndACKDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_RevokeAndACKDecodeErrorZ_ok(o: crate::ln::msgs::RevokeAndACK) -> CResult_RevokeAndACKDecodeErrorZ { + CResult_RevokeAndACKDecodeErrorZ { + contents: CResult_RevokeAndACKDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_RevokeAndACKDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_RevokeAndACKDecodeErrorZ { + CResult_RevokeAndACKDecodeErrorZ { + contents: CResult_RevokeAndACKDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_RevokeAndACKDecodeErrorZ_free(_res: CResult_RevokeAndACKDecodeErrorZ) { } +impl Drop for CResult_RevokeAndACKDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_RevokeAndACKDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_RevokeAndACKDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_RevokeAndACKDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_RevokeAndACKDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_RevokeAndACKDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_RevokeAndACKDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_RevokeAndACKDecodeErrorZ_clone(orig: &CResult_RevokeAndACKDecodeErrorZ) -> CResult_RevokeAndACKDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_ShutdownDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::Shutdown, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_ShutdownDecodeErrorZ { + pub contents: CResult_ShutdownDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_ShutdownDecodeErrorZ_ok(o: crate::ln::msgs::Shutdown) -> CResult_ShutdownDecodeErrorZ { + CResult_ShutdownDecodeErrorZ { + contents: CResult_ShutdownDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_ShutdownDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_ShutdownDecodeErrorZ { + CResult_ShutdownDecodeErrorZ { + contents: CResult_ShutdownDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_ShutdownDecodeErrorZ_free(_res: CResult_ShutdownDecodeErrorZ) { } +impl Drop for CResult_ShutdownDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_ShutdownDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_ShutdownDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_ShutdownDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_ShutdownDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_ShutdownDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_ShutdownDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_ShutdownDecodeErrorZ_clone(orig: &CResult_ShutdownDecodeErrorZ) -> CResult_ShutdownDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_UpdateFailHTLCDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::UpdateFailHTLC, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_UpdateFailHTLCDecodeErrorZ { + pub contents: CResult_UpdateFailHTLCDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_UpdateFailHTLCDecodeErrorZ_ok(o: crate::ln::msgs::UpdateFailHTLC) -> CResult_UpdateFailHTLCDecodeErrorZ { + CResult_UpdateFailHTLCDecodeErrorZ { + contents: CResult_UpdateFailHTLCDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_UpdateFailHTLCDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_UpdateFailHTLCDecodeErrorZ { + CResult_UpdateFailHTLCDecodeErrorZ { + contents: CResult_UpdateFailHTLCDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_UpdateFailHTLCDecodeErrorZ_free(_res: CResult_UpdateFailHTLCDecodeErrorZ) { } +impl Drop for CResult_UpdateFailHTLCDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_UpdateFailHTLCDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_UpdateFailHTLCDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_UpdateFailHTLCDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_UpdateFailHTLCDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_UpdateFailHTLCDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_UpdateFailHTLCDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_UpdateFailHTLCDecodeErrorZ_clone(orig: &CResult_UpdateFailHTLCDecodeErrorZ) -> CResult_UpdateFailHTLCDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_UpdateFailMalformedHTLCDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::UpdateFailMalformedHTLC, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_UpdateFailMalformedHTLCDecodeErrorZ { + pub contents: CResult_UpdateFailMalformedHTLCDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_UpdateFailMalformedHTLCDecodeErrorZ_ok(o: crate::ln::msgs::UpdateFailMalformedHTLC) -> CResult_UpdateFailMalformedHTLCDecodeErrorZ { + CResult_UpdateFailMalformedHTLCDecodeErrorZ { + contents: CResult_UpdateFailMalformedHTLCDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_UpdateFailMalformedHTLCDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_UpdateFailMalformedHTLCDecodeErrorZ { + CResult_UpdateFailMalformedHTLCDecodeErrorZ { + contents: CResult_UpdateFailMalformedHTLCDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_UpdateFailMalformedHTLCDecodeErrorZ_free(_res: CResult_UpdateFailMalformedHTLCDecodeErrorZ) { } +impl Drop for CResult_UpdateFailMalformedHTLCDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_UpdateFailMalformedHTLCDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_UpdateFailMalformedHTLCDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_UpdateFailMalformedHTLCDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_UpdateFailMalformedHTLCDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_UpdateFailMalformedHTLCDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_UpdateFailMalformedHTLCDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_UpdateFailMalformedHTLCDecodeErrorZ_clone(orig: &CResult_UpdateFailMalformedHTLCDecodeErrorZ) -> CResult_UpdateFailMalformedHTLCDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_UpdateFeeDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::UpdateFee, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_UpdateFeeDecodeErrorZ { + pub contents: CResult_UpdateFeeDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_UpdateFeeDecodeErrorZ_ok(o: crate::ln::msgs::UpdateFee) -> CResult_UpdateFeeDecodeErrorZ { + CResult_UpdateFeeDecodeErrorZ { + contents: CResult_UpdateFeeDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_UpdateFeeDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_UpdateFeeDecodeErrorZ { + CResult_UpdateFeeDecodeErrorZ { + contents: CResult_UpdateFeeDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_UpdateFeeDecodeErrorZ_free(_res: CResult_UpdateFeeDecodeErrorZ) { } +impl Drop for CResult_UpdateFeeDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_UpdateFeeDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_UpdateFeeDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_UpdateFeeDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_UpdateFeeDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_UpdateFeeDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_UpdateFeeDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_UpdateFeeDecodeErrorZ_clone(orig: &CResult_UpdateFeeDecodeErrorZ) -> CResult_UpdateFeeDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_UpdateFulfillHTLCDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::UpdateFulfillHTLC, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_UpdateFulfillHTLCDecodeErrorZ { + pub contents: CResult_UpdateFulfillHTLCDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_UpdateFulfillHTLCDecodeErrorZ_ok(o: crate::ln::msgs::UpdateFulfillHTLC) -> CResult_UpdateFulfillHTLCDecodeErrorZ { + CResult_UpdateFulfillHTLCDecodeErrorZ { + contents: CResult_UpdateFulfillHTLCDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_UpdateFulfillHTLCDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_UpdateFulfillHTLCDecodeErrorZ { + CResult_UpdateFulfillHTLCDecodeErrorZ { + contents: CResult_UpdateFulfillHTLCDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_UpdateFulfillHTLCDecodeErrorZ_free(_res: CResult_UpdateFulfillHTLCDecodeErrorZ) { } +impl Drop for CResult_UpdateFulfillHTLCDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_UpdateFulfillHTLCDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_UpdateFulfillHTLCDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_UpdateFulfillHTLCDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_UpdateFulfillHTLCDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_UpdateFulfillHTLCDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_UpdateFulfillHTLCDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_UpdateFulfillHTLCDecodeErrorZ_clone(orig: &CResult_UpdateFulfillHTLCDecodeErrorZ) -> CResult_UpdateFulfillHTLCDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_UpdateAddHTLCDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::UpdateAddHTLC, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_UpdateAddHTLCDecodeErrorZ { + pub contents: CResult_UpdateAddHTLCDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_UpdateAddHTLCDecodeErrorZ_ok(o: crate::ln::msgs::UpdateAddHTLC) -> CResult_UpdateAddHTLCDecodeErrorZ { + CResult_UpdateAddHTLCDecodeErrorZ { + contents: CResult_UpdateAddHTLCDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_UpdateAddHTLCDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_UpdateAddHTLCDecodeErrorZ { + CResult_UpdateAddHTLCDecodeErrorZ { + contents: CResult_UpdateAddHTLCDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_UpdateAddHTLCDecodeErrorZ_free(_res: CResult_UpdateAddHTLCDecodeErrorZ) { } +impl Drop for CResult_UpdateAddHTLCDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_UpdateAddHTLCDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_UpdateAddHTLCDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_UpdateAddHTLCDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_UpdateAddHTLCDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_UpdateAddHTLCDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_UpdateAddHTLCDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_UpdateAddHTLCDecodeErrorZ_clone(orig: &CResult_UpdateAddHTLCDecodeErrorZ) -> CResult_UpdateAddHTLCDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_PingDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::Ping, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_PingDecodeErrorZ { + pub contents: CResult_PingDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_PingDecodeErrorZ_ok(o: crate::ln::msgs::Ping) -> CResult_PingDecodeErrorZ { + CResult_PingDecodeErrorZ { + contents: CResult_PingDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_PingDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_PingDecodeErrorZ { + CResult_PingDecodeErrorZ { + contents: CResult_PingDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_PingDecodeErrorZ_free(_res: CResult_PingDecodeErrorZ) { } +impl Drop for CResult_PingDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_PingDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_PingDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_PingDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_PingDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_PingDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_PingDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_PingDecodeErrorZ_clone(orig: &CResult_PingDecodeErrorZ) -> CResult_PingDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_PongDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::Pong, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_PongDecodeErrorZ { + pub contents: CResult_PongDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_PongDecodeErrorZ_ok(o: crate::ln::msgs::Pong) -> CResult_PongDecodeErrorZ { + CResult_PongDecodeErrorZ { + contents: CResult_PongDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_PongDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_PongDecodeErrorZ { + CResult_PongDecodeErrorZ { + contents: CResult_PongDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_PongDecodeErrorZ_free(_res: CResult_PongDecodeErrorZ) { } +impl Drop for CResult_PongDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_PongDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_PongDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_PongDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_PongDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_PongDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_PongDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_PongDecodeErrorZ_clone(orig: &CResult_PongDecodeErrorZ) -> CResult_PongDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_UnsignedChannelAnnouncementDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::UnsignedChannelAnnouncement, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_UnsignedChannelAnnouncementDecodeErrorZ { + pub contents: CResult_UnsignedChannelAnnouncementDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_UnsignedChannelAnnouncementDecodeErrorZ_ok(o: crate::ln::msgs::UnsignedChannelAnnouncement) -> CResult_UnsignedChannelAnnouncementDecodeErrorZ { + CResult_UnsignedChannelAnnouncementDecodeErrorZ { + contents: CResult_UnsignedChannelAnnouncementDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_UnsignedChannelAnnouncementDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_UnsignedChannelAnnouncementDecodeErrorZ { + CResult_UnsignedChannelAnnouncementDecodeErrorZ { + contents: CResult_UnsignedChannelAnnouncementDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_UnsignedChannelAnnouncementDecodeErrorZ_free(_res: CResult_UnsignedChannelAnnouncementDecodeErrorZ) { } +impl Drop for CResult_UnsignedChannelAnnouncementDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_UnsignedChannelAnnouncementDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_UnsignedChannelAnnouncementDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_UnsignedChannelAnnouncementDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_UnsignedChannelAnnouncementDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_UnsignedChannelAnnouncementDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_UnsignedChannelAnnouncementDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_UnsignedChannelAnnouncementDecodeErrorZ_clone(orig: &CResult_UnsignedChannelAnnouncementDecodeErrorZ) -> CResult_UnsignedChannelAnnouncementDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_ChannelAnnouncementDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::ChannelAnnouncement, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_ChannelAnnouncementDecodeErrorZ { + pub contents: CResult_ChannelAnnouncementDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_ChannelAnnouncementDecodeErrorZ_ok(o: crate::ln::msgs::ChannelAnnouncement) -> CResult_ChannelAnnouncementDecodeErrorZ { + CResult_ChannelAnnouncementDecodeErrorZ { + contents: CResult_ChannelAnnouncementDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_ChannelAnnouncementDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_ChannelAnnouncementDecodeErrorZ { + CResult_ChannelAnnouncementDecodeErrorZ { + contents: CResult_ChannelAnnouncementDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_ChannelAnnouncementDecodeErrorZ_free(_res: CResult_ChannelAnnouncementDecodeErrorZ) { } +impl Drop for CResult_ChannelAnnouncementDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_ChannelAnnouncementDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_ChannelAnnouncementDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_ChannelAnnouncementDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_ChannelAnnouncementDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_ChannelAnnouncementDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_ChannelAnnouncementDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_ChannelAnnouncementDecodeErrorZ_clone(orig: &CResult_ChannelAnnouncementDecodeErrorZ) -> CResult_ChannelAnnouncementDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_UnsignedChannelUpdateDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::UnsignedChannelUpdate, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_UnsignedChannelUpdateDecodeErrorZ { + pub contents: CResult_UnsignedChannelUpdateDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_UnsignedChannelUpdateDecodeErrorZ_ok(o: crate::ln::msgs::UnsignedChannelUpdate) -> CResult_UnsignedChannelUpdateDecodeErrorZ { + CResult_UnsignedChannelUpdateDecodeErrorZ { + contents: CResult_UnsignedChannelUpdateDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_UnsignedChannelUpdateDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_UnsignedChannelUpdateDecodeErrorZ { + CResult_UnsignedChannelUpdateDecodeErrorZ { + contents: CResult_UnsignedChannelUpdateDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_UnsignedChannelUpdateDecodeErrorZ_free(_res: CResult_UnsignedChannelUpdateDecodeErrorZ) { } +impl Drop for CResult_UnsignedChannelUpdateDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_UnsignedChannelUpdateDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_UnsignedChannelUpdateDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_UnsignedChannelUpdateDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_UnsignedChannelUpdateDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_UnsignedChannelUpdateDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_UnsignedChannelUpdateDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_UnsignedChannelUpdateDecodeErrorZ_clone(orig: &CResult_UnsignedChannelUpdateDecodeErrorZ) -> CResult_UnsignedChannelUpdateDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_ChannelUpdateDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::ChannelUpdate, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_ChannelUpdateDecodeErrorZ { + pub contents: CResult_ChannelUpdateDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_ChannelUpdateDecodeErrorZ_ok(o: crate::ln::msgs::ChannelUpdate) -> CResult_ChannelUpdateDecodeErrorZ { + CResult_ChannelUpdateDecodeErrorZ { + contents: CResult_ChannelUpdateDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_ChannelUpdateDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_ChannelUpdateDecodeErrorZ { + CResult_ChannelUpdateDecodeErrorZ { + contents: CResult_ChannelUpdateDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_ChannelUpdateDecodeErrorZ_free(_res: CResult_ChannelUpdateDecodeErrorZ) { } +impl Drop for CResult_ChannelUpdateDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_ChannelUpdateDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_ChannelUpdateDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_ChannelUpdateDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_ChannelUpdateDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_ChannelUpdateDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_ChannelUpdateDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_ChannelUpdateDecodeErrorZ_clone(orig: &CResult_ChannelUpdateDecodeErrorZ) -> CResult_ChannelUpdateDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_ErrorMessageDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::ErrorMessage, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_ErrorMessageDecodeErrorZ { + pub contents: CResult_ErrorMessageDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_ErrorMessageDecodeErrorZ_ok(o: crate::ln::msgs::ErrorMessage) -> CResult_ErrorMessageDecodeErrorZ { + CResult_ErrorMessageDecodeErrorZ { + contents: CResult_ErrorMessageDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_ErrorMessageDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_ErrorMessageDecodeErrorZ { + CResult_ErrorMessageDecodeErrorZ { + contents: CResult_ErrorMessageDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_ErrorMessageDecodeErrorZ_free(_res: CResult_ErrorMessageDecodeErrorZ) { } +impl Drop for CResult_ErrorMessageDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_ErrorMessageDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_ErrorMessageDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_ErrorMessageDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_ErrorMessageDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_ErrorMessageDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_ErrorMessageDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_ErrorMessageDecodeErrorZ_clone(orig: &CResult_ErrorMessageDecodeErrorZ) -> CResult_ErrorMessageDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_UnsignedNodeAnnouncementDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::UnsignedNodeAnnouncement, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_UnsignedNodeAnnouncementDecodeErrorZ { + pub contents: CResult_UnsignedNodeAnnouncementDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_UnsignedNodeAnnouncementDecodeErrorZ_ok(o: crate::ln::msgs::UnsignedNodeAnnouncement) -> CResult_UnsignedNodeAnnouncementDecodeErrorZ { + CResult_UnsignedNodeAnnouncementDecodeErrorZ { + contents: CResult_UnsignedNodeAnnouncementDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_UnsignedNodeAnnouncementDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_UnsignedNodeAnnouncementDecodeErrorZ { + CResult_UnsignedNodeAnnouncementDecodeErrorZ { + contents: CResult_UnsignedNodeAnnouncementDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_UnsignedNodeAnnouncementDecodeErrorZ_free(_res: CResult_UnsignedNodeAnnouncementDecodeErrorZ) { } +impl Drop for CResult_UnsignedNodeAnnouncementDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_UnsignedNodeAnnouncementDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_UnsignedNodeAnnouncementDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_UnsignedNodeAnnouncementDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_UnsignedNodeAnnouncementDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_UnsignedNodeAnnouncementDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_UnsignedNodeAnnouncementDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_UnsignedNodeAnnouncementDecodeErrorZ_clone(orig: &CResult_UnsignedNodeAnnouncementDecodeErrorZ) -> CResult_UnsignedNodeAnnouncementDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_NodeAnnouncementDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::NodeAnnouncement, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_NodeAnnouncementDecodeErrorZ { + pub contents: CResult_NodeAnnouncementDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_NodeAnnouncementDecodeErrorZ_ok(o: crate::ln::msgs::NodeAnnouncement) -> CResult_NodeAnnouncementDecodeErrorZ { + CResult_NodeAnnouncementDecodeErrorZ { + contents: CResult_NodeAnnouncementDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_NodeAnnouncementDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_NodeAnnouncementDecodeErrorZ { + CResult_NodeAnnouncementDecodeErrorZ { + contents: CResult_NodeAnnouncementDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_NodeAnnouncementDecodeErrorZ_free(_res: CResult_NodeAnnouncementDecodeErrorZ) { } +impl Drop for CResult_NodeAnnouncementDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_NodeAnnouncementDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_NodeAnnouncementDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_NodeAnnouncementDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_NodeAnnouncementDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_NodeAnnouncementDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_NodeAnnouncementDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_NodeAnnouncementDecodeErrorZ_clone(orig: &CResult_NodeAnnouncementDecodeErrorZ) -> CResult_NodeAnnouncementDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_QueryShortChannelIdsDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::QueryShortChannelIds, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_QueryShortChannelIdsDecodeErrorZ { + pub contents: CResult_QueryShortChannelIdsDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_QueryShortChannelIdsDecodeErrorZ_ok(o: crate::ln::msgs::QueryShortChannelIds) -> CResult_QueryShortChannelIdsDecodeErrorZ { + CResult_QueryShortChannelIdsDecodeErrorZ { + contents: CResult_QueryShortChannelIdsDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_QueryShortChannelIdsDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_QueryShortChannelIdsDecodeErrorZ { + CResult_QueryShortChannelIdsDecodeErrorZ { + contents: CResult_QueryShortChannelIdsDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_QueryShortChannelIdsDecodeErrorZ_free(_res: CResult_QueryShortChannelIdsDecodeErrorZ) { } +impl Drop for CResult_QueryShortChannelIdsDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_QueryShortChannelIdsDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_QueryShortChannelIdsDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_QueryShortChannelIdsDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_QueryShortChannelIdsDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_QueryShortChannelIdsDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_QueryShortChannelIdsDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_QueryShortChannelIdsDecodeErrorZ_clone(orig: &CResult_QueryShortChannelIdsDecodeErrorZ) -> CResult_QueryShortChannelIdsDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_ReplyShortChannelIdsEndDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::ReplyShortChannelIdsEnd, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_ReplyShortChannelIdsEndDecodeErrorZ { + pub contents: CResult_ReplyShortChannelIdsEndDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_ReplyShortChannelIdsEndDecodeErrorZ_ok(o: crate::ln::msgs::ReplyShortChannelIdsEnd) -> CResult_ReplyShortChannelIdsEndDecodeErrorZ { + CResult_ReplyShortChannelIdsEndDecodeErrorZ { + contents: CResult_ReplyShortChannelIdsEndDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_ReplyShortChannelIdsEndDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_ReplyShortChannelIdsEndDecodeErrorZ { + CResult_ReplyShortChannelIdsEndDecodeErrorZ { + contents: CResult_ReplyShortChannelIdsEndDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_ReplyShortChannelIdsEndDecodeErrorZ_free(_res: CResult_ReplyShortChannelIdsEndDecodeErrorZ) { } +impl Drop for CResult_ReplyShortChannelIdsEndDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_ReplyShortChannelIdsEndDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_ReplyShortChannelIdsEndDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_ReplyShortChannelIdsEndDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_ReplyShortChannelIdsEndDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_ReplyShortChannelIdsEndDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_ReplyShortChannelIdsEndDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_ReplyShortChannelIdsEndDecodeErrorZ_clone(orig: &CResult_ReplyShortChannelIdsEndDecodeErrorZ) -> CResult_ReplyShortChannelIdsEndDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_QueryChannelRangeDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::QueryChannelRange, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_QueryChannelRangeDecodeErrorZ { + pub contents: CResult_QueryChannelRangeDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_QueryChannelRangeDecodeErrorZ_ok(o: crate::ln::msgs::QueryChannelRange) -> CResult_QueryChannelRangeDecodeErrorZ { + CResult_QueryChannelRangeDecodeErrorZ { + contents: CResult_QueryChannelRangeDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_QueryChannelRangeDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_QueryChannelRangeDecodeErrorZ { + CResult_QueryChannelRangeDecodeErrorZ { + contents: CResult_QueryChannelRangeDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_QueryChannelRangeDecodeErrorZ_free(_res: CResult_QueryChannelRangeDecodeErrorZ) { } +impl Drop for CResult_QueryChannelRangeDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_QueryChannelRangeDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_QueryChannelRangeDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_QueryChannelRangeDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_QueryChannelRangeDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_QueryChannelRangeDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_QueryChannelRangeDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_QueryChannelRangeDecodeErrorZ_clone(orig: &CResult_QueryChannelRangeDecodeErrorZ) -> CResult_QueryChannelRangeDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_ReplyChannelRangeDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::ReplyChannelRange, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_ReplyChannelRangeDecodeErrorZ { + pub contents: CResult_ReplyChannelRangeDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_ReplyChannelRangeDecodeErrorZ_ok(o: crate::ln::msgs::ReplyChannelRange) -> CResult_ReplyChannelRangeDecodeErrorZ { + CResult_ReplyChannelRangeDecodeErrorZ { + contents: CResult_ReplyChannelRangeDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_ReplyChannelRangeDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_ReplyChannelRangeDecodeErrorZ { + CResult_ReplyChannelRangeDecodeErrorZ { + contents: CResult_ReplyChannelRangeDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_ReplyChannelRangeDecodeErrorZ_free(_res: CResult_ReplyChannelRangeDecodeErrorZ) { } +impl Drop for CResult_ReplyChannelRangeDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_ReplyChannelRangeDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_ReplyChannelRangeDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_ReplyChannelRangeDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_ReplyChannelRangeDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_ReplyChannelRangeDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_ReplyChannelRangeDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_ReplyChannelRangeDecodeErrorZ_clone(orig: &CResult_ReplyChannelRangeDecodeErrorZ) -> CResult_ReplyChannelRangeDecodeErrorZ { orig.clone() } +#[repr(C)] +pub union CResult_GossipTimestampFilterDecodeErrorZPtr { + pub result: *mut crate::ln::msgs::GossipTimestampFilter, + pub err: *mut crate::ln::msgs::DecodeError, +} +#[repr(C)] +pub struct CResult_GossipTimestampFilterDecodeErrorZ { + pub contents: CResult_GossipTimestampFilterDecodeErrorZPtr, + pub result_ok: bool, +} +#[no_mangle] +pub extern "C" fn CResult_GossipTimestampFilterDecodeErrorZ_ok(o: crate::ln::msgs::GossipTimestampFilter) -> CResult_GossipTimestampFilterDecodeErrorZ { + CResult_GossipTimestampFilterDecodeErrorZ { + contents: CResult_GossipTimestampFilterDecodeErrorZPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } +} +#[no_mangle] +pub extern "C" fn CResult_GossipTimestampFilterDecodeErrorZ_err(e: crate::ln::msgs::DecodeError) -> CResult_GossipTimestampFilterDecodeErrorZ { + CResult_GossipTimestampFilterDecodeErrorZ { + contents: CResult_GossipTimestampFilterDecodeErrorZPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } +} +#[no_mangle] +pub extern "C" fn CResult_GossipTimestampFilterDecodeErrorZ_free(_res: CResult_GossipTimestampFilterDecodeErrorZ) { } +impl Drop for CResult_GossipTimestampFilterDecodeErrorZ { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !(self.contents.result as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.result) }; + } + } else { + if unsafe { !(self.contents.err as *mut ()).is_null() } { + let _ = unsafe { Box::from_raw(self.contents.err) }; + } + } + } +} +impl From> for CResult_GossipTimestampFilterDecodeErrorZ { + fn from(mut o: crate::c_types::CResultTempl) -> Self { + let contents = if o.result_ok { + let result = unsafe { o.contents.result }; + unsafe { o.contents.result = std::ptr::null_mut() }; + CResult_GossipTimestampFilterDecodeErrorZPtr { result } + } else { + let err = unsafe { o.contents.err }; + unsafe { o.contents.err = std::ptr::null_mut(); } + CResult_GossipTimestampFilterDecodeErrorZPtr { err } + }; + Self { + contents, + result_ok: o.result_ok, + } + } +} +impl Clone for CResult_GossipTimestampFilterDecodeErrorZ { + fn clone(&self) -> Self { + if self.result_ok { + Self { result_ok: true, contents: CResult_GossipTimestampFilterDecodeErrorZPtr { + result: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.result }))) + } } + } else { + Self { result_ok: false, contents: CResult_GossipTimestampFilterDecodeErrorZPtr { + err: Box::into_raw(Box::new(::clone(unsafe { &*self.contents.err }))) + } } + } + } +} +#[no_mangle] +pub extern "C" fn CResult_GossipTimestampFilterDecodeErrorZ_clone(orig: &CResult_GossipTimestampFilterDecodeErrorZ) -> CResult_GossipTimestampFilterDecodeErrorZ { orig.clone() } diff --git a/lightning-c-bindings/src/c_types/mod.rs b/lightning-c-bindings/src/c_types/mod.rs new file mode 100644 index 0000000..0a96f3e --- /dev/null +++ b/lightning-c-bindings/src/c_types/mod.rs @@ -0,0 +1,319 @@ +pub mod derived; + +use bitcoin::Script as BitcoinScript; +use bitcoin::Transaction as BitcoinTransaction; +use bitcoin::hashes::Hash; +use bitcoin::secp256k1::key::PublicKey as SecpPublicKey; +use bitcoin::secp256k1::key::SecretKey as SecpSecretKey; +use bitcoin::secp256k1::Signature as SecpSignature; +use bitcoin::secp256k1::Error as SecpError; + +use std::convert::TryInto; // Bindings need at least rustc 1.34 + +#[derive(Clone)] +#[repr(C)] +pub struct PublicKey { + pub compressed_form: [u8; 33], +} +impl PublicKey { + pub(crate) fn from_rust(pk: &SecpPublicKey) -> Self { + Self { + compressed_form: pk.serialize(), + } + } + pub(crate) fn into_rust(&self) -> SecpPublicKey { + SecpPublicKey::from_slice(&self.compressed_form).unwrap() + } + pub(crate) fn is_null(&self) -> bool { self.compressed_form[..] == [0; 33][..] } + pub(crate) fn null() -> Self { Self { compressed_form: [0; 33] } } +} + +#[repr(C)] +pub struct SecretKey { + pub bytes: [u8; 32], +} +impl SecretKey { + // from_rust isn't implemented for a ref since we just return byte array refs directly + pub(crate) fn from_rust(sk: SecpSecretKey) -> Self { + let mut bytes = [0; 32]; + bytes.copy_from_slice(&sk[..]); + Self { bytes } + } + pub(crate) fn into_rust(&self) -> SecpSecretKey { + SecpSecretKey::from_slice(&self.bytes).unwrap() + } +} + +#[repr(C)] +#[derive(Clone)] +pub struct Signature { + pub compact_form: [u8; 64], +} +impl Signature { + pub(crate) fn from_rust(pk: &SecpSignature) -> Self { + Self { + compact_form: pk.serialize_compact(), + } + } + pub(crate) fn into_rust(&self) -> SecpSignature { + SecpSignature::from_compact(&self.compact_form).unwrap() + } + // The following are used for Option which we support, but don't use anymore + #[allow(unused)] pub(crate) fn is_null(&self) -> bool { self.compact_form[..] == [0; 64][..] } + #[allow(unused)] pub(crate) fn null() -> Self { Self { compact_form: [0; 64] } } +} + +#[repr(C)] +pub enum Secp256k1Error { + IncorrectSignature, + InvalidMessage, + InvalidPublicKey, + InvalidSignature, + InvalidSecretKey, + InvalidRecoveryId, + InvalidTweak, + TweakCheckFailed, + NotEnoughMemory, +} +impl Secp256k1Error { + pub(crate) fn from_rust(err: SecpError) -> Self { + match err { + SecpError::IncorrectSignature => Secp256k1Error::IncorrectSignature, + SecpError::InvalidMessage => Secp256k1Error::InvalidMessage, + SecpError::InvalidPublicKey => Secp256k1Error::InvalidPublicKey, + SecpError::InvalidSignature => Secp256k1Error::InvalidSignature, + SecpError::InvalidSecretKey => Secp256k1Error::InvalidSecretKey, + SecpError::InvalidRecoveryId => Secp256k1Error::InvalidRecoveryId, + SecpError::InvalidTweak => Secp256k1Error::InvalidTweak, + SecpError::TweakCheckFailed => Secp256k1Error::TweakCheckFailed, + SecpError::NotEnoughMemory => Secp256k1Error::NotEnoughMemory, + } + } +} + +#[repr(C)] +/// A serialized transaction, in (pointer, length) form. +/// +/// This type optionally owns its own memory, and thus the semantics around access change based on +/// the `data_is_owned` flag. If `data_is_owned` is set, you must call `Transaction_free` to free +/// the underlying buffer before the object goes out of scope. If `data_is_owned` is not set, any +/// access to the buffer after the scope in which the object was provided to you is invalid. eg, +/// access after you return from the call in which a `!data_is_owned` `Transaction` is provided to +/// you would be invalid. +/// +/// Note that, while it may change in the future, because transactions on the Rust side are stored +/// in a deserialized form, all `Transaction`s generated on the Rust side will have `data_is_owned` +/// set. Similarly, while it may change in the future, all `Transaction`s you pass to Rust may have +/// `data_is_owned` either set or unset at your discretion. +pub struct Transaction { + /// This is non-const for your convenience, an object passed to Rust is never written to. + pub data: *mut u8, + pub datalen: usize, + pub data_is_owned: bool, +} +impl Transaction { + pub(crate) fn into_bitcoin(&self) -> BitcoinTransaction { + if self.datalen == 0 { panic!("0-length buffer can never represent a valid Transaction"); } + ::bitcoin::consensus::encode::deserialize(unsafe { std::slice::from_raw_parts(self.data, self.datalen) }).unwrap() + } + pub(crate) fn from_vec(v: Vec) -> Self { + let datalen = v.len(); + let data = Box::into_raw(v.into_boxed_slice()); + Self { + data: unsafe { (*data).as_mut_ptr() }, + datalen, + data_is_owned: true, + } + } +} +impl Drop for Transaction { + fn drop(&mut self) { + if self.data_is_owned && self.datalen != 0 { + let _ = derived::CVec_u8Z { data: self.data as *mut u8, datalen: self.datalen }; + } + } +} +#[no_mangle] +pub extern "C" fn Transaction_free(_res: Transaction) { } + +pub(crate) fn bitcoin_to_C_outpoint(outpoint: ::bitcoin::blockdata::transaction::OutPoint) -> crate::chain::transaction::OutPoint { + crate::chain::transaction::OutPoint_new(ThirtyTwoBytes { data: outpoint.txid.into_inner() }, outpoint.vout.try_into().unwrap()) +} + +#[repr(C)] +#[derive(Clone)] +/// A transaction output including a scriptPubKey and value. +/// This type *does* own its own memory, so must be free'd appropriately. +pub struct TxOut { + pub script_pubkey: derived::CVec_u8Z, + pub value: u64, +} + +impl TxOut { + pub(crate) fn into_rust(mut self) -> ::bitcoin::blockdata::transaction::TxOut { + ::bitcoin::blockdata::transaction::TxOut { + script_pubkey: self.script_pubkey.into_rust().into(), + value: self.value, + } + } + pub(crate) fn from_rust(txout: ::bitcoin::blockdata::transaction::TxOut) -> Self { + Self { + script_pubkey: derived::CVec_u8Z::from(txout.script_pubkey.into_bytes()), + value: txout.value + } + } +} +#[no_mangle] +pub extern "C" fn TxOut_free(_res: TxOut) { } +#[no_mangle] +pub extern "C" fn TxOut_clone(orig: &TxOut) -> TxOut { orig.clone() } + +#[repr(C)] +pub struct u8slice { + pub data: *const u8, + pub datalen: usize +} +impl u8slice { + pub(crate) fn from_slice(s: &[u8]) -> Self { + Self { + data: s.as_ptr(), + datalen: s.len(), + } + } + pub(crate) fn to_slice(&self) -> &[u8] { + if self.datalen == 0 { return &[]; } + unsafe { std::slice::from_raw_parts(self.data, self.datalen) } + } +} + +#[repr(C)] +#[derive(Copy, Clone)] +/// Arbitrary 32 bytes, which could represent one of a few different things. You probably want to +/// look up the corresponding function in rust-lightning's docs. +pub struct ThirtyTwoBytes { + pub data: [u8; 32], +} +impl ThirtyTwoBytes { + pub(crate) fn null() -> Self { + Self { data: [0; 32] } + } +} + +#[repr(C)] +pub struct ThreeBytes { pub data: [u8; 3], } +#[derive(Clone)] +#[repr(C)] +pub struct FourBytes { pub data: [u8; 4], } +#[derive(Clone)] +#[repr(C)] +pub struct TenBytes { pub data: [u8; 10], } +#[derive(Clone)] +#[repr(C)] +pub struct SixteenBytes { pub data: [u8; 16], } + +pub(crate) struct VecWriter(pub Vec); +impl lightning::util::ser::Writer for VecWriter { + fn write_all(&mut self, buf: &[u8]) -> Result<(), ::std::io::Error> { + self.0.extend_from_slice(buf); + Ok(()) + } + fn size_hint(&mut self, size: usize) { + self.0.reserve_exact(size); + } +} +pub(crate) fn serialize_obj(i: &I) -> derived::CVec_u8Z { + let mut out = VecWriter(Vec::new()); + i.write(&mut out).unwrap(); + derived::CVec_u8Z::from(out.0) +} +pub(crate) fn deserialize_obj(s: u8slice) -> Result { + I::read(&mut s.to_slice()) +} +pub(crate) fn deserialize_obj_arg>(s: u8slice, args: A) -> Result { + I::read(&mut s.to_slice(), args) +} + +#[repr(C)] +#[derive(Copy, Clone)] +/// A Rust str object, ie a reference to a UTF8-valid string. +/// This is *not* null-terminated so cannot be used directly as a C string! +pub struct Str { + pub chars: *const u8, + pub len: usize +} +impl Into for &'static str { + fn into(self) -> Str { + Str { chars: self.as_ptr(), len: self.len() } + } +} +impl Into<&'static str> for Str { + fn into(self) -> &'static str { + if self.len == 0 { return ""; } + std::str::from_utf8(unsafe { std::slice::from_raw_parts(self.chars, self.len) }).unwrap() + } +} + +// Note that the C++ headers memset(0) all the Templ types to avoid deallocation! +// Thus, they must gracefully handle being completely null in _free. + +// TODO: Integer/bool primitives should avoid the pointer indirection for underlying types +// everywhere in the containers. + +#[repr(C)] +pub(crate) union CResultPtr { + pub(crate) result: *mut O, + pub(crate) err: *mut E, +} +#[repr(C)] +pub(crate) struct CResultTempl { + pub(crate) contents: CResultPtr, + pub(crate) result_ok: bool, +} +impl CResultTempl { + pub(crate) extern "C" fn ok(o: O) -> Self { + CResultTempl { + contents: CResultPtr { + result: Box::into_raw(Box::new(o)), + }, + result_ok: true, + } + } + pub(crate) extern "C" fn err(e: E) -> Self { + CResultTempl { + contents: CResultPtr { + err: Box::into_raw(Box::new(e)), + }, + result_ok: false, + } + } +} +impl Drop for CResultTempl { + fn drop(&mut self) { + if self.result_ok { + if unsafe { !self.contents.result.is_null() } { + unsafe { Box::from_raw(self.contents.result) }; + } + } else if unsafe { !self.contents.err.is_null() } { + unsafe { Box::from_raw(self.contents.err) }; + } + } +} + +/// Utility to make it easy to set a pointer to null and get its original value in line. +pub(crate) trait TakePointer { + fn take_ptr(&mut self) -> T; +} +impl TakePointer<*const T> for *const T { + fn take_ptr(&mut self) -> *const T { + let ret = *self; + *self = std::ptr::null(); + ret + } +} +impl TakePointer<*mut T> for *mut T { + fn take_ptr(&mut self) -> *mut T { + let ret = *self; + *self = std::ptr::null_mut(); + ret + } +} diff --git a/lightning-c-bindings/src/chain/chaininterface.rs b/lightning-c-bindings/src/chain/chaininterface.rs new file mode 100644 index 0000000..b5f5103 --- /dev/null +++ b/lightning-c-bindings/src/chain/chaininterface.rs @@ -0,0 +1,151 @@ +//! Traits and utility impls which allow other parts of rust-lightning to interact with the +//! blockchain. +//! +//! Includes traits for monitoring and receiving notifications of new blocks and block +//! disconnections, transaction broadcasting, and feerate information requests. + +use std::ffi::c_void; +use bitcoin::hashes::Hash; +use crate::c_types::*; + +/// An interface to send a transaction to the Bitcoin network. +#[repr(C)] +pub struct BroadcasterInterface { + pub this_arg: *mut c_void, + /// Sends a transaction out to (hopefully) be mined. + pub broadcast_transaction: extern "C" fn (this_arg: *const c_void, tx: crate::c_types::Transaction), + pub free: Option, +} +unsafe impl Sync for BroadcasterInterface {} +unsafe impl Send for BroadcasterInterface {} + +use lightning::chain::chaininterface::BroadcasterInterface as rustBroadcasterInterface; +impl rustBroadcasterInterface for BroadcasterInterface { + fn broadcast_transaction(&self, tx: &bitcoin::blockdata::transaction::Transaction) { + let mut local_tx = ::bitcoin::consensus::encode::serialize(tx); + (self.broadcast_transaction)(self.this_arg, crate::c_types::Transaction::from_vec(local_tx)) + } +} + +// We're essentially a pointer already, or at least a set of pointers, so allow us to be used +// directly as a Deref trait in higher-level structs: +impl std::ops::Deref for BroadcasterInterface { + type Target = Self; + fn deref(&self) -> &Self { + self + } +} +/// Calls the free function if one is set +#[no_mangle] +pub extern "C" fn BroadcasterInterface_free(this_ptr: BroadcasterInterface) { } +impl Drop for BroadcasterInterface { + fn drop(&mut self) { + if let Some(f) = self.free { + f(self.this_arg); + } + } +} +/// An enum that represents the speed at which we want a transaction to confirm used for feerate +/// estimation. +#[must_use] +#[derive(Clone)] +#[repr(C)] +pub enum ConfirmationTarget { + /// We are happy with this transaction confirming slowly when feerate drops some. + Background, + /// We'd like this transaction to confirm without major delay, but 12-18 blocks is fine. + Normal, + /// We'd like this transaction to confirm in the next few blocks. + HighPriority, +} +use lightning::chain::chaininterface::ConfirmationTarget as nativeConfirmationTarget; +impl ConfirmationTarget { + #[allow(unused)] + pub(crate) fn to_native(&self) -> nativeConfirmationTarget { + match self { + ConfirmationTarget::Background => nativeConfirmationTarget::Background, + ConfirmationTarget::Normal => nativeConfirmationTarget::Normal, + ConfirmationTarget::HighPriority => nativeConfirmationTarget::HighPriority, + } + } + #[allow(unused)] + pub(crate) fn into_native(self) -> nativeConfirmationTarget { + match self { + ConfirmationTarget::Background => nativeConfirmationTarget::Background, + ConfirmationTarget::Normal => nativeConfirmationTarget::Normal, + ConfirmationTarget::HighPriority => nativeConfirmationTarget::HighPriority, + } + } + #[allow(unused)] + pub(crate) fn from_native(native: &nativeConfirmationTarget) -> Self { + match native { + nativeConfirmationTarget::Background => ConfirmationTarget::Background, + nativeConfirmationTarget::Normal => ConfirmationTarget::Normal, + nativeConfirmationTarget::HighPriority => ConfirmationTarget::HighPriority, + } + } + #[allow(unused)] + pub(crate) fn native_into(native: nativeConfirmationTarget) -> Self { + match native { + nativeConfirmationTarget::Background => ConfirmationTarget::Background, + nativeConfirmationTarget::Normal => ConfirmationTarget::Normal, + nativeConfirmationTarget::HighPriority => ConfirmationTarget::HighPriority, + } + } +} +#[no_mangle] +pub extern "C" fn ConfirmationTarget_clone(orig: &ConfirmationTarget) -> ConfirmationTarget { + orig.clone() +} +/// A trait which should be implemented to provide feerate information on a number of time +/// horizons. +/// +/// Note that all of the functions implemented here *must* be reentrant-safe (obviously - they're +/// called from inside the library in response to chain events, P2P events, or timer events). +#[repr(C)] +pub struct FeeEstimator { + pub this_arg: *mut c_void, + /// Gets estimated satoshis of fee required per 1000 Weight-Units. + /// + /// Must be no smaller than 253 (ie 1 satoshi-per-byte rounded up to ensure later round-downs + /// don't put us below 1 satoshi-per-byte). + /// + /// This translates to: + /// * satoshis-per-byte * 250 + /// * ceil(satoshis-per-kbyte / 4) + #[must_use] + pub get_est_sat_per_1000_weight: extern "C" fn (this_arg: *const c_void, confirmation_target: crate::chain::chaininterface::ConfirmationTarget) -> u32, + pub free: Option, +} +unsafe impl Sync for FeeEstimator {} +unsafe impl Send for FeeEstimator {} + +use lightning::chain::chaininterface::FeeEstimator as rustFeeEstimator; +impl rustFeeEstimator for FeeEstimator { + fn get_est_sat_per_1000_weight(&self, confirmation_target: lightning::chain::chaininterface::ConfirmationTarget) -> u32 { + let mut ret = (self.get_est_sat_per_1000_weight)(self.this_arg, crate::chain::chaininterface::ConfirmationTarget::native_into(confirmation_target)); + ret + } +} + +// We're essentially a pointer already, or at least a set of pointers, so allow us to be used +// directly as a Deref trait in higher-level structs: +impl std::ops::Deref for FeeEstimator { + type Target = Self; + fn deref(&self) -> &Self { + self + } +} +/// Calls the free function if one is set +#[no_mangle] +pub extern "C" fn FeeEstimator_free(this_ptr: FeeEstimator) { } +impl Drop for FeeEstimator { + fn drop(&mut self) { + if let Some(f) = self.free { + f(self.this_arg); + } + } +} + +#[no_mangle] +pub static MIN_RELAY_FEE_SAT_PER_1000_WEIGHT: u64 = lightning::chain::chaininterface::MIN_RELAY_FEE_SAT_PER_1000_WEIGHT; diff --git a/lightning-c-bindings/src/chain/chainmonitor.rs b/lightning-c-bindings/src/chain/chainmonitor.rs new file mode 100644 index 0000000..c05f901 --- /dev/null +++ b/lightning-c-bindings/src/chain/chainmonitor.rs @@ -0,0 +1,185 @@ +//! Logic to connect off-chain channel management with on-chain transaction monitoring. +//! +//! [`ChainMonitor`] is an implementation of [`chain::Watch`] used both to process blocks and to +//! update [`ChannelMonitor`]s accordingly. If any on-chain events need further processing, it will +//! make those available as [`MonitorEvent`]s to be consumed. +//! +//! `ChainMonitor` is parameterized by an optional chain source, which must implement the +//! [`chain::Filter`] trait. This provides a mechanism to signal new relevant outputs back to light +//! clients, such that transactions spending those outputs are included in block data. +//! +//! `ChainMonitor` may be used directly to monitor channels locally or as a part of a distributed +//! setup to monitor channels remotely. In the latter case, a custom `chain::Watch` implementation +//! would be responsible for routing each update to a remote server and for retrieving monitor +//! events. The remote server would make use of `ChainMonitor` for block processing and for +//! servicing `ChannelMonitor` updates from the client. +//! +//! [`ChainMonitor`]: struct.ChainMonitor.html +//! [`chain::Filter`]: ../trait.Filter.html +//! [`chain::Watch`]: ../trait.Watch.html +//! [`ChannelMonitor`]: ../channelmonitor/struct.ChannelMonitor.html +//! [`MonitorEvent`]: ../channelmonitor/enum.MonitorEvent.html + +use std::ffi::c_void; +use bitcoin::hashes::Hash; +use crate::c_types::*; + + +use lightning::chain::chainmonitor::ChainMonitor as nativeChainMonitorImport; +type nativeChainMonitor = nativeChainMonitorImport; + +/// An implementation of [`chain::Watch`] for monitoring channels. +/// +/// Connected and disconnected blocks must be provided to `ChainMonitor` as documented by +/// [`chain::Watch`]. May be used in conjunction with [`ChannelManager`] to monitor channels locally +/// or used independently to monitor channels remotely. See the [module-level documentation] for +/// details. +/// +/// [`chain::Watch`]: ../trait.Watch.html +/// [`ChannelManager`]: ../../ln/channelmanager/struct.ChannelManager.html +/// [module-level documentation]: index.html +#[must_use] +#[repr(C)] +pub struct ChainMonitor { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeChainMonitor, + pub is_owned: bool, +} + +impl Drop for ChainMonitor { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeChainMonitor>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn ChainMonitor_free(this_ptr: ChainMonitor) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn ChainMonitor_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeChainMonitor); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl ChainMonitor { + pub(crate) fn take_inner(mut self) -> *mut nativeChainMonitor { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// Dispatches to per-channel monitors, which are responsible for updating their on-chain view +/// of a channel and reacting accordingly based on transactions in the connected block. See +/// [`ChannelMonitor::block_connected`] for details. Any HTLCs that were resolved on chain will +/// be returned by [`chain::Watch::release_pending_monitor_events`]. +/// +/// Calls back to [`chain::Filter`] if any monitor indicated new outputs to watch. Subsequent +/// calls must not exclude any transactions matching the new outputs nor any in-block +/// descendants of such transactions. It is not necessary to re-fetch the block to obtain +/// updated `txdata`. +/// +/// [`ChannelMonitor::block_connected`]: ../channelmonitor/struct.ChannelMonitor.html#method.block_connected +/// [`chain::Watch::release_pending_monitor_events`]: ../trait.Watch.html#tymethod.release_pending_monitor_events +/// [`chain::Filter`]: ../trait.Filter.html +#[no_mangle] +pub extern "C" fn ChainMonitor_block_connected(this_arg: &ChainMonitor, header: *const [u8; 80], mut txdata: crate::c_types::derived::CVec_C2Tuple_usizeTransactionZZ, mut height: u32) { + let mut local_txdata = Vec::new(); for mut item in txdata.into_rust().drain(..) { local_txdata.push( { let (mut orig_txdata_0_0, mut orig_txdata_0_1) = item.to_rust(); let mut local_txdata_0 = (orig_txdata_0_0, orig_txdata_0_1.into_bitcoin()); local_txdata_0 }); }; + unsafe { &*this_arg.inner }.block_connected(&::bitcoin::consensus::encode::deserialize(unsafe { &*header }).unwrap(), &local_txdata.iter().map(|(a, b)| (*a, b)).collect::>()[..], height) +} + +/// Dispatches to per-channel monitors, which are responsible for updating their on-chain view +/// of a channel based on the disconnected block. See [`ChannelMonitor::block_disconnected`] for +/// details. +/// +/// [`ChannelMonitor::block_disconnected`]: ../channelmonitor/struct.ChannelMonitor.html#method.block_disconnected +#[no_mangle] +pub extern "C" fn ChainMonitor_block_disconnected(this_arg: &ChainMonitor, header: *const [u8; 80], mut disconnected_height: u32) { + unsafe { &*this_arg.inner }.block_disconnected(&::bitcoin::consensus::encode::deserialize(unsafe { &*header }).unwrap(), disconnected_height) +} + +/// Creates a new `ChainMonitor` used to watch on-chain activity pertaining to channels. +/// +/// When an optional chain source implementing [`chain::Filter`] is provided, the chain monitor +/// will call back to it indicating transactions and outputs of interest. This allows clients to +/// pre-filter blocks or only fetch blocks matching a compact filter. Otherwise, clients may +/// always need to fetch full blocks absent another means for determining which blocks contain +/// transactions relevant to the watched channels. +/// +/// [`chain::Filter`]: ../trait.Filter.html +#[must_use] +#[no_mangle] +pub extern "C" fn ChainMonitor_new(chain_source: *mut crate::chain::Filter, mut broadcaster: crate::chain::chaininterface::BroadcasterInterface, mut logger: crate::util::logger::Logger, mut feeest: crate::chain::chaininterface::FeeEstimator, mut persister: crate::chain::channelmonitor::Persist) -> ChainMonitor { + let mut local_chain_source = if chain_source == std::ptr::null_mut() { None } else { Some( { unsafe { *Box::from_raw(chain_source) } }) }; + let mut ret = lightning::chain::chainmonitor::ChainMonitor::new(local_chain_source, broadcaster, logger, feeest, persister); + ChainMonitor { inner: Box::into_raw(Box::new(ret)), is_owned: true } +} + +impl From for crate::chain::Watch { + fn from(obj: nativeChainMonitor) -> Self { + let mut rust_obj = ChainMonitor { inner: Box::into_raw(Box::new(obj)), is_owned: true }; + let mut ret = ChainMonitor_as_Watch(&rust_obj); + // We want to free rust_obj when ret gets drop()'d, not rust_obj, so wipe rust_obj's pointer and set ret's free() fn + rust_obj.inner = std::ptr::null_mut(); + ret.free = Some(ChainMonitor_free_void); + ret + } +} +#[no_mangle] +pub extern "C" fn ChainMonitor_as_Watch(this_arg: &ChainMonitor) -> crate::chain::Watch { + crate::chain::Watch { + this_arg: unsafe { (*this_arg).inner as *mut c_void }, + free: None, + watch_channel: ChainMonitor_Watch_watch_channel, + update_channel: ChainMonitor_Watch_update_channel, + release_pending_monitor_events: ChainMonitor_Watch_release_pending_monitor_events, + } +} + +#[must_use] +extern "C" fn ChainMonitor_Watch_watch_channel(this_arg: *const c_void, mut funding_outpoint: crate::chain::transaction::OutPoint, mut monitor: crate::chain::channelmonitor::ChannelMonitor) -> crate::c_types::derived::CResult_NoneChannelMonitorUpdateErrZ { + let mut ret = >::watch_channel(unsafe { &mut *(this_arg as *mut nativeChainMonitor) }, *unsafe { Box::from_raw(funding_outpoint.take_inner()) }, *unsafe { Box::from_raw(monitor.take_inner()) }); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::chain::channelmonitor::ChannelMonitorUpdateErr::native_into(e) }).into() }; + local_ret +} +#[must_use] +extern "C" fn ChainMonitor_Watch_update_channel(this_arg: *const c_void, mut funding_txo: crate::chain::transaction::OutPoint, mut update: crate::chain::channelmonitor::ChannelMonitorUpdate) -> crate::c_types::derived::CResult_NoneChannelMonitorUpdateErrZ { + let mut ret = >::update_channel(unsafe { &mut *(this_arg as *mut nativeChainMonitor) }, *unsafe { Box::from_raw(funding_txo.take_inner()) }, *unsafe { Box::from_raw(update.take_inner()) }); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::chain::channelmonitor::ChannelMonitorUpdateErr::native_into(e) }).into() }; + local_ret +} +#[must_use] +extern "C" fn ChainMonitor_Watch_release_pending_monitor_events(this_arg: *const c_void) -> crate::c_types::derived::CVec_MonitorEventZ { + let mut ret = >::release_pending_monitor_events(unsafe { &mut *(this_arg as *mut nativeChainMonitor) }, ); + let mut local_ret = Vec::new(); for mut item in ret.drain(..) { local_ret.push( { crate::chain::channelmonitor::MonitorEvent::native_into(item) }); }; + local_ret.into() +} + +impl From for crate::util::events::EventsProvider { + fn from(obj: nativeChainMonitor) -> Self { + let mut rust_obj = ChainMonitor { inner: Box::into_raw(Box::new(obj)), is_owned: true }; + let mut ret = ChainMonitor_as_EventsProvider(&rust_obj); + // We want to free rust_obj when ret gets drop()'d, not rust_obj, so wipe rust_obj's pointer and set ret's free() fn + rust_obj.inner = std::ptr::null_mut(); + ret.free = Some(ChainMonitor_free_void); + ret + } +} +#[no_mangle] +pub extern "C" fn ChainMonitor_as_EventsProvider(this_arg: &ChainMonitor) -> crate::util::events::EventsProvider { + crate::util::events::EventsProvider { + this_arg: unsafe { (*this_arg).inner as *mut c_void }, + free: None, + get_and_clear_pending_events: ChainMonitor_EventsProvider_get_and_clear_pending_events, + } +} + +#[must_use] +extern "C" fn ChainMonitor_EventsProvider_get_and_clear_pending_events(this_arg: *const c_void) -> crate::c_types::derived::CVec_EventZ { + let mut ret = >::get_and_clear_pending_events(unsafe { &mut *(this_arg as *mut nativeChainMonitor) }, ); + let mut local_ret = Vec::new(); for mut item in ret.drain(..) { local_ret.push( { crate::util::events::Event::native_into(item) }); }; + local_ret.into() +} + diff --git a/lightning-c-bindings/src/chain/channelmonitor.rs b/lightning-c-bindings/src/chain/channelmonitor.rs new file mode 100644 index 0000000..9fab7e0 --- /dev/null +++ b/lightning-c-bindings/src/chain/channelmonitor.rs @@ -0,0 +1,703 @@ +//! The logic to monitor for on-chain transactions and create the relevant claim responses lives +//! here. +//! +//! ChannelMonitor objects are generated by ChannelManager in response to relevant +//! messages/actions, and MUST be persisted to disk (and, preferably, remotely) before progress can +//! be made in responding to certain messages, see [`chain::Watch`] for more. +//! +//! Note that ChannelMonitors are an important part of the lightning trust model and a copy of the +//! latest ChannelMonitor must always be actively monitoring for chain updates (and no out-of-date +//! ChannelMonitors should do so). Thus, if you're building rust-lightning into an HSM or other +//! security-domain-separated system design, you should consider having multiple paths for +//! ChannelMonitors to get out of the HSM and onto monitoring devices. +//! +//! [`chain::Watch`]: ../trait.Watch.html + +use std::ffi::c_void; +use bitcoin::hashes::Hash; +use crate::c_types::*; + + +use lightning::chain::channelmonitor::ChannelMonitorUpdate as nativeChannelMonitorUpdateImport; +type nativeChannelMonitorUpdate = nativeChannelMonitorUpdateImport; + +/// An update generated by the underlying Channel itself which contains some new information the +/// ChannelMonitor should be made aware of. +#[must_use] +#[repr(C)] +pub struct ChannelMonitorUpdate { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeChannelMonitorUpdate, + pub is_owned: bool, +} + +impl Drop for ChannelMonitorUpdate { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeChannelMonitorUpdate>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn ChannelMonitorUpdate_free(this_ptr: ChannelMonitorUpdate) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn ChannelMonitorUpdate_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeChannelMonitorUpdate); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl ChannelMonitorUpdate { + pub(crate) fn take_inner(mut self) -> *mut nativeChannelMonitorUpdate { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The sequence number of this update. Updates *must* be replayed in-order according to this +/// sequence number (and updates may panic if they are not). The update_id values are strictly +/// increasing and increase by one for each new update, with one exception specified below. +/// +/// This sequence number is also used to track up to which points updates which returned +/// ChannelMonitorUpdateErr::TemporaryFailure have been applied to all copies of a given +/// ChannelMonitor when ChannelManager::channel_monitor_updated is called. +/// +/// The only instance where update_id values are not strictly increasing is the case where we +/// allow post-force-close updates with a special update ID of [`CLOSED_CHANNEL_UPDATE_ID`]. See +/// its docs for more details. +/// +/// [`CLOSED_CHANNEL_UPDATE_ID`]: constant.CLOSED_CHANNEL_UPDATE_ID.html +#[no_mangle] +pub extern "C" fn ChannelMonitorUpdate_get_update_id(this_ptr: &ChannelMonitorUpdate) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.update_id; + (*inner_val) +} +/// The sequence number of this update. Updates *must* be replayed in-order according to this +/// sequence number (and updates may panic if they are not). The update_id values are strictly +/// increasing and increase by one for each new update, with one exception specified below. +/// +/// This sequence number is also used to track up to which points updates which returned +/// ChannelMonitorUpdateErr::TemporaryFailure have been applied to all copies of a given +/// ChannelMonitor when ChannelManager::channel_monitor_updated is called. +/// +/// The only instance where update_id values are not strictly increasing is the case where we +/// allow post-force-close updates with a special update ID of [`CLOSED_CHANNEL_UPDATE_ID`]. See +/// its docs for more details. +/// +/// [`CLOSED_CHANNEL_UPDATE_ID`]: constant.CLOSED_CHANNEL_UPDATE_ID.html +#[no_mangle] +pub extern "C" fn ChannelMonitorUpdate_set_update_id(this_ptr: &mut ChannelMonitorUpdate, mut val: u64) { + unsafe { &mut *this_ptr.inner }.update_id = val; +} +impl Clone for ChannelMonitorUpdate { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeChannelMonitorUpdate>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn ChannelMonitorUpdate_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeChannelMonitorUpdate)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn ChannelMonitorUpdate_clone(orig: &ChannelMonitorUpdate) -> ChannelMonitorUpdate { + orig.clone() +} + +#[no_mangle] +pub static CLOSED_CHANNEL_UPDATE_ID: u64 = lightning::chain::channelmonitor::CLOSED_CHANNEL_UPDATE_ID; +#[no_mangle] +pub extern "C" fn ChannelMonitorUpdate_write(obj: &ChannelMonitorUpdate) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn ChannelMonitorUpdate_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeChannelMonitorUpdate) }) +} +#[no_mangle] +pub extern "C" fn ChannelMonitorUpdate_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_ChannelMonitorUpdateDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::chain::channelmonitor::ChannelMonitorUpdate { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +/// An error enum representing a failure to persist a channel monitor update. +#[must_use] +#[derive(Clone)] +#[repr(C)] +pub enum ChannelMonitorUpdateErr { + /// Used to indicate a temporary failure (eg connection to a watchtower or remote backup of + /// our state failed, but is expected to succeed at some point in the future). + /// + /// Such a failure will \"freeze\" a channel, preventing us from revoking old states or + /// submitting new commitment transactions to the counterparty. Once the update(s) which failed + /// have been successfully applied, ChannelManager::channel_monitor_updated can be used to + /// restore the channel to an operational state. + /// + /// Note that a given ChannelManager will *never* re-generate a given ChannelMonitorUpdate. If + /// you return a TemporaryFailure you must ensure that it is written to disk safely before + /// writing out the latest ChannelManager state. + /// + /// Even when a channel has been \"frozen\" updates to the ChannelMonitor can continue to occur + /// (eg if an inbound HTLC which we forwarded was claimed upstream resulting in us attempting + /// to claim it on this channel) and those updates must be applied wherever they can be. At + /// least one such updated ChannelMonitor must be persisted otherwise PermanentFailure should + /// be returned to get things on-chain ASAP using only the in-memory copy. Obviously updates to + /// the channel which would invalidate previous ChannelMonitors are not made when a channel has + /// been \"frozen\". + /// + /// Note that even if updates made after TemporaryFailure succeed you must still call + /// channel_monitor_updated to ensure you have the latest monitor and re-enable normal channel + /// operation. + /// + /// Note that the update being processed here will not be replayed for you when you call + /// ChannelManager::channel_monitor_updated, so you must store the update itself along + /// with the persisted ChannelMonitor on your own local disk prior to returning a + /// TemporaryFailure. You may, of course, employ a journaling approach, storing only the + /// ChannelMonitorUpdate on disk without updating the monitor itself, replaying the journal at + /// reload-time. + /// + /// For deployments where a copy of ChannelMonitors and other local state are backed up in a + /// remote location (with local copies persisted immediately), it is anticipated that all + /// updates will return TemporaryFailure until the remote copies could be updated. + TemporaryFailure, + /// Used to indicate no further channel monitor updates will be allowed (eg we've moved on to a + /// different watchtower and cannot update with all watchtowers that were previously informed + /// of this channel). + /// + /// At reception of this error, ChannelManager will force-close the channel and return at + /// least a final ChannelMonitorUpdate::ChannelForceClosed which must be delivered to at + /// least one ChannelMonitor copy. Revocation secret MUST NOT be released and offchain channel + /// update must be rejected. + /// + /// This failure may also signal a failure to update the local persisted copy of one of + /// the channel monitor instance. + /// + /// Note that even when you fail a holder commitment transaction update, you must store the + /// update to ensure you can claim from it in case of a duplicate copy of this ChannelMonitor + /// broadcasts it (e.g distributed channel-monitor deployment) + /// + /// In case of distributed watchtowers deployment, the new version must be written to disk, as + /// state may have been stored but rejected due to a block forcing a commitment broadcast. This + /// storage is used to claim outputs of rejected state confirmed onchain by another watchtower, + /// lagging behind on block processing. + PermanentFailure, +} +use lightning::chain::channelmonitor::ChannelMonitorUpdateErr as nativeChannelMonitorUpdateErr; +impl ChannelMonitorUpdateErr { + #[allow(unused)] + pub(crate) fn to_native(&self) -> nativeChannelMonitorUpdateErr { + match self { + ChannelMonitorUpdateErr::TemporaryFailure => nativeChannelMonitorUpdateErr::TemporaryFailure, + ChannelMonitorUpdateErr::PermanentFailure => nativeChannelMonitorUpdateErr::PermanentFailure, + } + } + #[allow(unused)] + pub(crate) fn into_native(self) -> nativeChannelMonitorUpdateErr { + match self { + ChannelMonitorUpdateErr::TemporaryFailure => nativeChannelMonitorUpdateErr::TemporaryFailure, + ChannelMonitorUpdateErr::PermanentFailure => nativeChannelMonitorUpdateErr::PermanentFailure, + } + } + #[allow(unused)] + pub(crate) fn from_native(native: &nativeChannelMonitorUpdateErr) -> Self { + match native { + nativeChannelMonitorUpdateErr::TemporaryFailure => ChannelMonitorUpdateErr::TemporaryFailure, + nativeChannelMonitorUpdateErr::PermanentFailure => ChannelMonitorUpdateErr::PermanentFailure, + } + } + #[allow(unused)] + pub(crate) fn native_into(native: nativeChannelMonitorUpdateErr) -> Self { + match native { + nativeChannelMonitorUpdateErr::TemporaryFailure => ChannelMonitorUpdateErr::TemporaryFailure, + nativeChannelMonitorUpdateErr::PermanentFailure => ChannelMonitorUpdateErr::PermanentFailure, + } + } +} +#[no_mangle] +pub extern "C" fn ChannelMonitorUpdateErr_clone(orig: &ChannelMonitorUpdateErr) -> ChannelMonitorUpdateErr { + orig.clone() +} + +use lightning::chain::channelmonitor::MonitorUpdateError as nativeMonitorUpdateErrorImport; +type nativeMonitorUpdateError = nativeMonitorUpdateErrorImport; + +/// General Err type for ChannelMonitor actions. Generally, this implies that the data provided is +/// inconsistent with the ChannelMonitor being called. eg for ChannelMonitor::update_monitor this +/// means you tried to update a monitor for a different channel or the ChannelMonitorUpdate was +/// corrupted. +/// Contains a developer-readable error message. +#[must_use] +#[repr(C)] +pub struct MonitorUpdateError { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeMonitorUpdateError, + pub is_owned: bool, +} + +impl Drop for MonitorUpdateError { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeMonitorUpdateError>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn MonitorUpdateError_free(this_ptr: MonitorUpdateError) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn MonitorUpdateError_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeMonitorUpdateError); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl MonitorUpdateError { + pub(crate) fn take_inner(mut self) -> *mut nativeMonitorUpdateError { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +impl Clone for MonitorUpdateError { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeMonitorUpdateError>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn MonitorUpdateError_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeMonitorUpdateError)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn MonitorUpdateError_clone(orig: &MonitorUpdateError) -> MonitorUpdateError { + orig.clone() +} +/// An event to be processed by the ChannelManager. +#[must_use] +#[derive(Clone)] +#[repr(C)] +pub enum MonitorEvent { + /// A monitor event containing an HTLCUpdate. + HTLCEvent(crate::chain::channelmonitor::HTLCUpdate), + /// A monitor event that the Channel's commitment transaction was broadcasted. + CommitmentTxBroadcasted(crate::chain::transaction::OutPoint), +} +use lightning::chain::channelmonitor::MonitorEvent as nativeMonitorEvent; +impl MonitorEvent { + #[allow(unused)] + pub(crate) fn to_native(&self) -> nativeMonitorEvent { + match self { + MonitorEvent::HTLCEvent (ref a, ) => { + let mut a_nonref = (*a).clone(); + nativeMonitorEvent::HTLCEvent ( + *unsafe { Box::from_raw(a_nonref.take_inner()) }, + ) + }, + MonitorEvent::CommitmentTxBroadcasted (ref a, ) => { + let mut a_nonref = (*a).clone(); + nativeMonitorEvent::CommitmentTxBroadcasted ( + *unsafe { Box::from_raw(a_nonref.take_inner()) }, + ) + }, + } + } + #[allow(unused)] + pub(crate) fn into_native(self) -> nativeMonitorEvent { + match self { + MonitorEvent::HTLCEvent (mut a, ) => { + nativeMonitorEvent::HTLCEvent ( + *unsafe { Box::from_raw(a.take_inner()) }, + ) + }, + MonitorEvent::CommitmentTxBroadcasted (mut a, ) => { + nativeMonitorEvent::CommitmentTxBroadcasted ( + *unsafe { Box::from_raw(a.take_inner()) }, + ) + }, + } + } + #[allow(unused)] + pub(crate) fn from_native(native: &nativeMonitorEvent) -> Self { + match native { + nativeMonitorEvent::HTLCEvent (ref a, ) => { + let mut a_nonref = (*a).clone(); + MonitorEvent::HTLCEvent ( + crate::chain::channelmonitor::HTLCUpdate { inner: Box::into_raw(Box::new(a_nonref)), is_owned: true }, + ) + }, + nativeMonitorEvent::CommitmentTxBroadcasted (ref a, ) => { + let mut a_nonref = (*a).clone(); + MonitorEvent::CommitmentTxBroadcasted ( + crate::chain::transaction::OutPoint { inner: Box::into_raw(Box::new(a_nonref)), is_owned: true }, + ) + }, + } + } + #[allow(unused)] + pub(crate) fn native_into(native: nativeMonitorEvent) -> Self { + match native { + nativeMonitorEvent::HTLCEvent (mut a, ) => { + MonitorEvent::HTLCEvent ( + crate::chain::channelmonitor::HTLCUpdate { inner: Box::into_raw(Box::new(a)), is_owned: true }, + ) + }, + nativeMonitorEvent::CommitmentTxBroadcasted (mut a, ) => { + MonitorEvent::CommitmentTxBroadcasted ( + crate::chain::transaction::OutPoint { inner: Box::into_raw(Box::new(a)), is_owned: true }, + ) + }, + } + } +} +#[no_mangle] +pub extern "C" fn MonitorEvent_free(this_ptr: MonitorEvent) { } +#[no_mangle] +pub extern "C" fn MonitorEvent_clone(orig: &MonitorEvent) -> MonitorEvent { + orig.clone() +} + +use lightning::chain::channelmonitor::HTLCUpdate as nativeHTLCUpdateImport; +type nativeHTLCUpdate = nativeHTLCUpdateImport; + +/// Simple structure sent back by `chain::Watch` when an HTLC from a forward channel is detected on +/// chain. Used to update the corresponding HTLC in the backward channel. Failing to pass the +/// preimage claim backward will lead to loss of funds. +/// +/// [`chain::Watch`]: ../trait.Watch.html +#[must_use] +#[repr(C)] +pub struct HTLCUpdate { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeHTLCUpdate, + pub is_owned: bool, +} + +impl Drop for HTLCUpdate { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeHTLCUpdate>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn HTLCUpdate_free(this_ptr: HTLCUpdate) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn HTLCUpdate_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeHTLCUpdate); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl HTLCUpdate { + pub(crate) fn take_inner(mut self) -> *mut nativeHTLCUpdate { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +impl Clone for HTLCUpdate { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeHTLCUpdate>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn HTLCUpdate_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeHTLCUpdate)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn HTLCUpdate_clone(orig: &HTLCUpdate) -> HTLCUpdate { + orig.clone() +} +#[no_mangle] +pub extern "C" fn HTLCUpdate_write(obj: &HTLCUpdate) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn HTLCUpdate_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeHTLCUpdate) }) +} +#[no_mangle] +pub extern "C" fn HTLCUpdate_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_HTLCUpdateDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::chain::channelmonitor::HTLCUpdate { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} + +use lightning::chain::channelmonitor::ChannelMonitor as nativeChannelMonitorImport; +type nativeChannelMonitor = nativeChannelMonitorImport; + +/// A ChannelMonitor handles chain events (blocks connected and disconnected) and generates +/// on-chain transactions to ensure no loss of funds occurs. +/// +/// You MUST ensure that no ChannelMonitors for a given channel anywhere contain out-of-date +/// information and are actively monitoring the chain. +/// +/// Pending Events or updated HTLCs which have not yet been read out by +/// get_and_clear_pending_monitor_events or get_and_clear_pending_events are serialized to disk and +/// reloaded at deserialize-time. Thus, you must ensure that, when handling events, all events +/// gotten are fully handled before re-serializing the new state. +/// +/// Note that the deserializer is only implemented for (BlockHash, ChannelMonitor), which +/// tells you the last block hash which was block_connect()ed. You MUST rescan any blocks along +/// the \"reorg path\" (ie disconnecting blocks until you find a common ancestor from both the +/// returned block hash and the the current chain and then reconnecting blocks to get to the +/// best chain) upon deserializing the object! +#[must_use] +#[repr(C)] +pub struct ChannelMonitor { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeChannelMonitor, + pub is_owned: bool, +} + +impl Drop for ChannelMonitor { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeChannelMonitor>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn ChannelMonitor_free(this_ptr: ChannelMonitor) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn ChannelMonitor_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeChannelMonitor); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl ChannelMonitor { + pub(crate) fn take_inner(mut self) -> *mut nativeChannelMonitor { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +#[no_mangle] +pub extern "C" fn ChannelMonitor_write(obj: &ChannelMonitor) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn ChannelMonitor_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeChannelMonitor) }) +} +/// Updates a ChannelMonitor on the basis of some new information provided by the Channel +/// itself. +/// +/// panics if the given update is not the next update by update_id. +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelMonitor_update_monitor(this_arg: &ChannelMonitor, updates: &crate::chain::channelmonitor::ChannelMonitorUpdate, broadcaster: &crate::chain::chaininterface::BroadcasterInterface, fee_estimator: &crate::chain::chaininterface::FeeEstimator, logger: &crate::util::logger::Logger) -> crate::c_types::derived::CResult_NoneMonitorUpdateErrorZ { + let mut ret = unsafe { &*this_arg.inner }.update_monitor(unsafe { &*updates.inner }, broadcaster, fee_estimator, logger); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::chain::channelmonitor::MonitorUpdateError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} + +/// Gets the update_id from the latest ChannelMonitorUpdate which was applied to this +/// ChannelMonitor. +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelMonitor_get_latest_update_id(this_arg: &ChannelMonitor) -> u64 { + let mut ret = unsafe { &*this_arg.inner }.get_latest_update_id(); + ret +} + +/// Gets the funding transaction outpoint of the channel this ChannelMonitor is monitoring for. +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelMonitor_get_funding_txo(this_arg: &ChannelMonitor) -> crate::c_types::derived::C2Tuple_OutPointScriptZ { + let mut ret = unsafe { &*this_arg.inner }.get_funding_txo(); + let (mut orig_ret_0, mut orig_ret_1) = ret; let mut local_ret = (crate::chain::transaction::OutPoint { inner: Box::into_raw(Box::new(orig_ret_0)), is_owned: true }, orig_ret_1.into_bytes().into()).into(); + local_ret +} + +/// Get the list of HTLCs who's status has been updated on chain. This should be called by +/// ChannelManager via [`chain::Watch::release_pending_monitor_events`]. +/// +/// [`chain::Watch::release_pending_monitor_events`]: ../trait.Watch.html#tymethod.release_pending_monitor_events +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelMonitor_get_and_clear_pending_monitor_events(this_arg: &ChannelMonitor) -> crate::c_types::derived::CVec_MonitorEventZ { + let mut ret = unsafe { &*this_arg.inner }.get_and_clear_pending_monitor_events(); + let mut local_ret = Vec::new(); for mut item in ret.drain(..) { local_ret.push( { crate::chain::channelmonitor::MonitorEvent::native_into(item) }); }; + local_ret.into() +} + +/// Gets the list of pending events which were generated by previous actions, clearing the list +/// in the process. +/// +/// This is called by ChainMonitor::get_and_clear_pending_events() and is equivalent to +/// EventsProvider::get_and_clear_pending_events() except that it requires &mut self as we do +/// no internal locking in ChannelMonitors. +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelMonitor_get_and_clear_pending_events(this_arg: &ChannelMonitor) -> crate::c_types::derived::CVec_EventZ { + let mut ret = unsafe { &*this_arg.inner }.get_and_clear_pending_events(); + let mut local_ret = Vec::new(); for mut item in ret.drain(..) { local_ret.push( { crate::util::events::Event::native_into(item) }); }; + local_ret.into() +} + +/// Used by ChannelManager deserialization to broadcast the latest holder state if its copy of +/// the Channel was out-of-date. You may use it to get a broadcastable holder toxic tx in case of +/// fallen-behind, i.e when receiving a channel_reestablish with a proof that our counterparty side knows +/// a higher revocation secret than the holder commitment number we are aware of. Broadcasting these +/// transactions are UNSAFE, as they allow counterparty side to punish you. Nevertheless you may want to +/// broadcast them if counterparty don't close channel with his higher commitment transaction after a +/// substantial amount of time (a month or even a year) to get back funds. Best may be to contact +/// out-of-band the other node operator to coordinate with him if option is available to you. +/// In any-case, choice is up to the user. +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelMonitor_get_latest_holder_commitment_txn(this_arg: &ChannelMonitor, logger: &crate::util::logger::Logger) -> crate::c_types::derived::CVec_TransactionZ { + let mut ret = unsafe { &*this_arg.inner }.get_latest_holder_commitment_txn(logger); + let mut local_ret = Vec::new(); for mut item in ret.drain(..) { local_ret.push( { let mut local_ret_0 = ::bitcoin::consensus::encode::serialize(&item); crate::c_types::Transaction::from_vec(local_ret_0) }); }; + local_ret.into() +} + +/// Processes transactions in a newly connected block, which may result in any of the following: +/// - update the monitor's state against resolved HTLCs +/// - punish the counterparty in the case of seeing a revoked commitment transaction +/// - force close the channel and claim/timeout incoming/outgoing HTLCs if near expiration +/// - detect settled outputs for later spending +/// - schedule and bump any in-flight claims +/// +/// Returns any new outputs to watch from `txdata`; after called, these are also included in +/// [`get_outputs_to_watch`]. +/// +/// [`get_outputs_to_watch`]: #method.get_outputs_to_watch +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelMonitor_block_connected(this_arg: &ChannelMonitor, header: *const [u8; 80], mut txdata: crate::c_types::derived::CVec_C2Tuple_usizeTransactionZZ, mut height: u32, mut broadcaster: crate::chain::chaininterface::BroadcasterInterface, mut fee_estimator: crate::chain::chaininterface::FeeEstimator, mut logger: crate::util::logger::Logger) -> crate::c_types::derived::CVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ { + let mut local_txdata = Vec::new(); for mut item in txdata.into_rust().drain(..) { local_txdata.push( { let (mut orig_txdata_0_0, mut orig_txdata_0_1) = item.to_rust(); let mut local_txdata_0 = (orig_txdata_0_0, orig_txdata_0_1.into_bitcoin()); local_txdata_0 }); }; + let mut ret = unsafe { &*this_arg.inner }.block_connected(&::bitcoin::consensus::encode::deserialize(unsafe { &*header }).unwrap(), &local_txdata.iter().map(|(a, b)| (*a, b)).collect::>()[..], height, broadcaster, fee_estimator, logger); + let mut local_ret = Vec::new(); for mut item in ret.drain(..) { local_ret.push( { let (mut orig_ret_0_0, mut orig_ret_0_1) = item; let mut local_orig_ret_0_1 = Vec::new(); for mut item in orig_ret_0_1.drain(..) { local_orig_ret_0_1.push( { let (mut orig_orig_ret_0_1_0_0, mut orig_orig_ret_0_1_0_1) = item; let mut local_orig_ret_0_1_0 = (orig_orig_ret_0_1_0_0, crate::c_types::TxOut::from_rust(orig_orig_ret_0_1_0_1)).into(); local_orig_ret_0_1_0 }); }; let mut local_ret_0 = (crate::c_types::ThirtyTwoBytes { data: orig_ret_0_0.into_inner() }, local_orig_ret_0_1.into()).into(); local_ret_0 }); }; + local_ret.into() +} + +/// Determines if the disconnected block contained any transactions of interest and updates +/// appropriately. +#[no_mangle] +pub extern "C" fn ChannelMonitor_block_disconnected(this_arg: &ChannelMonitor, header: *const [u8; 80], mut height: u32, mut broadcaster: crate::chain::chaininterface::BroadcasterInterface, mut fee_estimator: crate::chain::chaininterface::FeeEstimator, mut logger: crate::util::logger::Logger) { + unsafe { &*this_arg.inner }.block_disconnected(&::bitcoin::consensus::encode::deserialize(unsafe { &*header }).unwrap(), height, broadcaster, fee_estimator, logger) +} + +/// `Persist` defines behavior for persisting channel monitors: this could mean +/// writing once to disk, and/or uploading to one or more backup services. +/// +/// Note that for every new monitor, you **must** persist the new `ChannelMonitor` +/// to disk/backups. And, on every update, you **must** persist either the +/// `ChannelMonitorUpdate` or the updated monitor itself. Otherwise, there is risk +/// of situations such as revoking a transaction, then crashing before this +/// revocation can be persisted, then unintentionally broadcasting a revoked +/// transaction and losing money. This is a risk because previous channel states +/// are toxic, so it's important that whatever channel state is persisted is +/// kept up-to-date. +#[repr(C)] +pub struct Persist { + pub this_arg: *mut c_void, + /// Persist a new channel's data. The data can be stored any way you want, but + /// the identifier provided by Rust-Lightning is the channel's outpoint (and + /// it is up to you to maintain a correct mapping between the outpoint and the + /// stored channel data). Note that you **must** persist every new monitor to + /// disk. See the `Persist` trait documentation for more details. + /// + /// See [`ChannelMonitor::serialize_for_disk`] for writing out a `ChannelMonitor`, + /// and [`ChannelMonitorUpdateErr`] for requirements when returning errors. + /// + /// [`ChannelMonitor::serialize_for_disk`]: struct.ChannelMonitor.html#method.serialize_for_disk + /// [`ChannelMonitorUpdateErr`]: enum.ChannelMonitorUpdateErr.html + #[must_use] + pub persist_new_channel: extern "C" fn (this_arg: *const c_void, id: crate::chain::transaction::OutPoint, data: &crate::chain::channelmonitor::ChannelMonitor) -> crate::c_types::derived::CResult_NoneChannelMonitorUpdateErrZ, + /// Update one channel's data. The provided `ChannelMonitor` has already + /// applied the given update. + /// + /// Note that on every update, you **must** persist either the + /// `ChannelMonitorUpdate` or the updated monitor itself to disk/backups. See + /// the `Persist` trait documentation for more details. + /// + /// If an implementer chooses to persist the updates only, they need to make + /// sure that all the updates are applied to the `ChannelMonitors` *before* + /// the set of channel monitors is given to the `ChannelManager` + /// deserialization routine. See [`ChannelMonitor::update_monitor`] for + /// applying a monitor update to a monitor. If full `ChannelMonitors` are + /// persisted, then there is no need to persist individual updates. + /// + /// Note that there could be a performance tradeoff between persisting complete + /// channel monitors on every update vs. persisting only updates and applying + /// them in batches. The size of each monitor grows `O(number of state updates)` + /// whereas updates are small and `O(1)`. + /// + /// See [`ChannelMonitor::serialize_for_disk`] for writing out a `ChannelMonitor`, + /// [`ChannelMonitorUpdate::write`] for writing out an update, and + /// [`ChannelMonitorUpdateErr`] for requirements when returning errors. + /// + /// [`ChannelMonitor::update_monitor`]: struct.ChannelMonitor.html#impl-1 + /// [`ChannelMonitor::serialize_for_disk`]: struct.ChannelMonitor.html#method.serialize_for_disk + /// [`ChannelMonitorUpdate::write`]: struct.ChannelMonitorUpdate.html#method.write + /// [`ChannelMonitorUpdateErr`]: enum.ChannelMonitorUpdateErr.html + #[must_use] + pub update_persisted_channel: extern "C" fn (this_arg: *const c_void, id: crate::chain::transaction::OutPoint, update: &crate::chain::channelmonitor::ChannelMonitorUpdate, data: &crate::chain::channelmonitor::ChannelMonitor) -> crate::c_types::derived::CResult_NoneChannelMonitorUpdateErrZ, + pub free: Option, +} +unsafe impl Send for Persist {} +unsafe impl Sync for Persist {} + +use lightning::chain::channelmonitor::Persist as rustPersist; +impl rustPersist for Persist { + fn persist_new_channel(&self, id: lightning::chain::transaction::OutPoint, data: &lightning::chain::channelmonitor::ChannelMonitor) -> Result<(), lightning::chain::channelmonitor::ChannelMonitorUpdateErr> { + let mut ret = (self.persist_new_channel)(self.this_arg, crate::chain::transaction::OutPoint { inner: Box::into_raw(Box::new(id)), is_owned: true }, &crate::chain::channelmonitor::ChannelMonitor { inner: unsafe { (data as *const _) as *mut _ }, is_owned: false }); + let mut local_ret = match ret.result_ok { true => Ok( { () /*(*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.result)) })*/ }), false => Err( { (*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.err)) }).into_native() })}; + local_ret + } + fn update_persisted_channel(&self, id: lightning::chain::transaction::OutPoint, update: &lightning::chain::channelmonitor::ChannelMonitorUpdate, data: &lightning::chain::channelmonitor::ChannelMonitor) -> Result<(), lightning::chain::channelmonitor::ChannelMonitorUpdateErr> { + let mut ret = (self.update_persisted_channel)(self.this_arg, crate::chain::transaction::OutPoint { inner: Box::into_raw(Box::new(id)), is_owned: true }, &crate::chain::channelmonitor::ChannelMonitorUpdate { inner: unsafe { (update as *const _) as *mut _ }, is_owned: false }, &crate::chain::channelmonitor::ChannelMonitor { inner: unsafe { (data as *const _) as *mut _ }, is_owned: false }); + let mut local_ret = match ret.result_ok { true => Ok( { () /*(*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.result)) })*/ }), false => Err( { (*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.err)) }).into_native() })}; + local_ret + } +} + +// We're essentially a pointer already, or at least a set of pointers, so allow us to be used +// directly as a Deref trait in higher-level structs: +impl std::ops::Deref for Persist { + type Target = Self; + fn deref(&self) -> &Self { + self + } +} +/// Calls the free function if one is set +#[no_mangle] +pub extern "C" fn Persist_free(this_ptr: Persist) { } +impl Drop for Persist { + fn drop(&mut self) { + if let Some(f) = self.free { + f(self.this_arg); + } + } +} +#[no_mangle] +pub extern "C" fn C2Tuple_BlockHashChannelMonitorZ_read(ser: crate::c_types::u8slice, arg: &crate::chain::keysinterface::KeysInterface) -> crate::c_types::derived::CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ { + let arg_conv = arg; + let res: Result<(bitcoin::hash_types::BlockHash, lightning::chain::channelmonitor::ChannelMonitor), lightning::ln::msgs::DecodeError> = crate::c_types::deserialize_obj_arg(ser, arg_conv); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { let (mut orig_res_0_0, mut orig_res_0_1) = o; let mut local_res_0 = (crate::c_types::ThirtyTwoBytes { data: orig_res_0_0.into_inner() }, crate::chain::channelmonitor::ChannelMonitor { inner: Box::into_raw(Box::new(orig_res_0_1)), is_owned: true }).into(); local_res_0 }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} diff --git a/lightning-c-bindings/src/chain/keysinterface.rs b/lightning-c-bindings/src/chain/keysinterface.rs new file mode 100644 index 0000000..abd7796 --- /dev/null +++ b/lightning-c-bindings/src/chain/keysinterface.rs @@ -0,0 +1,1267 @@ +//! keysinterface provides keys into rust-lightning and defines some useful enums which describe +//! spendable on-chain outputs which the user owns and is responsible for using just as any other +//! on-chain output which is theirs. + +use std::ffi::c_void; +use bitcoin::hashes::Hash; +use crate::c_types::*; + + +use lightning::chain::keysinterface::DelayedPaymentOutputDescriptor as nativeDelayedPaymentOutputDescriptorImport; +type nativeDelayedPaymentOutputDescriptor = nativeDelayedPaymentOutputDescriptorImport; + +/// Information about a spendable output to a P2WSH script. See +/// SpendableOutputDescriptor::DelayedPaymentOutput for more details on how to spend this. +#[must_use] +#[repr(C)] +pub struct DelayedPaymentOutputDescriptor { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeDelayedPaymentOutputDescriptor, + pub is_owned: bool, +} + +impl Drop for DelayedPaymentOutputDescriptor { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeDelayedPaymentOutputDescriptor>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn DelayedPaymentOutputDescriptor_free(this_ptr: DelayedPaymentOutputDescriptor) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn DelayedPaymentOutputDescriptor_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeDelayedPaymentOutputDescriptor); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl DelayedPaymentOutputDescriptor { + pub(crate) fn take_inner(mut self) -> *mut nativeDelayedPaymentOutputDescriptor { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The outpoint which is spendable +#[no_mangle] +pub extern "C" fn DelayedPaymentOutputDescriptor_get_outpoint(this_ptr: &DelayedPaymentOutputDescriptor) -> crate::chain::transaction::OutPoint { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.outpoint; + crate::chain::transaction::OutPoint { inner: unsafe { ( (&((*inner_val)) as *const _) as *mut _) }, is_owned: false } +} +/// The outpoint which is spendable +#[no_mangle] +pub extern "C" fn DelayedPaymentOutputDescriptor_set_outpoint(this_ptr: &mut DelayedPaymentOutputDescriptor, mut val: crate::chain::transaction::OutPoint) { + unsafe { &mut *this_ptr.inner }.outpoint = *unsafe { Box::from_raw(val.take_inner()) }; +} +/// Per commitment point to derive delayed_payment_key by key holder +#[no_mangle] +pub extern "C" fn DelayedPaymentOutputDescriptor_get_per_commitment_point(this_ptr: &DelayedPaymentOutputDescriptor) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.per_commitment_point; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// Per commitment point to derive delayed_payment_key by key holder +#[no_mangle] +pub extern "C" fn DelayedPaymentOutputDescriptor_set_per_commitment_point(this_ptr: &mut DelayedPaymentOutputDescriptor, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.per_commitment_point = val.into_rust(); +} +/// The nSequence value which must be set in the spending input to satisfy the OP_CSV in +/// the witness_script. +#[no_mangle] +pub extern "C" fn DelayedPaymentOutputDescriptor_get_to_self_delay(this_ptr: &DelayedPaymentOutputDescriptor) -> u16 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.to_self_delay; + (*inner_val) +} +/// The nSequence value which must be set in the spending input to satisfy the OP_CSV in +/// the witness_script. +#[no_mangle] +pub extern "C" fn DelayedPaymentOutputDescriptor_set_to_self_delay(this_ptr: &mut DelayedPaymentOutputDescriptor, mut val: u16) { + unsafe { &mut *this_ptr.inner }.to_self_delay = val; +} +/// The output which is referenced by the given outpoint +#[no_mangle] +pub extern "C" fn DelayedPaymentOutputDescriptor_set_output(this_ptr: &mut DelayedPaymentOutputDescriptor, mut val: crate::c_types::TxOut) { + unsafe { &mut *this_ptr.inner }.output = val.into_rust(); +} +/// The revocation point specific to the commitment transaction which was broadcast. Used to +/// derive the witnessScript for this output. +#[no_mangle] +pub extern "C" fn DelayedPaymentOutputDescriptor_get_revocation_pubkey(this_ptr: &DelayedPaymentOutputDescriptor) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.revocation_pubkey; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// The revocation point specific to the commitment transaction which was broadcast. Used to +/// derive the witnessScript for this output. +#[no_mangle] +pub extern "C" fn DelayedPaymentOutputDescriptor_set_revocation_pubkey(this_ptr: &mut DelayedPaymentOutputDescriptor, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.revocation_pubkey = val.into_rust(); +} +/// Arbitrary identification information returned by a call to +/// `Sign::channel_keys_id()`. This may be useful in re-deriving keys used in +/// the channel to spend the output. +#[no_mangle] +pub extern "C" fn DelayedPaymentOutputDescriptor_get_channel_keys_id(this_ptr: &DelayedPaymentOutputDescriptor) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.channel_keys_id; + &(*inner_val) +} +/// Arbitrary identification information returned by a call to +/// `Sign::channel_keys_id()`. This may be useful in re-deriving keys used in +/// the channel to spend the output. +#[no_mangle] +pub extern "C" fn DelayedPaymentOutputDescriptor_set_channel_keys_id(this_ptr: &mut DelayedPaymentOutputDescriptor, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.channel_keys_id = val.data; +} +/// The value of the channel which this output originated from, possibly indirectly. +#[no_mangle] +pub extern "C" fn DelayedPaymentOutputDescriptor_get_channel_value_satoshis(this_ptr: &DelayedPaymentOutputDescriptor) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.channel_value_satoshis; + (*inner_val) +} +/// The value of the channel which this output originated from, possibly indirectly. +#[no_mangle] +pub extern "C" fn DelayedPaymentOutputDescriptor_set_channel_value_satoshis(this_ptr: &mut DelayedPaymentOutputDescriptor, mut val: u64) { + unsafe { &mut *this_ptr.inner }.channel_value_satoshis = val; +} +#[must_use] +#[no_mangle] +pub extern "C" fn DelayedPaymentOutputDescriptor_new(mut outpoint_arg: crate::chain::transaction::OutPoint, mut per_commitment_point_arg: crate::c_types::PublicKey, mut to_self_delay_arg: u16, mut output_arg: crate::c_types::TxOut, mut revocation_pubkey_arg: crate::c_types::PublicKey, mut channel_keys_id_arg: crate::c_types::ThirtyTwoBytes, mut channel_value_satoshis_arg: u64) -> DelayedPaymentOutputDescriptor { + DelayedPaymentOutputDescriptor { inner: Box::into_raw(Box::new(nativeDelayedPaymentOutputDescriptor { + outpoint: *unsafe { Box::from_raw(outpoint_arg.take_inner()) }, + per_commitment_point: per_commitment_point_arg.into_rust(), + to_self_delay: to_self_delay_arg, + output: output_arg.into_rust(), + revocation_pubkey: revocation_pubkey_arg.into_rust(), + channel_keys_id: channel_keys_id_arg.data, + channel_value_satoshis: channel_value_satoshis_arg, + })), is_owned: true } +} +impl Clone for DelayedPaymentOutputDescriptor { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeDelayedPaymentOutputDescriptor>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn DelayedPaymentOutputDescriptor_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeDelayedPaymentOutputDescriptor)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn DelayedPaymentOutputDescriptor_clone(orig: &DelayedPaymentOutputDescriptor) -> DelayedPaymentOutputDescriptor { + orig.clone() +} + +use lightning::chain::keysinterface::StaticPaymentOutputDescriptor as nativeStaticPaymentOutputDescriptorImport; +type nativeStaticPaymentOutputDescriptor = nativeStaticPaymentOutputDescriptorImport; + +/// Information about a spendable output to our \"payment key\". See +/// SpendableOutputDescriptor::StaticPaymentOutput for more details on how to spend this. +#[must_use] +#[repr(C)] +pub struct StaticPaymentOutputDescriptor { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeStaticPaymentOutputDescriptor, + pub is_owned: bool, +} + +impl Drop for StaticPaymentOutputDescriptor { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeStaticPaymentOutputDescriptor>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn StaticPaymentOutputDescriptor_free(this_ptr: StaticPaymentOutputDescriptor) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn StaticPaymentOutputDescriptor_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeStaticPaymentOutputDescriptor); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl StaticPaymentOutputDescriptor { + pub(crate) fn take_inner(mut self) -> *mut nativeStaticPaymentOutputDescriptor { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The outpoint which is spendable +#[no_mangle] +pub extern "C" fn StaticPaymentOutputDescriptor_get_outpoint(this_ptr: &StaticPaymentOutputDescriptor) -> crate::chain::transaction::OutPoint { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.outpoint; + crate::chain::transaction::OutPoint { inner: unsafe { ( (&((*inner_val)) as *const _) as *mut _) }, is_owned: false } +} +/// The outpoint which is spendable +#[no_mangle] +pub extern "C" fn StaticPaymentOutputDescriptor_set_outpoint(this_ptr: &mut StaticPaymentOutputDescriptor, mut val: crate::chain::transaction::OutPoint) { + unsafe { &mut *this_ptr.inner }.outpoint = *unsafe { Box::from_raw(val.take_inner()) }; +} +/// The output which is referenced by the given outpoint +#[no_mangle] +pub extern "C" fn StaticPaymentOutputDescriptor_set_output(this_ptr: &mut StaticPaymentOutputDescriptor, mut val: crate::c_types::TxOut) { + unsafe { &mut *this_ptr.inner }.output = val.into_rust(); +} +/// Arbitrary identification information returned by a call to +/// `Sign::channel_keys_id()`. This may be useful in re-deriving keys used in +/// the channel to spend the output. +#[no_mangle] +pub extern "C" fn StaticPaymentOutputDescriptor_get_channel_keys_id(this_ptr: &StaticPaymentOutputDescriptor) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.channel_keys_id; + &(*inner_val) +} +/// Arbitrary identification information returned by a call to +/// `Sign::channel_keys_id()`. This may be useful in re-deriving keys used in +/// the channel to spend the output. +#[no_mangle] +pub extern "C" fn StaticPaymentOutputDescriptor_set_channel_keys_id(this_ptr: &mut StaticPaymentOutputDescriptor, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.channel_keys_id = val.data; +} +/// The value of the channel which this transactions spends. +#[no_mangle] +pub extern "C" fn StaticPaymentOutputDescriptor_get_channel_value_satoshis(this_ptr: &StaticPaymentOutputDescriptor) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.channel_value_satoshis; + (*inner_val) +} +/// The value of the channel which this transactions spends. +#[no_mangle] +pub extern "C" fn StaticPaymentOutputDescriptor_set_channel_value_satoshis(this_ptr: &mut StaticPaymentOutputDescriptor, mut val: u64) { + unsafe { &mut *this_ptr.inner }.channel_value_satoshis = val; +} +#[must_use] +#[no_mangle] +pub extern "C" fn StaticPaymentOutputDescriptor_new(mut outpoint_arg: crate::chain::transaction::OutPoint, mut output_arg: crate::c_types::TxOut, mut channel_keys_id_arg: crate::c_types::ThirtyTwoBytes, mut channel_value_satoshis_arg: u64) -> StaticPaymentOutputDescriptor { + StaticPaymentOutputDescriptor { inner: Box::into_raw(Box::new(nativeStaticPaymentOutputDescriptor { + outpoint: *unsafe { Box::from_raw(outpoint_arg.take_inner()) }, + output: output_arg.into_rust(), + channel_keys_id: channel_keys_id_arg.data, + channel_value_satoshis: channel_value_satoshis_arg, + })), is_owned: true } +} +impl Clone for StaticPaymentOutputDescriptor { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeStaticPaymentOutputDescriptor>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn StaticPaymentOutputDescriptor_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeStaticPaymentOutputDescriptor)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn StaticPaymentOutputDescriptor_clone(orig: &StaticPaymentOutputDescriptor) -> StaticPaymentOutputDescriptor { + orig.clone() +} +/// When on-chain outputs are created by rust-lightning (which our counterparty is not able to +/// claim at any point in the future) an event is generated which you must track and be able to +/// spend on-chain. The information needed to do this is provided in this enum, including the +/// outpoint describing which txid and output index is available, the full output which exists at +/// that txid/index, and any keys or other information required to sign. +#[must_use] +#[derive(Clone)] +#[repr(C)] +pub enum SpendableOutputDescriptor { + /// An output to a script which was provided via KeysInterface directly, either from + /// `get_destination_script()` or `get_shutdown_pubkey()`, thus you should already know how to + /// spend it. No secret keys are provided as rust-lightning was never given any key. + /// These may include outputs from a transaction punishing our counterparty or claiming an HTLC + /// on-chain using the payment preimage or after it has timed out. + StaticOutput { + outpoint: crate::chain::transaction::OutPoint, + output: crate::c_types::TxOut, + }, + /// An output to a P2WSH script which can be spent with a single signature after a CSV delay. + /// + /// The witness in the spending input should be: + /// (MINIMALIF standard rule) + /// + /// Note that the nSequence field in the spending input must be set to to_self_delay + /// (which means the transaction is not broadcastable until at least to_self_delay + /// blocks after the outpoint confirms). + /// + /// These are generally the result of a \"revocable\" output to us, spendable only by us unless + /// it is an output from an old state which we broadcast (which should never happen). + /// + /// To derive the delayed_payment key which is used to sign for this input, you must pass the + /// holder delayed_payment_base_key (ie the private key which corresponds to the pubkey in + /// Sign::pubkeys().delayed_payment_basepoint) and the provided per_commitment_point to + /// chan_utils::derive_private_key. The public key can be generated without the secret key + /// using chan_utils::derive_public_key and only the delayed_payment_basepoint which appears in + /// Sign::pubkeys(). + /// + /// To derive the revocation_pubkey provided here (which is used in the witness + /// script generation), you must pass the counterparty revocation_basepoint (which appears in the + /// call to Sign::ready_channel) and the provided per_commitment point + /// to chan_utils::derive_public_revocation_key. + /// + /// The witness script which is hashed and included in the output script_pubkey may be + /// regenerated by passing the revocation_pubkey (derived as above), our delayed_payment pubkey + /// (derived as above), and the to_self_delay contained here to + /// chan_utils::get_revokeable_redeemscript. + DelayedPaymentOutput(crate::chain::keysinterface::DelayedPaymentOutputDescriptor), + /// An output to a P2WPKH, spendable exclusively by our payment key (ie the private key which + /// corresponds to the public key in Sign::pubkeys().payment_point). + /// The witness in the spending input, is, thus, simply: + /// + /// + /// These are generally the result of our counterparty having broadcast the current state, + /// allowing us to claim the non-HTLC-encumbered outputs immediately. + StaticPaymentOutput(crate::chain::keysinterface::StaticPaymentOutputDescriptor), +} +use lightning::chain::keysinterface::SpendableOutputDescriptor as nativeSpendableOutputDescriptor; +impl SpendableOutputDescriptor { + #[allow(unused)] + pub(crate) fn to_native(&self) -> nativeSpendableOutputDescriptor { + match self { + SpendableOutputDescriptor::StaticOutput {ref outpoint, ref output, } => { + let mut outpoint_nonref = (*outpoint).clone(); + let mut output_nonref = (*output).clone(); + nativeSpendableOutputDescriptor::StaticOutput { + outpoint: *unsafe { Box::from_raw(outpoint_nonref.take_inner()) }, + output: output_nonref.into_rust(), + } + }, + SpendableOutputDescriptor::DelayedPaymentOutput (ref a, ) => { + let mut a_nonref = (*a).clone(); + nativeSpendableOutputDescriptor::DelayedPaymentOutput ( + *unsafe { Box::from_raw(a_nonref.take_inner()) }, + ) + }, + SpendableOutputDescriptor::StaticPaymentOutput (ref a, ) => { + let mut a_nonref = (*a).clone(); + nativeSpendableOutputDescriptor::StaticPaymentOutput ( + *unsafe { Box::from_raw(a_nonref.take_inner()) }, + ) + }, + } + } + #[allow(unused)] + pub(crate) fn into_native(self) -> nativeSpendableOutputDescriptor { + match self { + SpendableOutputDescriptor::StaticOutput {mut outpoint, mut output, } => { + nativeSpendableOutputDescriptor::StaticOutput { + outpoint: *unsafe { Box::from_raw(outpoint.take_inner()) }, + output: output.into_rust(), + } + }, + SpendableOutputDescriptor::DelayedPaymentOutput (mut a, ) => { + nativeSpendableOutputDescriptor::DelayedPaymentOutput ( + *unsafe { Box::from_raw(a.take_inner()) }, + ) + }, + SpendableOutputDescriptor::StaticPaymentOutput (mut a, ) => { + nativeSpendableOutputDescriptor::StaticPaymentOutput ( + *unsafe { Box::from_raw(a.take_inner()) }, + ) + }, + } + } + #[allow(unused)] + pub(crate) fn from_native(native: &nativeSpendableOutputDescriptor) -> Self { + match native { + nativeSpendableOutputDescriptor::StaticOutput {ref outpoint, ref output, } => { + let mut outpoint_nonref = (*outpoint).clone(); + let mut output_nonref = (*output).clone(); + SpendableOutputDescriptor::StaticOutput { + outpoint: crate::chain::transaction::OutPoint { inner: Box::into_raw(Box::new(outpoint_nonref)), is_owned: true }, + output: crate::c_types::TxOut::from_rust(output_nonref), + } + }, + nativeSpendableOutputDescriptor::DelayedPaymentOutput (ref a, ) => { + let mut a_nonref = (*a).clone(); + SpendableOutputDescriptor::DelayedPaymentOutput ( + crate::chain::keysinterface::DelayedPaymentOutputDescriptor { inner: Box::into_raw(Box::new(a_nonref)), is_owned: true }, + ) + }, + nativeSpendableOutputDescriptor::StaticPaymentOutput (ref a, ) => { + let mut a_nonref = (*a).clone(); + SpendableOutputDescriptor::StaticPaymentOutput ( + crate::chain::keysinterface::StaticPaymentOutputDescriptor { inner: Box::into_raw(Box::new(a_nonref)), is_owned: true }, + ) + }, + } + } + #[allow(unused)] + pub(crate) fn native_into(native: nativeSpendableOutputDescriptor) -> Self { + match native { + nativeSpendableOutputDescriptor::StaticOutput {mut outpoint, mut output, } => { + SpendableOutputDescriptor::StaticOutput { + outpoint: crate::chain::transaction::OutPoint { inner: Box::into_raw(Box::new(outpoint)), is_owned: true }, + output: crate::c_types::TxOut::from_rust(output), + } + }, + nativeSpendableOutputDescriptor::DelayedPaymentOutput (mut a, ) => { + SpendableOutputDescriptor::DelayedPaymentOutput ( + crate::chain::keysinterface::DelayedPaymentOutputDescriptor { inner: Box::into_raw(Box::new(a)), is_owned: true }, + ) + }, + nativeSpendableOutputDescriptor::StaticPaymentOutput (mut a, ) => { + SpendableOutputDescriptor::StaticPaymentOutput ( + crate::chain::keysinterface::StaticPaymentOutputDescriptor { inner: Box::into_raw(Box::new(a)), is_owned: true }, + ) + }, + } + } +} +#[no_mangle] +pub extern "C" fn SpendableOutputDescriptor_free(this_ptr: SpendableOutputDescriptor) { } +#[no_mangle] +pub extern "C" fn SpendableOutputDescriptor_clone(orig: &SpendableOutputDescriptor) -> SpendableOutputDescriptor { + orig.clone() +} +#[no_mangle] +pub extern "C" fn SpendableOutputDescriptor_write(obj: &SpendableOutputDescriptor) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(&unsafe { &*obj }.to_native()) +} +#[no_mangle] +pub extern "C" fn SpendableOutputDescriptor_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_SpendableOutputDescriptorDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::chain::keysinterface::SpendableOutputDescriptor::native_into(o) }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +/// A trait to sign lightning channel transactions as described in BOLT 3. +/// +/// Signing services could be implemented on a hardware wallet. In this case, +/// the current Sign would be a front-end on top of a communication +/// channel connected to your secure device and lightning key material wouldn't +/// reside on a hot server. Nevertheless, a this deployment would still need +/// to trust the ChannelManager to avoid loss of funds as this latest component +/// could ask to sign commitment transaction with HTLCs paying to attacker pubkeys. +/// +/// A more secure iteration would be to use hashlock (or payment points) to pair +/// invoice/incoming HTLCs with outgoing HTLCs to implement a no-trust-ChannelManager +/// at the price of more state and computation on the hardware wallet side. In the future, +/// we are looking forward to design such interface. +/// +/// In any case, ChannelMonitor or fallback watchtowers are always going to be trusted +/// to act, as liveness and breach reply correctness are always going to be hard requirements +/// of LN security model, orthogonal of key management issues. +#[repr(C)] +pub struct Sign { + pub this_arg: *mut c_void, + /// Gets the per-commitment point for a specific commitment number + /// + /// Note that the commitment number starts at (1 << 48) - 1 and counts backwards. + #[must_use] + pub get_per_commitment_point: extern "C" fn (this_arg: *const c_void, idx: u64) -> crate::c_types::PublicKey, + /// Gets the commitment secret for a specific commitment number as part of the revocation process + /// + /// An external signer implementation should error here if the commitment was already signed + /// and should refuse to sign it in the future. + /// + /// May be called more than once for the same index. + /// + /// Note that the commitment number starts at (1 << 48) - 1 and counts backwards. + #[must_use] + pub release_commitment_secret: extern "C" fn (this_arg: *const c_void, idx: u64) -> crate::c_types::ThirtyTwoBytes, + /// Gets the holder's channel public keys and basepoints + pub pubkeys: crate::ln::chan_utils::ChannelPublicKeys, + /// Fill in the pubkeys field as a reference to it will be given to Rust after this returns + /// Note that this takes a pointer to this object, not the this_ptr like other methods do + /// This function pointer may be NULL if pubkeys is filled in when this object is created and never needs updating. + pub set_pubkeys: Option, + /// Gets an arbitrary identifier describing the set of keys which are provided back to you in + /// some SpendableOutputDescriptor types. This should be sufficient to identify this + /// Sign object uniquely and lookup or re-derive its keys. + #[must_use] + pub channel_keys_id: extern "C" fn (this_arg: *const c_void) -> crate::c_types::ThirtyTwoBytes, + /// Create a signature for a counterparty's commitment transaction and associated HTLC transactions. + /// + /// Note that if signing fails or is rejected, the channel will be force-closed. + #[must_use] + pub sign_counterparty_commitment: extern "C" fn (this_arg: *const c_void, commitment_tx: &crate::ln::chan_utils::CommitmentTransaction) -> crate::c_types::derived::CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ, + /// Create a signatures for a holder's commitment transaction and its claiming HTLC transactions. + /// This will only ever be called with a non-revoked commitment_tx. This will be called with the + /// latest commitment_tx when we initiate a force-close. + /// This will be called with the previous latest, just to get claiming HTLC signatures, if we are + /// reacting to a ChannelMonitor replica that decided to broadcast before it had been updated to + /// the latest. + /// This may be called multiple times for the same transaction. + /// + /// An external signer implementation should check that the commitment has not been revoked. + /// + /// May return Err if key derivation fails. Callers, such as ChannelMonitor, will panic in such a case. + #[must_use] + pub sign_holder_commitment_and_htlcs: extern "C" fn (this_arg: *const c_void, commitment_tx: &crate::ln::chan_utils::HolderCommitmentTransaction) -> crate::c_types::derived::CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ, + /// Create a signature for the given input in a transaction spending an HTLC or commitment + /// transaction output when our counterparty broadcasts an old state. + /// + /// A justice transaction may claim multiples outputs at the same time if timelocks are + /// similar, but only a signature for the input at index `input` should be signed for here. + /// It may be called multiples time for same output(s) if a fee-bump is needed with regards + /// to an upcoming timelock expiration. + /// + /// Amount is value of the output spent by this input, committed to in the BIP 143 signature. + /// + /// per_commitment_key is revocation secret which was provided by our counterparty when they + /// revoked the state which they eventually broadcast. It's not a _holder_ secret key and does + /// not allow the spending of any funds by itself (you need our holder revocation_secret to do + /// so). + /// + /// htlc holds HTLC elements (hash, timelock) if the output being spent is a HTLC output, thus + /// changing the format of the witness script (which is committed to in the BIP 143 + /// signatures). + #[must_use] + pub sign_justice_transaction: extern "C" fn (this_arg: *const c_void, justice_tx: crate::c_types::Transaction, input: usize, amount: u64, per_commitment_key: *const [u8; 32], htlc: &crate::ln::chan_utils::HTLCOutputInCommitment) -> crate::c_types::derived::CResult_SignatureNoneZ, + /// Create a signature for a claiming transaction for a HTLC output on a counterparty's commitment + /// transaction, either offered or received. + /// + /// Such a transaction may claim multiples offered outputs at same time if we know the + /// preimage for each when we create it, but only the input at index `input` should be + /// signed for here. It may be called multiple times for same output(s) if a fee-bump is + /// needed with regards to an upcoming timelock expiration. + /// + /// Witness_script is either a offered or received script as defined in BOLT3 for HTLC + /// outputs. + /// + /// Amount is value of the output spent by this input, committed to in the BIP 143 signature. + /// + /// Per_commitment_point is the dynamic point corresponding to the channel state + /// detected onchain. It has been generated by our counterparty and is used to derive + /// channel state keys, which are then included in the witness script and committed to in the + /// BIP 143 signature. + #[must_use] + pub sign_counterparty_htlc_transaction: extern "C" fn (this_arg: *const c_void, htlc_tx: crate::c_types::Transaction, input: usize, amount: u64, per_commitment_point: crate::c_types::PublicKey, htlc: &crate::ln::chan_utils::HTLCOutputInCommitment) -> crate::c_types::derived::CResult_SignatureNoneZ, + /// Create a signature for a (proposed) closing transaction. + /// + /// Note that, due to rounding, there may be one \"missing\" satoshi, and either party may have + /// chosen to forgo their output as dust. + #[must_use] + pub sign_closing_transaction: extern "C" fn (this_arg: *const c_void, closing_tx: crate::c_types::Transaction) -> crate::c_types::derived::CResult_SignatureNoneZ, + /// Signs a channel announcement message with our funding key, proving it comes from one + /// of the channel participants. + /// + /// Note that if this fails or is rejected, the channel will not be publicly announced and + /// our counterparty may (though likely will not) close the channel on us for violating the + /// protocol. + #[must_use] + pub sign_channel_announcement: extern "C" fn (this_arg: *const c_void, msg: &crate::ln::msgs::UnsignedChannelAnnouncement) -> crate::c_types::derived::CResult_SignatureNoneZ, + /// Set the counterparty static channel data, including basepoints, + /// counterparty_selected/holder_selected_contest_delay and funding outpoint. + /// This is done as soon as the funding outpoint is known. Since these are static channel data, + /// they MUST NOT be allowed to change to different values once set. + /// + /// channel_parameters.is_populated() MUST be true. + /// + /// We bind holder_selected_contest_delay late here for API convenience. + /// + /// Will be called before any signatures are applied. + pub ready_channel: extern "C" fn (this_arg: *mut c_void, channel_parameters: &crate::ln::chan_utils::ChannelTransactionParameters), + pub clone: Option *mut c_void>, + pub write: extern "C" fn (this_arg: *const c_void) -> crate::c_types::derived::CVec_u8Z, + pub free: Option, +} +unsafe impl Send for Sign {} +#[no_mangle] +pub extern "C" fn Sign_clone(orig: &Sign) -> Sign { + Sign { + this_arg: if let Some(f) = orig.clone { (f)(orig.this_arg) } else { orig.this_arg }, + get_per_commitment_point: orig.get_per_commitment_point.clone(), + release_commitment_secret: orig.release_commitment_secret.clone(), + pubkeys: orig.pubkeys.clone(), + set_pubkeys: orig.set_pubkeys.clone(), + channel_keys_id: orig.channel_keys_id.clone(), + sign_counterparty_commitment: orig.sign_counterparty_commitment.clone(), + sign_holder_commitment_and_htlcs: orig.sign_holder_commitment_and_htlcs.clone(), + sign_justice_transaction: orig.sign_justice_transaction.clone(), + sign_counterparty_htlc_transaction: orig.sign_counterparty_htlc_transaction.clone(), + sign_closing_transaction: orig.sign_closing_transaction.clone(), + sign_channel_announcement: orig.sign_channel_announcement.clone(), + ready_channel: orig.ready_channel.clone(), + clone: orig.clone.clone(), + write: orig.write.clone(), + free: orig.free.clone(), + } +} +impl Clone for Sign { + fn clone(&self) -> Self { + Sign_clone(self) + } +} +impl lightning::util::ser::Writeable for Sign { + fn write(&self, w: &mut W) -> Result<(), ::std::io::Error> { + let vec = (self.write)(self.this_arg); + w.write_all(vec.as_slice()) + } +} + +use lightning::chain::keysinterface::Sign as rustSign; +impl rustSign for Sign { + fn get_per_commitment_point(&self, idx: u64, _secp_ctx: &bitcoin::secp256k1::Secp256k1) -> bitcoin::secp256k1::key::PublicKey { + let mut ret = (self.get_per_commitment_point)(self.this_arg, idx); + ret.into_rust() + } + fn release_commitment_secret(&self, idx: u64) -> [u8; 32] { + let mut ret = (self.release_commitment_secret)(self.this_arg, idx); + ret.data + } + fn pubkeys(&self) -> &lightning::ln::chan_utils::ChannelPublicKeys { + if let Some(f) = self.set_pubkeys { + (f)(self); + } + unsafe { &*self.pubkeys.inner } + } + fn channel_keys_id(&self) -> [u8; 32] { + let mut ret = (self.channel_keys_id)(self.this_arg); + ret.data + } + fn sign_counterparty_commitment(&self, commitment_tx: &lightning::ln::chan_utils::CommitmentTransaction, _secp_ctx: &bitcoin::secp256k1::Secp256k1) -> Result<(bitcoin::secp256k1::Signature, Vec), ()> { + let mut ret = (self.sign_counterparty_commitment)(self.this_arg, &crate::ln::chan_utils::CommitmentTransaction { inner: unsafe { (commitment_tx as *const _) as *mut _ }, is_owned: false }); + let mut local_ret = match ret.result_ok { true => Ok( { let (mut orig_ret_0_0, mut orig_ret_0_1) = (*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.result)) }).to_rust(); let mut local_orig_ret_0_1 = Vec::new(); for mut item in orig_ret_0_1.into_rust().drain(..) { local_orig_ret_0_1.push( { item.into_rust() }); }; let mut local_ret_0 = (orig_ret_0_0.into_rust(), local_orig_ret_0_1); local_ret_0 }), false => Err( { () /*(*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.err)) })*/ })}; + local_ret + } + fn sign_holder_commitment_and_htlcs(&self, commitment_tx: &lightning::ln::chan_utils::HolderCommitmentTransaction, _secp_ctx: &bitcoin::secp256k1::Secp256k1) -> Result<(bitcoin::secp256k1::Signature, Vec), ()> { + let mut ret = (self.sign_holder_commitment_and_htlcs)(self.this_arg, &crate::ln::chan_utils::HolderCommitmentTransaction { inner: unsafe { (commitment_tx as *const _) as *mut _ }, is_owned: false }); + let mut local_ret = match ret.result_ok { true => Ok( { let (mut orig_ret_0_0, mut orig_ret_0_1) = (*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.result)) }).to_rust(); let mut local_orig_ret_0_1 = Vec::new(); for mut item in orig_ret_0_1.into_rust().drain(..) { local_orig_ret_0_1.push( { item.into_rust() }); }; let mut local_ret_0 = (orig_ret_0_0.into_rust(), local_orig_ret_0_1); local_ret_0 }), false => Err( { () /*(*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.err)) })*/ })}; + local_ret + } + fn sign_justice_transaction(&self, justice_tx: &bitcoin::blockdata::transaction::Transaction, input: usize, amount: u64, per_commitment_key: &bitcoin::secp256k1::key::SecretKey, htlc: &Option, _secp_ctx: &bitcoin::secp256k1::Secp256k1) -> Result { + let mut local_justice_tx = ::bitcoin::consensus::encode::serialize(justice_tx); + let mut local_htlc = &crate::ln::chan_utils::HTLCOutputInCommitment { inner: unsafe { (if htlc.is_none() { std::ptr::null() } else { { (htlc.as_ref().unwrap()) } } as *const _) as *mut _ }, is_owned: false }; + let mut ret = (self.sign_justice_transaction)(self.this_arg, crate::c_types::Transaction::from_vec(local_justice_tx), input, amount, per_commitment_key.as_ref(), local_htlc); + let mut local_ret = match ret.result_ok { true => Ok( { (*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.result)) }).into_rust() }), false => Err( { () /*(*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.err)) })*/ })}; + local_ret + } + fn sign_counterparty_htlc_transaction(&self, htlc_tx: &bitcoin::blockdata::transaction::Transaction, input: usize, amount: u64, per_commitment_point: &bitcoin::secp256k1::key::PublicKey, htlc: &lightning::ln::chan_utils::HTLCOutputInCommitment, _secp_ctx: &bitcoin::secp256k1::Secp256k1) -> Result { + let mut local_htlc_tx = ::bitcoin::consensus::encode::serialize(htlc_tx); + let mut ret = (self.sign_counterparty_htlc_transaction)(self.this_arg, crate::c_types::Transaction::from_vec(local_htlc_tx), input, amount, crate::c_types::PublicKey::from_rust(&per_commitment_point), &crate::ln::chan_utils::HTLCOutputInCommitment { inner: unsafe { (htlc as *const _) as *mut _ }, is_owned: false }); + let mut local_ret = match ret.result_ok { true => Ok( { (*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.result)) }).into_rust() }), false => Err( { () /*(*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.err)) })*/ })}; + local_ret + } + fn sign_closing_transaction(&self, closing_tx: &bitcoin::blockdata::transaction::Transaction, _secp_ctx: &bitcoin::secp256k1::Secp256k1) -> Result { + let mut local_closing_tx = ::bitcoin::consensus::encode::serialize(closing_tx); + let mut ret = (self.sign_closing_transaction)(self.this_arg, crate::c_types::Transaction::from_vec(local_closing_tx)); + let mut local_ret = match ret.result_ok { true => Ok( { (*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.result)) }).into_rust() }), false => Err( { () /*(*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.err)) })*/ })}; + local_ret + } + fn sign_channel_announcement(&self, msg: &lightning::ln::msgs::UnsignedChannelAnnouncement, _secp_ctx: &bitcoin::secp256k1::Secp256k1) -> Result { + let mut ret = (self.sign_channel_announcement)(self.this_arg, &crate::ln::msgs::UnsignedChannelAnnouncement { inner: unsafe { (msg as *const _) as *mut _ }, is_owned: false }); + let mut local_ret = match ret.result_ok { true => Ok( { (*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.result)) }).into_rust() }), false => Err( { () /*(*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.err)) })*/ })}; + local_ret + } + fn ready_channel(&mut self, channel_parameters: &lightning::ln::chan_utils::ChannelTransactionParameters) { + (self.ready_channel)(self.this_arg, &crate::ln::chan_utils::ChannelTransactionParameters { inner: unsafe { (channel_parameters as *const _) as *mut _ }, is_owned: false }) + } +} + +// We're essentially a pointer already, or at least a set of pointers, so allow us to be used +// directly as a Deref trait in higher-level structs: +impl std::ops::Deref for Sign { + type Target = Self; + fn deref(&self) -> &Self { + self + } +} +/// Calls the free function if one is set +#[no_mangle] +pub extern "C" fn Sign_free(this_ptr: Sign) { } +impl Drop for Sign { + fn drop(&mut self) { + if let Some(f) = self.free { + f(self.this_arg); + } + } +} +/// A trait to describe an object which can get user secrets and key material. +#[repr(C)] +pub struct KeysInterface { + pub this_arg: *mut c_void, + /// Get node secret key (aka node_id or network_key). + /// + /// This method must return the same value each time it is called. + #[must_use] + pub get_node_secret: extern "C" fn (this_arg: *const c_void) -> crate::c_types::SecretKey, + /// Get a script pubkey which we send funds to when claiming on-chain contestable outputs. + /// + /// This method should return a different value each time it is called, to avoid linking + /// on-chain funds across channels as controlled to the same user. + #[must_use] + pub get_destination_script: extern "C" fn (this_arg: *const c_void) -> crate::c_types::derived::CVec_u8Z, + /// Get a public key which we will send funds to (in the form of a P2WPKH output) when closing + /// a channel. + /// + /// This method should return a different value each time it is called, to avoid linking + /// on-chain funds across channels as controlled to the same user. + #[must_use] + pub get_shutdown_pubkey: extern "C" fn (this_arg: *const c_void) -> crate::c_types::PublicKey, + /// Get a new set of Sign for per-channel secrets. These MUST be unique even if you + /// restarted with some stale data! + /// + /// This method must return a different value each time it is called. + #[must_use] + pub get_channel_signer: extern "C" fn (this_arg: *const c_void, inbound: bool, channel_value_satoshis: u64) -> crate::chain::keysinterface::Sign, + /// Gets a unique, cryptographically-secure, random 32 byte value. This is used for encrypting + /// onion packets and for temporary channel IDs. There is no requirement that these be + /// persisted anywhere, though they must be unique across restarts. + /// + /// This method must return a different value each time it is called. + #[must_use] + pub get_secure_random_bytes: extern "C" fn (this_arg: *const c_void) -> crate::c_types::ThirtyTwoBytes, + /// Reads a `Signer` for this `KeysInterface` from the given input stream. + /// This is only called during deserialization of other objects which contain + /// `Sign`-implementing objects (ie `ChannelMonitor`s and `ChannelManager`s). + /// The bytes are exactly those which `::write()` writes, and + /// contain no versioning scheme. You may wish to include your own version prefix and ensure + /// you've read all of the provided bytes to ensure no corruption occurred. + #[must_use] + pub read_chan_signer: extern "C" fn (this_arg: *const c_void, reader: crate::c_types::u8slice) -> crate::c_types::derived::CResult_SignDecodeErrorZ, + pub free: Option, +} +unsafe impl Send for KeysInterface {} +unsafe impl Sync for KeysInterface {} + +use lightning::chain::keysinterface::KeysInterface as rustKeysInterface; +impl rustKeysInterface for KeysInterface { + type Signer = crate::chain::keysinterface::Sign; + fn get_node_secret(&self) -> bitcoin::secp256k1::key::SecretKey { + let mut ret = (self.get_node_secret)(self.this_arg); + ret.into_rust() + } + fn get_destination_script(&self) -> bitcoin::blockdata::script::Script { + let mut ret = (self.get_destination_script)(self.this_arg); + ::bitcoin::blockdata::script::Script::from(ret.into_rust()) + } + fn get_shutdown_pubkey(&self) -> bitcoin::secp256k1::key::PublicKey { + let mut ret = (self.get_shutdown_pubkey)(self.this_arg); + ret.into_rust() + } + fn get_channel_signer(&self, inbound: bool, channel_value_satoshis: u64) -> crate::chain::keysinterface::Sign { + let mut ret = (self.get_channel_signer)(self.this_arg, inbound, channel_value_satoshis); + ret + } + fn get_secure_random_bytes(&self) -> [u8; 32] { + let mut ret = (self.get_secure_random_bytes)(self.this_arg); + ret.data + } + fn read_chan_signer(&self, reader: &[u8]) -> Result { + let mut local_reader = crate::c_types::u8slice::from_slice(reader); + let mut ret = (self.read_chan_signer)(self.this_arg, local_reader); + let mut local_ret = match ret.result_ok { true => Ok( { (*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.result)) }) }), false => Err( { *unsafe { Box::from_raw((*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.err)) }).take_inner()) } })}; + local_ret + } +} + +// We're essentially a pointer already, or at least a set of pointers, so allow us to be used +// directly as a Deref trait in higher-level structs: +impl std::ops::Deref for KeysInterface { + type Target = Self; + fn deref(&self) -> &Self { + self + } +} +/// Calls the free function if one is set +#[no_mangle] +pub extern "C" fn KeysInterface_free(this_ptr: KeysInterface) { } +impl Drop for KeysInterface { + fn drop(&mut self) { + if let Some(f) = self.free { + f(self.this_arg); + } + } +} + +use lightning::chain::keysinterface::InMemorySigner as nativeInMemorySignerImport; +type nativeInMemorySigner = nativeInMemorySignerImport; + +/// A simple implementation of Sign that just keeps the private keys in memory. +/// +/// This implementation performs no policy checks and is insufficient by itself as +/// a secure external signer. +#[must_use] +#[repr(C)] +pub struct InMemorySigner { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeInMemorySigner, + pub is_owned: bool, +} + +impl Drop for InMemorySigner { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeInMemorySigner>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn InMemorySigner_free(this_ptr: InMemorySigner) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn InMemorySigner_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeInMemorySigner); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl InMemorySigner { + pub(crate) fn take_inner(mut self) -> *mut nativeInMemorySigner { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// Private key of anchor tx +#[no_mangle] +pub extern "C" fn InMemorySigner_get_funding_key(this_ptr: &InMemorySigner) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.funding_key; + (*inner_val).as_ref() +} +/// Private key of anchor tx +#[no_mangle] +pub extern "C" fn InMemorySigner_set_funding_key(this_ptr: &mut InMemorySigner, mut val: crate::c_types::SecretKey) { + unsafe { &mut *this_ptr.inner }.funding_key = val.into_rust(); +} +/// Holder secret key for blinded revocation pubkey +#[no_mangle] +pub extern "C" fn InMemorySigner_get_revocation_base_key(this_ptr: &InMemorySigner) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.revocation_base_key; + (*inner_val).as_ref() +} +/// Holder secret key for blinded revocation pubkey +#[no_mangle] +pub extern "C" fn InMemorySigner_set_revocation_base_key(this_ptr: &mut InMemorySigner, mut val: crate::c_types::SecretKey) { + unsafe { &mut *this_ptr.inner }.revocation_base_key = val.into_rust(); +} +/// Holder secret key used for our balance in counterparty-broadcasted commitment transactions +#[no_mangle] +pub extern "C" fn InMemorySigner_get_payment_key(this_ptr: &InMemorySigner) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.payment_key; + (*inner_val).as_ref() +} +/// Holder secret key used for our balance in counterparty-broadcasted commitment transactions +#[no_mangle] +pub extern "C" fn InMemorySigner_set_payment_key(this_ptr: &mut InMemorySigner, mut val: crate::c_types::SecretKey) { + unsafe { &mut *this_ptr.inner }.payment_key = val.into_rust(); +} +/// Holder secret key used in HTLC tx +#[no_mangle] +pub extern "C" fn InMemorySigner_get_delayed_payment_base_key(this_ptr: &InMemorySigner) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.delayed_payment_base_key; + (*inner_val).as_ref() +} +/// Holder secret key used in HTLC tx +#[no_mangle] +pub extern "C" fn InMemorySigner_set_delayed_payment_base_key(this_ptr: &mut InMemorySigner, mut val: crate::c_types::SecretKey) { + unsafe { &mut *this_ptr.inner }.delayed_payment_base_key = val.into_rust(); +} +/// Holder htlc secret key used in commitment tx htlc outputs +#[no_mangle] +pub extern "C" fn InMemorySigner_get_htlc_base_key(this_ptr: &InMemorySigner) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.htlc_base_key; + (*inner_val).as_ref() +} +/// Holder htlc secret key used in commitment tx htlc outputs +#[no_mangle] +pub extern "C" fn InMemorySigner_set_htlc_base_key(this_ptr: &mut InMemorySigner, mut val: crate::c_types::SecretKey) { + unsafe { &mut *this_ptr.inner }.htlc_base_key = val.into_rust(); +} +/// Commitment seed +#[no_mangle] +pub extern "C" fn InMemorySigner_get_commitment_seed(this_ptr: &InMemorySigner) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.commitment_seed; + &(*inner_val) +} +/// Commitment seed +#[no_mangle] +pub extern "C" fn InMemorySigner_set_commitment_seed(this_ptr: &mut InMemorySigner, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.commitment_seed = val.data; +} +impl Clone for InMemorySigner { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeInMemorySigner>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn InMemorySigner_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeInMemorySigner)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn InMemorySigner_clone(orig: &InMemorySigner) -> InMemorySigner { + orig.clone() +} +/// Create a new InMemorySigner +#[must_use] +#[no_mangle] +pub extern "C" fn InMemorySigner_new(mut funding_key: crate::c_types::SecretKey, mut revocation_base_key: crate::c_types::SecretKey, mut payment_key: crate::c_types::SecretKey, mut delayed_payment_base_key: crate::c_types::SecretKey, mut htlc_base_key: crate::c_types::SecretKey, mut commitment_seed: crate::c_types::ThirtyTwoBytes, mut channel_value_satoshis: u64, mut channel_keys_id: crate::c_types::ThirtyTwoBytes) -> crate::chain::keysinterface::InMemorySigner { + let mut ret = lightning::chain::keysinterface::InMemorySigner::new(secp256k1::SECP256K1, funding_key.into_rust(), revocation_base_key.into_rust(), payment_key.into_rust(), delayed_payment_base_key.into_rust(), htlc_base_key.into_rust(), commitment_seed.data, channel_value_satoshis, channel_keys_id.data); + crate::chain::keysinterface::InMemorySigner { inner: Box::into_raw(Box::new(ret)), is_owned: true } +} + +/// Counterparty pubkeys. +/// Will panic if ready_channel wasn't called. +#[must_use] +#[no_mangle] +pub extern "C" fn InMemorySigner_counterparty_pubkeys(this_arg: &InMemorySigner) -> crate::ln::chan_utils::ChannelPublicKeys { + let mut ret = unsafe { &*this_arg.inner }.counterparty_pubkeys(); + crate::ln::chan_utils::ChannelPublicKeys { inner: unsafe { ( (&(*ret) as *const _) as *mut _) }, is_owned: false } +} + +/// The contest_delay value specified by our counterparty and applied on holder-broadcastable +/// transactions, ie the amount of time that we have to wait to recover our funds if we +/// broadcast a transaction. +/// Will panic if ready_channel wasn't called. +#[must_use] +#[no_mangle] +pub extern "C" fn InMemorySigner_counterparty_selected_contest_delay(this_arg: &InMemorySigner) -> u16 { + let mut ret = unsafe { &*this_arg.inner }.counterparty_selected_contest_delay(); + ret +} + +/// The contest_delay value specified by us and applied on transactions broadcastable +/// by our counterparty, ie the amount of time that they have to wait to recover their funds +/// if they broadcast a transaction. +/// Will panic if ready_channel wasn't called. +#[must_use] +#[no_mangle] +pub extern "C" fn InMemorySigner_holder_selected_contest_delay(this_arg: &InMemorySigner) -> u16 { + let mut ret = unsafe { &*this_arg.inner }.holder_selected_contest_delay(); + ret +} + +/// Whether the holder is the initiator +/// Will panic if ready_channel wasn't called. +#[must_use] +#[no_mangle] +pub extern "C" fn InMemorySigner_is_outbound(this_arg: &InMemorySigner) -> bool { + let mut ret = unsafe { &*this_arg.inner }.is_outbound(); + ret +} + +/// Funding outpoint +/// Will panic if ready_channel wasn't called. +#[must_use] +#[no_mangle] +pub extern "C" fn InMemorySigner_funding_outpoint(this_arg: &InMemorySigner) -> crate::chain::transaction::OutPoint { + let mut ret = unsafe { &*this_arg.inner }.funding_outpoint(); + crate::chain::transaction::OutPoint { inner: unsafe { ( (&(*ret) as *const _) as *mut _) }, is_owned: false } +} + +/// Obtain a ChannelTransactionParameters for this channel, to be used when verifying or +/// building transactions. +/// +/// Will panic if ready_channel wasn't called. +#[must_use] +#[no_mangle] +pub extern "C" fn InMemorySigner_get_channel_parameters(this_arg: &InMemorySigner) -> crate::ln::chan_utils::ChannelTransactionParameters { + let mut ret = unsafe { &*this_arg.inner }.get_channel_parameters(); + crate::ln::chan_utils::ChannelTransactionParameters { inner: unsafe { ( (&(*ret) as *const _) as *mut _) }, is_owned: false } +} + +/// Sign the single input of spend_tx at index `input_idx` which spends the output +/// described by descriptor, returning the witness stack for the input. +/// +/// Returns an Err if the input at input_idx does not exist, has a non-empty script_sig, +/// or is not spending the outpoint described by `descriptor.outpoint`. +#[must_use] +#[no_mangle] +pub extern "C" fn InMemorySigner_sign_counterparty_payment_input(this_arg: &InMemorySigner, mut spend_tx: crate::c_types::Transaction, mut input_idx: usize, descriptor: &crate::chain::keysinterface::StaticPaymentOutputDescriptor) -> crate::c_types::derived::CResult_CVec_CVec_u8ZZNoneZ { + let mut ret = unsafe { &*this_arg.inner }.sign_counterparty_payment_input(&spend_tx.into_bitcoin(), input_idx, unsafe { &*descriptor.inner }, secp256k1::SECP256K1); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { let mut local_ret_0 = Vec::new(); for mut item in o.drain(..) { local_ret_0.push( { let mut local_ret_0_0 = Vec::new(); for mut item in item.drain(..) { local_ret_0_0.push( { item }); }; local_ret_0_0.into() }); }; local_ret_0.into() }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { 0u8 /*e*/ }).into() }; + local_ret +} + +/// Sign the single input of spend_tx at index `input_idx` which spends the output +/// described by descriptor, returning the witness stack for the input. +/// +/// Returns an Err if the input at input_idx does not exist, has a non-empty script_sig, +/// is not spending the outpoint described by `descriptor.outpoint`, or does not have a +/// sequence set to `descriptor.to_self_delay`. +#[must_use] +#[no_mangle] +pub extern "C" fn InMemorySigner_sign_dynamic_p2wsh_input(this_arg: &InMemorySigner, mut spend_tx: crate::c_types::Transaction, mut input_idx: usize, descriptor: &crate::chain::keysinterface::DelayedPaymentOutputDescriptor) -> crate::c_types::derived::CResult_CVec_CVec_u8ZZNoneZ { + let mut ret = unsafe { &*this_arg.inner }.sign_dynamic_p2wsh_input(&spend_tx.into_bitcoin(), input_idx, unsafe { &*descriptor.inner }, secp256k1::SECP256K1); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { let mut local_ret_0 = Vec::new(); for mut item in o.drain(..) { local_ret_0.push( { let mut local_ret_0_0 = Vec::new(); for mut item in item.drain(..) { local_ret_0_0.push( { item }); }; local_ret_0_0.into() }); }; local_ret_0.into() }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { 0u8 /*e*/ }).into() }; + local_ret +} + +impl From for crate::chain::keysinterface::Sign { + fn from(obj: nativeInMemorySigner) -> Self { + let mut rust_obj = InMemorySigner { inner: Box::into_raw(Box::new(obj)), is_owned: true }; + let mut ret = InMemorySigner_as_Sign(&rust_obj); + // We want to free rust_obj when ret gets drop()'d, not rust_obj, so wipe rust_obj's pointer and set ret's free() fn + rust_obj.inner = std::ptr::null_mut(); + ret.free = Some(InMemorySigner_free_void); + ret + } +} +#[no_mangle] +pub extern "C" fn InMemorySigner_as_Sign(this_arg: &InMemorySigner) -> crate::chain::keysinterface::Sign { + crate::chain::keysinterface::Sign { + this_arg: unsafe { (*this_arg).inner as *mut c_void }, + free: None, + get_per_commitment_point: InMemorySigner_Sign_get_per_commitment_point, + release_commitment_secret: InMemorySigner_Sign_release_commitment_secret, + + pubkeys: crate::ln::chan_utils::ChannelPublicKeys { inner: std::ptr::null_mut(), is_owned: true }, + set_pubkeys: Some(InMemorySigner_Sign_set_pubkeys), + channel_keys_id: InMemorySigner_Sign_channel_keys_id, + sign_counterparty_commitment: InMemorySigner_Sign_sign_counterparty_commitment, + sign_holder_commitment_and_htlcs: InMemorySigner_Sign_sign_holder_commitment_and_htlcs, + sign_justice_transaction: InMemorySigner_Sign_sign_justice_transaction, + sign_counterparty_htlc_transaction: InMemorySigner_Sign_sign_counterparty_htlc_transaction, + sign_closing_transaction: InMemorySigner_Sign_sign_closing_transaction, + sign_channel_announcement: InMemorySigner_Sign_sign_channel_announcement, + ready_channel: InMemorySigner_Sign_ready_channel, + clone: Some(InMemorySigner_clone_void), + write: InMemorySigner_write_void, + } +} + +#[must_use] +extern "C" fn InMemorySigner_Sign_get_per_commitment_point(this_arg: *const c_void, mut idx: u64) -> crate::c_types::PublicKey { + let mut ret = >::get_per_commitment_point(unsafe { &mut *(this_arg as *mut nativeInMemorySigner) }, idx, secp256k1::SECP256K1); + crate::c_types::PublicKey::from_rust(&ret) +} +#[must_use] +extern "C" fn InMemorySigner_Sign_release_commitment_secret(this_arg: *const c_void, mut idx: u64) -> crate::c_types::ThirtyTwoBytes { + let mut ret = >::release_commitment_secret(unsafe { &mut *(this_arg as *mut nativeInMemorySigner) }, idx); + crate::c_types::ThirtyTwoBytes { data: ret } +} +#[must_use] +extern "C" fn InMemorySigner_Sign_pubkeys(this_arg: *const c_void) -> crate::ln::chan_utils::ChannelPublicKeys { + let mut ret = >::pubkeys(unsafe { &mut *(this_arg as *mut nativeInMemorySigner) }, ); + crate::ln::chan_utils::ChannelPublicKeys { inner: unsafe { ( (&(*ret) as *const _) as *mut _) }, is_owned: false } +} +extern "C" fn InMemorySigner_Sign_set_pubkeys(trait_self_arg: &Sign) { + // This is a bit race-y in the general case, but for our specific use-cases today, we're safe + // Specifically, we must ensure that the first time we're called it can never be in parallel + if trait_self_arg.pubkeys.inner.is_null() { + unsafe { &mut *(trait_self_arg as *const Sign as *mut Sign) }.pubkeys = InMemorySigner_Sign_pubkeys(trait_self_arg.this_arg); + } +} +#[must_use] +extern "C" fn InMemorySigner_Sign_channel_keys_id(this_arg: *const c_void) -> crate::c_types::ThirtyTwoBytes { + let mut ret = >::channel_keys_id(unsafe { &mut *(this_arg as *mut nativeInMemorySigner) }, ); + crate::c_types::ThirtyTwoBytes { data: ret } +} +#[must_use] +extern "C" fn InMemorySigner_Sign_sign_counterparty_commitment(this_arg: *const c_void, commitment_tx: &crate::ln::chan_utils::CommitmentTransaction) -> crate::c_types::derived::CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ { + let mut ret = >::sign_counterparty_commitment(unsafe { &mut *(this_arg as *mut nativeInMemorySigner) }, unsafe { &*commitment_tx.inner }, secp256k1::SECP256K1); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { let (mut orig_ret_0_0, mut orig_ret_0_1) = o; let mut local_orig_ret_0_1 = Vec::new(); for mut item in orig_ret_0_1.drain(..) { local_orig_ret_0_1.push( { crate::c_types::Signature::from_rust(&item) }); }; let mut local_ret_0 = (crate::c_types::Signature::from_rust(&orig_ret_0_0), local_orig_ret_0_1.into()).into(); local_ret_0 }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { 0u8 /*e*/ }).into() }; + local_ret +} +#[must_use] +extern "C" fn InMemorySigner_Sign_sign_holder_commitment_and_htlcs(this_arg: *const c_void, commitment_tx: &crate::ln::chan_utils::HolderCommitmentTransaction) -> crate::c_types::derived::CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ { + let mut ret = >::sign_holder_commitment_and_htlcs(unsafe { &mut *(this_arg as *mut nativeInMemorySigner) }, unsafe { &*commitment_tx.inner }, secp256k1::SECP256K1); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { let (mut orig_ret_0_0, mut orig_ret_0_1) = o; let mut local_orig_ret_0_1 = Vec::new(); for mut item in orig_ret_0_1.drain(..) { local_orig_ret_0_1.push( { crate::c_types::Signature::from_rust(&item) }); }; let mut local_ret_0 = (crate::c_types::Signature::from_rust(&orig_ret_0_0), local_orig_ret_0_1.into()).into(); local_ret_0 }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { 0u8 /*e*/ }).into() }; + local_ret +} +#[must_use] +extern "C" fn InMemorySigner_Sign_sign_justice_transaction(this_arg: *const c_void, mut justice_tx: crate::c_types::Transaction, mut input: usize, mut amount: u64, per_commitment_key: *const [u8; 32], htlc: &crate::ln::chan_utils::HTLCOutputInCommitment) -> crate::c_types::derived::CResult_SignatureNoneZ { + let mut local_htlc = if htlc.inner.is_null() { None } else { Some((* { unsafe { &*htlc.inner } }).clone()) }; + let mut ret = >::sign_justice_transaction(unsafe { &mut *(this_arg as *mut nativeInMemorySigner) }, &justice_tx.into_bitcoin(), input, amount, &::bitcoin::secp256k1::key::SecretKey::from_slice(&unsafe { *per_commitment_key}[..]).unwrap(), &local_htlc, secp256k1::SECP256K1); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::c_types::Signature::from_rust(&o) }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { 0u8 /*e*/ }).into() }; + local_ret +} +#[must_use] +extern "C" fn InMemorySigner_Sign_sign_counterparty_htlc_transaction(this_arg: *const c_void, mut htlc_tx: crate::c_types::Transaction, mut input: usize, mut amount: u64, mut per_commitment_point: crate::c_types::PublicKey, htlc: &crate::ln::chan_utils::HTLCOutputInCommitment) -> crate::c_types::derived::CResult_SignatureNoneZ { + let mut ret = >::sign_counterparty_htlc_transaction(unsafe { &mut *(this_arg as *mut nativeInMemorySigner) }, &htlc_tx.into_bitcoin(), input, amount, &per_commitment_point.into_rust(), unsafe { &*htlc.inner }, secp256k1::SECP256K1); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::c_types::Signature::from_rust(&o) }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { 0u8 /*e*/ }).into() }; + local_ret +} +#[must_use] +extern "C" fn InMemorySigner_Sign_sign_closing_transaction(this_arg: *const c_void, mut closing_tx: crate::c_types::Transaction) -> crate::c_types::derived::CResult_SignatureNoneZ { + let mut ret = >::sign_closing_transaction(unsafe { &mut *(this_arg as *mut nativeInMemorySigner) }, &closing_tx.into_bitcoin(), secp256k1::SECP256K1); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::c_types::Signature::from_rust(&o) }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { 0u8 /*e*/ }).into() }; + local_ret +} +#[must_use] +extern "C" fn InMemorySigner_Sign_sign_channel_announcement(this_arg: *const c_void, msg: &crate::ln::msgs::UnsignedChannelAnnouncement) -> crate::c_types::derived::CResult_SignatureNoneZ { + let mut ret = >::sign_channel_announcement(unsafe { &mut *(this_arg as *mut nativeInMemorySigner) }, unsafe { &*msg.inner }, secp256k1::SECP256K1); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::c_types::Signature::from_rust(&o) }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { 0u8 /*e*/ }).into() }; + local_ret +} +extern "C" fn InMemorySigner_Sign_ready_channel(this_arg: *mut c_void, channel_parameters: &crate::ln::chan_utils::ChannelTransactionParameters) { + >::ready_channel(unsafe { &mut *(this_arg as *mut nativeInMemorySigner) }, unsafe { &*channel_parameters.inner }) +} + +#[no_mangle] +pub extern "C" fn InMemorySigner_write(obj: &InMemorySigner) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn InMemorySigner_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeInMemorySigner) }) +} +#[no_mangle] +pub extern "C" fn InMemorySigner_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_InMemorySignerDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::chain::keysinterface::InMemorySigner { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} + +use lightning::chain::keysinterface::KeysManager as nativeKeysManagerImport; +type nativeKeysManager = nativeKeysManagerImport; + +/// Simple KeysInterface implementor that takes a 32-byte seed for use as a BIP 32 extended key +/// and derives keys from that. +/// +/// Your node_id is seed/0' +/// ChannelMonitor closes may use seed/1' +/// Cooperative closes may use seed/2' +/// The two close keys may be needed to claim on-chain funds! +#[must_use] +#[repr(C)] +pub struct KeysManager { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeKeysManager, + pub is_owned: bool, +} + +impl Drop for KeysManager { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeKeysManager>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn KeysManager_free(this_ptr: KeysManager) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn KeysManager_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeKeysManager); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl KeysManager { + pub(crate) fn take_inner(mut self) -> *mut nativeKeysManager { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// Constructs a KeysManager from a 32-byte seed. If the seed is in some way biased (eg your +/// CSRNG is busted) this may panic (but more importantly, you will possibly lose funds). +/// starting_time isn't strictly required to actually be a time, but it must absolutely, +/// without a doubt, be unique to this instance. ie if you start multiple times with the same +/// seed, starting_time must be unique to each run. Thus, the easiest way to achieve this is to +/// simply use the current time (with very high precision). +/// +/// The seed MUST be backed up safely prior to use so that the keys can be re-created, however, +/// obviously, starting_time should be unique every time you reload the library - it is only +/// used to generate new ephemeral key data (which will be stored by the individual channel if +/// necessary). +/// +/// Note that the seed is required to recover certain on-chain funds independent of +/// ChannelMonitor data, though a current copy of ChannelMonitor data is also required for any +/// channel, and some on-chain during-closing funds. +/// +/// Note that until the 0.1 release there is no guarantee of backward compatibility between +/// versions. Once the library is more fully supported, the docs will be updated to include a +/// detailed description of the guarantee. +#[must_use] +#[no_mangle] +pub extern "C" fn KeysManager_new(seed: *const [u8; 32], mut starting_time_secs: u64, mut starting_time_nanos: u32) -> KeysManager { + let mut ret = lightning::chain::keysinterface::KeysManager::new(unsafe { &*seed}, starting_time_secs, starting_time_nanos); + KeysManager { inner: Box::into_raw(Box::new(ret)), is_owned: true } +} + +/// Derive an old Sign containing per-channel secrets based on a key derivation parameters. +/// +/// Key derivation parameters are accessible through a per-channel secrets +/// Sign::channel_keys_id and is provided inside DynamicOuputP2WSH in case of +/// onchain output detection for which a corresponding delayed_payment_key must be derived. +#[must_use] +#[no_mangle] +pub extern "C" fn KeysManager_derive_channel_keys(this_arg: &KeysManager, mut channel_value_satoshis: u64, params: *const [u8; 32]) -> crate::chain::keysinterface::InMemorySigner { + let mut ret = unsafe { &*this_arg.inner }.derive_channel_keys(channel_value_satoshis, unsafe { &*params}); + crate::chain::keysinterface::InMemorySigner { inner: Box::into_raw(Box::new(ret)), is_owned: true } +} + +/// Creates a Transaction which spends the given descriptors to the given outputs, plus an +/// output to the given change destination (if sufficient change value remains). The +/// transaction will have a feerate, at least, of the given value. +/// +/// Returns `Err(())` if the output value is greater than the input value minus required fee or +/// if a descriptor was duplicated. +/// +/// We do not enforce that outputs meet the dust limit or that any output scripts are standard. +/// +/// May panic if the `SpendableOutputDescriptor`s were not generated by Channels which used +/// this KeysManager or one of the `InMemorySigner` created by this KeysManager. +#[must_use] +#[no_mangle] +pub extern "C" fn KeysManager_spend_spendable_outputs(this_arg: &KeysManager, mut descriptors: crate::c_types::derived::CVec_SpendableOutputDescriptorZ, mut outputs: crate::c_types::derived::CVec_TxOutZ, mut change_destination_script: crate::c_types::derived::CVec_u8Z, mut feerate_sat_per_1000_weight: u32) -> crate::c_types::derived::CResult_TransactionNoneZ { + let mut local_descriptors = Vec::new(); for mut item in descriptors.into_rust().drain(..) { local_descriptors.push( { item.into_native() }); }; + let mut local_outputs = Vec::new(); for mut item in outputs.into_rust().drain(..) { local_outputs.push( { item.into_rust() }); }; + let mut ret = unsafe { &*this_arg.inner }.spend_spendable_outputs(&local_descriptors.iter().collect::>()[..], local_outputs, ::bitcoin::blockdata::script::Script::from(change_destination_script.into_rust()), feerate_sat_per_1000_weight, secp256k1::SECP256K1); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { let mut local_ret_0 = ::bitcoin::consensus::encode::serialize(&o); crate::c_types::Transaction::from_vec(local_ret_0) }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { 0u8 /*e*/ }).into() }; + local_ret +} + +impl From for crate::chain::keysinterface::KeysInterface { + fn from(obj: nativeKeysManager) -> Self { + let mut rust_obj = KeysManager { inner: Box::into_raw(Box::new(obj)), is_owned: true }; + let mut ret = KeysManager_as_KeysInterface(&rust_obj); + // We want to free rust_obj when ret gets drop()'d, not rust_obj, so wipe rust_obj's pointer and set ret's free() fn + rust_obj.inner = std::ptr::null_mut(); + ret.free = Some(KeysManager_free_void); + ret + } +} +#[no_mangle] +pub extern "C" fn KeysManager_as_KeysInterface(this_arg: &KeysManager) -> crate::chain::keysinterface::KeysInterface { + crate::chain::keysinterface::KeysInterface { + this_arg: unsafe { (*this_arg).inner as *mut c_void }, + free: None, + get_node_secret: KeysManager_KeysInterface_get_node_secret, + get_destination_script: KeysManager_KeysInterface_get_destination_script, + get_shutdown_pubkey: KeysManager_KeysInterface_get_shutdown_pubkey, + get_channel_signer: KeysManager_KeysInterface_get_channel_signer, + get_secure_random_bytes: KeysManager_KeysInterface_get_secure_random_bytes, + read_chan_signer: KeysManager_KeysInterface_read_chan_signer, + } +} + +#[must_use] +extern "C" fn KeysManager_KeysInterface_get_node_secret(this_arg: *const c_void) -> crate::c_types::SecretKey { + let mut ret = >::get_node_secret(unsafe { &mut *(this_arg as *mut nativeKeysManager) }, ); + crate::c_types::SecretKey::from_rust(ret) +} +#[must_use] +extern "C" fn KeysManager_KeysInterface_get_destination_script(this_arg: *const c_void) -> crate::c_types::derived::CVec_u8Z { + let mut ret = >::get_destination_script(unsafe { &mut *(this_arg as *mut nativeKeysManager) }, ); + ret.into_bytes().into() +} +#[must_use] +extern "C" fn KeysManager_KeysInterface_get_shutdown_pubkey(this_arg: *const c_void) -> crate::c_types::PublicKey { + let mut ret = >::get_shutdown_pubkey(unsafe { &mut *(this_arg as *mut nativeKeysManager) }, ); + crate::c_types::PublicKey::from_rust(&ret) +} +#[must_use] +extern "C" fn KeysManager_KeysInterface_get_channel_signer(this_arg: *const c_void, mut _inbound: bool, mut channel_value_satoshis: u64) -> crate::chain::keysinterface::Sign { + let mut ret = >::get_channel_signer(unsafe { &mut *(this_arg as *mut nativeKeysManager) }, _inbound, channel_value_satoshis); + ret.into() +} +#[must_use] +extern "C" fn KeysManager_KeysInterface_get_secure_random_bytes(this_arg: *const c_void) -> crate::c_types::ThirtyTwoBytes { + let mut ret = >::get_secure_random_bytes(unsafe { &mut *(this_arg as *mut nativeKeysManager) }, ); + crate::c_types::ThirtyTwoBytes { data: ret } +} +#[must_use] +extern "C" fn KeysManager_KeysInterface_read_chan_signer(this_arg: *const c_void, mut reader: crate::c_types::u8slice) -> crate::c_types::derived::CResult_SignDecodeErrorZ { + let mut ret = >::read_chan_signer(unsafe { &mut *(this_arg as *mut nativeKeysManager) }, reader.to_slice()); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { o.into() }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} + diff --git a/lightning-c-bindings/src/chain/mod.rs b/lightning-c-bindings/src/chain/mod.rs new file mode 100644 index 0000000..fb72263 --- /dev/null +++ b/lightning-c-bindings/src/chain/mod.rs @@ -0,0 +1,299 @@ +//! Structs and traits which allow other parts of rust-lightning to interact with the blockchain. + +use std::ffi::c_void; +use bitcoin::hashes::Hash; +use crate::c_types::*; + +pub mod chaininterface; +pub mod chainmonitor; +pub mod channelmonitor; +pub mod transaction; +pub mod keysinterface; +/// An error when accessing the chain via [`Access`]. +/// +/// [`Access`]: trait.Access.html +#[must_use] +#[derive(Clone)] +#[repr(C)] +pub enum AccessError { + /// The requested chain is unknown. + UnknownChain, + /// The requested transaction doesn't exist or hasn't confirmed. + UnknownTx, +} +use lightning::chain::AccessError as nativeAccessError; +impl AccessError { + #[allow(unused)] + pub(crate) fn to_native(&self) -> nativeAccessError { + match self { + AccessError::UnknownChain => nativeAccessError::UnknownChain, + AccessError::UnknownTx => nativeAccessError::UnknownTx, + } + } + #[allow(unused)] + pub(crate) fn into_native(self) -> nativeAccessError { + match self { + AccessError::UnknownChain => nativeAccessError::UnknownChain, + AccessError::UnknownTx => nativeAccessError::UnknownTx, + } + } + #[allow(unused)] + pub(crate) fn from_native(native: &nativeAccessError) -> Self { + match native { + nativeAccessError::UnknownChain => AccessError::UnknownChain, + nativeAccessError::UnknownTx => AccessError::UnknownTx, + } + } + #[allow(unused)] + pub(crate) fn native_into(native: nativeAccessError) -> Self { + match native { + nativeAccessError::UnknownChain => AccessError::UnknownChain, + nativeAccessError::UnknownTx => AccessError::UnknownTx, + } + } +} +#[no_mangle] +pub extern "C" fn AccessError_clone(orig: &AccessError) -> AccessError { + orig.clone() +} +/// The `Access` trait defines behavior for accessing chain data and state, such as blocks and +/// UTXOs. +#[repr(C)] +pub struct Access { + pub this_arg: *mut c_void, + /// Returns the transaction output of a funding transaction encoded by [`short_channel_id`]. + /// Returns an error if `genesis_hash` is for a different chain or if such a transaction output + /// is unknown. + /// + /// [`short_channel_id`]: https://github.com/lightningnetwork/lightning-rfc/blob/master/07-routing-gossip.md#definition-of-short_channel_id + #[must_use] + pub get_utxo: extern "C" fn (this_arg: *const c_void, genesis_hash: *const [u8; 32], short_channel_id: u64) -> crate::c_types::derived::CResult_TxOutAccessErrorZ, + pub free: Option, +} +unsafe impl Send for Access {} +unsafe impl Sync for Access {} + +use lightning::chain::Access as rustAccess; +impl rustAccess for Access { + fn get_utxo(&self, genesis_hash: &bitcoin::hash_types::BlockHash, short_channel_id: u64) -> Result { + let mut ret = (self.get_utxo)(self.this_arg, genesis_hash.as_inner(), short_channel_id); + let mut local_ret = match ret.result_ok { true => Ok( { (*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.result)) }).into_rust() }), false => Err( { (*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.err)) }).into_native() })}; + local_ret + } +} + +// We're essentially a pointer already, or at least a set of pointers, so allow us to be used +// directly as a Deref trait in higher-level structs: +impl std::ops::Deref for Access { + type Target = Self; + fn deref(&self) -> &Self { + self + } +} +/// Calls the free function if one is set +#[no_mangle] +pub extern "C" fn Access_free(this_ptr: Access) { } +impl Drop for Access { + fn drop(&mut self) { + if let Some(f) = self.free { + f(self.this_arg); + } + } +} +/// The `Listen` trait is used to be notified of when blocks have been connected or disconnected +/// from the chain. +/// +/// Useful when needing to replay chain data upon startup or as new chain events occur. +#[repr(C)] +pub struct Listen { + pub this_arg: *mut c_void, + /// Notifies the listener that a block was added at the given height. + pub block_connected: extern "C" fn (this_arg: *const c_void, block: crate::c_types::u8slice, height: u32), + /// Notifies the listener that a block was removed at the given height. + pub block_disconnected: extern "C" fn (this_arg: *const c_void, header: *const [u8; 80], height: u32), + pub free: Option, +} + +use lightning::chain::Listen as rustListen; +impl rustListen for Listen { + fn block_connected(&self, block: &bitcoin::blockdata::block::Block, height: u32) { + let mut local_block = ::bitcoin::consensus::encode::serialize(block); + (self.block_connected)(self.this_arg, crate::c_types::u8slice::from_slice(&local_block), height) + } + fn block_disconnected(&self, header: &bitcoin::blockdata::block::BlockHeader, height: u32) { + let mut local_header = { let mut s = [0u8; 80]; s[..].copy_from_slice(&::bitcoin::consensus::encode::serialize(header)); s }; + (self.block_disconnected)(self.this_arg, &local_header, height) + } +} + +// We're essentially a pointer already, or at least a set of pointers, so allow us to be used +// directly as a Deref trait in higher-level structs: +impl std::ops::Deref for Listen { + type Target = Self; + fn deref(&self) -> &Self { + self + } +} +/// Calls the free function if one is set +#[no_mangle] +pub extern "C" fn Listen_free(this_ptr: Listen) { } +impl Drop for Listen { + fn drop(&mut self) { + if let Some(f) = self.free { + f(self.this_arg); + } + } +} +/// The `Watch` trait defines behavior for watching on-chain activity pertaining to channels as +/// blocks are connected and disconnected. +/// +/// Each channel is associated with a [`ChannelMonitor`]. Implementations of this trait are +/// responsible for maintaining a set of monitors such that they can be updated accordingly as +/// channel state changes and HTLCs are resolved. See method documentation for specific +/// requirements. +/// +/// Implementations **must** ensure that updates are successfully applied and persisted upon method +/// completion. If an update fails with a [`PermanentFailure`], then it must immediately shut down +/// without taking any further action such as persisting the current state. +/// +/// If an implementation maintains multiple instances of a channel's monitor (e.g., by storing +/// backup copies), then it must ensure that updates are applied across all instances. Otherwise, it +/// could result in a revoked transaction being broadcast, allowing the counterparty to claim all +/// funds in the channel. See [`ChannelMonitorUpdateErr`] for more details about how to handle +/// multiple instances. +/// +/// [`ChannelMonitor`]: channelmonitor/struct.ChannelMonitor.html +/// [`ChannelMonitorUpdateErr`]: channelmonitor/enum.ChannelMonitorUpdateErr.html +/// [`PermanentFailure`]: channelmonitor/enum.ChannelMonitorUpdateErr.html#variant.PermanentFailure +#[repr(C)] +pub struct Watch { + pub this_arg: *mut c_void, + /// Watches a channel identified by `funding_txo` using `monitor`. + /// + /// Implementations are responsible for watching the chain for the funding transaction along + /// with any spends of outputs returned by [`get_outputs_to_watch`]. In practice, this means + /// calling [`block_connected`] and [`block_disconnected`] on the monitor. + /// + /// [`get_outputs_to_watch`]: channelmonitor/struct.ChannelMonitor.html#method.get_outputs_to_watch + /// [`block_connected`]: channelmonitor/struct.ChannelMonitor.html#method.block_connected + /// [`block_disconnected`]: channelmonitor/struct.ChannelMonitor.html#method.block_disconnected + #[must_use] + pub watch_channel: extern "C" fn (this_arg: *const c_void, funding_txo: crate::chain::transaction::OutPoint, monitor: crate::chain::channelmonitor::ChannelMonitor) -> crate::c_types::derived::CResult_NoneChannelMonitorUpdateErrZ, + /// Updates a channel identified by `funding_txo` by applying `update` to its monitor. + /// + /// Implementations must call [`update_monitor`] with the given update. See + /// [`ChannelMonitorUpdateErr`] for invariants around returning an error. + /// + /// [`update_monitor`]: channelmonitor/struct.ChannelMonitor.html#method.update_monitor + /// [`ChannelMonitorUpdateErr`]: channelmonitor/enum.ChannelMonitorUpdateErr.html + #[must_use] + pub update_channel: extern "C" fn (this_arg: *const c_void, funding_txo: crate::chain::transaction::OutPoint, update: crate::chain::channelmonitor::ChannelMonitorUpdate) -> crate::c_types::derived::CResult_NoneChannelMonitorUpdateErrZ, + /// Returns any monitor events since the last call. Subsequent calls must only return new + /// events. + #[must_use] + pub release_pending_monitor_events: extern "C" fn (this_arg: *const c_void) -> crate::c_types::derived::CVec_MonitorEventZ, + pub free: Option, +} +unsafe impl Send for Watch {} +unsafe impl Sync for Watch {} + +use lightning::chain::Watch as rustWatch; +impl rustWatch for Watch { + fn watch_channel(&self, funding_txo: lightning::chain::transaction::OutPoint, monitor: lightning::chain::channelmonitor::ChannelMonitor) -> Result<(), lightning::chain::channelmonitor::ChannelMonitorUpdateErr> { + let mut ret = (self.watch_channel)(self.this_arg, crate::chain::transaction::OutPoint { inner: Box::into_raw(Box::new(funding_txo)), is_owned: true }, crate::chain::channelmonitor::ChannelMonitor { inner: Box::into_raw(Box::new(monitor)), is_owned: true }); + let mut local_ret = match ret.result_ok { true => Ok( { () /*(*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.result)) })*/ }), false => Err( { (*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.err)) }).into_native() })}; + local_ret + } + fn update_channel(&self, funding_txo: lightning::chain::transaction::OutPoint, update: lightning::chain::channelmonitor::ChannelMonitorUpdate) -> Result<(), lightning::chain::channelmonitor::ChannelMonitorUpdateErr> { + let mut ret = (self.update_channel)(self.this_arg, crate::chain::transaction::OutPoint { inner: Box::into_raw(Box::new(funding_txo)), is_owned: true }, crate::chain::channelmonitor::ChannelMonitorUpdate { inner: Box::into_raw(Box::new(update)), is_owned: true }); + let mut local_ret = match ret.result_ok { true => Ok( { () /*(*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.result)) })*/ }), false => Err( { (*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.err)) }).into_native() })}; + local_ret + } + fn release_pending_monitor_events(&self) -> Vec { + let mut ret = (self.release_pending_monitor_events)(self.this_arg); + let mut local_ret = Vec::new(); for mut item in ret.into_rust().drain(..) { local_ret.push( { item.into_native() }); }; + local_ret + } +} + +// We're essentially a pointer already, or at least a set of pointers, so allow us to be used +// directly as a Deref trait in higher-level structs: +impl std::ops::Deref for Watch { + type Target = Self; + fn deref(&self) -> &Self { + self + } +} +/// Calls the free function if one is set +#[no_mangle] +pub extern "C" fn Watch_free(this_ptr: Watch) { } +impl Drop for Watch { + fn drop(&mut self) { + if let Some(f) = self.free { + f(self.this_arg); + } + } +} +/// The `Filter` trait defines behavior for indicating chain activity of interest pertaining to +/// channels. +/// +/// This is useful in order to have a [`Watch`] implementation convey to a chain source which +/// transactions to be notified of. Notification may take the form of pre-filtering blocks or, in +/// the case of [BIP 157]/[BIP 158], only fetching a block if the compact filter matches. If +/// receiving full blocks from a chain source, any further filtering is unnecessary. +/// +/// After an output has been registered, subsequent block retrievals from the chain source must not +/// exclude any transactions matching the new criteria nor any in-block descendants of such +/// transactions. +/// +/// Note that use as part of a [`Watch`] implementation involves reentrancy. Therefore, the `Filter` +/// should not block on I/O. Implementations should instead queue the newly monitored data to be +/// processed later. Then, in order to block until the data has been processed, any `Watch` +/// invocation that has called the `Filter` must return [`TemporaryFailure`]. +/// +/// [`Watch`]: trait.Watch.html +/// [`TemporaryFailure`]: channelmonitor/enum.ChannelMonitorUpdateErr.html#variant.TemporaryFailure +/// [BIP 157]: https://github.com/bitcoin/bips/blob/master/bip-0157.mediawiki +/// [BIP 158]: https://github.com/bitcoin/bips/blob/master/bip-0158.mediawiki +#[repr(C)] +pub struct Filter { + pub this_arg: *mut c_void, + /// Registers interest in a transaction with `txid` and having an output with `script_pubkey` as + /// a spending condition. + pub register_tx: extern "C" fn (this_arg: *const c_void, txid: *const [u8; 32], script_pubkey: crate::c_types::u8slice), + /// Registers interest in spends of a transaction output identified by `outpoint` having + /// `script_pubkey` as the spending condition. + pub register_output: extern "C" fn (this_arg: *const c_void, outpoint: &crate::chain::transaction::OutPoint, script_pubkey: crate::c_types::u8slice), + pub free: Option, +} +unsafe impl Send for Filter {} +unsafe impl Sync for Filter {} + +use lightning::chain::Filter as rustFilter; +impl rustFilter for Filter { + fn register_tx(&self, txid: &bitcoin::hash_types::Txid, script_pubkey: &bitcoin::blockdata::script::Script) { + (self.register_tx)(self.this_arg, txid.as_inner(), crate::c_types::u8slice::from_slice(&script_pubkey[..])) + } + fn register_output(&self, outpoint: &lightning::chain::transaction::OutPoint, script_pubkey: &bitcoin::blockdata::script::Script) { + (self.register_output)(self.this_arg, &crate::chain::transaction::OutPoint { inner: unsafe { (outpoint as *const _) as *mut _ }, is_owned: false }, crate::c_types::u8slice::from_slice(&script_pubkey[..])) + } +} + +// We're essentially a pointer already, or at least a set of pointers, so allow us to be used +// directly as a Deref trait in higher-level structs: +impl std::ops::Deref for Filter { + type Target = Self; + fn deref(&self) -> &Self { + self + } +} +/// Calls the free function if one is set +#[no_mangle] +pub extern "C" fn Filter_free(this_ptr: Filter) { } +impl Drop for Filter { + fn drop(&mut self) { + if let Some(f) = self.free { + f(self.this_arg); + } + } +} diff --git a/lightning-c-bindings/src/chain/transaction.rs b/lightning-c-bindings/src/chain/transaction.rs new file mode 100644 index 0000000..f943223 --- /dev/null +++ b/lightning-c-bindings/src/chain/transaction.rs @@ -0,0 +1,117 @@ +//! Types describing on-chain transactions. + +use std::ffi::c_void; +use bitcoin::hashes::Hash; +use crate::c_types::*; + + +use lightning::chain::transaction::OutPoint as nativeOutPointImport; +type nativeOutPoint = nativeOutPointImport; + +/// A reference to a transaction output. +/// +/// Differs from bitcoin::blockdata::transaction::OutPoint as the index is a u16 instead of u32 +/// due to LN's restrictions on index values. Should reduce (possibly) unsafe conversions this way. +#[must_use] +#[repr(C)] +pub struct OutPoint { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeOutPoint, + pub is_owned: bool, +} + +impl Drop for OutPoint { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeOutPoint>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn OutPoint_free(this_ptr: OutPoint) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn OutPoint_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeOutPoint); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl OutPoint { + pub(crate) fn take_inner(mut self) -> *mut nativeOutPoint { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The referenced transaction's txid. +#[no_mangle] +pub extern "C" fn OutPoint_get_txid(this_ptr: &OutPoint) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.txid; + (*inner_val).as_inner() +} +/// The referenced transaction's txid. +#[no_mangle] +pub extern "C" fn OutPoint_set_txid(this_ptr: &mut OutPoint, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.txid = ::bitcoin::hash_types::Txid::from_slice(&val.data[..]).unwrap(); +} +/// The index of the referenced output in its transaction's vout. +#[no_mangle] +pub extern "C" fn OutPoint_get_index(this_ptr: &OutPoint) -> u16 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.index; + (*inner_val) +} +/// The index of the referenced output in its transaction's vout. +#[no_mangle] +pub extern "C" fn OutPoint_set_index(this_ptr: &mut OutPoint, mut val: u16) { + unsafe { &mut *this_ptr.inner }.index = val; +} +#[must_use] +#[no_mangle] +pub extern "C" fn OutPoint_new(mut txid_arg: crate::c_types::ThirtyTwoBytes, mut index_arg: u16) -> OutPoint { + OutPoint { inner: Box::into_raw(Box::new(nativeOutPoint { + txid: ::bitcoin::hash_types::Txid::from_slice(&txid_arg.data[..]).unwrap(), + index: index_arg, + })), is_owned: true } +} +impl Clone for OutPoint { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeOutPoint>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn OutPoint_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeOutPoint)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn OutPoint_clone(orig: &OutPoint) -> OutPoint { + orig.clone() +} +/// Convert an `OutPoint` to a lightning channel id. +#[must_use] +#[no_mangle] +pub extern "C" fn OutPoint_to_channel_id(this_arg: &OutPoint) -> crate::c_types::ThirtyTwoBytes { + let mut ret = unsafe { &*this_arg.inner }.to_channel_id(); + crate::c_types::ThirtyTwoBytes { data: ret } +} + +#[no_mangle] +pub extern "C" fn OutPoint_write(obj: &OutPoint) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn OutPoint_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeOutPoint) }) +} +#[no_mangle] +pub extern "C" fn OutPoint_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_OutPointDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::chain::transaction::OutPoint { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} diff --git a/lightning-c-bindings/src/lib.rs b/lightning-c-bindings/src/lib.rs new file mode 100644 index 0000000..89dfc09 --- /dev/null +++ b/lightning-c-bindings/src/lib.rs @@ -0,0 +1,24 @@ +//!lightning +//! Rust-Lightning, not Rusty's Lightning! +//! +//! A full-featured but also flexible lightning implementation, in library form. This allows the +//! user (you) to decide how they wish to use it instead of being a fully self-contained daemon. +//! This means there is no built-in threading/execution environment and it's up to the user to +//! figure out how best to make networking happen/timers fire/things get written to disk/keys get +//! generated/etc. This makes it a good candidate for tight integration into an existing wallet +//! instead of having a rather-separate lightning appendage to a wallet. +#![allow(unknown_lints)] +#![allow(non_camel_case_types)] +#![allow(non_snake_case)] +#![allow(unused_imports)] +#![allow(unused_variables)] +#![allow(unused_mut)] +#![allow(unused_parens)] +#![allow(unused_unsafe)] +#![allow(unused_braces)] +mod c_types; +mod bitcoin; +pub mod util; +pub mod chain; +pub mod ln; +pub mod routing; diff --git a/lightning-c-bindings/src/ln/chan_utils.rs b/lightning-c-bindings/src/ln/chan_utils.rs new file mode 100644 index 0000000..4a26567 --- /dev/null +++ b/lightning-c-bindings/src/ln/chan_utils.rs @@ -0,0 +1,1366 @@ +//! Various utilities for building scripts and deriving keys related to channels. These are +//! largely of interest for those implementing chain::keysinterface::Sign message signing by hand. + +use std::ffi::c_void; +use bitcoin::hashes::Hash; +use crate::c_types::*; + +/// Build the commitment secret from the seed and the commitment number +#[no_mangle] +pub extern "C" fn build_commitment_secret(commitment_seed: *const [u8; 32], mut idx: u64) -> crate::c_types::ThirtyTwoBytes { + let mut ret = lightning::ln::chan_utils::build_commitment_secret(unsafe { &*commitment_seed}, idx); + crate::c_types::ThirtyTwoBytes { data: ret } +} + +/// Derives a per-commitment-transaction private key (eg an htlc key or delayed_payment key) +/// from the base secret and the per_commitment_point. +/// +/// Note that this is infallible iff we trust that at least one of the two input keys are randomly +/// generated (ie our own). +#[no_mangle] +pub extern "C" fn derive_private_key(mut per_commitment_point: crate::c_types::PublicKey, base_secret: *const [u8; 32]) -> crate::c_types::derived::CResult_SecretKeyErrorZ { + let mut ret = lightning::ln::chan_utils::derive_private_key(secp256k1::SECP256K1, &per_commitment_point.into_rust(), &::bitcoin::secp256k1::key::SecretKey::from_slice(&unsafe { *base_secret}[..]).unwrap()); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::c_types::SecretKey::from_rust(o) }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::c_types::Secp256k1Error::from_rust(e) }).into() }; + local_ret +} + +/// Derives a per-commitment-transaction public key (eg an htlc key or a delayed_payment key) +/// from the base point and the per_commitment_key. This is the public equivalent of +/// derive_private_key - using only public keys to derive a public key instead of private keys. +/// +/// Note that this is infallible iff we trust that at least one of the two input keys are randomly +/// generated (ie our own). +#[no_mangle] +pub extern "C" fn derive_public_key(mut per_commitment_point: crate::c_types::PublicKey, mut base_point: crate::c_types::PublicKey) -> crate::c_types::derived::CResult_PublicKeyErrorZ { + let mut ret = lightning::ln::chan_utils::derive_public_key(secp256k1::SECP256K1, &per_commitment_point.into_rust(), &base_point.into_rust()); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::c_types::PublicKey::from_rust(&o) }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::c_types::Secp256k1Error::from_rust(e) }).into() }; + local_ret +} + +/// Derives a per-commitment-transaction revocation key from its constituent parts. +/// +/// Only the cheating participant owns a valid witness to propagate a revoked +/// commitment transaction, thus per_commitment_secret always come from cheater +/// and revocation_base_secret always come from punisher, which is the broadcaster +/// of the transaction spending with this key knowledge. +/// +/// Note that this is infallible iff we trust that at least one of the two input keys are randomly +/// generated (ie our own). +#[no_mangle] +pub extern "C" fn derive_private_revocation_key(per_commitment_secret: *const [u8; 32], countersignatory_revocation_base_secret: *const [u8; 32]) -> crate::c_types::derived::CResult_SecretKeyErrorZ { + let mut ret = lightning::ln::chan_utils::derive_private_revocation_key(secp256k1::SECP256K1, &::bitcoin::secp256k1::key::SecretKey::from_slice(&unsafe { *per_commitment_secret}[..]).unwrap(), &::bitcoin::secp256k1::key::SecretKey::from_slice(&unsafe { *countersignatory_revocation_base_secret}[..]).unwrap()); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::c_types::SecretKey::from_rust(o) }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::c_types::Secp256k1Error::from_rust(e) }).into() }; + local_ret +} + +/// Derives a per-commitment-transaction revocation public key from its constituent parts. This is +/// the public equivalend of derive_private_revocation_key - using only public keys to derive a +/// public key instead of private keys. +/// +/// Only the cheating participant owns a valid witness to propagate a revoked +/// commitment transaction, thus per_commitment_point always come from cheater +/// and revocation_base_point always come from punisher, which is the broadcaster +/// of the transaction spending with this key knowledge. +/// +/// Note that this is infallible iff we trust that at least one of the two input keys are randomly +/// generated (ie our own). +#[no_mangle] +pub extern "C" fn derive_public_revocation_key(mut per_commitment_point: crate::c_types::PublicKey, mut countersignatory_revocation_base_point: crate::c_types::PublicKey) -> crate::c_types::derived::CResult_PublicKeyErrorZ { + let mut ret = lightning::ln::chan_utils::derive_public_revocation_key(secp256k1::SECP256K1, &per_commitment_point.into_rust(), &countersignatory_revocation_base_point.into_rust()); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::c_types::PublicKey::from_rust(&o) }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::c_types::Secp256k1Error::from_rust(e) }).into() }; + local_ret +} + + +use lightning::ln::chan_utils::TxCreationKeys as nativeTxCreationKeysImport; +type nativeTxCreationKeys = nativeTxCreationKeysImport; + +/// The set of public keys which are used in the creation of one commitment transaction. +/// These are derived from the channel base keys and per-commitment data. +/// +/// A broadcaster key is provided from potential broadcaster of the computed transaction. +/// A countersignatory key is coming from a protocol participant unable to broadcast the +/// transaction. +/// +/// These keys are assumed to be good, either because the code derived them from +/// channel basepoints via the new function, or they were obtained via +/// CommitmentTransaction.trust().keys() because we trusted the source of the +/// pre-calculated keys. +#[must_use] +#[repr(C)] +pub struct TxCreationKeys { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeTxCreationKeys, + pub is_owned: bool, +} + +impl Drop for TxCreationKeys { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeTxCreationKeys>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn TxCreationKeys_free(this_ptr: TxCreationKeys) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn TxCreationKeys_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeTxCreationKeys); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl TxCreationKeys { + pub(crate) fn take_inner(mut self) -> *mut nativeTxCreationKeys { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The broadcaster's per-commitment public key which was used to derive the other keys. +#[no_mangle] +pub extern "C" fn TxCreationKeys_get_per_commitment_point(this_ptr: &TxCreationKeys) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.per_commitment_point; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// The broadcaster's per-commitment public key which was used to derive the other keys. +#[no_mangle] +pub extern "C" fn TxCreationKeys_set_per_commitment_point(this_ptr: &mut TxCreationKeys, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.per_commitment_point = val.into_rust(); +} +/// The revocation key which is used to allow the broadcaster of the commitment +/// transaction to provide their counterparty the ability to punish them if they broadcast +/// an old state. +#[no_mangle] +pub extern "C" fn TxCreationKeys_get_revocation_key(this_ptr: &TxCreationKeys) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.revocation_key; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// The revocation key which is used to allow the broadcaster of the commitment +/// transaction to provide their counterparty the ability to punish them if they broadcast +/// an old state. +#[no_mangle] +pub extern "C" fn TxCreationKeys_set_revocation_key(this_ptr: &mut TxCreationKeys, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.revocation_key = val.into_rust(); +} +/// Broadcaster's HTLC Key +#[no_mangle] +pub extern "C" fn TxCreationKeys_get_broadcaster_htlc_key(this_ptr: &TxCreationKeys) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.broadcaster_htlc_key; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// Broadcaster's HTLC Key +#[no_mangle] +pub extern "C" fn TxCreationKeys_set_broadcaster_htlc_key(this_ptr: &mut TxCreationKeys, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.broadcaster_htlc_key = val.into_rust(); +} +/// Countersignatory's HTLC Key +#[no_mangle] +pub extern "C" fn TxCreationKeys_get_countersignatory_htlc_key(this_ptr: &TxCreationKeys) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.countersignatory_htlc_key; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// Countersignatory's HTLC Key +#[no_mangle] +pub extern "C" fn TxCreationKeys_set_countersignatory_htlc_key(this_ptr: &mut TxCreationKeys, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.countersignatory_htlc_key = val.into_rust(); +} +/// Broadcaster's Payment Key (which isn't allowed to be spent from for some delay) +#[no_mangle] +pub extern "C" fn TxCreationKeys_get_broadcaster_delayed_payment_key(this_ptr: &TxCreationKeys) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.broadcaster_delayed_payment_key; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// Broadcaster's Payment Key (which isn't allowed to be spent from for some delay) +#[no_mangle] +pub extern "C" fn TxCreationKeys_set_broadcaster_delayed_payment_key(this_ptr: &mut TxCreationKeys, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.broadcaster_delayed_payment_key = val.into_rust(); +} +#[must_use] +#[no_mangle] +pub extern "C" fn TxCreationKeys_new(mut per_commitment_point_arg: crate::c_types::PublicKey, mut revocation_key_arg: crate::c_types::PublicKey, mut broadcaster_htlc_key_arg: crate::c_types::PublicKey, mut countersignatory_htlc_key_arg: crate::c_types::PublicKey, mut broadcaster_delayed_payment_key_arg: crate::c_types::PublicKey) -> TxCreationKeys { + TxCreationKeys { inner: Box::into_raw(Box::new(nativeTxCreationKeys { + per_commitment_point: per_commitment_point_arg.into_rust(), + revocation_key: revocation_key_arg.into_rust(), + broadcaster_htlc_key: broadcaster_htlc_key_arg.into_rust(), + countersignatory_htlc_key: countersignatory_htlc_key_arg.into_rust(), + broadcaster_delayed_payment_key: broadcaster_delayed_payment_key_arg.into_rust(), + })), is_owned: true } +} +impl Clone for TxCreationKeys { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeTxCreationKeys>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn TxCreationKeys_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeTxCreationKeys)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn TxCreationKeys_clone(orig: &TxCreationKeys) -> TxCreationKeys { + orig.clone() +} +#[no_mangle] +pub extern "C" fn TxCreationKeys_write(obj: &TxCreationKeys) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn TxCreationKeys_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeTxCreationKeys) }) +} +#[no_mangle] +pub extern "C" fn TxCreationKeys_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_TxCreationKeysDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::chan_utils::TxCreationKeys { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} + +use lightning::ln::chan_utils::ChannelPublicKeys as nativeChannelPublicKeysImport; +type nativeChannelPublicKeys = nativeChannelPublicKeysImport; + +/// One counterparty's public keys which do not change over the life of a channel. +#[must_use] +#[repr(C)] +pub struct ChannelPublicKeys { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeChannelPublicKeys, + pub is_owned: bool, +} + +impl Drop for ChannelPublicKeys { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeChannelPublicKeys>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn ChannelPublicKeys_free(this_ptr: ChannelPublicKeys) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn ChannelPublicKeys_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeChannelPublicKeys); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl ChannelPublicKeys { + pub(crate) fn take_inner(mut self) -> *mut nativeChannelPublicKeys { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The public key which is used to sign all commitment transactions, as it appears in the +/// on-chain channel lock-in 2-of-2 multisig output. +#[no_mangle] +pub extern "C" fn ChannelPublicKeys_get_funding_pubkey(this_ptr: &ChannelPublicKeys) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.funding_pubkey; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// The public key which is used to sign all commitment transactions, as it appears in the +/// on-chain channel lock-in 2-of-2 multisig output. +#[no_mangle] +pub extern "C" fn ChannelPublicKeys_set_funding_pubkey(this_ptr: &mut ChannelPublicKeys, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.funding_pubkey = val.into_rust(); +} +/// The base point which is used (with derive_public_revocation_key) to derive per-commitment +/// revocation keys. This is combined with the per-commitment-secret generated by the +/// counterparty to create a secret which the counterparty can reveal to revoke previous +/// states. +#[no_mangle] +pub extern "C" fn ChannelPublicKeys_get_revocation_basepoint(this_ptr: &ChannelPublicKeys) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.revocation_basepoint; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// The base point which is used (with derive_public_revocation_key) to derive per-commitment +/// revocation keys. This is combined with the per-commitment-secret generated by the +/// counterparty to create a secret which the counterparty can reveal to revoke previous +/// states. +#[no_mangle] +pub extern "C" fn ChannelPublicKeys_set_revocation_basepoint(this_ptr: &mut ChannelPublicKeys, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.revocation_basepoint = val.into_rust(); +} +/// The public key on which the non-broadcaster (ie the countersignatory) receives an immediately +/// spendable primary channel balance on the broadcaster's commitment transaction. This key is +/// static across every commitment transaction. +#[no_mangle] +pub extern "C" fn ChannelPublicKeys_get_payment_point(this_ptr: &ChannelPublicKeys) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.payment_point; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// The public key on which the non-broadcaster (ie the countersignatory) receives an immediately +/// spendable primary channel balance on the broadcaster's commitment transaction. This key is +/// static across every commitment transaction. +#[no_mangle] +pub extern "C" fn ChannelPublicKeys_set_payment_point(this_ptr: &mut ChannelPublicKeys, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.payment_point = val.into_rust(); +} +/// The base point which is used (with derive_public_key) to derive a per-commitment payment +/// public key which receives non-HTLC-encumbered funds which are only available for spending +/// after some delay (or can be claimed via the revocation path). +#[no_mangle] +pub extern "C" fn ChannelPublicKeys_get_delayed_payment_basepoint(this_ptr: &ChannelPublicKeys) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.delayed_payment_basepoint; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// The base point which is used (with derive_public_key) to derive a per-commitment payment +/// public key which receives non-HTLC-encumbered funds which are only available for spending +/// after some delay (or can be claimed via the revocation path). +#[no_mangle] +pub extern "C" fn ChannelPublicKeys_set_delayed_payment_basepoint(this_ptr: &mut ChannelPublicKeys, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.delayed_payment_basepoint = val.into_rust(); +} +/// The base point which is used (with derive_public_key) to derive a per-commitment public key +/// which is used to encumber HTLC-in-flight outputs. +#[no_mangle] +pub extern "C" fn ChannelPublicKeys_get_htlc_basepoint(this_ptr: &ChannelPublicKeys) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.htlc_basepoint; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// The base point which is used (with derive_public_key) to derive a per-commitment public key +/// which is used to encumber HTLC-in-flight outputs. +#[no_mangle] +pub extern "C" fn ChannelPublicKeys_set_htlc_basepoint(this_ptr: &mut ChannelPublicKeys, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.htlc_basepoint = val.into_rust(); +} +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelPublicKeys_new(mut funding_pubkey_arg: crate::c_types::PublicKey, mut revocation_basepoint_arg: crate::c_types::PublicKey, mut payment_point_arg: crate::c_types::PublicKey, mut delayed_payment_basepoint_arg: crate::c_types::PublicKey, mut htlc_basepoint_arg: crate::c_types::PublicKey) -> ChannelPublicKeys { + ChannelPublicKeys { inner: Box::into_raw(Box::new(nativeChannelPublicKeys { + funding_pubkey: funding_pubkey_arg.into_rust(), + revocation_basepoint: revocation_basepoint_arg.into_rust(), + payment_point: payment_point_arg.into_rust(), + delayed_payment_basepoint: delayed_payment_basepoint_arg.into_rust(), + htlc_basepoint: htlc_basepoint_arg.into_rust(), + })), is_owned: true } +} +impl Clone for ChannelPublicKeys { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeChannelPublicKeys>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn ChannelPublicKeys_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeChannelPublicKeys)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn ChannelPublicKeys_clone(orig: &ChannelPublicKeys) -> ChannelPublicKeys { + orig.clone() +} +#[no_mangle] +pub extern "C" fn ChannelPublicKeys_write(obj: &ChannelPublicKeys) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn ChannelPublicKeys_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeChannelPublicKeys) }) +} +#[no_mangle] +pub extern "C" fn ChannelPublicKeys_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_ChannelPublicKeysDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::chan_utils::ChannelPublicKeys { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +/// Create per-state keys from channel base points and the per-commitment point. +/// Key set is asymmetric and can't be used as part of counter-signatory set of transactions. +#[must_use] +#[no_mangle] +pub extern "C" fn TxCreationKeys_derive_new(mut per_commitment_point: crate::c_types::PublicKey, mut broadcaster_delayed_payment_base: crate::c_types::PublicKey, mut broadcaster_htlc_base: crate::c_types::PublicKey, mut countersignatory_revocation_base: crate::c_types::PublicKey, mut countersignatory_htlc_base: crate::c_types::PublicKey) -> crate::c_types::derived::CResult_TxCreationKeysErrorZ { + let mut ret = lightning::ln::chan_utils::TxCreationKeys::derive_new(secp256k1::SECP256K1, &per_commitment_point.into_rust(), &broadcaster_delayed_payment_base.into_rust(), &broadcaster_htlc_base.into_rust(), &countersignatory_revocation_base.into_rust(), &countersignatory_htlc_base.into_rust()); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::chan_utils::TxCreationKeys { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::c_types::Secp256k1Error::from_rust(e) }).into() }; + local_ret +} + +/// Generate per-state keys from channel static keys. +/// Key set is asymmetric and can't be used as part of counter-signatory set of transactions. +#[must_use] +#[no_mangle] +pub extern "C" fn TxCreationKeys_from_channel_static_keys(mut per_commitment_point: crate::c_types::PublicKey, broadcaster_keys: &crate::ln::chan_utils::ChannelPublicKeys, countersignatory_keys: &crate::ln::chan_utils::ChannelPublicKeys) -> crate::c_types::derived::CResult_TxCreationKeysErrorZ { + let mut ret = lightning::ln::chan_utils::TxCreationKeys::from_channel_static_keys(&per_commitment_point.into_rust(), unsafe { &*broadcaster_keys.inner }, unsafe { &*countersignatory_keys.inner }, secp256k1::SECP256K1); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::chan_utils::TxCreationKeys { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::c_types::Secp256k1Error::from_rust(e) }).into() }; + local_ret +} + + +#[no_mangle] +pub static REVOKEABLE_REDEEMSCRIPT_MAX_LENGTH: usize = lightning::ln::chan_utils::REVOKEABLE_REDEEMSCRIPT_MAX_LENGTH; +/// A script either spendable by the revocation +/// key or the broadcaster_delayed_payment_key and satisfying the relative-locktime OP_CSV constrain. +/// Encumbering a `to_holder` output on a commitment transaction or 2nd-stage HTLC transactions. +#[no_mangle] +pub extern "C" fn get_revokeable_redeemscript(mut revocation_key: crate::c_types::PublicKey, mut contest_delay: u16, mut broadcaster_delayed_payment_key: crate::c_types::PublicKey) -> crate::c_types::derived::CVec_u8Z { + let mut ret = lightning::ln::chan_utils::get_revokeable_redeemscript(&revocation_key.into_rust(), contest_delay, &broadcaster_delayed_payment_key.into_rust()); + ret.into_bytes().into() +} + + +use lightning::ln::chan_utils::HTLCOutputInCommitment as nativeHTLCOutputInCommitmentImport; +type nativeHTLCOutputInCommitment = nativeHTLCOutputInCommitmentImport; + +/// Information about an HTLC as it appears in a commitment transaction +#[must_use] +#[repr(C)] +pub struct HTLCOutputInCommitment { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeHTLCOutputInCommitment, + pub is_owned: bool, +} + +impl Drop for HTLCOutputInCommitment { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeHTLCOutputInCommitment>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn HTLCOutputInCommitment_free(this_ptr: HTLCOutputInCommitment) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn HTLCOutputInCommitment_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeHTLCOutputInCommitment); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl HTLCOutputInCommitment { + pub(crate) fn take_inner(mut self) -> *mut nativeHTLCOutputInCommitment { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// Whether the HTLC was \"offered\" (ie outbound in relation to this commitment transaction). +/// Note that this is not the same as whether it is ountbound *from us*. To determine that you +/// need to compare this value to whether the commitment transaction in question is that of +/// the counterparty or our own. +#[no_mangle] +pub extern "C" fn HTLCOutputInCommitment_get_offered(this_ptr: &HTLCOutputInCommitment) -> bool { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.offered; + (*inner_val) +} +/// Whether the HTLC was \"offered\" (ie outbound in relation to this commitment transaction). +/// Note that this is not the same as whether it is ountbound *from us*. To determine that you +/// need to compare this value to whether the commitment transaction in question is that of +/// the counterparty or our own. +#[no_mangle] +pub extern "C" fn HTLCOutputInCommitment_set_offered(this_ptr: &mut HTLCOutputInCommitment, mut val: bool) { + unsafe { &mut *this_ptr.inner }.offered = val; +} +/// The value, in msat, of the HTLC. The value as it appears in the commitment transaction is +/// this divided by 1000. +#[no_mangle] +pub extern "C" fn HTLCOutputInCommitment_get_amount_msat(this_ptr: &HTLCOutputInCommitment) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.amount_msat; + (*inner_val) +} +/// The value, in msat, of the HTLC. The value as it appears in the commitment transaction is +/// this divided by 1000. +#[no_mangle] +pub extern "C" fn HTLCOutputInCommitment_set_amount_msat(this_ptr: &mut HTLCOutputInCommitment, mut val: u64) { + unsafe { &mut *this_ptr.inner }.amount_msat = val; +} +/// The CLTV lock-time at which this HTLC expires. +#[no_mangle] +pub extern "C" fn HTLCOutputInCommitment_get_cltv_expiry(this_ptr: &HTLCOutputInCommitment) -> u32 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.cltv_expiry; + (*inner_val) +} +/// The CLTV lock-time at which this HTLC expires. +#[no_mangle] +pub extern "C" fn HTLCOutputInCommitment_set_cltv_expiry(this_ptr: &mut HTLCOutputInCommitment, mut val: u32) { + unsafe { &mut *this_ptr.inner }.cltv_expiry = val; +} +/// The hash of the preimage which unlocks this HTLC. +#[no_mangle] +pub extern "C" fn HTLCOutputInCommitment_get_payment_hash(this_ptr: &HTLCOutputInCommitment) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.payment_hash; + &(*inner_val).0 +} +/// The hash of the preimage which unlocks this HTLC. +#[no_mangle] +pub extern "C" fn HTLCOutputInCommitment_set_payment_hash(this_ptr: &mut HTLCOutputInCommitment, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.payment_hash = ::lightning::ln::channelmanager::PaymentHash(val.data); +} +impl Clone for HTLCOutputInCommitment { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeHTLCOutputInCommitment>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn HTLCOutputInCommitment_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeHTLCOutputInCommitment)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn HTLCOutputInCommitment_clone(orig: &HTLCOutputInCommitment) -> HTLCOutputInCommitment { + orig.clone() +} +#[no_mangle] +pub extern "C" fn HTLCOutputInCommitment_write(obj: &HTLCOutputInCommitment) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn HTLCOutputInCommitment_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeHTLCOutputInCommitment) }) +} +#[no_mangle] +pub extern "C" fn HTLCOutputInCommitment_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_HTLCOutputInCommitmentDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::chan_utils::HTLCOutputInCommitment { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +/// Gets the witness redeemscript for an HTLC output in a commitment transaction. Note that htlc +/// does not need to have its previous_output_index filled. +#[no_mangle] +pub extern "C" fn get_htlc_redeemscript(htlc: &crate::ln::chan_utils::HTLCOutputInCommitment, keys: &crate::ln::chan_utils::TxCreationKeys) -> crate::c_types::derived::CVec_u8Z { + let mut ret = lightning::ln::chan_utils::get_htlc_redeemscript(unsafe { &*htlc.inner }, unsafe { &*keys.inner }); + ret.into_bytes().into() +} + +/// Gets the redeemscript for a funding output from the two funding public keys. +/// Note that the order of funding public keys does not matter. +#[no_mangle] +pub extern "C" fn make_funding_redeemscript(mut broadcaster: crate::c_types::PublicKey, mut countersignatory: crate::c_types::PublicKey) -> crate::c_types::derived::CVec_u8Z { + let mut ret = lightning::ln::chan_utils::make_funding_redeemscript(&broadcaster.into_rust(), &countersignatory.into_rust()); + ret.into_bytes().into() +} + +/// panics if htlc.transaction_output_index.is_none()! +#[no_mangle] +pub extern "C" fn build_htlc_transaction(prev_hash: *const [u8; 32], mut feerate_per_kw: u32, mut contest_delay: u16, htlc: &crate::ln::chan_utils::HTLCOutputInCommitment, mut broadcaster_delayed_payment_key: crate::c_types::PublicKey, mut revocation_key: crate::c_types::PublicKey) -> crate::c_types::Transaction { + let mut ret = lightning::ln::chan_utils::build_htlc_transaction(&::bitcoin::hash_types::Txid::from_slice(&unsafe { &*prev_hash }[..]).unwrap(), feerate_per_kw, contest_delay, unsafe { &*htlc.inner }, &broadcaster_delayed_payment_key.into_rust(), &revocation_key.into_rust()); + let mut local_ret = ::bitcoin::consensus::encode::serialize(&ret); + crate::c_types::Transaction::from_vec(local_ret) +} + + +use lightning::ln::chan_utils::ChannelTransactionParameters as nativeChannelTransactionParametersImport; +type nativeChannelTransactionParameters = nativeChannelTransactionParametersImport; + +/// Per-channel data used to build transactions in conjunction with the per-commitment data (CommitmentTransaction). +/// The fields are organized by holder/counterparty. +/// +/// Normally, this is converted to the broadcaster/countersignatory-organized DirectedChannelTransactionParameters +/// before use, via the as_holder_broadcastable and as_counterparty_broadcastable functions. +#[must_use] +#[repr(C)] +pub struct ChannelTransactionParameters { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeChannelTransactionParameters, + pub is_owned: bool, +} + +impl Drop for ChannelTransactionParameters { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeChannelTransactionParameters>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn ChannelTransactionParameters_free(this_ptr: ChannelTransactionParameters) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn ChannelTransactionParameters_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeChannelTransactionParameters); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl ChannelTransactionParameters { + pub(crate) fn take_inner(mut self) -> *mut nativeChannelTransactionParameters { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// Holder public keys +#[no_mangle] +pub extern "C" fn ChannelTransactionParameters_get_holder_pubkeys(this_ptr: &ChannelTransactionParameters) -> crate::ln::chan_utils::ChannelPublicKeys { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.holder_pubkeys; + crate::ln::chan_utils::ChannelPublicKeys { inner: unsafe { ( (&((*inner_val)) as *const _) as *mut _) }, is_owned: false } +} +/// Holder public keys +#[no_mangle] +pub extern "C" fn ChannelTransactionParameters_set_holder_pubkeys(this_ptr: &mut ChannelTransactionParameters, mut val: crate::ln::chan_utils::ChannelPublicKeys) { + unsafe { &mut *this_ptr.inner }.holder_pubkeys = *unsafe { Box::from_raw(val.take_inner()) }; +} +/// The contest delay selected by the holder, which applies to counterparty-broadcast transactions +#[no_mangle] +pub extern "C" fn ChannelTransactionParameters_get_holder_selected_contest_delay(this_ptr: &ChannelTransactionParameters) -> u16 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.holder_selected_contest_delay; + (*inner_val) +} +/// The contest delay selected by the holder, which applies to counterparty-broadcast transactions +#[no_mangle] +pub extern "C" fn ChannelTransactionParameters_set_holder_selected_contest_delay(this_ptr: &mut ChannelTransactionParameters, mut val: u16) { + unsafe { &mut *this_ptr.inner }.holder_selected_contest_delay = val; +} +/// Whether the holder is the initiator of this channel. +/// This is an input to the commitment number obscure factor computation. +#[no_mangle] +pub extern "C" fn ChannelTransactionParameters_get_is_outbound_from_holder(this_ptr: &ChannelTransactionParameters) -> bool { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.is_outbound_from_holder; + (*inner_val) +} +/// Whether the holder is the initiator of this channel. +/// This is an input to the commitment number obscure factor computation. +#[no_mangle] +pub extern "C" fn ChannelTransactionParameters_set_is_outbound_from_holder(this_ptr: &mut ChannelTransactionParameters, mut val: bool) { + unsafe { &mut *this_ptr.inner }.is_outbound_from_holder = val; +} +/// The late-bound counterparty channel transaction parameters. +/// These parameters are populated at the point in the protocol where the counterparty provides them. +#[no_mangle] +pub extern "C" fn ChannelTransactionParameters_get_counterparty_parameters(this_ptr: &ChannelTransactionParameters) -> crate::ln::chan_utils::CounterpartyChannelTransactionParameters { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.counterparty_parameters; + let mut local_inner_val = crate::ln::chan_utils::CounterpartyChannelTransactionParameters { inner: unsafe { (if inner_val.is_none() { std::ptr::null() } else { { (inner_val.as_ref().unwrap()) } } as *const _) as *mut _ }, is_owned: false }; + local_inner_val +} +/// The late-bound counterparty channel transaction parameters. +/// These parameters are populated at the point in the protocol where the counterparty provides them. +#[no_mangle] +pub extern "C" fn ChannelTransactionParameters_set_counterparty_parameters(this_ptr: &mut ChannelTransactionParameters, mut val: crate::ln::chan_utils::CounterpartyChannelTransactionParameters) { + let mut local_val = if val.inner.is_null() { None } else { Some( { *unsafe { Box::from_raw(val.take_inner()) } }) }; + unsafe { &mut *this_ptr.inner }.counterparty_parameters = local_val; +} +/// The late-bound funding outpoint +#[no_mangle] +pub extern "C" fn ChannelTransactionParameters_get_funding_outpoint(this_ptr: &ChannelTransactionParameters) -> crate::chain::transaction::OutPoint { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.funding_outpoint; + let mut local_inner_val = crate::chain::transaction::OutPoint { inner: unsafe { (if inner_val.is_none() { std::ptr::null() } else { { (inner_val.as_ref().unwrap()) } } as *const _) as *mut _ }, is_owned: false }; + local_inner_val +} +/// The late-bound funding outpoint +#[no_mangle] +pub extern "C" fn ChannelTransactionParameters_set_funding_outpoint(this_ptr: &mut ChannelTransactionParameters, mut val: crate::chain::transaction::OutPoint) { + let mut local_val = if val.inner.is_null() { None } else { Some( { *unsafe { Box::from_raw(val.take_inner()) } }) }; + unsafe { &mut *this_ptr.inner }.funding_outpoint = local_val; +} +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelTransactionParameters_new(mut holder_pubkeys_arg: crate::ln::chan_utils::ChannelPublicKeys, mut holder_selected_contest_delay_arg: u16, mut is_outbound_from_holder_arg: bool, mut counterparty_parameters_arg: crate::ln::chan_utils::CounterpartyChannelTransactionParameters, mut funding_outpoint_arg: crate::chain::transaction::OutPoint) -> ChannelTransactionParameters { + let mut local_counterparty_parameters_arg = if counterparty_parameters_arg.inner.is_null() { None } else { Some( { *unsafe { Box::from_raw(counterparty_parameters_arg.take_inner()) } }) }; + let mut local_funding_outpoint_arg = if funding_outpoint_arg.inner.is_null() { None } else { Some( { *unsafe { Box::from_raw(funding_outpoint_arg.take_inner()) } }) }; + ChannelTransactionParameters { inner: Box::into_raw(Box::new(nativeChannelTransactionParameters { + holder_pubkeys: *unsafe { Box::from_raw(holder_pubkeys_arg.take_inner()) }, + holder_selected_contest_delay: holder_selected_contest_delay_arg, + is_outbound_from_holder: is_outbound_from_holder_arg, + counterparty_parameters: local_counterparty_parameters_arg, + funding_outpoint: local_funding_outpoint_arg, + })), is_owned: true } +} +impl Clone for ChannelTransactionParameters { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeChannelTransactionParameters>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn ChannelTransactionParameters_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeChannelTransactionParameters)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn ChannelTransactionParameters_clone(orig: &ChannelTransactionParameters) -> ChannelTransactionParameters { + orig.clone() +} + +use lightning::ln::chan_utils::CounterpartyChannelTransactionParameters as nativeCounterpartyChannelTransactionParametersImport; +type nativeCounterpartyChannelTransactionParameters = nativeCounterpartyChannelTransactionParametersImport; + +/// Late-bound per-channel counterparty data used to build transactions. +#[must_use] +#[repr(C)] +pub struct CounterpartyChannelTransactionParameters { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeCounterpartyChannelTransactionParameters, + pub is_owned: bool, +} + +impl Drop for CounterpartyChannelTransactionParameters { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeCounterpartyChannelTransactionParameters>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn CounterpartyChannelTransactionParameters_free(this_ptr: CounterpartyChannelTransactionParameters) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn CounterpartyChannelTransactionParameters_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeCounterpartyChannelTransactionParameters); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl CounterpartyChannelTransactionParameters { + pub(crate) fn take_inner(mut self) -> *mut nativeCounterpartyChannelTransactionParameters { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// Counter-party public keys +#[no_mangle] +pub extern "C" fn CounterpartyChannelTransactionParameters_get_pubkeys(this_ptr: &CounterpartyChannelTransactionParameters) -> crate::ln::chan_utils::ChannelPublicKeys { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.pubkeys; + crate::ln::chan_utils::ChannelPublicKeys { inner: unsafe { ( (&((*inner_val)) as *const _) as *mut _) }, is_owned: false } +} +/// Counter-party public keys +#[no_mangle] +pub extern "C" fn CounterpartyChannelTransactionParameters_set_pubkeys(this_ptr: &mut CounterpartyChannelTransactionParameters, mut val: crate::ln::chan_utils::ChannelPublicKeys) { + unsafe { &mut *this_ptr.inner }.pubkeys = *unsafe { Box::from_raw(val.take_inner()) }; +} +/// The contest delay selected by the counterparty, which applies to holder-broadcast transactions +#[no_mangle] +pub extern "C" fn CounterpartyChannelTransactionParameters_get_selected_contest_delay(this_ptr: &CounterpartyChannelTransactionParameters) -> u16 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.selected_contest_delay; + (*inner_val) +} +/// The contest delay selected by the counterparty, which applies to holder-broadcast transactions +#[no_mangle] +pub extern "C" fn CounterpartyChannelTransactionParameters_set_selected_contest_delay(this_ptr: &mut CounterpartyChannelTransactionParameters, mut val: u16) { + unsafe { &mut *this_ptr.inner }.selected_contest_delay = val; +} +#[must_use] +#[no_mangle] +pub extern "C" fn CounterpartyChannelTransactionParameters_new(mut pubkeys_arg: crate::ln::chan_utils::ChannelPublicKeys, mut selected_contest_delay_arg: u16) -> CounterpartyChannelTransactionParameters { + CounterpartyChannelTransactionParameters { inner: Box::into_raw(Box::new(nativeCounterpartyChannelTransactionParameters { + pubkeys: *unsafe { Box::from_raw(pubkeys_arg.take_inner()) }, + selected_contest_delay: selected_contest_delay_arg, + })), is_owned: true } +} +impl Clone for CounterpartyChannelTransactionParameters { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeCounterpartyChannelTransactionParameters>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn CounterpartyChannelTransactionParameters_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeCounterpartyChannelTransactionParameters)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn CounterpartyChannelTransactionParameters_clone(orig: &CounterpartyChannelTransactionParameters) -> CounterpartyChannelTransactionParameters { + orig.clone() +} +/// Whether the late bound parameters are populated. +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelTransactionParameters_is_populated(this_arg: &ChannelTransactionParameters) -> bool { + let mut ret = unsafe { &*this_arg.inner }.is_populated(); + ret +} + +/// Convert the holder/counterparty parameters to broadcaster/countersignatory-organized parameters, +/// given that the holder is the broadcaster. +/// +/// self.is_populated() must be true before calling this function. +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelTransactionParameters_as_holder_broadcastable(this_arg: &ChannelTransactionParameters) -> crate::ln::chan_utils::DirectedChannelTransactionParameters { + let mut ret = unsafe { &*this_arg.inner }.as_holder_broadcastable(); + crate::ln::chan_utils::DirectedChannelTransactionParameters { inner: Box::into_raw(Box::new(ret)), is_owned: true } +} + +/// Convert the holder/counterparty parameters to broadcaster/countersignatory-organized parameters, +/// given that the counterparty is the broadcaster. +/// +/// self.is_populated() must be true before calling this function. +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelTransactionParameters_as_counterparty_broadcastable(this_arg: &ChannelTransactionParameters) -> crate::ln::chan_utils::DirectedChannelTransactionParameters { + let mut ret = unsafe { &*this_arg.inner }.as_counterparty_broadcastable(); + crate::ln::chan_utils::DirectedChannelTransactionParameters { inner: Box::into_raw(Box::new(ret)), is_owned: true } +} + +#[no_mangle] +pub extern "C" fn CounterpartyChannelTransactionParameters_write(obj: &CounterpartyChannelTransactionParameters) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn CounterpartyChannelTransactionParameters_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeCounterpartyChannelTransactionParameters) }) +} +#[no_mangle] +pub extern "C" fn CounterpartyChannelTransactionParameters_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_CounterpartyChannelTransactionParametersDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::chan_utils::CounterpartyChannelTransactionParameters { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn ChannelTransactionParameters_write(obj: &ChannelTransactionParameters) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn ChannelTransactionParameters_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeChannelTransactionParameters) }) +} +#[no_mangle] +pub extern "C" fn ChannelTransactionParameters_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_ChannelTransactionParametersDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::chan_utils::ChannelTransactionParameters { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} + +use lightning::ln::chan_utils::DirectedChannelTransactionParameters as nativeDirectedChannelTransactionParametersImport; +type nativeDirectedChannelTransactionParameters = nativeDirectedChannelTransactionParametersImport<'static>; + +/// Static channel fields used to build transactions given per-commitment fields, organized by +/// broadcaster/countersignatory. +/// +/// This is derived from the holder/counterparty-organized ChannelTransactionParameters via the +/// as_holder_broadcastable and as_counterparty_broadcastable functions. +#[must_use] +#[repr(C)] +pub struct DirectedChannelTransactionParameters { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeDirectedChannelTransactionParameters, + pub is_owned: bool, +} + +impl Drop for DirectedChannelTransactionParameters { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeDirectedChannelTransactionParameters>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn DirectedChannelTransactionParameters_free(this_ptr: DirectedChannelTransactionParameters) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn DirectedChannelTransactionParameters_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeDirectedChannelTransactionParameters); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl DirectedChannelTransactionParameters { + pub(crate) fn take_inner(mut self) -> *mut nativeDirectedChannelTransactionParameters { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// Get the channel pubkeys for the broadcaster +#[must_use] +#[no_mangle] +pub extern "C" fn DirectedChannelTransactionParameters_broadcaster_pubkeys(this_arg: &DirectedChannelTransactionParameters) -> crate::ln::chan_utils::ChannelPublicKeys { + let mut ret = unsafe { &*this_arg.inner }.broadcaster_pubkeys(); + crate::ln::chan_utils::ChannelPublicKeys { inner: unsafe { ( (&(*ret) as *const _) as *mut _) }, is_owned: false } +} + +/// Get the channel pubkeys for the countersignatory +#[must_use] +#[no_mangle] +pub extern "C" fn DirectedChannelTransactionParameters_countersignatory_pubkeys(this_arg: &DirectedChannelTransactionParameters) -> crate::ln::chan_utils::ChannelPublicKeys { + let mut ret = unsafe { &*this_arg.inner }.countersignatory_pubkeys(); + crate::ln::chan_utils::ChannelPublicKeys { inner: unsafe { ( (&(*ret) as *const _) as *mut _) }, is_owned: false } +} + +/// Get the contest delay applicable to the transactions. +/// Note that the contest delay was selected by the countersignatory. +#[must_use] +#[no_mangle] +pub extern "C" fn DirectedChannelTransactionParameters_contest_delay(this_arg: &DirectedChannelTransactionParameters) -> u16 { + let mut ret = unsafe { &*this_arg.inner }.contest_delay(); + ret +} + +/// Whether the channel is outbound from the broadcaster. +/// +/// The boolean representing the side that initiated the channel is +/// an input to the commitment number obscure factor computation. +#[must_use] +#[no_mangle] +pub extern "C" fn DirectedChannelTransactionParameters_is_outbound(this_arg: &DirectedChannelTransactionParameters) -> bool { + let mut ret = unsafe { &*this_arg.inner }.is_outbound(); + ret +} + +/// The funding outpoint +#[must_use] +#[no_mangle] +pub extern "C" fn DirectedChannelTransactionParameters_funding_outpoint(this_arg: &DirectedChannelTransactionParameters) -> crate::chain::transaction::OutPoint { + let mut ret = unsafe { &*this_arg.inner }.funding_outpoint(); + crate::c_types::bitcoin_to_C_outpoint(ret) +} + + +use lightning::ln::chan_utils::HolderCommitmentTransaction as nativeHolderCommitmentTransactionImport; +type nativeHolderCommitmentTransaction = nativeHolderCommitmentTransactionImport; + +/// Information needed to build and sign a holder's commitment transaction. +/// +/// The transaction is only signed once we are ready to broadcast. +#[must_use] +#[repr(C)] +pub struct HolderCommitmentTransaction { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeHolderCommitmentTransaction, + pub is_owned: bool, +} + +impl Drop for HolderCommitmentTransaction { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeHolderCommitmentTransaction>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn HolderCommitmentTransaction_free(this_ptr: HolderCommitmentTransaction) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn HolderCommitmentTransaction_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeHolderCommitmentTransaction); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl HolderCommitmentTransaction { + pub(crate) fn take_inner(mut self) -> *mut nativeHolderCommitmentTransaction { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// Our counterparty's signature for the transaction +#[no_mangle] +pub extern "C" fn HolderCommitmentTransaction_get_counterparty_sig(this_ptr: &HolderCommitmentTransaction) -> crate::c_types::Signature { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.counterparty_sig; + crate::c_types::Signature::from_rust(&(*inner_val)) +} +/// Our counterparty's signature for the transaction +#[no_mangle] +pub extern "C" fn HolderCommitmentTransaction_set_counterparty_sig(this_ptr: &mut HolderCommitmentTransaction, mut val: crate::c_types::Signature) { + unsafe { &mut *this_ptr.inner }.counterparty_sig = val.into_rust(); +} +/// All non-dust counterparty HTLC signatures, in the order they appear in the transaction +#[no_mangle] +pub extern "C" fn HolderCommitmentTransaction_set_counterparty_htlc_sigs(this_ptr: &mut HolderCommitmentTransaction, mut val: crate::c_types::derived::CVec_SignatureZ) { + let mut local_val = Vec::new(); for mut item in val.into_rust().drain(..) { local_val.push( { item.into_rust() }); }; + unsafe { &mut *this_ptr.inner }.counterparty_htlc_sigs = local_val; +} +impl Clone for HolderCommitmentTransaction { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeHolderCommitmentTransaction>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn HolderCommitmentTransaction_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeHolderCommitmentTransaction)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn HolderCommitmentTransaction_clone(orig: &HolderCommitmentTransaction) -> HolderCommitmentTransaction { + orig.clone() +} +#[no_mangle] +pub extern "C" fn HolderCommitmentTransaction_write(obj: &HolderCommitmentTransaction) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn HolderCommitmentTransaction_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeHolderCommitmentTransaction) }) +} +#[no_mangle] +pub extern "C" fn HolderCommitmentTransaction_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_HolderCommitmentTransactionDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::chan_utils::HolderCommitmentTransaction { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +/// Create a new holder transaction with the given counterparty signatures. +/// The funding keys are used to figure out which signature should go first when building the transaction for broadcast. +#[must_use] +#[no_mangle] +pub extern "C" fn HolderCommitmentTransaction_new(mut commitment_tx: crate::ln::chan_utils::CommitmentTransaction, mut counterparty_sig: crate::c_types::Signature, mut counterparty_htlc_sigs: crate::c_types::derived::CVec_SignatureZ, mut holder_funding_key: crate::c_types::PublicKey, mut counterparty_funding_key: crate::c_types::PublicKey) -> HolderCommitmentTransaction { + let mut local_counterparty_htlc_sigs = Vec::new(); for mut item in counterparty_htlc_sigs.into_rust().drain(..) { local_counterparty_htlc_sigs.push( { item.into_rust() }); }; + let mut ret = lightning::ln::chan_utils::HolderCommitmentTransaction::new(*unsafe { Box::from_raw(commitment_tx.take_inner()) }, counterparty_sig.into_rust(), local_counterparty_htlc_sigs, &holder_funding_key.into_rust(), &counterparty_funding_key.into_rust()); + HolderCommitmentTransaction { inner: Box::into_raw(Box::new(ret)), is_owned: true } +} + + +use lightning::ln::chan_utils::BuiltCommitmentTransaction as nativeBuiltCommitmentTransactionImport; +type nativeBuiltCommitmentTransaction = nativeBuiltCommitmentTransactionImport; + +/// A pre-built Bitcoin commitment transaction and its txid. +#[must_use] +#[repr(C)] +pub struct BuiltCommitmentTransaction { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeBuiltCommitmentTransaction, + pub is_owned: bool, +} + +impl Drop for BuiltCommitmentTransaction { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeBuiltCommitmentTransaction>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn BuiltCommitmentTransaction_free(this_ptr: BuiltCommitmentTransaction) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn BuiltCommitmentTransaction_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeBuiltCommitmentTransaction); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl BuiltCommitmentTransaction { + pub(crate) fn take_inner(mut self) -> *mut nativeBuiltCommitmentTransaction { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The commitment transaction +#[no_mangle] +pub extern "C" fn BuiltCommitmentTransaction_get_transaction(this_ptr: &BuiltCommitmentTransaction) -> crate::c_types::Transaction { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.transaction; + let mut local_inner_val = ::bitcoin::consensus::encode::serialize(inner_val); + crate::c_types::Transaction::from_vec(local_inner_val) +} +/// The commitment transaction +#[no_mangle] +pub extern "C" fn BuiltCommitmentTransaction_set_transaction(this_ptr: &mut BuiltCommitmentTransaction, mut val: crate::c_types::Transaction) { + unsafe { &mut *this_ptr.inner }.transaction = val.into_bitcoin(); +} +/// The txid for the commitment transaction. +/// +/// This is provided as a performance optimization, instead of calling transaction.txid() +/// multiple times. +#[no_mangle] +pub extern "C" fn BuiltCommitmentTransaction_get_txid(this_ptr: &BuiltCommitmentTransaction) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.txid; + (*inner_val).as_inner() +} +/// The txid for the commitment transaction. +/// +/// This is provided as a performance optimization, instead of calling transaction.txid() +/// multiple times. +#[no_mangle] +pub extern "C" fn BuiltCommitmentTransaction_set_txid(this_ptr: &mut BuiltCommitmentTransaction, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.txid = ::bitcoin::hash_types::Txid::from_slice(&val.data[..]).unwrap(); +} +#[must_use] +#[no_mangle] +pub extern "C" fn BuiltCommitmentTransaction_new(mut transaction_arg: crate::c_types::Transaction, mut txid_arg: crate::c_types::ThirtyTwoBytes) -> BuiltCommitmentTransaction { + BuiltCommitmentTransaction { inner: Box::into_raw(Box::new(nativeBuiltCommitmentTransaction { + transaction: transaction_arg.into_bitcoin(), + txid: ::bitcoin::hash_types::Txid::from_slice(&txid_arg.data[..]).unwrap(), + })), is_owned: true } +} +impl Clone for BuiltCommitmentTransaction { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeBuiltCommitmentTransaction>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn BuiltCommitmentTransaction_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeBuiltCommitmentTransaction)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn BuiltCommitmentTransaction_clone(orig: &BuiltCommitmentTransaction) -> BuiltCommitmentTransaction { + orig.clone() +} +#[no_mangle] +pub extern "C" fn BuiltCommitmentTransaction_write(obj: &BuiltCommitmentTransaction) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn BuiltCommitmentTransaction_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeBuiltCommitmentTransaction) }) +} +#[no_mangle] +pub extern "C" fn BuiltCommitmentTransaction_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_BuiltCommitmentTransactionDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::chan_utils::BuiltCommitmentTransaction { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +/// Get the SIGHASH_ALL sighash value of the transaction. +/// +/// This can be used to verify a signature. +#[must_use] +#[no_mangle] +pub extern "C" fn BuiltCommitmentTransaction_get_sighash_all(this_arg: &BuiltCommitmentTransaction, mut funding_redeemscript: crate::c_types::u8slice, mut channel_value_satoshis: u64) -> crate::c_types::ThirtyTwoBytes { + let mut ret = unsafe { &*this_arg.inner }.get_sighash_all(&::bitcoin::blockdata::script::Script::from(Vec::from(funding_redeemscript.to_slice())), channel_value_satoshis); + crate::c_types::ThirtyTwoBytes { data: ret.as_ref().clone() } +} + +/// Sign a transaction, either because we are counter-signing the counterparty's transaction or +/// because we are about to broadcast a holder transaction. +#[must_use] +#[no_mangle] +pub extern "C" fn BuiltCommitmentTransaction_sign(this_arg: &BuiltCommitmentTransaction, funding_key: *const [u8; 32], mut funding_redeemscript: crate::c_types::u8slice, mut channel_value_satoshis: u64) -> crate::c_types::Signature { + let mut ret = unsafe { &*this_arg.inner }.sign(&::bitcoin::secp256k1::key::SecretKey::from_slice(&unsafe { *funding_key}[..]).unwrap(), &::bitcoin::blockdata::script::Script::from(Vec::from(funding_redeemscript.to_slice())), channel_value_satoshis, secp256k1::SECP256K1); + crate::c_types::Signature::from_rust(&ret) +} + + +use lightning::ln::chan_utils::CommitmentTransaction as nativeCommitmentTransactionImport; +type nativeCommitmentTransaction = nativeCommitmentTransactionImport; + +/// This class tracks the per-transaction information needed to build a commitment transaction and to +/// actually build it and sign. It is used for holder transactions that we sign only when needed +/// and for transactions we sign for the counterparty. +/// +/// This class can be used inside a signer implementation to generate a signature given the relevant +/// secret key. +#[must_use] +#[repr(C)] +pub struct CommitmentTransaction { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeCommitmentTransaction, + pub is_owned: bool, +} + +impl Drop for CommitmentTransaction { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeCommitmentTransaction>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn CommitmentTransaction_free(this_ptr: CommitmentTransaction) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn CommitmentTransaction_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeCommitmentTransaction); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl CommitmentTransaction { + pub(crate) fn take_inner(mut self) -> *mut nativeCommitmentTransaction { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +impl Clone for CommitmentTransaction { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeCommitmentTransaction>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn CommitmentTransaction_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeCommitmentTransaction)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn CommitmentTransaction_clone(orig: &CommitmentTransaction) -> CommitmentTransaction { + orig.clone() +} +#[no_mangle] +pub extern "C" fn CommitmentTransaction_write(obj: &CommitmentTransaction) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn CommitmentTransaction_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeCommitmentTransaction) }) +} +#[no_mangle] +pub extern "C" fn CommitmentTransaction_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_CommitmentTransactionDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::chan_utils::CommitmentTransaction { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +/// The backwards-counting commitment number +#[must_use] +#[no_mangle] +pub extern "C" fn CommitmentTransaction_commitment_number(this_arg: &CommitmentTransaction) -> u64 { + let mut ret = unsafe { &*this_arg.inner }.commitment_number(); + ret +} + +/// The value to be sent to the broadcaster +#[must_use] +#[no_mangle] +pub extern "C" fn CommitmentTransaction_to_broadcaster_value_sat(this_arg: &CommitmentTransaction) -> u64 { + let mut ret = unsafe { &*this_arg.inner }.to_broadcaster_value_sat(); + ret +} + +/// The value to be sent to the counterparty +#[must_use] +#[no_mangle] +pub extern "C" fn CommitmentTransaction_to_countersignatory_value_sat(this_arg: &CommitmentTransaction) -> u64 { + let mut ret = unsafe { &*this_arg.inner }.to_countersignatory_value_sat(); + ret +} + +/// The feerate paid per 1000-weight-unit in this commitment transaction. +#[must_use] +#[no_mangle] +pub extern "C" fn CommitmentTransaction_feerate_per_kw(this_arg: &CommitmentTransaction) -> u32 { + let mut ret = unsafe { &*this_arg.inner }.feerate_per_kw(); + ret +} + +/// Trust our pre-built transaction and derived transaction creation public keys. +/// +/// Applies a wrapper which allows access to these fields. +/// +/// This should only be used if you fully trust the builder of this object. It should not +///\tbe used by an external signer - instead use the verify function. +#[must_use] +#[no_mangle] +pub extern "C" fn CommitmentTransaction_trust(this_arg: &CommitmentTransaction) -> crate::ln::chan_utils::TrustedCommitmentTransaction { + let mut ret = unsafe { &*this_arg.inner }.trust(); + crate::ln::chan_utils::TrustedCommitmentTransaction { inner: Box::into_raw(Box::new(ret)), is_owned: true } +} + +/// Verify our pre-built transaction and derived transaction creation public keys. +/// +/// Applies a wrapper which allows access to these fields. +/// +/// An external validating signer must call this method before signing +/// or using the built transaction. +#[must_use] +#[no_mangle] +pub extern "C" fn CommitmentTransaction_verify(this_arg: &CommitmentTransaction, channel_parameters: &crate::ln::chan_utils::DirectedChannelTransactionParameters, broadcaster_keys: &crate::ln::chan_utils::ChannelPublicKeys, countersignatory_keys: &crate::ln::chan_utils::ChannelPublicKeys) -> crate::c_types::derived::CResult_TrustedCommitmentTransactionNoneZ { + let mut ret = unsafe { &*this_arg.inner }.verify(unsafe { &*channel_parameters.inner }, unsafe { &*broadcaster_keys.inner }, unsafe { &*countersignatory_keys.inner }, secp256k1::SECP256K1); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::chan_utils::TrustedCommitmentTransaction { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { 0u8 /*e*/ }).into() }; + local_ret +} + + +use lightning::ln::chan_utils::TrustedCommitmentTransaction as nativeTrustedCommitmentTransactionImport; +type nativeTrustedCommitmentTransaction = nativeTrustedCommitmentTransactionImport<'static>; + +/// A wrapper on CommitmentTransaction indicating that the derived fields (the built bitcoin +/// transaction and the transaction creation keys) are trusted. +/// +/// See trust() and verify() functions on CommitmentTransaction. +/// +/// This structure implements Deref. +#[must_use] +#[repr(C)] +pub struct TrustedCommitmentTransaction { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeTrustedCommitmentTransaction, + pub is_owned: bool, +} + +impl Drop for TrustedCommitmentTransaction { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeTrustedCommitmentTransaction>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn TrustedCommitmentTransaction_free(this_ptr: TrustedCommitmentTransaction) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn TrustedCommitmentTransaction_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeTrustedCommitmentTransaction); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl TrustedCommitmentTransaction { + pub(crate) fn take_inner(mut self) -> *mut nativeTrustedCommitmentTransaction { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The transaction ID of the built Bitcoin transaction +#[must_use] +#[no_mangle] +pub extern "C" fn TrustedCommitmentTransaction_txid(this_arg: &TrustedCommitmentTransaction) -> crate::c_types::ThirtyTwoBytes { + let mut ret = unsafe { &*this_arg.inner }.txid(); + crate::c_types::ThirtyTwoBytes { data: ret.into_inner() } +} + +/// The pre-built Bitcoin commitment transaction +#[must_use] +#[no_mangle] +pub extern "C" fn TrustedCommitmentTransaction_built_transaction(this_arg: &TrustedCommitmentTransaction) -> crate::ln::chan_utils::BuiltCommitmentTransaction { + let mut ret = unsafe { &*this_arg.inner }.built_transaction(); + crate::ln::chan_utils::BuiltCommitmentTransaction { inner: unsafe { ( (&(*ret) as *const _) as *mut _) }, is_owned: false } +} + +/// The pre-calculated transaction creation public keys. +#[must_use] +#[no_mangle] +pub extern "C" fn TrustedCommitmentTransaction_keys(this_arg: &TrustedCommitmentTransaction) -> crate::ln::chan_utils::TxCreationKeys { + let mut ret = unsafe { &*this_arg.inner }.keys(); + crate::ln::chan_utils::TxCreationKeys { inner: unsafe { ( (&(*ret) as *const _) as *mut _) }, is_owned: false } +} + +/// Get a signature for each HTLC which was included in the commitment transaction (ie for +/// which HTLCOutputInCommitment::transaction_output_index.is_some()). +/// +/// The returned Vec has one entry for each HTLC, and in the same order. +#[must_use] +#[no_mangle] +pub extern "C" fn TrustedCommitmentTransaction_get_htlc_sigs(this_arg: &TrustedCommitmentTransaction, htlc_base_key: *const [u8; 32], channel_parameters: &crate::ln::chan_utils::DirectedChannelTransactionParameters) -> crate::c_types::derived::CResult_CVec_SignatureZNoneZ { + let mut ret = unsafe { &*this_arg.inner }.get_htlc_sigs(&::bitcoin::secp256k1::key::SecretKey::from_slice(&unsafe { *htlc_base_key}[..]).unwrap(), unsafe { &*channel_parameters.inner }, secp256k1::SECP256K1); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { let mut local_ret_0 = Vec::new(); for mut item in o.drain(..) { local_ret_0.push( { crate::c_types::Signature::from_rust(&item) }); }; local_ret_0.into() }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { 0u8 /*e*/ }).into() }; + local_ret +} + +/// Get the transaction number obscure factor +#[no_mangle] +pub extern "C" fn get_commitment_transaction_number_obscure_factor(mut broadcaster_payment_basepoint: crate::c_types::PublicKey, mut countersignatory_payment_basepoint: crate::c_types::PublicKey, mut outbound_from_broadcaster: bool) -> u64 { + let mut ret = lightning::ln::chan_utils::get_commitment_transaction_number_obscure_factor(&broadcaster_payment_basepoint.into_rust(), &countersignatory_payment_basepoint.into_rust(), outbound_from_broadcaster); + ret +} + diff --git a/lightning-c-bindings/src/ln/channelmanager.rs b/lightning-c-bindings/src/ln/channelmanager.rs new file mode 100644 index 0000000..86257f7 --- /dev/null +++ b/lightning-c-bindings/src/ln/channelmanager.rs @@ -0,0 +1,1163 @@ +//! The top-level channel management and payment tracking stuff lives here. +//! +//! The ChannelManager is the main chunk of logic implementing the lightning protocol and is +//! responsible for tracking which channels are open, HTLCs are in flight and reestablishing those +//! upon reconnect to the relevant peer(s). +//! +//! It does not manage routing logic (see routing::router::get_route for that) nor does it manage constructing +//! on-chain transactions (it only monitors the chain to watch for any force-closes that might +//! imply it needs to fail HTLCs/payments/channels it manages). +//! + +use std::ffi::c_void; +use bitcoin::hashes::Hash; +use crate::c_types::*; + + +use lightning::ln::channelmanager::ChannelManager as nativeChannelManagerImport; +type nativeChannelManager = nativeChannelManagerImport; + +/// Manager which keeps track of a number of channels and sends messages to the appropriate +/// channel, also tracking HTLC preimages and forwarding onion packets appropriately. +/// +/// Implements ChannelMessageHandler, handling the multi-channel parts and passing things through +/// to individual Channels. +/// +/// Implements Writeable to write out all channel state to disk. Implies peer_disconnected() for +/// all peers during write/read (though does not modify this instance, only the instance being +/// serialized). This will result in any channels which have not yet exchanged funding_created (ie +/// called funding_transaction_generated for outbound channels). +/// +/// Note that you can be a bit lazier about writing out ChannelManager than you can be with +/// ChannelMonitors. With ChannelMonitors you MUST write each monitor update out to disk before +/// returning from chain::Watch::watch_/update_channel, with ChannelManagers, writing updates +/// happens out-of-band (and will prevent any other ChannelManager operations from occurring during +/// the serialization process). If the deserialized version is out-of-date compared to the +/// ChannelMonitors passed by reference to read(), those channels will be force-closed based on the +/// ChannelMonitor state and no funds will be lost (mod on-chain transaction fees). +/// +/// Note that the deserializer is only implemented for (BlockHash, ChannelManager), which +/// tells you the last block hash which was block_connect()ed. You MUST rescan any blocks along +/// the \"reorg path\" (ie call block_disconnected() until you get to a common block and then call +/// block_connected() to step towards your best block) upon deserialization before using the +/// object! +/// +/// Note that ChannelManager is responsible for tracking liveness of its channels and generating +/// ChannelUpdate messages informing peers that the channel is temporarily disabled. To avoid +/// spam due to quick disconnection/reconnection, updates are not sent until the channel has been +/// offline for a full minute. In order to track this, you must call +/// timer_chan_freshness_every_min roughly once per minute, though it doesn't have to be perfect. +/// +/// Rather than using a plain ChannelManager, it is preferable to use either a SimpleArcChannelManager +/// a SimpleRefChannelManager, for conciseness. See their documentation for more details, but +/// essentially you should default to using a SimpleRefChannelManager, and use a +/// SimpleArcChannelManager when you require a ChannelManager with a static lifetime, such as when +/// you're using lightning-net-tokio. +#[must_use] +#[repr(C)] +pub struct ChannelManager { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeChannelManager, + pub is_owned: bool, +} + +impl Drop for ChannelManager { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeChannelManager>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn ChannelManager_free(this_ptr: ChannelManager) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn ChannelManager_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeChannelManager); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl ChannelManager { + pub(crate) fn take_inner(mut self) -> *mut nativeChannelManager { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} + +use lightning::ln::channelmanager::ChainParameters as nativeChainParametersImport; +type nativeChainParameters = nativeChainParametersImport; + +/// Chain-related parameters used to construct a new `ChannelManager`. +/// +/// Typically, the block-specific parameters are derived from the best block hash for the network, +/// as a newly constructed `ChannelManager` will not have created any channels yet. These parameters +/// are not needed when deserializing a previously constructed `ChannelManager`. +#[must_use] +#[repr(C)] +pub struct ChainParameters { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeChainParameters, + pub is_owned: bool, +} + +impl Drop for ChainParameters { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeChainParameters>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn ChainParameters_free(this_ptr: ChainParameters) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn ChainParameters_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeChainParameters); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl ChainParameters { + pub(crate) fn take_inner(mut self) -> *mut nativeChainParameters { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The network for determining the `chain_hash` in Lightning messages. +#[no_mangle] +pub extern "C" fn ChainParameters_get_network(this_ptr: &ChainParameters) -> crate::bitcoin::network::Network { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.network; + crate::bitcoin::network::Network::from_bitcoin((*inner_val)) +} +/// The network for determining the `chain_hash` in Lightning messages. +#[no_mangle] +pub extern "C" fn ChainParameters_set_network(this_ptr: &mut ChainParameters, mut val: crate::bitcoin::network::Network) { + unsafe { &mut *this_ptr.inner }.network = val.into_bitcoin(); +} +/// The hash of the latest block successfully connected. +#[no_mangle] +pub extern "C" fn ChainParameters_get_latest_hash(this_ptr: &ChainParameters) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.latest_hash; + (*inner_val).as_inner() +} +/// The hash of the latest block successfully connected. +#[no_mangle] +pub extern "C" fn ChainParameters_set_latest_hash(this_ptr: &mut ChainParameters, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.latest_hash = ::bitcoin::hash_types::BlockHash::from_slice(&val.data[..]).unwrap(); +} +/// The height of the latest block successfully connected. +/// +/// Used to track on-chain channel funding outputs and send payments with reliable timelocks. +#[no_mangle] +pub extern "C" fn ChainParameters_get_latest_height(this_ptr: &ChainParameters) -> usize { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.latest_height; + (*inner_val) +} +/// The height of the latest block successfully connected. +/// +/// Used to track on-chain channel funding outputs and send payments with reliable timelocks. +#[no_mangle] +pub extern "C" fn ChainParameters_set_latest_height(this_ptr: &mut ChainParameters, mut val: usize) { + unsafe { &mut *this_ptr.inner }.latest_height = val; +} +#[must_use] +#[no_mangle] +pub extern "C" fn ChainParameters_new(mut network_arg: crate::bitcoin::network::Network, mut latest_hash_arg: crate::c_types::ThirtyTwoBytes, mut latest_height_arg: usize) -> ChainParameters { + ChainParameters { inner: Box::into_raw(Box::new(nativeChainParameters { + network: network_arg.into_bitcoin(), + latest_hash: ::bitcoin::hash_types::BlockHash::from_slice(&latest_hash_arg.data[..]).unwrap(), + latest_height: latest_height_arg, + })), is_owned: true } +} + +use lightning::ln::channelmanager::ChannelDetails as nativeChannelDetailsImport; +type nativeChannelDetails = nativeChannelDetailsImport; + +/// Details of a channel, as returned by ChannelManager::list_channels and ChannelManager::list_usable_channels +#[must_use] +#[repr(C)] +pub struct ChannelDetails { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeChannelDetails, + pub is_owned: bool, +} + +impl Drop for ChannelDetails { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeChannelDetails>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn ChannelDetails_free(this_ptr: ChannelDetails) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn ChannelDetails_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeChannelDetails); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl ChannelDetails { + pub(crate) fn take_inner(mut self) -> *mut nativeChannelDetails { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The channel's ID (prior to funding transaction generation, this is a random 32 bytes, +/// thereafter this is the txid of the funding transaction xor the funding transaction output). +/// Note that this means this value is *not* persistent - it can change once during the +/// lifetime of the channel. +#[no_mangle] +pub extern "C" fn ChannelDetails_get_channel_id(this_ptr: &ChannelDetails) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.channel_id; + &(*inner_val) +} +/// The channel's ID (prior to funding transaction generation, this is a random 32 bytes, +/// thereafter this is the txid of the funding transaction xor the funding transaction output). +/// Note that this means this value is *not* persistent - it can change once during the +/// lifetime of the channel. +#[no_mangle] +pub extern "C" fn ChannelDetails_set_channel_id(this_ptr: &mut ChannelDetails, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.channel_id = val.data; +} +/// The node_id of our counterparty +#[no_mangle] +pub extern "C" fn ChannelDetails_get_remote_network_id(this_ptr: &ChannelDetails) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.remote_network_id; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// The node_id of our counterparty +#[no_mangle] +pub extern "C" fn ChannelDetails_set_remote_network_id(this_ptr: &mut ChannelDetails, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.remote_network_id = val.into_rust(); +} +/// The Features the channel counterparty provided upon last connection. +/// Useful for routing as it is the most up-to-date copy of the counterparty's features and +/// many routing-relevant features are present in the init context. +#[no_mangle] +pub extern "C" fn ChannelDetails_get_counterparty_features(this_ptr: &ChannelDetails) -> crate::ln::features::InitFeatures { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.counterparty_features; + crate::ln::features::InitFeatures { inner: unsafe { ( (&((*inner_val)) as *const _) as *mut _) }, is_owned: false } +} +/// The Features the channel counterparty provided upon last connection. +/// Useful for routing as it is the most up-to-date copy of the counterparty's features and +/// many routing-relevant features are present in the init context. +#[no_mangle] +pub extern "C" fn ChannelDetails_set_counterparty_features(this_ptr: &mut ChannelDetails, mut val: crate::ln::features::InitFeatures) { + unsafe { &mut *this_ptr.inner }.counterparty_features = *unsafe { Box::from_raw(val.take_inner()) }; +} +/// The value, in satoshis, of this channel as appears in the funding output +#[no_mangle] +pub extern "C" fn ChannelDetails_get_channel_value_satoshis(this_ptr: &ChannelDetails) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.channel_value_satoshis; + (*inner_val) +} +/// The value, in satoshis, of this channel as appears in the funding output +#[no_mangle] +pub extern "C" fn ChannelDetails_set_channel_value_satoshis(this_ptr: &mut ChannelDetails, mut val: u64) { + unsafe { &mut *this_ptr.inner }.channel_value_satoshis = val; +} +/// The user_id passed in to create_channel, or 0 if the channel was inbound. +#[no_mangle] +pub extern "C" fn ChannelDetails_get_user_id(this_ptr: &ChannelDetails) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.user_id; + (*inner_val) +} +/// The user_id passed in to create_channel, or 0 if the channel was inbound. +#[no_mangle] +pub extern "C" fn ChannelDetails_set_user_id(this_ptr: &mut ChannelDetails, mut val: u64) { + unsafe { &mut *this_ptr.inner }.user_id = val; +} +/// The available outbound capacity for sending HTLCs to the remote peer. This does not include +/// any pending HTLCs which are not yet fully resolved (and, thus, who's balance is not +/// available for inclusion in new outbound HTLCs). This further does not include any pending +/// outgoing HTLCs which are awaiting some other resolution to be sent. +#[no_mangle] +pub extern "C" fn ChannelDetails_get_outbound_capacity_msat(this_ptr: &ChannelDetails) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.outbound_capacity_msat; + (*inner_val) +} +/// The available outbound capacity for sending HTLCs to the remote peer. This does not include +/// any pending HTLCs which are not yet fully resolved (and, thus, who's balance is not +/// available for inclusion in new outbound HTLCs). This further does not include any pending +/// outgoing HTLCs which are awaiting some other resolution to be sent. +#[no_mangle] +pub extern "C" fn ChannelDetails_set_outbound_capacity_msat(this_ptr: &mut ChannelDetails, mut val: u64) { + unsafe { &mut *this_ptr.inner }.outbound_capacity_msat = val; +} +/// The available inbound capacity for the remote peer to send HTLCs to us. This does not +/// include any pending HTLCs which are not yet fully resolved (and, thus, who's balance is not +/// available for inclusion in new inbound HTLCs). +/// Note that there are some corner cases not fully handled here, so the actual available +/// inbound capacity may be slightly higher than this. +#[no_mangle] +pub extern "C" fn ChannelDetails_get_inbound_capacity_msat(this_ptr: &ChannelDetails) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.inbound_capacity_msat; + (*inner_val) +} +/// The available inbound capacity for the remote peer to send HTLCs to us. This does not +/// include any pending HTLCs which are not yet fully resolved (and, thus, who's balance is not +/// available for inclusion in new inbound HTLCs). +/// Note that there are some corner cases not fully handled here, so the actual available +/// inbound capacity may be slightly higher than this. +#[no_mangle] +pub extern "C" fn ChannelDetails_set_inbound_capacity_msat(this_ptr: &mut ChannelDetails, mut val: u64) { + unsafe { &mut *this_ptr.inner }.inbound_capacity_msat = val; +} +/// True if the channel is (a) confirmed and funding_locked messages have been exchanged, (b) +/// the peer is connected, and (c) no monitor update failure is pending resolution. +#[no_mangle] +pub extern "C" fn ChannelDetails_get_is_live(this_ptr: &ChannelDetails) -> bool { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.is_live; + (*inner_val) +} +/// True if the channel is (a) confirmed and funding_locked messages have been exchanged, (b) +/// the peer is connected, and (c) no monitor update failure is pending resolution. +#[no_mangle] +pub extern "C" fn ChannelDetails_set_is_live(this_ptr: &mut ChannelDetails, mut val: bool) { + unsafe { &mut *this_ptr.inner }.is_live = val; +} +impl Clone for ChannelDetails { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeChannelDetails>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn ChannelDetails_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeChannelDetails)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn ChannelDetails_clone(orig: &ChannelDetails) -> ChannelDetails { + orig.clone() +} +/// If a payment fails to send, it can be in one of several states. This enum is returned as the +/// Err() type describing which state the payment is in, see the description of individual enum +/// states for more. +#[must_use] +#[derive(Clone)] +#[repr(C)] +pub enum PaymentSendFailure { + /// A parameter which was passed to send_payment was invalid, preventing us from attempting to + /// send the payment at all. No channel state has been changed or messages sent to peers, and + /// once you've changed the parameter at error, you can freely retry the payment in full. + ParameterError(crate::util::errors::APIError), + /// A parameter in a single path which was passed to send_payment was invalid, preventing us + /// from attempting to send the payment at all. No channel state has been changed or messages + /// sent to peers, and once you've changed the parameter at error, you can freely retry the + /// payment in full. + /// + /// The results here are ordered the same as the paths in the route object which was passed to + /// send_payment. + PathParameterError(crate::c_types::derived::CVec_CResult_NoneAPIErrorZZ), + /// All paths which were attempted failed to send, with no channel state change taking place. + /// You can freely retry the payment in full (though you probably want to do so over different + /// paths than the ones selected). + AllFailedRetrySafe(crate::c_types::derived::CVec_APIErrorZ), + /// Some paths which were attempted failed to send, though possibly not all. At least some + /// paths have irrevocably committed to the HTLC and retrying the payment in full would result + /// in over-/re-payment. + /// + /// The results here are ordered the same as the paths in the route object which was passed to + /// send_payment, and any Errs which are not APIError::MonitorUpdateFailed can be safely + /// retried (though there is currently no API with which to do so). + /// + /// Any entries which contain Err(APIError::MonitorUpdateFailed) or Ok(()) MUST NOT be retried + /// as they will result in over-/re-payment. These HTLCs all either successfully sent (in the + /// case of Ok(())) or will send once channel_monitor_updated is called on the next-hop channel + /// with the latest update_id. + PartialFailure(crate::c_types::derived::CVec_CResult_NoneAPIErrorZZ), +} +use lightning::ln::channelmanager::PaymentSendFailure as nativePaymentSendFailure; +impl PaymentSendFailure { + #[allow(unused)] + pub(crate) fn to_native(&self) -> nativePaymentSendFailure { + match self { + PaymentSendFailure::ParameterError (ref a, ) => { + let mut a_nonref = (*a).clone(); + nativePaymentSendFailure::ParameterError ( + a_nonref.into_native(), + ) + }, + PaymentSendFailure::PathParameterError (ref a, ) => { + let mut a_nonref = (*a).clone(); + let mut local_a_nonref = Vec::new(); for mut item in a_nonref.into_rust().drain(..) { local_a_nonref.push( { let mut local_a_nonref_0 = match item.result_ok { true => Ok( { () /*(*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut item.contents.result)) })*/ }), false => Err( { (*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut item.contents.err)) }).into_native() })}; local_a_nonref_0 }); }; + nativePaymentSendFailure::PathParameterError ( + local_a_nonref, + ) + }, + PaymentSendFailure::AllFailedRetrySafe (ref a, ) => { + let mut a_nonref = (*a).clone(); + let mut local_a_nonref = Vec::new(); for mut item in a_nonref.into_rust().drain(..) { local_a_nonref.push( { item.into_native() }); }; + nativePaymentSendFailure::AllFailedRetrySafe ( + local_a_nonref, + ) + }, + PaymentSendFailure::PartialFailure (ref a, ) => { + let mut a_nonref = (*a).clone(); + let mut local_a_nonref = Vec::new(); for mut item in a_nonref.into_rust().drain(..) { local_a_nonref.push( { let mut local_a_nonref_0 = match item.result_ok { true => Ok( { () /*(*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut item.contents.result)) })*/ }), false => Err( { (*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut item.contents.err)) }).into_native() })}; local_a_nonref_0 }); }; + nativePaymentSendFailure::PartialFailure ( + local_a_nonref, + ) + }, + } + } + #[allow(unused)] + pub(crate) fn into_native(self) -> nativePaymentSendFailure { + match self { + PaymentSendFailure::ParameterError (mut a, ) => { + nativePaymentSendFailure::ParameterError ( + a.into_native(), + ) + }, + PaymentSendFailure::PathParameterError (mut a, ) => { + let mut local_a = Vec::new(); for mut item in a.into_rust().drain(..) { local_a.push( { let mut local_a_0 = match item.result_ok { true => Ok( { () /*(*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut item.contents.result)) })*/ }), false => Err( { (*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut item.contents.err)) }).into_native() })}; local_a_0 }); }; + nativePaymentSendFailure::PathParameterError ( + local_a, + ) + }, + PaymentSendFailure::AllFailedRetrySafe (mut a, ) => { + let mut local_a = Vec::new(); for mut item in a.into_rust().drain(..) { local_a.push( { item.into_native() }); }; + nativePaymentSendFailure::AllFailedRetrySafe ( + local_a, + ) + }, + PaymentSendFailure::PartialFailure (mut a, ) => { + let mut local_a = Vec::new(); for mut item in a.into_rust().drain(..) { local_a.push( { let mut local_a_0 = match item.result_ok { true => Ok( { () /*(*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut item.contents.result)) })*/ }), false => Err( { (*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut item.contents.err)) }).into_native() })}; local_a_0 }); }; + nativePaymentSendFailure::PartialFailure ( + local_a, + ) + }, + } + } + #[allow(unused)] + pub(crate) fn from_native(native: &nativePaymentSendFailure) -> Self { + match native { + nativePaymentSendFailure::ParameterError (ref a, ) => { + let mut a_nonref = (*a).clone(); + PaymentSendFailure::ParameterError ( + crate::util::errors::APIError::native_into(a_nonref), + ) + }, + nativePaymentSendFailure::PathParameterError (ref a, ) => { + let mut a_nonref = (*a).clone(); + let mut local_a_nonref = Vec::new(); for mut item in a_nonref.drain(..) { local_a_nonref.push( { let mut local_a_nonref_0 = match item { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::util::errors::APIError::native_into(e) }).into() }; local_a_nonref_0 }); }; + PaymentSendFailure::PathParameterError ( + local_a_nonref.into(), + ) + }, + nativePaymentSendFailure::AllFailedRetrySafe (ref a, ) => { + let mut a_nonref = (*a).clone(); + let mut local_a_nonref = Vec::new(); for mut item in a_nonref.drain(..) { local_a_nonref.push( { crate::util::errors::APIError::native_into(item) }); }; + PaymentSendFailure::AllFailedRetrySafe ( + local_a_nonref.into(), + ) + }, + nativePaymentSendFailure::PartialFailure (ref a, ) => { + let mut a_nonref = (*a).clone(); + let mut local_a_nonref = Vec::new(); for mut item in a_nonref.drain(..) { local_a_nonref.push( { let mut local_a_nonref_0 = match item { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::util::errors::APIError::native_into(e) }).into() }; local_a_nonref_0 }); }; + PaymentSendFailure::PartialFailure ( + local_a_nonref.into(), + ) + }, + } + } + #[allow(unused)] + pub(crate) fn native_into(native: nativePaymentSendFailure) -> Self { + match native { + nativePaymentSendFailure::ParameterError (mut a, ) => { + PaymentSendFailure::ParameterError ( + crate::util::errors::APIError::native_into(a), + ) + }, + nativePaymentSendFailure::PathParameterError (mut a, ) => { + let mut local_a = Vec::new(); for mut item in a.drain(..) { local_a.push( { let mut local_a_0 = match item { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::util::errors::APIError::native_into(e) }).into() }; local_a_0 }); }; + PaymentSendFailure::PathParameterError ( + local_a.into(), + ) + }, + nativePaymentSendFailure::AllFailedRetrySafe (mut a, ) => { + let mut local_a = Vec::new(); for mut item in a.drain(..) { local_a.push( { crate::util::errors::APIError::native_into(item) }); }; + PaymentSendFailure::AllFailedRetrySafe ( + local_a.into(), + ) + }, + nativePaymentSendFailure::PartialFailure (mut a, ) => { + let mut local_a = Vec::new(); for mut item in a.drain(..) { local_a.push( { let mut local_a_0 = match item { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::util::errors::APIError::native_into(e) }).into() }; local_a_0 }); }; + PaymentSendFailure::PartialFailure ( + local_a.into(), + ) + }, + } + } +} +#[no_mangle] +pub extern "C" fn PaymentSendFailure_free(this_ptr: PaymentSendFailure) { } +#[no_mangle] +pub extern "C" fn PaymentSendFailure_clone(orig: &PaymentSendFailure) -> PaymentSendFailure { + orig.clone() +} +/// Constructs a new ChannelManager to hold several channels and route between them. +/// +/// This is the main \"logic hub\" for all channel-related actions, and implements +/// ChannelMessageHandler. +/// +/// Non-proportional fees are fixed according to our risk using the provided fee estimator. +/// +/// panics if channel_value_satoshis is >= `MAX_FUNDING_SATOSHIS`! +/// +/// Users need to notify the new ChannelManager when a new block is connected or +/// disconnected using its `block_connected` and `block_disconnected` methods, starting +/// from after `params.latest_hash`. +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelManager_new(mut fee_est: crate::chain::chaininterface::FeeEstimator, mut chain_monitor: crate::chain::Watch, mut tx_broadcaster: crate::chain::chaininterface::BroadcasterInterface, mut logger: crate::util::logger::Logger, mut keys_manager: crate::chain::keysinterface::KeysInterface, mut config: crate::util::config::UserConfig, mut params: crate::ln::channelmanager::ChainParameters) -> ChannelManager { + let mut ret = lightning::ln::channelmanager::ChannelManager::new(fee_est, chain_monitor, tx_broadcaster, logger, keys_manager, *unsafe { Box::from_raw(config.take_inner()) }, *unsafe { Box::from_raw(params.take_inner()) }); + ChannelManager { inner: Box::into_raw(Box::new(ret)), is_owned: true } +} + +/// Creates a new outbound channel to the given remote node and with the given value. +/// +/// user_id will be provided back as user_channel_id in FundingGenerationReady and +/// FundingBroadcastSafe events to allow tracking of which events correspond with which +/// create_channel call. Note that user_channel_id defaults to 0 for inbound channels, so you +/// may wish to avoid using 0 for user_id here. +/// +/// If successful, will generate a SendOpenChannel message event, so you should probably poll +/// PeerManager::process_events afterwards. +/// +/// Raises APIError::APIMisuseError when channel_value_satoshis > 2**24 or push_msat is +/// greater than channel_value_satoshis * 1k or channel_value_satoshis is < 1000. +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelManager_create_channel(this_arg: &ChannelManager, mut their_network_key: crate::c_types::PublicKey, mut channel_value_satoshis: u64, mut push_msat: u64, mut user_id: u64, mut override_config: crate::util::config::UserConfig) -> crate::c_types::derived::CResult_NoneAPIErrorZ { + let mut local_override_config = if override_config.inner.is_null() { None } else { Some( { *unsafe { Box::from_raw(override_config.take_inner()) } }) }; + let mut ret = unsafe { &*this_arg.inner }.create_channel(their_network_key.into_rust(), channel_value_satoshis, push_msat, user_id, local_override_config); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::util::errors::APIError::native_into(e) }).into() }; + local_ret +} + +/// Gets the list of open channels, in random order. See ChannelDetail field documentation for +/// more information. +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelManager_list_channels(this_arg: &ChannelManager) -> crate::c_types::derived::CVec_ChannelDetailsZ { + let mut ret = unsafe { &*this_arg.inner }.list_channels(); + let mut local_ret = Vec::new(); for mut item in ret.drain(..) { local_ret.push( { crate::ln::channelmanager::ChannelDetails { inner: Box::into_raw(Box::new(item)), is_owned: true } }); }; + local_ret.into() +} + +/// Gets the list of usable channels, in random order. Useful as an argument to +/// get_route to ensure non-announced channels are used. +/// +/// These are guaranteed to have their is_live value set to true, see the documentation for +/// ChannelDetails::is_live for more info on exactly what the criteria are. +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelManager_list_usable_channels(this_arg: &ChannelManager) -> crate::c_types::derived::CVec_ChannelDetailsZ { + let mut ret = unsafe { &*this_arg.inner }.list_usable_channels(); + let mut local_ret = Vec::new(); for mut item in ret.drain(..) { local_ret.push( { crate::ln::channelmanager::ChannelDetails { inner: Box::into_raw(Box::new(item)), is_owned: true } }); }; + local_ret.into() +} + +/// Begins the process of closing a channel. After this call (plus some timeout), no new HTLCs +/// will be accepted on the given channel, and after additional timeout/the closing of all +/// pending HTLCs, the channel will be closed on chain. +/// +/// May generate a SendShutdown message event on success, which should be relayed. +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelManager_close_channel(this_arg: &ChannelManager, channel_id: *const [u8; 32]) -> crate::c_types::derived::CResult_NoneAPIErrorZ { + let mut ret = unsafe { &*this_arg.inner }.close_channel(unsafe { &*channel_id}); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::util::errors::APIError::native_into(e) }).into() }; + local_ret +} + +/// Force closes a channel, immediately broadcasting the latest local commitment transaction to +/// the chain and rejecting new HTLCs on the given channel. Fails if channel_id is unknown to the manager. +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelManager_force_close_channel(this_arg: &ChannelManager, channel_id: *const [u8; 32]) -> crate::c_types::derived::CResult_NoneAPIErrorZ { + let mut ret = unsafe { &*this_arg.inner }.force_close_channel(unsafe { &*channel_id}); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::util::errors::APIError::native_into(e) }).into() }; + local_ret +} + +/// Force close all channels, immediately broadcasting the latest local commitment transaction +/// for each to the chain and rejecting new HTLCs on each. +#[no_mangle] +pub extern "C" fn ChannelManager_force_close_all_channels(this_arg: &ChannelManager) { + unsafe { &*this_arg.inner }.force_close_all_channels() +} + +/// Sends a payment along a given route. +/// +/// Value parameters are provided via the last hop in route, see documentation for RouteHop +/// fields for more info. +/// +/// Note that if the payment_hash already exists elsewhere (eg you're sending a duplicative +/// payment), we don't do anything to stop you! We always try to ensure that if the provided +/// next hop knows the preimage to payment_hash they can claim an additional amount as +/// specified in the last hop in the route! Thus, you should probably do your own +/// payment_preimage tracking (which you should already be doing as they represent \"proof of +/// payment\") and prevent double-sends yourself. +/// +/// May generate SendHTLCs message(s) event on success, which should be relayed. +/// +/// Each path may have a different return value, and PaymentSendValue may return a Vec with +/// each entry matching the corresponding-index entry in the route paths, see +/// PaymentSendFailure for more info. +/// +/// In general, a path may raise: +/// * APIError::RouteError when an invalid route or forwarding parameter (cltv_delta, fee, +/// node public key) is specified. +/// * APIError::ChannelUnavailable if the next-hop channel is not available for updates +/// (including due to previous monitor update failure or new permanent monitor update +/// failure). +/// * APIError::MonitorUpdateFailed if a new monitor update failure prevented sending the +/// relevant updates. +/// +/// Note that depending on the type of the PaymentSendFailure the HTLC may have been +/// irrevocably committed to on our end. In such a case, do NOT retry the payment with a +/// different route unless you intend to pay twice! +/// +/// payment_secret is unrelated to payment_hash (or PaymentPreimage) and exists to authenticate +/// the sender to the recipient and prevent payment-probing (deanonymization) attacks. For +/// newer nodes, it will be provided to you in the invoice. If you do not have one, the Route +/// must not contain multiple paths as multi-path payments require a recipient-provided +/// payment_secret. +/// If a payment_secret *is* provided, we assume that the invoice had the payment_secret feature +/// bit set (either as required or as available). If multiple paths are present in the Route, +/// we assume the invoice had the basic_mpp feature set. +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelManager_send_payment(this_arg: &ChannelManager, route: &crate::routing::router::Route, mut payment_hash: crate::c_types::ThirtyTwoBytes, mut payment_secret: crate::c_types::ThirtyTwoBytes) -> crate::c_types::derived::CResult_NonePaymentSendFailureZ { + let mut local_payment_secret = if payment_secret.data == [0; 32] { None } else { Some( { ::lightning::ln::channelmanager::PaymentSecret(payment_secret.data) }) }; + let mut ret = unsafe { &*this_arg.inner }.send_payment(unsafe { &*route.inner }, ::lightning::ln::channelmanager::PaymentHash(payment_hash.data), &local_payment_secret); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::channelmanager::PaymentSendFailure::native_into(e) }).into() }; + local_ret +} + +/// Call this upon creation of a funding transaction for the given channel. +/// +/// Note that ALL inputs in the transaction pointed to by funding_txo MUST spend SegWit outputs +/// or your counterparty can steal your funds! +/// +/// Panics if a funding transaction has already been provided for this channel. +/// +/// May panic if the funding_txo is duplicative with some other channel (note that this should +/// be trivially prevented by using unique funding transaction keys per-channel). +#[no_mangle] +pub extern "C" fn ChannelManager_funding_transaction_generated(this_arg: &ChannelManager, temporary_channel_id: *const [u8; 32], mut funding_txo: crate::chain::transaction::OutPoint) { + unsafe { &*this_arg.inner }.funding_transaction_generated(unsafe { &*temporary_channel_id}, *unsafe { Box::from_raw(funding_txo.take_inner()) }) +} + +/// Generates a signed node_announcement from the given arguments and creates a +/// BroadcastNodeAnnouncement event. Note that such messages will be ignored unless peers have +/// seen a channel_announcement from us (ie unless we have public channels open). +/// +/// RGB is a node \"color\" and alias is a printable human-readable string to describe this node +/// to humans. They carry no in-protocol meaning. +/// +/// addresses represent the set (possibly empty) of socket addresses on which this node accepts +/// incoming connections. These will be broadcast to the network, publicly tying these +/// addresses together. If you wish to preserve user privacy, addresses should likely contain +/// only Tor Onion addresses. +/// +/// Panics if addresses is absurdly large (more than 500). +#[no_mangle] +pub extern "C" fn ChannelManager_broadcast_node_announcement(this_arg: &ChannelManager, mut rgb: crate::c_types::ThreeBytes, mut alias: crate::c_types::ThirtyTwoBytes, mut addresses: crate::c_types::derived::CVec_NetAddressZ) { + let mut local_addresses = Vec::new(); for mut item in addresses.into_rust().drain(..) { local_addresses.push( { item.into_native() }); }; + unsafe { &*this_arg.inner }.broadcast_node_announcement(rgb.data, alias.data, local_addresses) +} + +/// Processes HTLCs which are pending waiting on random forward delay. +/// +/// Should only really ever be called in response to a PendingHTLCsForwardable event. +/// Will likely generate further events. +#[no_mangle] +pub extern "C" fn ChannelManager_process_pending_htlc_forwards(this_arg: &ChannelManager) { + unsafe { &*this_arg.inner }.process_pending_htlc_forwards() +} + +/// If a peer is disconnected we mark any channels with that peer as 'disabled'. +/// After some time, if channels are still disabled we need to broadcast a ChannelUpdate +/// to inform the network about the uselessness of these channels. +/// +/// This method handles all the details, and must be called roughly once per minute. +/// +/// Note that in some rare cases this may generate a `chain::Watch::update_channel` call. +#[no_mangle] +pub extern "C" fn ChannelManager_timer_chan_freshness_every_min(this_arg: &ChannelManager) { + unsafe { &*this_arg.inner }.timer_chan_freshness_every_min() +} + +/// Indicates that the preimage for payment_hash is unknown or the received amount is incorrect +/// after a PaymentReceived event, failing the HTLC back to its origin and freeing resources +/// along the path (including in our own channel on which we received it). +/// Returns false if no payment was found to fail backwards, true if the process of failing the +/// HTLC backwards has been started. +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelManager_fail_htlc_backwards(this_arg: &ChannelManager, payment_hash: *const [u8; 32], mut payment_secret: crate::c_types::ThirtyTwoBytes) -> bool { + let mut local_payment_secret = if payment_secret.data == [0; 32] { None } else { Some( { ::lightning::ln::channelmanager::PaymentSecret(payment_secret.data) }) }; + let mut ret = unsafe { &*this_arg.inner }.fail_htlc_backwards(&::lightning::ln::channelmanager::PaymentHash(unsafe { *payment_hash }), &local_payment_secret); + ret +} + +/// Provides a payment preimage in response to a PaymentReceived event, returning true and +/// generating message events for the net layer to claim the payment, if possible. Thus, you +/// should probably kick the net layer to go send messages if this returns true! +/// +/// You must specify the expected amounts for this HTLC, and we will only claim HTLCs +/// available within a few percent of the expected amount. This is critical for several +/// reasons : a) it avoids providing senders with `proof-of-payment` (in the form of the +/// payment_preimage without having provided the full value and b) it avoids certain +/// privacy-breaking recipient-probing attacks which may reveal payment activity to +/// motivated attackers. +/// +/// Note that the privacy concerns in (b) are not relevant in payments with a payment_secret +/// set. Thus, for such payments we will claim any payments which do not under-pay. +/// +/// May panic if called except in response to a PaymentReceived event. +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelManager_claim_funds(this_arg: &ChannelManager, mut payment_preimage: crate::c_types::ThirtyTwoBytes, mut payment_secret: crate::c_types::ThirtyTwoBytes, mut expected_amount: u64) -> bool { + let mut local_payment_secret = if payment_secret.data == [0; 32] { None } else { Some( { ::lightning::ln::channelmanager::PaymentSecret(payment_secret.data) }) }; + let mut ret = unsafe { &*this_arg.inner }.claim_funds(::lightning::ln::channelmanager::PaymentPreimage(payment_preimage.data), &local_payment_secret, expected_amount); + ret +} + +/// Gets the node_id held by this ChannelManager +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelManager_get_our_node_id(this_arg: &ChannelManager) -> crate::c_types::PublicKey { + let mut ret = unsafe { &*this_arg.inner }.get_our_node_id(); + crate::c_types::PublicKey::from_rust(&ret) +} + +/// Restores a single, given channel to normal operation after a +/// ChannelMonitorUpdateErr::TemporaryFailure was returned from a channel monitor update +/// operation. +/// +/// All ChannelMonitor updates up to and including highest_applied_update_id must have been +/// fully committed in every copy of the given channels' ChannelMonitors. +/// +/// Note that there is no effect to calling with a highest_applied_update_id other than the +/// current latest ChannelMonitorUpdate and one call to this function after multiple +/// ChannelMonitorUpdateErr::TemporaryFailures is fine. The highest_applied_update_id field +/// exists largely only to prevent races between this and concurrent update_monitor calls. +/// +/// Thus, the anticipated use is, at a high level: +/// 1) You register a chain::Watch with this ChannelManager, +/// 2) it stores each update to disk, and begins updating any remote (eg watchtower) copies of +/// said ChannelMonitors as it can, returning ChannelMonitorUpdateErr::TemporaryFailures +/// any time it cannot do so instantly, +/// 3) update(s) are applied to each remote copy of a ChannelMonitor, +/// 4) once all remote copies are updated, you call this function with the update_id that +/// completed, and once it is the latest the Channel will be re-enabled. +#[no_mangle] +pub extern "C" fn ChannelManager_channel_monitor_updated(this_arg: &ChannelManager, funding_txo: &crate::chain::transaction::OutPoint, mut highest_applied_update_id: u64) { + unsafe { &*this_arg.inner }.channel_monitor_updated(unsafe { &*funding_txo.inner }, highest_applied_update_id) +} + +impl From for crate::util::events::MessageSendEventsProvider { + fn from(obj: nativeChannelManager) -> Self { + let mut rust_obj = ChannelManager { inner: Box::into_raw(Box::new(obj)), is_owned: true }; + let mut ret = ChannelManager_as_MessageSendEventsProvider(&rust_obj); + // We want to free rust_obj when ret gets drop()'d, not rust_obj, so wipe rust_obj's pointer and set ret's free() fn + rust_obj.inner = std::ptr::null_mut(); + ret.free = Some(ChannelManager_free_void); + ret + } +} +#[no_mangle] +pub extern "C" fn ChannelManager_as_MessageSendEventsProvider(this_arg: &ChannelManager) -> crate::util::events::MessageSendEventsProvider { + crate::util::events::MessageSendEventsProvider { + this_arg: unsafe { (*this_arg).inner as *mut c_void }, + free: None, + get_and_clear_pending_msg_events: ChannelManager_MessageSendEventsProvider_get_and_clear_pending_msg_events, + } +} + +#[must_use] +extern "C" fn ChannelManager_MessageSendEventsProvider_get_and_clear_pending_msg_events(this_arg: *const c_void) -> crate::c_types::derived::CVec_MessageSendEventZ { + let mut ret = >::get_and_clear_pending_msg_events(unsafe { &mut *(this_arg as *mut nativeChannelManager) }, ); + let mut local_ret = Vec::new(); for mut item in ret.drain(..) { local_ret.push( { crate::util::events::MessageSendEvent::native_into(item) }); }; + local_ret.into() +} + +impl From for crate::util::events::EventsProvider { + fn from(obj: nativeChannelManager) -> Self { + let mut rust_obj = ChannelManager { inner: Box::into_raw(Box::new(obj)), is_owned: true }; + let mut ret = ChannelManager_as_EventsProvider(&rust_obj); + // We want to free rust_obj when ret gets drop()'d, not rust_obj, so wipe rust_obj's pointer and set ret's free() fn + rust_obj.inner = std::ptr::null_mut(); + ret.free = Some(ChannelManager_free_void); + ret + } +} +#[no_mangle] +pub extern "C" fn ChannelManager_as_EventsProvider(this_arg: &ChannelManager) -> crate::util::events::EventsProvider { + crate::util::events::EventsProvider { + this_arg: unsafe { (*this_arg).inner as *mut c_void }, + free: None, + get_and_clear_pending_events: ChannelManager_EventsProvider_get_and_clear_pending_events, + } +} + +#[must_use] +extern "C" fn ChannelManager_EventsProvider_get_and_clear_pending_events(this_arg: *const c_void) -> crate::c_types::derived::CVec_EventZ { + let mut ret = >::get_and_clear_pending_events(unsafe { &mut *(this_arg as *mut nativeChannelManager) }, ); + let mut local_ret = Vec::new(); for mut item in ret.drain(..) { local_ret.push( { crate::util::events::Event::native_into(item) }); }; + local_ret.into() +} + +impl From for crate::chain::Listen { + fn from(obj: nativeChannelManager) -> Self { + let mut rust_obj = ChannelManager { inner: Box::into_raw(Box::new(obj)), is_owned: true }; + let mut ret = ChannelManager_as_Listen(&rust_obj); + // We want to free rust_obj when ret gets drop()'d, not rust_obj, so wipe rust_obj's pointer and set ret's free() fn + rust_obj.inner = std::ptr::null_mut(); + ret.free = Some(ChannelManager_free_void); + ret + } +} +#[no_mangle] +pub extern "C" fn ChannelManager_as_Listen(this_arg: &ChannelManager) -> crate::chain::Listen { + crate::chain::Listen { + this_arg: unsafe { (*this_arg).inner as *mut c_void }, + free: None, + block_connected: ChannelManager_Listen_block_connected, + block_disconnected: ChannelManager_Listen_block_disconnected, + } +} + +extern "C" fn ChannelManager_Listen_block_connected(this_arg: *const c_void, mut block: crate::c_types::u8slice, mut height: u32) { + >::block_connected(unsafe { &mut *(this_arg as *mut nativeChannelManager) }, &::bitcoin::consensus::encode::deserialize(block.to_slice()).unwrap(), height) +} +extern "C" fn ChannelManager_Listen_block_disconnected(this_arg: *const c_void, header: *const [u8; 80], mut _height: u32) { + >::block_disconnected(unsafe { &mut *(this_arg as *mut nativeChannelManager) }, &::bitcoin::consensus::encode::deserialize(unsafe { &*header }).unwrap(), _height) +} + +/// Updates channel state based on transactions seen in a connected block. +#[no_mangle] +pub extern "C" fn ChannelManager_block_connected(this_arg: &ChannelManager, header: *const [u8; 80], mut txdata: crate::c_types::derived::CVec_C2Tuple_usizeTransactionZZ, mut height: u32) { + let mut local_txdata = Vec::new(); for mut item in txdata.into_rust().drain(..) { local_txdata.push( { let (mut orig_txdata_0_0, mut orig_txdata_0_1) = item.to_rust(); let mut local_txdata_0 = (orig_txdata_0_0, orig_txdata_0_1.into_bitcoin()); local_txdata_0 }); }; + unsafe { &*this_arg.inner }.block_connected(&::bitcoin::consensus::encode::deserialize(unsafe { &*header }).unwrap(), &local_txdata.iter().map(|(a, b)| (*a, b)).collect::>()[..], height) +} + +/// Updates channel state based on a disconnected block. +/// +/// If necessary, the channel may be force-closed without letting the counterparty participate +/// in the shutdown. +#[no_mangle] +pub extern "C" fn ChannelManager_block_disconnected(this_arg: &ChannelManager, header: *const [u8; 80]) { + unsafe { &*this_arg.inner }.block_disconnected(&::bitcoin::consensus::encode::deserialize(unsafe { &*header }).unwrap()) +} + +/// Blocks until ChannelManager needs to be persisted. Only one listener on +/// `await_persistable_update` or `await_persistable_update_timeout` is guaranteed to be woken +/// up. +#[no_mangle] +pub extern "C" fn ChannelManager_await_persistable_update(this_arg: &ChannelManager) { + unsafe { &*this_arg.inner }.await_persistable_update() +} + +impl From for crate::ln::msgs::ChannelMessageHandler { + fn from(obj: nativeChannelManager) -> Self { + let mut rust_obj = ChannelManager { inner: Box::into_raw(Box::new(obj)), is_owned: true }; + let mut ret = ChannelManager_as_ChannelMessageHandler(&rust_obj); + // We want to free rust_obj when ret gets drop()'d, not rust_obj, so wipe rust_obj's pointer and set ret's free() fn + rust_obj.inner = std::ptr::null_mut(); + ret.free = Some(ChannelManager_free_void); + ret + } +} +#[no_mangle] +pub extern "C" fn ChannelManager_as_ChannelMessageHandler(this_arg: &ChannelManager) -> crate::ln::msgs::ChannelMessageHandler { + crate::ln::msgs::ChannelMessageHandler { + this_arg: unsafe { (*this_arg).inner as *mut c_void }, + free: None, + handle_open_channel: ChannelManager_ChannelMessageHandler_handle_open_channel, + handle_accept_channel: ChannelManager_ChannelMessageHandler_handle_accept_channel, + handle_funding_created: ChannelManager_ChannelMessageHandler_handle_funding_created, + handle_funding_signed: ChannelManager_ChannelMessageHandler_handle_funding_signed, + handle_funding_locked: ChannelManager_ChannelMessageHandler_handle_funding_locked, + handle_shutdown: ChannelManager_ChannelMessageHandler_handle_shutdown, + handle_closing_signed: ChannelManager_ChannelMessageHandler_handle_closing_signed, + handle_update_add_htlc: ChannelManager_ChannelMessageHandler_handle_update_add_htlc, + handle_update_fulfill_htlc: ChannelManager_ChannelMessageHandler_handle_update_fulfill_htlc, + handle_update_fail_htlc: ChannelManager_ChannelMessageHandler_handle_update_fail_htlc, + handle_update_fail_malformed_htlc: ChannelManager_ChannelMessageHandler_handle_update_fail_malformed_htlc, + handle_commitment_signed: ChannelManager_ChannelMessageHandler_handle_commitment_signed, + handle_revoke_and_ack: ChannelManager_ChannelMessageHandler_handle_revoke_and_ack, + handle_update_fee: ChannelManager_ChannelMessageHandler_handle_update_fee, + handle_announcement_signatures: ChannelManager_ChannelMessageHandler_handle_announcement_signatures, + peer_disconnected: ChannelManager_ChannelMessageHandler_peer_disconnected, + peer_connected: ChannelManager_ChannelMessageHandler_peer_connected, + handle_channel_reestablish: ChannelManager_ChannelMessageHandler_handle_channel_reestablish, + handle_error: ChannelManager_ChannelMessageHandler_handle_error, + MessageSendEventsProvider: crate::util::events::MessageSendEventsProvider { + this_arg: unsafe { (*this_arg).inner as *mut c_void }, + free: None, + get_and_clear_pending_msg_events: ChannelManager_ChannelMessageHandler_get_and_clear_pending_msg_events, + }, + } +} + +extern "C" fn ChannelManager_ChannelMessageHandler_handle_open_channel(this_arg: *const c_void, mut counterparty_node_id: crate::c_types::PublicKey, mut their_features: crate::ln::features::InitFeatures, msg: &crate::ln::msgs::OpenChannel) { + >::handle_open_channel(unsafe { &mut *(this_arg as *mut nativeChannelManager) }, &counterparty_node_id.into_rust(), *unsafe { Box::from_raw(their_features.take_inner()) }, unsafe { &*msg.inner }) +} +extern "C" fn ChannelManager_ChannelMessageHandler_handle_accept_channel(this_arg: *const c_void, mut counterparty_node_id: crate::c_types::PublicKey, mut their_features: crate::ln::features::InitFeatures, msg: &crate::ln::msgs::AcceptChannel) { + >::handle_accept_channel(unsafe { &mut *(this_arg as *mut nativeChannelManager) }, &counterparty_node_id.into_rust(), *unsafe { Box::from_raw(their_features.take_inner()) }, unsafe { &*msg.inner }) +} +extern "C" fn ChannelManager_ChannelMessageHandler_handle_funding_created(this_arg: *const c_void, mut counterparty_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::FundingCreated) { + >::handle_funding_created(unsafe { &mut *(this_arg as *mut nativeChannelManager) }, &counterparty_node_id.into_rust(), unsafe { &*msg.inner }) +} +extern "C" fn ChannelManager_ChannelMessageHandler_handle_funding_signed(this_arg: *const c_void, mut counterparty_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::FundingSigned) { + >::handle_funding_signed(unsafe { &mut *(this_arg as *mut nativeChannelManager) }, &counterparty_node_id.into_rust(), unsafe { &*msg.inner }) +} +extern "C" fn ChannelManager_ChannelMessageHandler_handle_funding_locked(this_arg: *const c_void, mut counterparty_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::FundingLocked) { + >::handle_funding_locked(unsafe { &mut *(this_arg as *mut nativeChannelManager) }, &counterparty_node_id.into_rust(), unsafe { &*msg.inner }) +} +extern "C" fn ChannelManager_ChannelMessageHandler_handle_shutdown(this_arg: *const c_void, mut counterparty_node_id: crate::c_types::PublicKey, their_features: &crate::ln::features::InitFeatures, msg: &crate::ln::msgs::Shutdown) { + >::handle_shutdown(unsafe { &mut *(this_arg as *mut nativeChannelManager) }, &counterparty_node_id.into_rust(), unsafe { &*their_features.inner }, unsafe { &*msg.inner }) +} +extern "C" fn ChannelManager_ChannelMessageHandler_handle_closing_signed(this_arg: *const c_void, mut counterparty_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::ClosingSigned) { + >::handle_closing_signed(unsafe { &mut *(this_arg as *mut nativeChannelManager) }, &counterparty_node_id.into_rust(), unsafe { &*msg.inner }) +} +extern "C" fn ChannelManager_ChannelMessageHandler_handle_update_add_htlc(this_arg: *const c_void, mut counterparty_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::UpdateAddHTLC) { + >::handle_update_add_htlc(unsafe { &mut *(this_arg as *mut nativeChannelManager) }, &counterparty_node_id.into_rust(), unsafe { &*msg.inner }) +} +extern "C" fn ChannelManager_ChannelMessageHandler_handle_update_fulfill_htlc(this_arg: *const c_void, mut counterparty_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::UpdateFulfillHTLC) { + >::handle_update_fulfill_htlc(unsafe { &mut *(this_arg as *mut nativeChannelManager) }, &counterparty_node_id.into_rust(), unsafe { &*msg.inner }) +} +extern "C" fn ChannelManager_ChannelMessageHandler_handle_update_fail_htlc(this_arg: *const c_void, mut counterparty_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::UpdateFailHTLC) { + >::handle_update_fail_htlc(unsafe { &mut *(this_arg as *mut nativeChannelManager) }, &counterparty_node_id.into_rust(), unsafe { &*msg.inner }) +} +extern "C" fn ChannelManager_ChannelMessageHandler_handle_update_fail_malformed_htlc(this_arg: *const c_void, mut counterparty_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::UpdateFailMalformedHTLC) { + >::handle_update_fail_malformed_htlc(unsafe { &mut *(this_arg as *mut nativeChannelManager) }, &counterparty_node_id.into_rust(), unsafe { &*msg.inner }) +} +extern "C" fn ChannelManager_ChannelMessageHandler_handle_commitment_signed(this_arg: *const c_void, mut counterparty_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::CommitmentSigned) { + >::handle_commitment_signed(unsafe { &mut *(this_arg as *mut nativeChannelManager) }, &counterparty_node_id.into_rust(), unsafe { &*msg.inner }) +} +extern "C" fn ChannelManager_ChannelMessageHandler_handle_revoke_and_ack(this_arg: *const c_void, mut counterparty_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::RevokeAndACK) { + >::handle_revoke_and_ack(unsafe { &mut *(this_arg as *mut nativeChannelManager) }, &counterparty_node_id.into_rust(), unsafe { &*msg.inner }) +} +extern "C" fn ChannelManager_ChannelMessageHandler_handle_update_fee(this_arg: *const c_void, mut counterparty_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::UpdateFee) { + >::handle_update_fee(unsafe { &mut *(this_arg as *mut nativeChannelManager) }, &counterparty_node_id.into_rust(), unsafe { &*msg.inner }) +} +extern "C" fn ChannelManager_ChannelMessageHandler_handle_announcement_signatures(this_arg: *const c_void, mut counterparty_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::AnnouncementSignatures) { + >::handle_announcement_signatures(unsafe { &mut *(this_arg as *mut nativeChannelManager) }, &counterparty_node_id.into_rust(), unsafe { &*msg.inner }) +} +extern "C" fn ChannelManager_ChannelMessageHandler_handle_channel_reestablish(this_arg: *const c_void, mut counterparty_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::ChannelReestablish) { + >::handle_channel_reestablish(unsafe { &mut *(this_arg as *mut nativeChannelManager) }, &counterparty_node_id.into_rust(), unsafe { &*msg.inner }) +} +extern "C" fn ChannelManager_ChannelMessageHandler_peer_disconnected(this_arg: *const c_void, mut counterparty_node_id: crate::c_types::PublicKey, mut no_connection_possible: bool) { + >::peer_disconnected(unsafe { &mut *(this_arg as *mut nativeChannelManager) }, &counterparty_node_id.into_rust(), no_connection_possible) +} +extern "C" fn ChannelManager_ChannelMessageHandler_peer_connected(this_arg: *const c_void, mut counterparty_node_id: crate::c_types::PublicKey, init_msg: &crate::ln::msgs::Init) { + >::peer_connected(unsafe { &mut *(this_arg as *mut nativeChannelManager) }, &counterparty_node_id.into_rust(), unsafe { &*init_msg.inner }) +} +extern "C" fn ChannelManager_ChannelMessageHandler_handle_error(this_arg: *const c_void, mut counterparty_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::ErrorMessage) { + >::handle_error(unsafe { &mut *(this_arg as *mut nativeChannelManager) }, &counterparty_node_id.into_rust(), unsafe { &*msg.inner }) +} +#[must_use] +extern "C" fn ChannelManager_ChannelMessageHandler_get_and_clear_pending_msg_events(this_arg: *const c_void) -> crate::c_types::derived::CVec_MessageSendEventZ { + let mut ret = >::get_and_clear_pending_msg_events(unsafe { &mut *(this_arg as *mut nativeChannelManager) }, ); + let mut local_ret = Vec::new(); for mut item in ret.drain(..) { local_ret.push( { crate::util::events::MessageSendEvent::native_into(item) }); }; + local_ret.into() +} + +#[no_mangle] +pub extern "C" fn ChannelManager_write(obj: &ChannelManager) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn ChannelManager_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeChannelManager) }) +} + +use lightning::ln::channelmanager::ChannelManagerReadArgs as nativeChannelManagerReadArgsImport; +type nativeChannelManagerReadArgs = nativeChannelManagerReadArgsImport<'static, crate::chain::keysinterface::Sign, crate::chain::Watch, crate::chain::chaininterface::BroadcasterInterface, crate::chain::keysinterface::KeysInterface, crate::chain::chaininterface::FeeEstimator, crate::util::logger::Logger>; + +/// Arguments for the creation of a ChannelManager that are not deserialized. +/// +/// At a high-level, the process for deserializing a ChannelManager and resuming normal operation +/// is: +/// 1) Deserialize all stored ChannelMonitors. +/// 2) Deserialize the ChannelManager by filling in this struct and calling: +/// <(BlockHash, ChannelManager)>::read(reader, args) +/// This may result in closing some Channels if the ChannelMonitor is newer than the stored +/// ChannelManager state to ensure no loss of funds. Thus, transactions may be broadcasted. +/// 3) If you are not fetching full blocks, register all relevant ChannelMonitor outpoints the same +/// way you would handle a `chain::Filter` call using ChannelMonitor::get_outputs_to_watch() and +/// ChannelMonitor::get_funding_txo(). +/// 4) Reconnect blocks on your ChannelMonitors. +/// 5) Disconnect/connect blocks on the ChannelManager. +/// 6) Move the ChannelMonitors into your local chain::Watch. +/// +/// Note that the ordering of #4-6 is not of importance, however all three must occur before you +/// call any other methods on the newly-deserialized ChannelManager. +/// +/// Note that because some channels may be closed during deserialization, it is critical that you +/// always deserialize only the latest version of a ChannelManager and ChannelMonitors available to +/// you. If you deserialize an old ChannelManager (during which force-closure transactions may be +/// broadcast), and then later deserialize a newer version of the same ChannelManager (which will +/// not force-close the same channels but consider them live), you may end up revoking a state for +/// which you've already broadcasted the transaction. +#[must_use] +#[repr(C)] +pub struct ChannelManagerReadArgs { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeChannelManagerReadArgs, + pub is_owned: bool, +} + +impl Drop for ChannelManagerReadArgs { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeChannelManagerReadArgs>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn ChannelManagerReadArgs_free(this_ptr: ChannelManagerReadArgs) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn ChannelManagerReadArgs_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeChannelManagerReadArgs); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl ChannelManagerReadArgs { + pub(crate) fn take_inner(mut self) -> *mut nativeChannelManagerReadArgs { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The keys provider which will give us relevant keys. Some keys will be loaded during +/// deserialization and KeysInterface::read_chan_signer will be used to read per-Channel +/// signing data. +#[no_mangle] +pub extern "C" fn ChannelManagerReadArgs_get_keys_manager(this_ptr: &ChannelManagerReadArgs) -> *const crate::chain::keysinterface::KeysInterface { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.keys_manager; + &(*inner_val) +} +/// The keys provider which will give us relevant keys. Some keys will be loaded during +/// deserialization and KeysInterface::read_chan_signer will be used to read per-Channel +/// signing data. +#[no_mangle] +pub extern "C" fn ChannelManagerReadArgs_set_keys_manager(this_ptr: &mut ChannelManagerReadArgs, mut val: crate::chain::keysinterface::KeysInterface) { + unsafe { &mut *this_ptr.inner }.keys_manager = val; +} +/// The fee_estimator for use in the ChannelManager in the future. +/// +/// No calls to the FeeEstimator will be made during deserialization. +#[no_mangle] +pub extern "C" fn ChannelManagerReadArgs_get_fee_estimator(this_ptr: &ChannelManagerReadArgs) -> *const crate::chain::chaininterface::FeeEstimator { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.fee_estimator; + &(*inner_val) +} +/// The fee_estimator for use in the ChannelManager in the future. +/// +/// No calls to the FeeEstimator will be made during deserialization. +#[no_mangle] +pub extern "C" fn ChannelManagerReadArgs_set_fee_estimator(this_ptr: &mut ChannelManagerReadArgs, mut val: crate::chain::chaininterface::FeeEstimator) { + unsafe { &mut *this_ptr.inner }.fee_estimator = val; +} +/// The chain::Watch for use in the ChannelManager in the future. +/// +/// No calls to the chain::Watch will be made during deserialization. It is assumed that +/// you have deserialized ChannelMonitors separately and will add them to your +/// chain::Watch after deserializing this ChannelManager. +#[no_mangle] +pub extern "C" fn ChannelManagerReadArgs_get_chain_monitor(this_ptr: &ChannelManagerReadArgs) -> *const crate::chain::Watch { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.chain_monitor; + &(*inner_val) +} +/// The chain::Watch for use in the ChannelManager in the future. +/// +/// No calls to the chain::Watch will be made during deserialization. It is assumed that +/// you have deserialized ChannelMonitors separately and will add them to your +/// chain::Watch after deserializing this ChannelManager. +#[no_mangle] +pub extern "C" fn ChannelManagerReadArgs_set_chain_monitor(this_ptr: &mut ChannelManagerReadArgs, mut val: crate::chain::Watch) { + unsafe { &mut *this_ptr.inner }.chain_monitor = val; +} +/// The BroadcasterInterface which will be used in the ChannelManager in the future and may be +/// used to broadcast the latest local commitment transactions of channels which must be +/// force-closed during deserialization. +#[no_mangle] +pub extern "C" fn ChannelManagerReadArgs_get_tx_broadcaster(this_ptr: &ChannelManagerReadArgs) -> *const crate::chain::chaininterface::BroadcasterInterface { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.tx_broadcaster; + &(*inner_val) +} +/// The BroadcasterInterface which will be used in the ChannelManager in the future and may be +/// used to broadcast the latest local commitment transactions of channels which must be +/// force-closed during deserialization. +#[no_mangle] +pub extern "C" fn ChannelManagerReadArgs_set_tx_broadcaster(this_ptr: &mut ChannelManagerReadArgs, mut val: crate::chain::chaininterface::BroadcasterInterface) { + unsafe { &mut *this_ptr.inner }.tx_broadcaster = val; +} +/// The Logger for use in the ChannelManager and which may be used to log information during +/// deserialization. +#[no_mangle] +pub extern "C" fn ChannelManagerReadArgs_get_logger(this_ptr: &ChannelManagerReadArgs) -> *const crate::util::logger::Logger { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.logger; + &(*inner_val) +} +/// The Logger for use in the ChannelManager and which may be used to log information during +/// deserialization. +#[no_mangle] +pub extern "C" fn ChannelManagerReadArgs_set_logger(this_ptr: &mut ChannelManagerReadArgs, mut val: crate::util::logger::Logger) { + unsafe { &mut *this_ptr.inner }.logger = val; +} +/// Default settings used for new channels. Any existing channels will continue to use the +/// runtime settings which were stored when the ChannelManager was serialized. +#[no_mangle] +pub extern "C" fn ChannelManagerReadArgs_get_default_config(this_ptr: &ChannelManagerReadArgs) -> crate::util::config::UserConfig { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.default_config; + crate::util::config::UserConfig { inner: unsafe { ( (&((*inner_val)) as *const _) as *mut _) }, is_owned: false } +} +/// Default settings used for new channels. Any existing channels will continue to use the +/// runtime settings which were stored when the ChannelManager was serialized. +#[no_mangle] +pub extern "C" fn ChannelManagerReadArgs_set_default_config(this_ptr: &mut ChannelManagerReadArgs, mut val: crate::util::config::UserConfig) { + unsafe { &mut *this_ptr.inner }.default_config = *unsafe { Box::from_raw(val.take_inner()) }; +} +/// Simple utility function to create a ChannelManagerReadArgs which creates the monitor +/// HashMap for you. This is primarily useful for C bindings where it is not practical to +/// populate a HashMap directly from C. +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelManagerReadArgs_new(mut keys_manager: crate::chain::keysinterface::KeysInterface, mut fee_estimator: crate::chain::chaininterface::FeeEstimator, mut chain_monitor: crate::chain::Watch, mut tx_broadcaster: crate::chain::chaininterface::BroadcasterInterface, mut logger: crate::util::logger::Logger, mut default_config: crate::util::config::UserConfig, mut channel_monitors: crate::c_types::derived::CVec_ChannelMonitorZ) -> ChannelManagerReadArgs { + let mut local_channel_monitors = Vec::new(); for mut item in channel_monitors.into_rust().drain(..) { local_channel_monitors.push( { unsafe { &mut *item.inner } }); }; + let mut ret = lightning::ln::channelmanager::ChannelManagerReadArgs::new(keys_manager, fee_estimator, chain_monitor, tx_broadcaster, logger, *unsafe { Box::from_raw(default_config.take_inner()) }, local_channel_monitors); + ChannelManagerReadArgs { inner: Box::into_raw(Box::new(ret)), is_owned: true } +} + +#[no_mangle] +pub extern "C" fn C2Tuple_BlockHashChannelManagerZ_read(ser: crate::c_types::u8slice, arg: crate::ln::channelmanager::ChannelManagerReadArgs) -> crate::c_types::derived::CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ { + let arg_conv = *unsafe { Box::from_raw(arg.take_inner()) }; + let res: Result<(bitcoin::hash_types::BlockHash, lightning::ln::channelmanager::ChannelManager), lightning::ln::msgs::DecodeError> = crate::c_types::deserialize_obj_arg(ser, arg_conv); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { let (mut orig_res_0_0, mut orig_res_0_1) = o; let mut local_res_0 = (crate::c_types::ThirtyTwoBytes { data: orig_res_0_0.into_inner() }, crate::ln::channelmanager::ChannelManager { inner: Box::into_raw(Box::new(orig_res_0_1)), is_owned: true }).into(); local_res_0 }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} diff --git a/lightning-c-bindings/src/ln/features.rs b/lightning-c-bindings/src/ln/features.rs new file mode 100644 index 0000000..06dc420 --- /dev/null +++ b/lightning-c-bindings/src/ln/features.rs @@ -0,0 +1,286 @@ +//! Feature flag definitions for the Lightning protocol according to [BOLT #9]. +//! +//! Lightning nodes advertise a supported set of operation through feature flags. Features are +//! applicable for a specific context as indicated in some [messages]. [`Features`] encapsulates +//! behavior for specifying and checking feature flags for a particular context. Each feature is +//! defined internally by a trait specifying the corresponding flags (i.e., even and odd bits). A +//! [`Context`] is used to parameterize [`Features`] and defines which features it can support. +//! +//! Whether a feature is considered \"known\" or \"unknown\" is relative to the implementation, whereas +//! the term \"supports\" is used in reference to a particular set of [`Features`]. That is, a node +//! supports a feature if it advertises the feature (as either required or optional) to its peers. +//! And the implementation can interpret a feature if the feature is known to it. +//! +//! [BOLT #9]: https://github.com/lightningnetwork/lightning-rfc/blob/master/09-features.md +//! [messages]: ../msgs/index.html +//! [`Features`]: struct.Features.html +//! [`Context`]: sealed/trait.Context.html + +use std::ffi::c_void; +use bitcoin::hashes::Hash; +use crate::c_types::*; + +impl Clone for InitFeatures { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeInitFeatures>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn InitFeatures_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeInitFeatures)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn InitFeatures_clone(orig: &InitFeatures) -> InitFeatures { + orig.clone() +} +impl Clone for NodeFeatures { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeNodeFeatures>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn NodeFeatures_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeNodeFeatures)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn NodeFeatures_clone(orig: &NodeFeatures) -> NodeFeatures { + orig.clone() +} +impl Clone for ChannelFeatures { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeChannelFeatures>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn ChannelFeatures_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeChannelFeatures)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn ChannelFeatures_clone(orig: &ChannelFeatures) -> ChannelFeatures { + orig.clone() +} + +use lightning::ln::features::InitFeatures as nativeInitFeaturesImport; +type nativeInitFeatures = nativeInitFeaturesImport; + +/// Features used within an `init` message. +#[must_use] +#[repr(C)] +pub struct InitFeatures { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeInitFeatures, + pub is_owned: bool, +} + +impl Drop for InitFeatures { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeInitFeatures>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn InitFeatures_free(this_ptr: InitFeatures) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn InitFeatures_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeInitFeatures); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl InitFeatures { + pub(crate) fn take_inner(mut self) -> *mut nativeInitFeatures { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} + +use lightning::ln::features::NodeFeatures as nativeNodeFeaturesImport; +type nativeNodeFeatures = nativeNodeFeaturesImport; + +/// Features used within a `node_announcement` message. +#[must_use] +#[repr(C)] +pub struct NodeFeatures { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeNodeFeatures, + pub is_owned: bool, +} + +impl Drop for NodeFeatures { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeNodeFeatures>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn NodeFeatures_free(this_ptr: NodeFeatures) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn NodeFeatures_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeNodeFeatures); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl NodeFeatures { + pub(crate) fn take_inner(mut self) -> *mut nativeNodeFeatures { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} + +use lightning::ln::features::ChannelFeatures as nativeChannelFeaturesImport; +type nativeChannelFeatures = nativeChannelFeaturesImport; + +/// Features used within a `channel_announcement` message. +#[must_use] +#[repr(C)] +pub struct ChannelFeatures { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeChannelFeatures, + pub is_owned: bool, +} + +impl Drop for ChannelFeatures { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeChannelFeatures>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn ChannelFeatures_free(this_ptr: ChannelFeatures) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn ChannelFeatures_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeChannelFeatures); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl ChannelFeatures { + pub(crate) fn take_inner(mut self) -> *mut nativeChannelFeatures { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// Create a blank Features with no features set +#[must_use] +#[no_mangle] +pub extern "C" fn InitFeatures_empty() -> InitFeatures { + let mut ret = lightning::ln::features::InitFeatures::empty(); + InitFeatures { inner: Box::into_raw(Box::new(ret)), is_owned: true } +} + +/// Creates features known by the implementation as defined by [`T::KNOWN_FEATURE_FLAGS`]. +/// +/// [`T::KNOWN_FEATURE_FLAGS`]: sealed/trait.Context.html#associatedconstant.KNOWN_FEATURE_FLAGS +#[must_use] +#[no_mangle] +pub extern "C" fn InitFeatures_known() -> InitFeatures { + let mut ret = lightning::ln::features::InitFeatures::known(); + InitFeatures { inner: Box::into_raw(Box::new(ret)), is_owned: true } +} + +/// Create a blank Features with no features set +#[must_use] +#[no_mangle] +pub extern "C" fn NodeFeatures_empty() -> NodeFeatures { + let mut ret = lightning::ln::features::NodeFeatures::empty(); + NodeFeatures { inner: Box::into_raw(Box::new(ret)), is_owned: true } +} + +/// Creates features known by the implementation as defined by [`T::KNOWN_FEATURE_FLAGS`]. +/// +/// [`T::KNOWN_FEATURE_FLAGS`]: sealed/trait.Context.html#associatedconstant.KNOWN_FEATURE_FLAGS +#[must_use] +#[no_mangle] +pub extern "C" fn NodeFeatures_known() -> NodeFeatures { + let mut ret = lightning::ln::features::NodeFeatures::known(); + NodeFeatures { inner: Box::into_raw(Box::new(ret)), is_owned: true } +} + +/// Create a blank Features with no features set +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelFeatures_empty() -> ChannelFeatures { + let mut ret = lightning::ln::features::ChannelFeatures::empty(); + ChannelFeatures { inner: Box::into_raw(Box::new(ret)), is_owned: true } +} + +/// Creates features known by the implementation as defined by [`T::KNOWN_FEATURE_FLAGS`]. +/// +/// [`T::KNOWN_FEATURE_FLAGS`]: sealed/trait.Context.html#associatedconstant.KNOWN_FEATURE_FLAGS +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelFeatures_known() -> ChannelFeatures { + let mut ret = lightning::ln::features::ChannelFeatures::known(); + ChannelFeatures { inner: Box::into_raw(Box::new(ret)), is_owned: true } +} + +#[no_mangle] +pub extern "C" fn InitFeatures_write(obj: &InitFeatures) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn InitFeatures_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeInitFeatures) }) +} +#[no_mangle] +pub extern "C" fn NodeFeatures_write(obj: &NodeFeatures) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn NodeFeatures_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeNodeFeatures) }) +} +#[no_mangle] +pub extern "C" fn ChannelFeatures_write(obj: &ChannelFeatures) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn ChannelFeatures_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeChannelFeatures) }) +} +#[no_mangle] +pub extern "C" fn InitFeatures_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_InitFeaturesDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::features::InitFeatures { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn NodeFeatures_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_NodeFeaturesDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::features::NodeFeatures { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn ChannelFeatures_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_ChannelFeaturesDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::features::ChannelFeatures { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} diff --git a/lightning-c-bindings/src/ln/mod.rs b/lightning-c-bindings/src/ln/mod.rs new file mode 100644 index 0000000..b81204a --- /dev/null +++ b/lightning-c-bindings/src/ln/mod.rs @@ -0,0 +1,20 @@ +//! High level lightning structs and impls live here. +//! +//! You probably want to create a channelmanager::ChannelManager, and a routing::NetGraphMsgHandler first. +//! Then, you probably want to pass them both on to a peer_handler::PeerManager and use that to +//! create/manage connections and call get_and_clear_pending_events after each action, handling +//! them appropriately. +//! +//! When you want to open/close a channel or send a payment, call into your ChannelManager and when +//! you want to learn things about the network topology (eg get a route for sending a payment), +//! call into your NetGraphMsgHandler. + +use std::ffi::c_void; +use bitcoin::hashes::Hash; +use crate::c_types::*; + +pub mod channelmanager; +pub mod msgs; +pub mod peer_handler; +pub mod chan_utils; +pub mod features; diff --git a/lightning-c-bindings/src/ln/msgs.rs b/lightning-c-bindings/src/ln/msgs.rs new file mode 100644 index 0000000..416b532 --- /dev/null +++ b/lightning-c-bindings/src/ln/msgs.rs @@ -0,0 +1,4822 @@ +//! Wire messages, traits representing wire message handlers, and a few error types live here. +//! +//! For a normal node you probably don't need to use anything here, however, if you wish to split a +//! node into an internet-facing route/message socket handling daemon and a separate daemon (or +//! server entirely) which handles only channel-related messages you may wish to implement +//! ChannelMessageHandler yourself and use it to re-serialize messages and pass them across +//! daemons/servers. +//! +//! Note that if you go with such an architecture (instead of passing raw socket events to a +//! non-internet-facing system) you trust the frontend internet-facing system to not lie about the +//! source node_id of the message, however this does allow you to significantly reduce bandwidth +//! between the systems as routing messages can represent a significant chunk of bandwidth usage +//! (especially for non-channel-publicly-announcing nodes). As an alternate design which avoids +//! this issue, if you have sufficient bidirectional bandwidth between your systems, you may send +//! raw socket events into your non-internet-facing system and then send routing events back to +//! track the network on the less-secure system. + +use std::ffi::c_void; +use bitcoin::hashes::Hash; +use crate::c_types::*; + + +use lightning::ln::msgs::DecodeError as nativeDecodeErrorImport; +type nativeDecodeError = nativeDecodeErrorImport; + +/// An error in decoding a message or struct. +#[must_use] +#[repr(C)] +pub struct DecodeError { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeDecodeError, + pub is_owned: bool, +} + +impl Drop for DecodeError { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeDecodeError>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn DecodeError_free(this_ptr: DecodeError) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn DecodeError_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeDecodeError); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl DecodeError { + pub(crate) fn take_inner(mut self) -> *mut nativeDecodeError { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +impl Clone for DecodeError { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeDecodeError>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn DecodeError_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeDecodeError)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn DecodeError_clone(orig: &DecodeError) -> DecodeError { + orig.clone() +} + +use lightning::ln::msgs::Init as nativeInitImport; +type nativeInit = nativeInitImport; + +/// An init message to be sent or received from a peer +#[must_use] +#[repr(C)] +pub struct Init { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeInit, + pub is_owned: bool, +} + +impl Drop for Init { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeInit>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn Init_free(this_ptr: Init) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn Init_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeInit); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl Init { + pub(crate) fn take_inner(mut self) -> *mut nativeInit { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The relevant features which the sender supports +#[no_mangle] +pub extern "C" fn Init_get_features(this_ptr: &Init) -> crate::ln::features::InitFeatures { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.features; + crate::ln::features::InitFeatures { inner: unsafe { ( (&((*inner_val)) as *const _) as *mut _) }, is_owned: false } +} +/// The relevant features which the sender supports +#[no_mangle] +pub extern "C" fn Init_set_features(this_ptr: &mut Init, mut val: crate::ln::features::InitFeatures) { + unsafe { &mut *this_ptr.inner }.features = *unsafe { Box::from_raw(val.take_inner()) }; +} +#[must_use] +#[no_mangle] +pub extern "C" fn Init_new(mut features_arg: crate::ln::features::InitFeatures) -> Init { + Init { inner: Box::into_raw(Box::new(nativeInit { + features: *unsafe { Box::from_raw(features_arg.take_inner()) }, + })), is_owned: true } +} +impl Clone for Init { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeInit>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn Init_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeInit)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn Init_clone(orig: &Init) -> Init { + orig.clone() +} + +use lightning::ln::msgs::ErrorMessage as nativeErrorMessageImport; +type nativeErrorMessage = nativeErrorMessageImport; + +/// An error message to be sent or received from a peer +#[must_use] +#[repr(C)] +pub struct ErrorMessage { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeErrorMessage, + pub is_owned: bool, +} + +impl Drop for ErrorMessage { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeErrorMessage>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn ErrorMessage_free(this_ptr: ErrorMessage) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn ErrorMessage_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeErrorMessage); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl ErrorMessage { + pub(crate) fn take_inner(mut self) -> *mut nativeErrorMessage { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The channel ID involved in the error +#[no_mangle] +pub extern "C" fn ErrorMessage_get_channel_id(this_ptr: &ErrorMessage) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.channel_id; + &(*inner_val) +} +/// The channel ID involved in the error +#[no_mangle] +pub extern "C" fn ErrorMessage_set_channel_id(this_ptr: &mut ErrorMessage, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.channel_id = val.data; +} +/// A possibly human-readable error description. +/// The string should be sanitized before it is used (e.g. emitted to logs +/// or printed to stdout). Otherwise, a well crafted error message may trigger a security +/// vulnerability in the terminal emulator or the logging subsystem. +#[no_mangle] +pub extern "C" fn ErrorMessage_get_data(this_ptr: &ErrorMessage) -> crate::c_types::Str { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.data; + (*inner_val).as_str().into() +} +/// A possibly human-readable error description. +/// The string should be sanitized before it is used (e.g. emitted to logs +/// or printed to stdout). Otherwise, a well crafted error message may trigger a security +/// vulnerability in the terminal emulator or the logging subsystem. +#[no_mangle] +pub extern "C" fn ErrorMessage_set_data(this_ptr: &mut ErrorMessage, mut val: crate::c_types::derived::CVec_u8Z) { + unsafe { &mut *this_ptr.inner }.data = String::from_utf8(val.into_rust()).unwrap(); +} +#[must_use] +#[no_mangle] +pub extern "C" fn ErrorMessage_new(mut channel_id_arg: crate::c_types::ThirtyTwoBytes, mut data_arg: crate::c_types::derived::CVec_u8Z) -> ErrorMessage { + ErrorMessage { inner: Box::into_raw(Box::new(nativeErrorMessage { + channel_id: channel_id_arg.data, + data: String::from_utf8(data_arg.into_rust()).unwrap(), + })), is_owned: true } +} +impl Clone for ErrorMessage { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeErrorMessage>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn ErrorMessage_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeErrorMessage)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn ErrorMessage_clone(orig: &ErrorMessage) -> ErrorMessage { + orig.clone() +} + +use lightning::ln::msgs::Ping as nativePingImport; +type nativePing = nativePingImport; + +/// A ping message to be sent or received from a peer +#[must_use] +#[repr(C)] +pub struct Ping { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativePing, + pub is_owned: bool, +} + +impl Drop for Ping { + fn drop(&mut self) { + if self.is_owned && !<*mut nativePing>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn Ping_free(this_ptr: Ping) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn Ping_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativePing); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl Ping { + pub(crate) fn take_inner(mut self) -> *mut nativePing { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The desired response length +#[no_mangle] +pub extern "C" fn Ping_get_ponglen(this_ptr: &Ping) -> u16 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.ponglen; + (*inner_val) +} +/// The desired response length +#[no_mangle] +pub extern "C" fn Ping_set_ponglen(this_ptr: &mut Ping, mut val: u16) { + unsafe { &mut *this_ptr.inner }.ponglen = val; +} +/// The ping packet size. +/// This field is not sent on the wire. byteslen zeros are sent. +#[no_mangle] +pub extern "C" fn Ping_get_byteslen(this_ptr: &Ping) -> u16 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.byteslen; + (*inner_val) +} +/// The ping packet size. +/// This field is not sent on the wire. byteslen zeros are sent. +#[no_mangle] +pub extern "C" fn Ping_set_byteslen(this_ptr: &mut Ping, mut val: u16) { + unsafe { &mut *this_ptr.inner }.byteslen = val; +} +#[must_use] +#[no_mangle] +pub extern "C" fn Ping_new(mut ponglen_arg: u16, mut byteslen_arg: u16) -> Ping { + Ping { inner: Box::into_raw(Box::new(nativePing { + ponglen: ponglen_arg, + byteslen: byteslen_arg, + })), is_owned: true } +} +impl Clone for Ping { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativePing>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn Ping_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativePing)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn Ping_clone(orig: &Ping) -> Ping { + orig.clone() +} + +use lightning::ln::msgs::Pong as nativePongImport; +type nativePong = nativePongImport; + +/// A pong message to be sent or received from a peer +#[must_use] +#[repr(C)] +pub struct Pong { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativePong, + pub is_owned: bool, +} + +impl Drop for Pong { + fn drop(&mut self) { + if self.is_owned && !<*mut nativePong>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn Pong_free(this_ptr: Pong) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn Pong_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativePong); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl Pong { + pub(crate) fn take_inner(mut self) -> *mut nativePong { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The pong packet size. +/// This field is not sent on the wire. byteslen zeros are sent. +#[no_mangle] +pub extern "C" fn Pong_get_byteslen(this_ptr: &Pong) -> u16 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.byteslen; + (*inner_val) +} +/// The pong packet size. +/// This field is not sent on the wire. byteslen zeros are sent. +#[no_mangle] +pub extern "C" fn Pong_set_byteslen(this_ptr: &mut Pong, mut val: u16) { + unsafe { &mut *this_ptr.inner }.byteslen = val; +} +#[must_use] +#[no_mangle] +pub extern "C" fn Pong_new(mut byteslen_arg: u16) -> Pong { + Pong { inner: Box::into_raw(Box::new(nativePong { + byteslen: byteslen_arg, + })), is_owned: true } +} +impl Clone for Pong { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativePong>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn Pong_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativePong)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn Pong_clone(orig: &Pong) -> Pong { + orig.clone() +} + +use lightning::ln::msgs::OpenChannel as nativeOpenChannelImport; +type nativeOpenChannel = nativeOpenChannelImport; + +/// An open_channel message to be sent or received from a peer +#[must_use] +#[repr(C)] +pub struct OpenChannel { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeOpenChannel, + pub is_owned: bool, +} + +impl Drop for OpenChannel { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeOpenChannel>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn OpenChannel_free(this_ptr: OpenChannel) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn OpenChannel_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeOpenChannel); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl OpenChannel { + pub(crate) fn take_inner(mut self) -> *mut nativeOpenChannel { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The genesis hash of the blockchain where the channel is to be opened +#[no_mangle] +pub extern "C" fn OpenChannel_get_chain_hash(this_ptr: &OpenChannel) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.chain_hash; + (*inner_val).as_inner() +} +/// The genesis hash of the blockchain where the channel is to be opened +#[no_mangle] +pub extern "C" fn OpenChannel_set_chain_hash(this_ptr: &mut OpenChannel, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.chain_hash = ::bitcoin::hash_types::BlockHash::from_slice(&val.data[..]).unwrap(); +} +/// A temporary channel ID, until the funding outpoint is announced +#[no_mangle] +pub extern "C" fn OpenChannel_get_temporary_channel_id(this_ptr: &OpenChannel) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.temporary_channel_id; + &(*inner_val) +} +/// A temporary channel ID, until the funding outpoint is announced +#[no_mangle] +pub extern "C" fn OpenChannel_set_temporary_channel_id(this_ptr: &mut OpenChannel, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.temporary_channel_id = val.data; +} +/// The channel value +#[no_mangle] +pub extern "C" fn OpenChannel_get_funding_satoshis(this_ptr: &OpenChannel) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.funding_satoshis; + (*inner_val) +} +/// The channel value +#[no_mangle] +pub extern "C" fn OpenChannel_set_funding_satoshis(this_ptr: &mut OpenChannel, mut val: u64) { + unsafe { &mut *this_ptr.inner }.funding_satoshis = val; +} +/// The amount to push to the counterparty as part of the open, in milli-satoshi +#[no_mangle] +pub extern "C" fn OpenChannel_get_push_msat(this_ptr: &OpenChannel) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.push_msat; + (*inner_val) +} +/// The amount to push to the counterparty as part of the open, in milli-satoshi +#[no_mangle] +pub extern "C" fn OpenChannel_set_push_msat(this_ptr: &mut OpenChannel, mut val: u64) { + unsafe { &mut *this_ptr.inner }.push_msat = val; +} +/// The threshold below which outputs on transactions broadcast by sender will be omitted +#[no_mangle] +pub extern "C" fn OpenChannel_get_dust_limit_satoshis(this_ptr: &OpenChannel) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.dust_limit_satoshis; + (*inner_val) +} +/// The threshold below which outputs on transactions broadcast by sender will be omitted +#[no_mangle] +pub extern "C" fn OpenChannel_set_dust_limit_satoshis(this_ptr: &mut OpenChannel, mut val: u64) { + unsafe { &mut *this_ptr.inner }.dust_limit_satoshis = val; +} +/// The maximum inbound HTLC value in flight towards sender, in milli-satoshi +#[no_mangle] +pub extern "C" fn OpenChannel_get_max_htlc_value_in_flight_msat(this_ptr: &OpenChannel) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.max_htlc_value_in_flight_msat; + (*inner_val) +} +/// The maximum inbound HTLC value in flight towards sender, in milli-satoshi +#[no_mangle] +pub extern "C" fn OpenChannel_set_max_htlc_value_in_flight_msat(this_ptr: &mut OpenChannel, mut val: u64) { + unsafe { &mut *this_ptr.inner }.max_htlc_value_in_flight_msat = val; +} +/// The minimum value unencumbered by HTLCs for the counterparty to keep in the channel +#[no_mangle] +pub extern "C" fn OpenChannel_get_channel_reserve_satoshis(this_ptr: &OpenChannel) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.channel_reserve_satoshis; + (*inner_val) +} +/// The minimum value unencumbered by HTLCs for the counterparty to keep in the channel +#[no_mangle] +pub extern "C" fn OpenChannel_set_channel_reserve_satoshis(this_ptr: &mut OpenChannel, mut val: u64) { + unsafe { &mut *this_ptr.inner }.channel_reserve_satoshis = val; +} +/// The minimum HTLC size incoming to sender, in milli-satoshi +#[no_mangle] +pub extern "C" fn OpenChannel_get_htlc_minimum_msat(this_ptr: &OpenChannel) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.htlc_minimum_msat; + (*inner_val) +} +/// The minimum HTLC size incoming to sender, in milli-satoshi +#[no_mangle] +pub extern "C" fn OpenChannel_set_htlc_minimum_msat(this_ptr: &mut OpenChannel, mut val: u64) { + unsafe { &mut *this_ptr.inner }.htlc_minimum_msat = val; +} +/// The feerate per 1000-weight of sender generated transactions, until updated by update_fee +#[no_mangle] +pub extern "C" fn OpenChannel_get_feerate_per_kw(this_ptr: &OpenChannel) -> u32 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.feerate_per_kw; + (*inner_val) +} +/// The feerate per 1000-weight of sender generated transactions, until updated by update_fee +#[no_mangle] +pub extern "C" fn OpenChannel_set_feerate_per_kw(this_ptr: &mut OpenChannel, mut val: u32) { + unsafe { &mut *this_ptr.inner }.feerate_per_kw = val; +} +/// The number of blocks which the counterparty will have to wait to claim on-chain funds if they broadcast a commitment transaction +#[no_mangle] +pub extern "C" fn OpenChannel_get_to_self_delay(this_ptr: &OpenChannel) -> u16 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.to_self_delay; + (*inner_val) +} +/// The number of blocks which the counterparty will have to wait to claim on-chain funds if they broadcast a commitment transaction +#[no_mangle] +pub extern "C" fn OpenChannel_set_to_self_delay(this_ptr: &mut OpenChannel, mut val: u16) { + unsafe { &mut *this_ptr.inner }.to_self_delay = val; +} +/// The maximum number of inbound HTLCs towards sender +#[no_mangle] +pub extern "C" fn OpenChannel_get_max_accepted_htlcs(this_ptr: &OpenChannel) -> u16 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.max_accepted_htlcs; + (*inner_val) +} +/// The maximum number of inbound HTLCs towards sender +#[no_mangle] +pub extern "C" fn OpenChannel_set_max_accepted_htlcs(this_ptr: &mut OpenChannel, mut val: u16) { + unsafe { &mut *this_ptr.inner }.max_accepted_htlcs = val; +} +/// The sender's key controlling the funding transaction +#[no_mangle] +pub extern "C" fn OpenChannel_get_funding_pubkey(this_ptr: &OpenChannel) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.funding_pubkey; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// The sender's key controlling the funding transaction +#[no_mangle] +pub extern "C" fn OpenChannel_set_funding_pubkey(this_ptr: &mut OpenChannel, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.funding_pubkey = val.into_rust(); +} +/// Used to derive a revocation key for transactions broadcast by counterparty +#[no_mangle] +pub extern "C" fn OpenChannel_get_revocation_basepoint(this_ptr: &OpenChannel) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.revocation_basepoint; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// Used to derive a revocation key for transactions broadcast by counterparty +#[no_mangle] +pub extern "C" fn OpenChannel_set_revocation_basepoint(this_ptr: &mut OpenChannel, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.revocation_basepoint = val.into_rust(); +} +/// A payment key to sender for transactions broadcast by counterparty +#[no_mangle] +pub extern "C" fn OpenChannel_get_payment_point(this_ptr: &OpenChannel) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.payment_point; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// A payment key to sender for transactions broadcast by counterparty +#[no_mangle] +pub extern "C" fn OpenChannel_set_payment_point(this_ptr: &mut OpenChannel, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.payment_point = val.into_rust(); +} +/// Used to derive a payment key to sender for transactions broadcast by sender +#[no_mangle] +pub extern "C" fn OpenChannel_get_delayed_payment_basepoint(this_ptr: &OpenChannel) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.delayed_payment_basepoint; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// Used to derive a payment key to sender for transactions broadcast by sender +#[no_mangle] +pub extern "C" fn OpenChannel_set_delayed_payment_basepoint(this_ptr: &mut OpenChannel, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.delayed_payment_basepoint = val.into_rust(); +} +/// Used to derive an HTLC payment key to sender +#[no_mangle] +pub extern "C" fn OpenChannel_get_htlc_basepoint(this_ptr: &OpenChannel) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.htlc_basepoint; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// Used to derive an HTLC payment key to sender +#[no_mangle] +pub extern "C" fn OpenChannel_set_htlc_basepoint(this_ptr: &mut OpenChannel, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.htlc_basepoint = val.into_rust(); +} +/// The first to-be-broadcast-by-sender transaction's per commitment point +#[no_mangle] +pub extern "C" fn OpenChannel_get_first_per_commitment_point(this_ptr: &OpenChannel) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.first_per_commitment_point; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// The first to-be-broadcast-by-sender transaction's per commitment point +#[no_mangle] +pub extern "C" fn OpenChannel_set_first_per_commitment_point(this_ptr: &mut OpenChannel, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.first_per_commitment_point = val.into_rust(); +} +/// Channel flags +#[no_mangle] +pub extern "C" fn OpenChannel_get_channel_flags(this_ptr: &OpenChannel) -> u8 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.channel_flags; + (*inner_val) +} +/// Channel flags +#[no_mangle] +pub extern "C" fn OpenChannel_set_channel_flags(this_ptr: &mut OpenChannel, mut val: u8) { + unsafe { &mut *this_ptr.inner }.channel_flags = val; +} +impl Clone for OpenChannel { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeOpenChannel>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn OpenChannel_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeOpenChannel)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn OpenChannel_clone(orig: &OpenChannel) -> OpenChannel { + orig.clone() +} + +use lightning::ln::msgs::AcceptChannel as nativeAcceptChannelImport; +type nativeAcceptChannel = nativeAcceptChannelImport; + +/// An accept_channel message to be sent or received from a peer +#[must_use] +#[repr(C)] +pub struct AcceptChannel { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeAcceptChannel, + pub is_owned: bool, +} + +impl Drop for AcceptChannel { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeAcceptChannel>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn AcceptChannel_free(this_ptr: AcceptChannel) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn AcceptChannel_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeAcceptChannel); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl AcceptChannel { + pub(crate) fn take_inner(mut self) -> *mut nativeAcceptChannel { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// A temporary channel ID, until the funding outpoint is announced +#[no_mangle] +pub extern "C" fn AcceptChannel_get_temporary_channel_id(this_ptr: &AcceptChannel) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.temporary_channel_id; + &(*inner_val) +} +/// A temporary channel ID, until the funding outpoint is announced +#[no_mangle] +pub extern "C" fn AcceptChannel_set_temporary_channel_id(this_ptr: &mut AcceptChannel, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.temporary_channel_id = val.data; +} +/// The threshold below which outputs on transactions broadcast by sender will be omitted +#[no_mangle] +pub extern "C" fn AcceptChannel_get_dust_limit_satoshis(this_ptr: &AcceptChannel) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.dust_limit_satoshis; + (*inner_val) +} +/// The threshold below which outputs on transactions broadcast by sender will be omitted +#[no_mangle] +pub extern "C" fn AcceptChannel_set_dust_limit_satoshis(this_ptr: &mut AcceptChannel, mut val: u64) { + unsafe { &mut *this_ptr.inner }.dust_limit_satoshis = val; +} +/// The maximum inbound HTLC value in flight towards sender, in milli-satoshi +#[no_mangle] +pub extern "C" fn AcceptChannel_get_max_htlc_value_in_flight_msat(this_ptr: &AcceptChannel) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.max_htlc_value_in_flight_msat; + (*inner_val) +} +/// The maximum inbound HTLC value in flight towards sender, in milli-satoshi +#[no_mangle] +pub extern "C" fn AcceptChannel_set_max_htlc_value_in_flight_msat(this_ptr: &mut AcceptChannel, mut val: u64) { + unsafe { &mut *this_ptr.inner }.max_htlc_value_in_flight_msat = val; +} +/// The minimum value unencumbered by HTLCs for the counterparty to keep in the channel +#[no_mangle] +pub extern "C" fn AcceptChannel_get_channel_reserve_satoshis(this_ptr: &AcceptChannel) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.channel_reserve_satoshis; + (*inner_val) +} +/// The minimum value unencumbered by HTLCs for the counterparty to keep in the channel +#[no_mangle] +pub extern "C" fn AcceptChannel_set_channel_reserve_satoshis(this_ptr: &mut AcceptChannel, mut val: u64) { + unsafe { &mut *this_ptr.inner }.channel_reserve_satoshis = val; +} +/// The minimum HTLC size incoming to sender, in milli-satoshi +#[no_mangle] +pub extern "C" fn AcceptChannel_get_htlc_minimum_msat(this_ptr: &AcceptChannel) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.htlc_minimum_msat; + (*inner_val) +} +/// The minimum HTLC size incoming to sender, in milli-satoshi +#[no_mangle] +pub extern "C" fn AcceptChannel_set_htlc_minimum_msat(this_ptr: &mut AcceptChannel, mut val: u64) { + unsafe { &mut *this_ptr.inner }.htlc_minimum_msat = val; +} +/// Minimum depth of the funding transaction before the channel is considered open +#[no_mangle] +pub extern "C" fn AcceptChannel_get_minimum_depth(this_ptr: &AcceptChannel) -> u32 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.minimum_depth; + (*inner_val) +} +/// Minimum depth of the funding transaction before the channel is considered open +#[no_mangle] +pub extern "C" fn AcceptChannel_set_minimum_depth(this_ptr: &mut AcceptChannel, mut val: u32) { + unsafe { &mut *this_ptr.inner }.minimum_depth = val; +} +/// The number of blocks which the counterparty will have to wait to claim on-chain funds if they broadcast a commitment transaction +#[no_mangle] +pub extern "C" fn AcceptChannel_get_to_self_delay(this_ptr: &AcceptChannel) -> u16 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.to_self_delay; + (*inner_val) +} +/// The number of blocks which the counterparty will have to wait to claim on-chain funds if they broadcast a commitment transaction +#[no_mangle] +pub extern "C" fn AcceptChannel_set_to_self_delay(this_ptr: &mut AcceptChannel, mut val: u16) { + unsafe { &mut *this_ptr.inner }.to_self_delay = val; +} +/// The maximum number of inbound HTLCs towards sender +#[no_mangle] +pub extern "C" fn AcceptChannel_get_max_accepted_htlcs(this_ptr: &AcceptChannel) -> u16 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.max_accepted_htlcs; + (*inner_val) +} +/// The maximum number of inbound HTLCs towards sender +#[no_mangle] +pub extern "C" fn AcceptChannel_set_max_accepted_htlcs(this_ptr: &mut AcceptChannel, mut val: u16) { + unsafe { &mut *this_ptr.inner }.max_accepted_htlcs = val; +} +/// The sender's key controlling the funding transaction +#[no_mangle] +pub extern "C" fn AcceptChannel_get_funding_pubkey(this_ptr: &AcceptChannel) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.funding_pubkey; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// The sender's key controlling the funding transaction +#[no_mangle] +pub extern "C" fn AcceptChannel_set_funding_pubkey(this_ptr: &mut AcceptChannel, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.funding_pubkey = val.into_rust(); +} +/// Used to derive a revocation key for transactions broadcast by counterparty +#[no_mangle] +pub extern "C" fn AcceptChannel_get_revocation_basepoint(this_ptr: &AcceptChannel) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.revocation_basepoint; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// Used to derive a revocation key for transactions broadcast by counterparty +#[no_mangle] +pub extern "C" fn AcceptChannel_set_revocation_basepoint(this_ptr: &mut AcceptChannel, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.revocation_basepoint = val.into_rust(); +} +/// A payment key to sender for transactions broadcast by counterparty +#[no_mangle] +pub extern "C" fn AcceptChannel_get_payment_point(this_ptr: &AcceptChannel) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.payment_point; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// A payment key to sender for transactions broadcast by counterparty +#[no_mangle] +pub extern "C" fn AcceptChannel_set_payment_point(this_ptr: &mut AcceptChannel, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.payment_point = val.into_rust(); +} +/// Used to derive a payment key to sender for transactions broadcast by sender +#[no_mangle] +pub extern "C" fn AcceptChannel_get_delayed_payment_basepoint(this_ptr: &AcceptChannel) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.delayed_payment_basepoint; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// Used to derive a payment key to sender for transactions broadcast by sender +#[no_mangle] +pub extern "C" fn AcceptChannel_set_delayed_payment_basepoint(this_ptr: &mut AcceptChannel, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.delayed_payment_basepoint = val.into_rust(); +} +/// Used to derive an HTLC payment key to sender for transactions broadcast by counterparty +#[no_mangle] +pub extern "C" fn AcceptChannel_get_htlc_basepoint(this_ptr: &AcceptChannel) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.htlc_basepoint; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// Used to derive an HTLC payment key to sender for transactions broadcast by counterparty +#[no_mangle] +pub extern "C" fn AcceptChannel_set_htlc_basepoint(this_ptr: &mut AcceptChannel, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.htlc_basepoint = val.into_rust(); +} +/// The first to-be-broadcast-by-sender transaction's per commitment point +#[no_mangle] +pub extern "C" fn AcceptChannel_get_first_per_commitment_point(this_ptr: &AcceptChannel) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.first_per_commitment_point; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// The first to-be-broadcast-by-sender transaction's per commitment point +#[no_mangle] +pub extern "C" fn AcceptChannel_set_first_per_commitment_point(this_ptr: &mut AcceptChannel, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.first_per_commitment_point = val.into_rust(); +} +impl Clone for AcceptChannel { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeAcceptChannel>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn AcceptChannel_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeAcceptChannel)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn AcceptChannel_clone(orig: &AcceptChannel) -> AcceptChannel { + orig.clone() +} + +use lightning::ln::msgs::FundingCreated as nativeFundingCreatedImport; +type nativeFundingCreated = nativeFundingCreatedImport; + +/// A funding_created message to be sent or received from a peer +#[must_use] +#[repr(C)] +pub struct FundingCreated { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeFundingCreated, + pub is_owned: bool, +} + +impl Drop for FundingCreated { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeFundingCreated>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn FundingCreated_free(this_ptr: FundingCreated) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn FundingCreated_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeFundingCreated); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl FundingCreated { + pub(crate) fn take_inner(mut self) -> *mut nativeFundingCreated { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// A temporary channel ID, until the funding is established +#[no_mangle] +pub extern "C" fn FundingCreated_get_temporary_channel_id(this_ptr: &FundingCreated) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.temporary_channel_id; + &(*inner_val) +} +/// A temporary channel ID, until the funding is established +#[no_mangle] +pub extern "C" fn FundingCreated_set_temporary_channel_id(this_ptr: &mut FundingCreated, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.temporary_channel_id = val.data; +} +/// The funding transaction ID +#[no_mangle] +pub extern "C" fn FundingCreated_get_funding_txid(this_ptr: &FundingCreated) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.funding_txid; + (*inner_val).as_inner() +} +/// The funding transaction ID +#[no_mangle] +pub extern "C" fn FundingCreated_set_funding_txid(this_ptr: &mut FundingCreated, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.funding_txid = ::bitcoin::hash_types::Txid::from_slice(&val.data[..]).unwrap(); +} +/// The specific output index funding this channel +#[no_mangle] +pub extern "C" fn FundingCreated_get_funding_output_index(this_ptr: &FundingCreated) -> u16 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.funding_output_index; + (*inner_val) +} +/// The specific output index funding this channel +#[no_mangle] +pub extern "C" fn FundingCreated_set_funding_output_index(this_ptr: &mut FundingCreated, mut val: u16) { + unsafe { &mut *this_ptr.inner }.funding_output_index = val; +} +/// The signature of the channel initiator (funder) on the funding transaction +#[no_mangle] +pub extern "C" fn FundingCreated_get_signature(this_ptr: &FundingCreated) -> crate::c_types::Signature { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.signature; + crate::c_types::Signature::from_rust(&(*inner_val)) +} +/// The signature of the channel initiator (funder) on the funding transaction +#[no_mangle] +pub extern "C" fn FundingCreated_set_signature(this_ptr: &mut FundingCreated, mut val: crate::c_types::Signature) { + unsafe { &mut *this_ptr.inner }.signature = val.into_rust(); +} +#[must_use] +#[no_mangle] +pub extern "C" fn FundingCreated_new(mut temporary_channel_id_arg: crate::c_types::ThirtyTwoBytes, mut funding_txid_arg: crate::c_types::ThirtyTwoBytes, mut funding_output_index_arg: u16, mut signature_arg: crate::c_types::Signature) -> FundingCreated { + FundingCreated { inner: Box::into_raw(Box::new(nativeFundingCreated { + temporary_channel_id: temporary_channel_id_arg.data, + funding_txid: ::bitcoin::hash_types::Txid::from_slice(&funding_txid_arg.data[..]).unwrap(), + funding_output_index: funding_output_index_arg, + signature: signature_arg.into_rust(), + })), is_owned: true } +} +impl Clone for FundingCreated { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeFundingCreated>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn FundingCreated_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeFundingCreated)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn FundingCreated_clone(orig: &FundingCreated) -> FundingCreated { + orig.clone() +} + +use lightning::ln::msgs::FundingSigned as nativeFundingSignedImport; +type nativeFundingSigned = nativeFundingSignedImport; + +/// A funding_signed message to be sent or received from a peer +#[must_use] +#[repr(C)] +pub struct FundingSigned { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeFundingSigned, + pub is_owned: bool, +} + +impl Drop for FundingSigned { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeFundingSigned>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn FundingSigned_free(this_ptr: FundingSigned) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn FundingSigned_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeFundingSigned); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl FundingSigned { + pub(crate) fn take_inner(mut self) -> *mut nativeFundingSigned { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The channel ID +#[no_mangle] +pub extern "C" fn FundingSigned_get_channel_id(this_ptr: &FundingSigned) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.channel_id; + &(*inner_val) +} +/// The channel ID +#[no_mangle] +pub extern "C" fn FundingSigned_set_channel_id(this_ptr: &mut FundingSigned, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.channel_id = val.data; +} +/// The signature of the channel acceptor (fundee) on the funding transaction +#[no_mangle] +pub extern "C" fn FundingSigned_get_signature(this_ptr: &FundingSigned) -> crate::c_types::Signature { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.signature; + crate::c_types::Signature::from_rust(&(*inner_val)) +} +/// The signature of the channel acceptor (fundee) on the funding transaction +#[no_mangle] +pub extern "C" fn FundingSigned_set_signature(this_ptr: &mut FundingSigned, mut val: crate::c_types::Signature) { + unsafe { &mut *this_ptr.inner }.signature = val.into_rust(); +} +#[must_use] +#[no_mangle] +pub extern "C" fn FundingSigned_new(mut channel_id_arg: crate::c_types::ThirtyTwoBytes, mut signature_arg: crate::c_types::Signature) -> FundingSigned { + FundingSigned { inner: Box::into_raw(Box::new(nativeFundingSigned { + channel_id: channel_id_arg.data, + signature: signature_arg.into_rust(), + })), is_owned: true } +} +impl Clone for FundingSigned { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeFundingSigned>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn FundingSigned_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeFundingSigned)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn FundingSigned_clone(orig: &FundingSigned) -> FundingSigned { + orig.clone() +} + +use lightning::ln::msgs::FundingLocked as nativeFundingLockedImport; +type nativeFundingLocked = nativeFundingLockedImport; + +/// A funding_locked message to be sent or received from a peer +#[must_use] +#[repr(C)] +pub struct FundingLocked { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeFundingLocked, + pub is_owned: bool, +} + +impl Drop for FundingLocked { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeFundingLocked>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn FundingLocked_free(this_ptr: FundingLocked) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn FundingLocked_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeFundingLocked); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl FundingLocked { + pub(crate) fn take_inner(mut self) -> *mut nativeFundingLocked { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The channel ID +#[no_mangle] +pub extern "C" fn FundingLocked_get_channel_id(this_ptr: &FundingLocked) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.channel_id; + &(*inner_val) +} +/// The channel ID +#[no_mangle] +pub extern "C" fn FundingLocked_set_channel_id(this_ptr: &mut FundingLocked, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.channel_id = val.data; +} +/// The per-commitment point of the second commitment transaction +#[no_mangle] +pub extern "C" fn FundingLocked_get_next_per_commitment_point(this_ptr: &FundingLocked) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.next_per_commitment_point; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// The per-commitment point of the second commitment transaction +#[no_mangle] +pub extern "C" fn FundingLocked_set_next_per_commitment_point(this_ptr: &mut FundingLocked, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.next_per_commitment_point = val.into_rust(); +} +#[must_use] +#[no_mangle] +pub extern "C" fn FundingLocked_new(mut channel_id_arg: crate::c_types::ThirtyTwoBytes, mut next_per_commitment_point_arg: crate::c_types::PublicKey) -> FundingLocked { + FundingLocked { inner: Box::into_raw(Box::new(nativeFundingLocked { + channel_id: channel_id_arg.data, + next_per_commitment_point: next_per_commitment_point_arg.into_rust(), + })), is_owned: true } +} +impl Clone for FundingLocked { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeFundingLocked>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn FundingLocked_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeFundingLocked)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn FundingLocked_clone(orig: &FundingLocked) -> FundingLocked { + orig.clone() +} + +use lightning::ln::msgs::Shutdown as nativeShutdownImport; +type nativeShutdown = nativeShutdownImport; + +/// A shutdown message to be sent or received from a peer +#[must_use] +#[repr(C)] +pub struct Shutdown { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeShutdown, + pub is_owned: bool, +} + +impl Drop for Shutdown { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeShutdown>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn Shutdown_free(this_ptr: Shutdown) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn Shutdown_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeShutdown); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl Shutdown { + pub(crate) fn take_inner(mut self) -> *mut nativeShutdown { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The channel ID +#[no_mangle] +pub extern "C" fn Shutdown_get_channel_id(this_ptr: &Shutdown) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.channel_id; + &(*inner_val) +} +/// The channel ID +#[no_mangle] +pub extern "C" fn Shutdown_set_channel_id(this_ptr: &mut Shutdown, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.channel_id = val.data; +} +/// The destination of this peer's funds on closing. +/// Must be in one of these forms: p2pkh, p2sh, p2wpkh, p2wsh. +#[no_mangle] +pub extern "C" fn Shutdown_get_scriptpubkey(this_ptr: &Shutdown) -> crate::c_types::u8slice { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.scriptpubkey; + crate::c_types::u8slice::from_slice(&(*inner_val)[..]) +} +/// The destination of this peer's funds on closing. +/// Must be in one of these forms: p2pkh, p2sh, p2wpkh, p2wsh. +#[no_mangle] +pub extern "C" fn Shutdown_set_scriptpubkey(this_ptr: &mut Shutdown, mut val: crate::c_types::derived::CVec_u8Z) { + unsafe { &mut *this_ptr.inner }.scriptpubkey = ::bitcoin::blockdata::script::Script::from(val.into_rust()); +} +#[must_use] +#[no_mangle] +pub extern "C" fn Shutdown_new(mut channel_id_arg: crate::c_types::ThirtyTwoBytes, mut scriptpubkey_arg: crate::c_types::derived::CVec_u8Z) -> Shutdown { + Shutdown { inner: Box::into_raw(Box::new(nativeShutdown { + channel_id: channel_id_arg.data, + scriptpubkey: ::bitcoin::blockdata::script::Script::from(scriptpubkey_arg.into_rust()), + })), is_owned: true } +} +impl Clone for Shutdown { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeShutdown>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn Shutdown_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeShutdown)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn Shutdown_clone(orig: &Shutdown) -> Shutdown { + orig.clone() +} + +use lightning::ln::msgs::ClosingSigned as nativeClosingSignedImport; +type nativeClosingSigned = nativeClosingSignedImport; + +/// A closing_signed message to be sent or received from a peer +#[must_use] +#[repr(C)] +pub struct ClosingSigned { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeClosingSigned, + pub is_owned: bool, +} + +impl Drop for ClosingSigned { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeClosingSigned>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn ClosingSigned_free(this_ptr: ClosingSigned) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn ClosingSigned_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeClosingSigned); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl ClosingSigned { + pub(crate) fn take_inner(mut self) -> *mut nativeClosingSigned { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The channel ID +#[no_mangle] +pub extern "C" fn ClosingSigned_get_channel_id(this_ptr: &ClosingSigned) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.channel_id; + &(*inner_val) +} +/// The channel ID +#[no_mangle] +pub extern "C" fn ClosingSigned_set_channel_id(this_ptr: &mut ClosingSigned, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.channel_id = val.data; +} +/// The proposed total fee for the closing transaction +#[no_mangle] +pub extern "C" fn ClosingSigned_get_fee_satoshis(this_ptr: &ClosingSigned) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.fee_satoshis; + (*inner_val) +} +/// The proposed total fee for the closing transaction +#[no_mangle] +pub extern "C" fn ClosingSigned_set_fee_satoshis(this_ptr: &mut ClosingSigned, mut val: u64) { + unsafe { &mut *this_ptr.inner }.fee_satoshis = val; +} +/// A signature on the closing transaction +#[no_mangle] +pub extern "C" fn ClosingSigned_get_signature(this_ptr: &ClosingSigned) -> crate::c_types::Signature { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.signature; + crate::c_types::Signature::from_rust(&(*inner_val)) +} +/// A signature on the closing transaction +#[no_mangle] +pub extern "C" fn ClosingSigned_set_signature(this_ptr: &mut ClosingSigned, mut val: crate::c_types::Signature) { + unsafe { &mut *this_ptr.inner }.signature = val.into_rust(); +} +#[must_use] +#[no_mangle] +pub extern "C" fn ClosingSigned_new(mut channel_id_arg: crate::c_types::ThirtyTwoBytes, mut fee_satoshis_arg: u64, mut signature_arg: crate::c_types::Signature) -> ClosingSigned { + ClosingSigned { inner: Box::into_raw(Box::new(nativeClosingSigned { + channel_id: channel_id_arg.data, + fee_satoshis: fee_satoshis_arg, + signature: signature_arg.into_rust(), + })), is_owned: true } +} +impl Clone for ClosingSigned { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeClosingSigned>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn ClosingSigned_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeClosingSigned)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn ClosingSigned_clone(orig: &ClosingSigned) -> ClosingSigned { + orig.clone() +} + +use lightning::ln::msgs::UpdateAddHTLC as nativeUpdateAddHTLCImport; +type nativeUpdateAddHTLC = nativeUpdateAddHTLCImport; + +/// An update_add_htlc message to be sent or received from a peer +#[must_use] +#[repr(C)] +pub struct UpdateAddHTLC { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeUpdateAddHTLC, + pub is_owned: bool, +} + +impl Drop for UpdateAddHTLC { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeUpdateAddHTLC>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn UpdateAddHTLC_free(this_ptr: UpdateAddHTLC) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn UpdateAddHTLC_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeUpdateAddHTLC); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl UpdateAddHTLC { + pub(crate) fn take_inner(mut self) -> *mut nativeUpdateAddHTLC { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The channel ID +#[no_mangle] +pub extern "C" fn UpdateAddHTLC_get_channel_id(this_ptr: &UpdateAddHTLC) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.channel_id; + &(*inner_val) +} +/// The channel ID +#[no_mangle] +pub extern "C" fn UpdateAddHTLC_set_channel_id(this_ptr: &mut UpdateAddHTLC, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.channel_id = val.data; +} +/// The HTLC ID +#[no_mangle] +pub extern "C" fn UpdateAddHTLC_get_htlc_id(this_ptr: &UpdateAddHTLC) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.htlc_id; + (*inner_val) +} +/// The HTLC ID +#[no_mangle] +pub extern "C" fn UpdateAddHTLC_set_htlc_id(this_ptr: &mut UpdateAddHTLC, mut val: u64) { + unsafe { &mut *this_ptr.inner }.htlc_id = val; +} +/// The HTLC value in milli-satoshi +#[no_mangle] +pub extern "C" fn UpdateAddHTLC_get_amount_msat(this_ptr: &UpdateAddHTLC) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.amount_msat; + (*inner_val) +} +/// The HTLC value in milli-satoshi +#[no_mangle] +pub extern "C" fn UpdateAddHTLC_set_amount_msat(this_ptr: &mut UpdateAddHTLC, mut val: u64) { + unsafe { &mut *this_ptr.inner }.amount_msat = val; +} +/// The payment hash, the pre-image of which controls HTLC redemption +#[no_mangle] +pub extern "C" fn UpdateAddHTLC_get_payment_hash(this_ptr: &UpdateAddHTLC) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.payment_hash; + &(*inner_val).0 +} +/// The payment hash, the pre-image of which controls HTLC redemption +#[no_mangle] +pub extern "C" fn UpdateAddHTLC_set_payment_hash(this_ptr: &mut UpdateAddHTLC, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.payment_hash = ::lightning::ln::channelmanager::PaymentHash(val.data); +} +/// The expiry height of the HTLC +#[no_mangle] +pub extern "C" fn UpdateAddHTLC_get_cltv_expiry(this_ptr: &UpdateAddHTLC) -> u32 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.cltv_expiry; + (*inner_val) +} +/// The expiry height of the HTLC +#[no_mangle] +pub extern "C" fn UpdateAddHTLC_set_cltv_expiry(this_ptr: &mut UpdateAddHTLC, mut val: u32) { + unsafe { &mut *this_ptr.inner }.cltv_expiry = val; +} +impl Clone for UpdateAddHTLC { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeUpdateAddHTLC>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn UpdateAddHTLC_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeUpdateAddHTLC)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn UpdateAddHTLC_clone(orig: &UpdateAddHTLC) -> UpdateAddHTLC { + orig.clone() +} + +use lightning::ln::msgs::UpdateFulfillHTLC as nativeUpdateFulfillHTLCImport; +type nativeUpdateFulfillHTLC = nativeUpdateFulfillHTLCImport; + +/// An update_fulfill_htlc message to be sent or received from a peer +#[must_use] +#[repr(C)] +pub struct UpdateFulfillHTLC { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeUpdateFulfillHTLC, + pub is_owned: bool, +} + +impl Drop for UpdateFulfillHTLC { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeUpdateFulfillHTLC>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn UpdateFulfillHTLC_free(this_ptr: UpdateFulfillHTLC) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn UpdateFulfillHTLC_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeUpdateFulfillHTLC); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl UpdateFulfillHTLC { + pub(crate) fn take_inner(mut self) -> *mut nativeUpdateFulfillHTLC { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The channel ID +#[no_mangle] +pub extern "C" fn UpdateFulfillHTLC_get_channel_id(this_ptr: &UpdateFulfillHTLC) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.channel_id; + &(*inner_val) +} +/// The channel ID +#[no_mangle] +pub extern "C" fn UpdateFulfillHTLC_set_channel_id(this_ptr: &mut UpdateFulfillHTLC, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.channel_id = val.data; +} +/// The HTLC ID +#[no_mangle] +pub extern "C" fn UpdateFulfillHTLC_get_htlc_id(this_ptr: &UpdateFulfillHTLC) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.htlc_id; + (*inner_val) +} +/// The HTLC ID +#[no_mangle] +pub extern "C" fn UpdateFulfillHTLC_set_htlc_id(this_ptr: &mut UpdateFulfillHTLC, mut val: u64) { + unsafe { &mut *this_ptr.inner }.htlc_id = val; +} +/// The pre-image of the payment hash, allowing HTLC redemption +#[no_mangle] +pub extern "C" fn UpdateFulfillHTLC_get_payment_preimage(this_ptr: &UpdateFulfillHTLC) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.payment_preimage; + &(*inner_val).0 +} +/// The pre-image of the payment hash, allowing HTLC redemption +#[no_mangle] +pub extern "C" fn UpdateFulfillHTLC_set_payment_preimage(this_ptr: &mut UpdateFulfillHTLC, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.payment_preimage = ::lightning::ln::channelmanager::PaymentPreimage(val.data); +} +#[must_use] +#[no_mangle] +pub extern "C" fn UpdateFulfillHTLC_new(mut channel_id_arg: crate::c_types::ThirtyTwoBytes, mut htlc_id_arg: u64, mut payment_preimage_arg: crate::c_types::ThirtyTwoBytes) -> UpdateFulfillHTLC { + UpdateFulfillHTLC { inner: Box::into_raw(Box::new(nativeUpdateFulfillHTLC { + channel_id: channel_id_arg.data, + htlc_id: htlc_id_arg, + payment_preimage: ::lightning::ln::channelmanager::PaymentPreimage(payment_preimage_arg.data), + })), is_owned: true } +} +impl Clone for UpdateFulfillHTLC { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeUpdateFulfillHTLC>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn UpdateFulfillHTLC_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeUpdateFulfillHTLC)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn UpdateFulfillHTLC_clone(orig: &UpdateFulfillHTLC) -> UpdateFulfillHTLC { + orig.clone() +} + +use lightning::ln::msgs::UpdateFailHTLC as nativeUpdateFailHTLCImport; +type nativeUpdateFailHTLC = nativeUpdateFailHTLCImport; + +/// An update_fail_htlc message to be sent or received from a peer +#[must_use] +#[repr(C)] +pub struct UpdateFailHTLC { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeUpdateFailHTLC, + pub is_owned: bool, +} + +impl Drop for UpdateFailHTLC { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeUpdateFailHTLC>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn UpdateFailHTLC_free(this_ptr: UpdateFailHTLC) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn UpdateFailHTLC_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeUpdateFailHTLC); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl UpdateFailHTLC { + pub(crate) fn take_inner(mut self) -> *mut nativeUpdateFailHTLC { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The channel ID +#[no_mangle] +pub extern "C" fn UpdateFailHTLC_get_channel_id(this_ptr: &UpdateFailHTLC) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.channel_id; + &(*inner_val) +} +/// The channel ID +#[no_mangle] +pub extern "C" fn UpdateFailHTLC_set_channel_id(this_ptr: &mut UpdateFailHTLC, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.channel_id = val.data; +} +/// The HTLC ID +#[no_mangle] +pub extern "C" fn UpdateFailHTLC_get_htlc_id(this_ptr: &UpdateFailHTLC) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.htlc_id; + (*inner_val) +} +/// The HTLC ID +#[no_mangle] +pub extern "C" fn UpdateFailHTLC_set_htlc_id(this_ptr: &mut UpdateFailHTLC, mut val: u64) { + unsafe { &mut *this_ptr.inner }.htlc_id = val; +} +impl Clone for UpdateFailHTLC { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeUpdateFailHTLC>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn UpdateFailHTLC_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeUpdateFailHTLC)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn UpdateFailHTLC_clone(orig: &UpdateFailHTLC) -> UpdateFailHTLC { + orig.clone() +} + +use lightning::ln::msgs::UpdateFailMalformedHTLC as nativeUpdateFailMalformedHTLCImport; +type nativeUpdateFailMalformedHTLC = nativeUpdateFailMalformedHTLCImport; + +/// An update_fail_malformed_htlc message to be sent or received from a peer +#[must_use] +#[repr(C)] +pub struct UpdateFailMalformedHTLC { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeUpdateFailMalformedHTLC, + pub is_owned: bool, +} + +impl Drop for UpdateFailMalformedHTLC { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeUpdateFailMalformedHTLC>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn UpdateFailMalformedHTLC_free(this_ptr: UpdateFailMalformedHTLC) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn UpdateFailMalformedHTLC_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeUpdateFailMalformedHTLC); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl UpdateFailMalformedHTLC { + pub(crate) fn take_inner(mut self) -> *mut nativeUpdateFailMalformedHTLC { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The channel ID +#[no_mangle] +pub extern "C" fn UpdateFailMalformedHTLC_get_channel_id(this_ptr: &UpdateFailMalformedHTLC) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.channel_id; + &(*inner_val) +} +/// The channel ID +#[no_mangle] +pub extern "C" fn UpdateFailMalformedHTLC_set_channel_id(this_ptr: &mut UpdateFailMalformedHTLC, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.channel_id = val.data; +} +/// The HTLC ID +#[no_mangle] +pub extern "C" fn UpdateFailMalformedHTLC_get_htlc_id(this_ptr: &UpdateFailMalformedHTLC) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.htlc_id; + (*inner_val) +} +/// The HTLC ID +#[no_mangle] +pub extern "C" fn UpdateFailMalformedHTLC_set_htlc_id(this_ptr: &mut UpdateFailMalformedHTLC, mut val: u64) { + unsafe { &mut *this_ptr.inner }.htlc_id = val; +} +/// The failure code +#[no_mangle] +pub extern "C" fn UpdateFailMalformedHTLC_get_failure_code(this_ptr: &UpdateFailMalformedHTLC) -> u16 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.failure_code; + (*inner_val) +} +/// The failure code +#[no_mangle] +pub extern "C" fn UpdateFailMalformedHTLC_set_failure_code(this_ptr: &mut UpdateFailMalformedHTLC, mut val: u16) { + unsafe { &mut *this_ptr.inner }.failure_code = val; +} +impl Clone for UpdateFailMalformedHTLC { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeUpdateFailMalformedHTLC>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn UpdateFailMalformedHTLC_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeUpdateFailMalformedHTLC)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn UpdateFailMalformedHTLC_clone(orig: &UpdateFailMalformedHTLC) -> UpdateFailMalformedHTLC { + orig.clone() +} + +use lightning::ln::msgs::CommitmentSigned as nativeCommitmentSignedImport; +type nativeCommitmentSigned = nativeCommitmentSignedImport; + +/// A commitment_signed message to be sent or received from a peer +#[must_use] +#[repr(C)] +pub struct CommitmentSigned { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeCommitmentSigned, + pub is_owned: bool, +} + +impl Drop for CommitmentSigned { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeCommitmentSigned>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn CommitmentSigned_free(this_ptr: CommitmentSigned) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn CommitmentSigned_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeCommitmentSigned); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl CommitmentSigned { + pub(crate) fn take_inner(mut self) -> *mut nativeCommitmentSigned { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The channel ID +#[no_mangle] +pub extern "C" fn CommitmentSigned_get_channel_id(this_ptr: &CommitmentSigned) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.channel_id; + &(*inner_val) +} +/// The channel ID +#[no_mangle] +pub extern "C" fn CommitmentSigned_set_channel_id(this_ptr: &mut CommitmentSigned, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.channel_id = val.data; +} +/// A signature on the commitment transaction +#[no_mangle] +pub extern "C" fn CommitmentSigned_get_signature(this_ptr: &CommitmentSigned) -> crate::c_types::Signature { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.signature; + crate::c_types::Signature::from_rust(&(*inner_val)) +} +/// A signature on the commitment transaction +#[no_mangle] +pub extern "C" fn CommitmentSigned_set_signature(this_ptr: &mut CommitmentSigned, mut val: crate::c_types::Signature) { + unsafe { &mut *this_ptr.inner }.signature = val.into_rust(); +} +/// Signatures on the HTLC transactions +#[no_mangle] +pub extern "C" fn CommitmentSigned_set_htlc_signatures(this_ptr: &mut CommitmentSigned, mut val: crate::c_types::derived::CVec_SignatureZ) { + let mut local_val = Vec::new(); for mut item in val.into_rust().drain(..) { local_val.push( { item.into_rust() }); }; + unsafe { &mut *this_ptr.inner }.htlc_signatures = local_val; +} +#[must_use] +#[no_mangle] +pub extern "C" fn CommitmentSigned_new(mut channel_id_arg: crate::c_types::ThirtyTwoBytes, mut signature_arg: crate::c_types::Signature, mut htlc_signatures_arg: crate::c_types::derived::CVec_SignatureZ) -> CommitmentSigned { + let mut local_htlc_signatures_arg = Vec::new(); for mut item in htlc_signatures_arg.into_rust().drain(..) { local_htlc_signatures_arg.push( { item.into_rust() }); }; + CommitmentSigned { inner: Box::into_raw(Box::new(nativeCommitmentSigned { + channel_id: channel_id_arg.data, + signature: signature_arg.into_rust(), + htlc_signatures: local_htlc_signatures_arg, + })), is_owned: true } +} +impl Clone for CommitmentSigned { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeCommitmentSigned>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn CommitmentSigned_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeCommitmentSigned)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn CommitmentSigned_clone(orig: &CommitmentSigned) -> CommitmentSigned { + orig.clone() +} + +use lightning::ln::msgs::RevokeAndACK as nativeRevokeAndACKImport; +type nativeRevokeAndACK = nativeRevokeAndACKImport; + +/// A revoke_and_ack message to be sent or received from a peer +#[must_use] +#[repr(C)] +pub struct RevokeAndACK { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeRevokeAndACK, + pub is_owned: bool, +} + +impl Drop for RevokeAndACK { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeRevokeAndACK>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn RevokeAndACK_free(this_ptr: RevokeAndACK) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn RevokeAndACK_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeRevokeAndACK); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl RevokeAndACK { + pub(crate) fn take_inner(mut self) -> *mut nativeRevokeAndACK { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The channel ID +#[no_mangle] +pub extern "C" fn RevokeAndACK_get_channel_id(this_ptr: &RevokeAndACK) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.channel_id; + &(*inner_val) +} +/// The channel ID +#[no_mangle] +pub extern "C" fn RevokeAndACK_set_channel_id(this_ptr: &mut RevokeAndACK, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.channel_id = val.data; +} +/// The secret corresponding to the per-commitment point +#[no_mangle] +pub extern "C" fn RevokeAndACK_get_per_commitment_secret(this_ptr: &RevokeAndACK) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.per_commitment_secret; + &(*inner_val) +} +/// The secret corresponding to the per-commitment point +#[no_mangle] +pub extern "C" fn RevokeAndACK_set_per_commitment_secret(this_ptr: &mut RevokeAndACK, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.per_commitment_secret = val.data; +} +/// The next sender-broadcast commitment transaction's per-commitment point +#[no_mangle] +pub extern "C" fn RevokeAndACK_get_next_per_commitment_point(this_ptr: &RevokeAndACK) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.next_per_commitment_point; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// The next sender-broadcast commitment transaction's per-commitment point +#[no_mangle] +pub extern "C" fn RevokeAndACK_set_next_per_commitment_point(this_ptr: &mut RevokeAndACK, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.next_per_commitment_point = val.into_rust(); +} +#[must_use] +#[no_mangle] +pub extern "C" fn RevokeAndACK_new(mut channel_id_arg: crate::c_types::ThirtyTwoBytes, mut per_commitment_secret_arg: crate::c_types::ThirtyTwoBytes, mut next_per_commitment_point_arg: crate::c_types::PublicKey) -> RevokeAndACK { + RevokeAndACK { inner: Box::into_raw(Box::new(nativeRevokeAndACK { + channel_id: channel_id_arg.data, + per_commitment_secret: per_commitment_secret_arg.data, + next_per_commitment_point: next_per_commitment_point_arg.into_rust(), + })), is_owned: true } +} +impl Clone for RevokeAndACK { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeRevokeAndACK>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn RevokeAndACK_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeRevokeAndACK)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn RevokeAndACK_clone(orig: &RevokeAndACK) -> RevokeAndACK { + orig.clone() +} + +use lightning::ln::msgs::UpdateFee as nativeUpdateFeeImport; +type nativeUpdateFee = nativeUpdateFeeImport; + +/// An update_fee message to be sent or received from a peer +#[must_use] +#[repr(C)] +pub struct UpdateFee { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeUpdateFee, + pub is_owned: bool, +} + +impl Drop for UpdateFee { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeUpdateFee>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn UpdateFee_free(this_ptr: UpdateFee) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn UpdateFee_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeUpdateFee); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl UpdateFee { + pub(crate) fn take_inner(mut self) -> *mut nativeUpdateFee { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The channel ID +#[no_mangle] +pub extern "C" fn UpdateFee_get_channel_id(this_ptr: &UpdateFee) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.channel_id; + &(*inner_val) +} +/// The channel ID +#[no_mangle] +pub extern "C" fn UpdateFee_set_channel_id(this_ptr: &mut UpdateFee, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.channel_id = val.data; +} +/// Fee rate per 1000-weight of the transaction +#[no_mangle] +pub extern "C" fn UpdateFee_get_feerate_per_kw(this_ptr: &UpdateFee) -> u32 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.feerate_per_kw; + (*inner_val) +} +/// Fee rate per 1000-weight of the transaction +#[no_mangle] +pub extern "C" fn UpdateFee_set_feerate_per_kw(this_ptr: &mut UpdateFee, mut val: u32) { + unsafe { &mut *this_ptr.inner }.feerate_per_kw = val; +} +#[must_use] +#[no_mangle] +pub extern "C" fn UpdateFee_new(mut channel_id_arg: crate::c_types::ThirtyTwoBytes, mut feerate_per_kw_arg: u32) -> UpdateFee { + UpdateFee { inner: Box::into_raw(Box::new(nativeUpdateFee { + channel_id: channel_id_arg.data, + feerate_per_kw: feerate_per_kw_arg, + })), is_owned: true } +} +impl Clone for UpdateFee { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeUpdateFee>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn UpdateFee_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeUpdateFee)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn UpdateFee_clone(orig: &UpdateFee) -> UpdateFee { + orig.clone() +} + +use lightning::ln::msgs::DataLossProtect as nativeDataLossProtectImport; +type nativeDataLossProtect = nativeDataLossProtectImport; + +/// Proof that the sender knows the per-commitment secret of the previous commitment transaction. +/// This is used to convince the recipient that the channel is at a certain commitment +/// number even if they lost that data due to a local failure. Of course, the peer may lie +/// and even later commitments may have been revoked. +#[must_use] +#[repr(C)] +pub struct DataLossProtect { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeDataLossProtect, + pub is_owned: bool, +} + +impl Drop for DataLossProtect { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeDataLossProtect>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn DataLossProtect_free(this_ptr: DataLossProtect) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn DataLossProtect_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeDataLossProtect); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl DataLossProtect { + pub(crate) fn take_inner(mut self) -> *mut nativeDataLossProtect { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// Proof that the sender knows the per-commitment secret of a specific commitment transaction +/// belonging to the recipient +#[no_mangle] +pub extern "C" fn DataLossProtect_get_your_last_per_commitment_secret(this_ptr: &DataLossProtect) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.your_last_per_commitment_secret; + &(*inner_val) +} +/// Proof that the sender knows the per-commitment secret of a specific commitment transaction +/// belonging to the recipient +#[no_mangle] +pub extern "C" fn DataLossProtect_set_your_last_per_commitment_secret(this_ptr: &mut DataLossProtect, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.your_last_per_commitment_secret = val.data; +} +/// The sender's per-commitment point for their current commitment transaction +#[no_mangle] +pub extern "C" fn DataLossProtect_get_my_current_per_commitment_point(this_ptr: &DataLossProtect) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.my_current_per_commitment_point; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// The sender's per-commitment point for their current commitment transaction +#[no_mangle] +pub extern "C" fn DataLossProtect_set_my_current_per_commitment_point(this_ptr: &mut DataLossProtect, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.my_current_per_commitment_point = val.into_rust(); +} +#[must_use] +#[no_mangle] +pub extern "C" fn DataLossProtect_new(mut your_last_per_commitment_secret_arg: crate::c_types::ThirtyTwoBytes, mut my_current_per_commitment_point_arg: crate::c_types::PublicKey) -> DataLossProtect { + DataLossProtect { inner: Box::into_raw(Box::new(nativeDataLossProtect { + your_last_per_commitment_secret: your_last_per_commitment_secret_arg.data, + my_current_per_commitment_point: my_current_per_commitment_point_arg.into_rust(), + })), is_owned: true } +} +impl Clone for DataLossProtect { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeDataLossProtect>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn DataLossProtect_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeDataLossProtect)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn DataLossProtect_clone(orig: &DataLossProtect) -> DataLossProtect { + orig.clone() +} + +use lightning::ln::msgs::ChannelReestablish as nativeChannelReestablishImport; +type nativeChannelReestablish = nativeChannelReestablishImport; + +/// A channel_reestablish message to be sent or received from a peer +#[must_use] +#[repr(C)] +pub struct ChannelReestablish { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeChannelReestablish, + pub is_owned: bool, +} + +impl Drop for ChannelReestablish { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeChannelReestablish>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn ChannelReestablish_free(this_ptr: ChannelReestablish) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn ChannelReestablish_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeChannelReestablish); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl ChannelReestablish { + pub(crate) fn take_inner(mut self) -> *mut nativeChannelReestablish { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The channel ID +#[no_mangle] +pub extern "C" fn ChannelReestablish_get_channel_id(this_ptr: &ChannelReestablish) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.channel_id; + &(*inner_val) +} +/// The channel ID +#[no_mangle] +pub extern "C" fn ChannelReestablish_set_channel_id(this_ptr: &mut ChannelReestablish, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.channel_id = val.data; +} +/// The next commitment number for the sender +#[no_mangle] +pub extern "C" fn ChannelReestablish_get_next_local_commitment_number(this_ptr: &ChannelReestablish) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.next_local_commitment_number; + (*inner_val) +} +/// The next commitment number for the sender +#[no_mangle] +pub extern "C" fn ChannelReestablish_set_next_local_commitment_number(this_ptr: &mut ChannelReestablish, mut val: u64) { + unsafe { &mut *this_ptr.inner }.next_local_commitment_number = val; +} +/// The next commitment number for the recipient +#[no_mangle] +pub extern "C" fn ChannelReestablish_get_next_remote_commitment_number(this_ptr: &ChannelReestablish) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.next_remote_commitment_number; + (*inner_val) +} +/// The next commitment number for the recipient +#[no_mangle] +pub extern "C" fn ChannelReestablish_set_next_remote_commitment_number(this_ptr: &mut ChannelReestablish, mut val: u64) { + unsafe { &mut *this_ptr.inner }.next_remote_commitment_number = val; +} +impl Clone for ChannelReestablish { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeChannelReestablish>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn ChannelReestablish_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeChannelReestablish)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn ChannelReestablish_clone(orig: &ChannelReestablish) -> ChannelReestablish { + orig.clone() +} + +use lightning::ln::msgs::AnnouncementSignatures as nativeAnnouncementSignaturesImport; +type nativeAnnouncementSignatures = nativeAnnouncementSignaturesImport; + +/// An announcement_signatures message to be sent or received from a peer +#[must_use] +#[repr(C)] +pub struct AnnouncementSignatures { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeAnnouncementSignatures, + pub is_owned: bool, +} + +impl Drop for AnnouncementSignatures { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeAnnouncementSignatures>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn AnnouncementSignatures_free(this_ptr: AnnouncementSignatures) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn AnnouncementSignatures_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeAnnouncementSignatures); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl AnnouncementSignatures { + pub(crate) fn take_inner(mut self) -> *mut nativeAnnouncementSignatures { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The channel ID +#[no_mangle] +pub extern "C" fn AnnouncementSignatures_get_channel_id(this_ptr: &AnnouncementSignatures) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.channel_id; + &(*inner_val) +} +/// The channel ID +#[no_mangle] +pub extern "C" fn AnnouncementSignatures_set_channel_id(this_ptr: &mut AnnouncementSignatures, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.channel_id = val.data; +} +/// The short channel ID +#[no_mangle] +pub extern "C" fn AnnouncementSignatures_get_short_channel_id(this_ptr: &AnnouncementSignatures) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.short_channel_id; + (*inner_val) +} +/// The short channel ID +#[no_mangle] +pub extern "C" fn AnnouncementSignatures_set_short_channel_id(this_ptr: &mut AnnouncementSignatures, mut val: u64) { + unsafe { &mut *this_ptr.inner }.short_channel_id = val; +} +/// A signature by the node key +#[no_mangle] +pub extern "C" fn AnnouncementSignatures_get_node_signature(this_ptr: &AnnouncementSignatures) -> crate::c_types::Signature { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.node_signature; + crate::c_types::Signature::from_rust(&(*inner_val)) +} +/// A signature by the node key +#[no_mangle] +pub extern "C" fn AnnouncementSignatures_set_node_signature(this_ptr: &mut AnnouncementSignatures, mut val: crate::c_types::Signature) { + unsafe { &mut *this_ptr.inner }.node_signature = val.into_rust(); +} +/// A signature by the funding key +#[no_mangle] +pub extern "C" fn AnnouncementSignatures_get_bitcoin_signature(this_ptr: &AnnouncementSignatures) -> crate::c_types::Signature { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.bitcoin_signature; + crate::c_types::Signature::from_rust(&(*inner_val)) +} +/// A signature by the funding key +#[no_mangle] +pub extern "C" fn AnnouncementSignatures_set_bitcoin_signature(this_ptr: &mut AnnouncementSignatures, mut val: crate::c_types::Signature) { + unsafe { &mut *this_ptr.inner }.bitcoin_signature = val.into_rust(); +} +#[must_use] +#[no_mangle] +pub extern "C" fn AnnouncementSignatures_new(mut channel_id_arg: crate::c_types::ThirtyTwoBytes, mut short_channel_id_arg: u64, mut node_signature_arg: crate::c_types::Signature, mut bitcoin_signature_arg: crate::c_types::Signature) -> AnnouncementSignatures { + AnnouncementSignatures { inner: Box::into_raw(Box::new(nativeAnnouncementSignatures { + channel_id: channel_id_arg.data, + short_channel_id: short_channel_id_arg, + node_signature: node_signature_arg.into_rust(), + bitcoin_signature: bitcoin_signature_arg.into_rust(), + })), is_owned: true } +} +impl Clone for AnnouncementSignatures { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeAnnouncementSignatures>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn AnnouncementSignatures_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeAnnouncementSignatures)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn AnnouncementSignatures_clone(orig: &AnnouncementSignatures) -> AnnouncementSignatures { + orig.clone() +} +/// An address which can be used to connect to a remote peer +#[must_use] +#[derive(Clone)] +#[repr(C)] +pub enum NetAddress { + /// An IPv4 address/port on which the peer is listening. + IPv4 { + addr: crate::c_types::FourBytes, + port: u16, + }, + /// An IPv6 address/port on which the peer is listening. + IPv6 { + addr: crate::c_types::SixteenBytes, + port: u16, + }, + /// An old-style Tor onion address/port on which the peer is listening. + OnionV2 { + addr: crate::c_types::TenBytes, + port: u16, + }, + /// A new-style Tor onion address/port on which the peer is listening. + /// To create the human-readable \"hostname\", concatenate ed25519_pubkey, checksum, and version, + /// wrap as base32 and append \".onion\". + OnionV3 { + ed25519_pubkey: crate::c_types::ThirtyTwoBytes, + checksum: u16, + version: u8, + port: u16, + }, +} +use lightning::ln::msgs::NetAddress as nativeNetAddress; +impl NetAddress { + #[allow(unused)] + pub(crate) fn to_native(&self) -> nativeNetAddress { + match self { + NetAddress::IPv4 {ref addr, ref port, } => { + let mut addr_nonref = (*addr).clone(); + let mut port_nonref = (*port).clone(); + nativeNetAddress::IPv4 { + addr: addr_nonref.data, + port: port_nonref, + } + }, + NetAddress::IPv6 {ref addr, ref port, } => { + let mut addr_nonref = (*addr).clone(); + let mut port_nonref = (*port).clone(); + nativeNetAddress::IPv6 { + addr: addr_nonref.data, + port: port_nonref, + } + }, + NetAddress::OnionV2 {ref addr, ref port, } => { + let mut addr_nonref = (*addr).clone(); + let mut port_nonref = (*port).clone(); + nativeNetAddress::OnionV2 { + addr: addr_nonref.data, + port: port_nonref, + } + }, + NetAddress::OnionV3 {ref ed25519_pubkey, ref checksum, ref version, ref port, } => { + let mut ed25519_pubkey_nonref = (*ed25519_pubkey).clone(); + let mut checksum_nonref = (*checksum).clone(); + let mut version_nonref = (*version).clone(); + let mut port_nonref = (*port).clone(); + nativeNetAddress::OnionV3 { + ed25519_pubkey: ed25519_pubkey_nonref.data, + checksum: checksum_nonref, + version: version_nonref, + port: port_nonref, + } + }, + } + } + #[allow(unused)] + pub(crate) fn into_native(self) -> nativeNetAddress { + match self { + NetAddress::IPv4 {mut addr, mut port, } => { + nativeNetAddress::IPv4 { + addr: addr.data, + port: port, + } + }, + NetAddress::IPv6 {mut addr, mut port, } => { + nativeNetAddress::IPv6 { + addr: addr.data, + port: port, + } + }, + NetAddress::OnionV2 {mut addr, mut port, } => { + nativeNetAddress::OnionV2 { + addr: addr.data, + port: port, + } + }, + NetAddress::OnionV3 {mut ed25519_pubkey, mut checksum, mut version, mut port, } => { + nativeNetAddress::OnionV3 { + ed25519_pubkey: ed25519_pubkey.data, + checksum: checksum, + version: version, + port: port, + } + }, + } + } + #[allow(unused)] + pub(crate) fn from_native(native: &nativeNetAddress) -> Self { + match native { + nativeNetAddress::IPv4 {ref addr, ref port, } => { + let mut addr_nonref = (*addr).clone(); + let mut port_nonref = (*port).clone(); + NetAddress::IPv4 { + addr: crate::c_types::FourBytes { data: addr_nonref }, + port: port_nonref, + } + }, + nativeNetAddress::IPv6 {ref addr, ref port, } => { + let mut addr_nonref = (*addr).clone(); + let mut port_nonref = (*port).clone(); + NetAddress::IPv6 { + addr: crate::c_types::SixteenBytes { data: addr_nonref }, + port: port_nonref, + } + }, + nativeNetAddress::OnionV2 {ref addr, ref port, } => { + let mut addr_nonref = (*addr).clone(); + let mut port_nonref = (*port).clone(); + NetAddress::OnionV2 { + addr: crate::c_types::TenBytes { data: addr_nonref }, + port: port_nonref, + } + }, + nativeNetAddress::OnionV3 {ref ed25519_pubkey, ref checksum, ref version, ref port, } => { + let mut ed25519_pubkey_nonref = (*ed25519_pubkey).clone(); + let mut checksum_nonref = (*checksum).clone(); + let mut version_nonref = (*version).clone(); + let mut port_nonref = (*port).clone(); + NetAddress::OnionV3 { + ed25519_pubkey: crate::c_types::ThirtyTwoBytes { data: ed25519_pubkey_nonref }, + checksum: checksum_nonref, + version: version_nonref, + port: port_nonref, + } + }, + } + } + #[allow(unused)] + pub(crate) fn native_into(native: nativeNetAddress) -> Self { + match native { + nativeNetAddress::IPv4 {mut addr, mut port, } => { + NetAddress::IPv4 { + addr: crate::c_types::FourBytes { data: addr }, + port: port, + } + }, + nativeNetAddress::IPv6 {mut addr, mut port, } => { + NetAddress::IPv6 { + addr: crate::c_types::SixteenBytes { data: addr }, + port: port, + } + }, + nativeNetAddress::OnionV2 {mut addr, mut port, } => { + NetAddress::OnionV2 { + addr: crate::c_types::TenBytes { data: addr }, + port: port, + } + }, + nativeNetAddress::OnionV3 {mut ed25519_pubkey, mut checksum, mut version, mut port, } => { + NetAddress::OnionV3 { + ed25519_pubkey: crate::c_types::ThirtyTwoBytes { data: ed25519_pubkey }, + checksum: checksum, + version: version, + port: port, + } + }, + } + } +} +#[no_mangle] +pub extern "C" fn NetAddress_free(this_ptr: NetAddress) { } +#[no_mangle] +pub extern "C" fn NetAddress_clone(orig: &NetAddress) -> NetAddress { + orig.clone() +} +#[no_mangle] +pub extern "C" fn NetAddress_write(obj: &NetAddress) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(&unsafe { &*obj }.to_native()) +} +#[no_mangle] +pub extern "C" fn Result_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_CResult_NetAddressu8ZDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { let mut local_res_0 = match o { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::NetAddress::native_into(o) }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { e }).into() }; local_res_0 }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} + +use lightning::ln::msgs::UnsignedNodeAnnouncement as nativeUnsignedNodeAnnouncementImport; +type nativeUnsignedNodeAnnouncement = nativeUnsignedNodeAnnouncementImport; + +/// The unsigned part of a node_announcement +#[must_use] +#[repr(C)] +pub struct UnsignedNodeAnnouncement { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeUnsignedNodeAnnouncement, + pub is_owned: bool, +} + +impl Drop for UnsignedNodeAnnouncement { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeUnsignedNodeAnnouncement>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn UnsignedNodeAnnouncement_free(this_ptr: UnsignedNodeAnnouncement) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn UnsignedNodeAnnouncement_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeUnsignedNodeAnnouncement); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl UnsignedNodeAnnouncement { + pub(crate) fn take_inner(mut self) -> *mut nativeUnsignedNodeAnnouncement { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The advertised features +#[no_mangle] +pub extern "C" fn UnsignedNodeAnnouncement_get_features(this_ptr: &UnsignedNodeAnnouncement) -> crate::ln::features::NodeFeatures { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.features; + crate::ln::features::NodeFeatures { inner: unsafe { ( (&((*inner_val)) as *const _) as *mut _) }, is_owned: false } +} +/// The advertised features +#[no_mangle] +pub extern "C" fn UnsignedNodeAnnouncement_set_features(this_ptr: &mut UnsignedNodeAnnouncement, mut val: crate::ln::features::NodeFeatures) { + unsafe { &mut *this_ptr.inner }.features = *unsafe { Box::from_raw(val.take_inner()) }; +} +/// A strictly monotonic announcement counter, with gaps allowed +#[no_mangle] +pub extern "C" fn UnsignedNodeAnnouncement_get_timestamp(this_ptr: &UnsignedNodeAnnouncement) -> u32 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.timestamp; + (*inner_val) +} +/// A strictly monotonic announcement counter, with gaps allowed +#[no_mangle] +pub extern "C" fn UnsignedNodeAnnouncement_set_timestamp(this_ptr: &mut UnsignedNodeAnnouncement, mut val: u32) { + unsafe { &mut *this_ptr.inner }.timestamp = val; +} +/// The node_id this announcement originated from (don't rebroadcast the node_announcement back +/// to this node). +#[no_mangle] +pub extern "C" fn UnsignedNodeAnnouncement_get_node_id(this_ptr: &UnsignedNodeAnnouncement) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.node_id; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// The node_id this announcement originated from (don't rebroadcast the node_announcement back +/// to this node). +#[no_mangle] +pub extern "C" fn UnsignedNodeAnnouncement_set_node_id(this_ptr: &mut UnsignedNodeAnnouncement, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.node_id = val.into_rust(); +} +/// An RGB color for UI purposes +#[no_mangle] +pub extern "C" fn UnsignedNodeAnnouncement_get_rgb(this_ptr: &UnsignedNodeAnnouncement) -> *const [u8; 3] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.rgb; + &(*inner_val) +} +/// An RGB color for UI purposes +#[no_mangle] +pub extern "C" fn UnsignedNodeAnnouncement_set_rgb(this_ptr: &mut UnsignedNodeAnnouncement, mut val: crate::c_types::ThreeBytes) { + unsafe { &mut *this_ptr.inner }.rgb = val.data; +} +/// An alias, for UI purposes. This should be sanitized before use. There is no guarantee +/// of uniqueness. +#[no_mangle] +pub extern "C" fn UnsignedNodeAnnouncement_get_alias(this_ptr: &UnsignedNodeAnnouncement) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.alias; + &(*inner_val) +} +/// An alias, for UI purposes. This should be sanitized before use. There is no guarantee +/// of uniqueness. +#[no_mangle] +pub extern "C" fn UnsignedNodeAnnouncement_set_alias(this_ptr: &mut UnsignedNodeAnnouncement, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.alias = val.data; +} +/// List of addresses on which this node is reachable +#[no_mangle] +pub extern "C" fn UnsignedNodeAnnouncement_set_addresses(this_ptr: &mut UnsignedNodeAnnouncement, mut val: crate::c_types::derived::CVec_NetAddressZ) { + let mut local_val = Vec::new(); for mut item in val.into_rust().drain(..) { local_val.push( { item.into_native() }); }; + unsafe { &mut *this_ptr.inner }.addresses = local_val; +} +impl Clone for UnsignedNodeAnnouncement { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeUnsignedNodeAnnouncement>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn UnsignedNodeAnnouncement_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeUnsignedNodeAnnouncement)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn UnsignedNodeAnnouncement_clone(orig: &UnsignedNodeAnnouncement) -> UnsignedNodeAnnouncement { + orig.clone() +} + +use lightning::ln::msgs::NodeAnnouncement as nativeNodeAnnouncementImport; +type nativeNodeAnnouncement = nativeNodeAnnouncementImport; + +/// A node_announcement message to be sent or received from a peer +#[must_use] +#[repr(C)] +pub struct NodeAnnouncement { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeNodeAnnouncement, + pub is_owned: bool, +} + +impl Drop for NodeAnnouncement { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeNodeAnnouncement>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn NodeAnnouncement_free(this_ptr: NodeAnnouncement) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn NodeAnnouncement_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeNodeAnnouncement); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl NodeAnnouncement { + pub(crate) fn take_inner(mut self) -> *mut nativeNodeAnnouncement { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The signature by the node key +#[no_mangle] +pub extern "C" fn NodeAnnouncement_get_signature(this_ptr: &NodeAnnouncement) -> crate::c_types::Signature { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.signature; + crate::c_types::Signature::from_rust(&(*inner_val)) +} +/// The signature by the node key +#[no_mangle] +pub extern "C" fn NodeAnnouncement_set_signature(this_ptr: &mut NodeAnnouncement, mut val: crate::c_types::Signature) { + unsafe { &mut *this_ptr.inner }.signature = val.into_rust(); +} +/// The actual content of the announcement +#[no_mangle] +pub extern "C" fn NodeAnnouncement_get_contents(this_ptr: &NodeAnnouncement) -> crate::ln::msgs::UnsignedNodeAnnouncement { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.contents; + crate::ln::msgs::UnsignedNodeAnnouncement { inner: unsafe { ( (&((*inner_val)) as *const _) as *mut _) }, is_owned: false } +} +/// The actual content of the announcement +#[no_mangle] +pub extern "C" fn NodeAnnouncement_set_contents(this_ptr: &mut NodeAnnouncement, mut val: crate::ln::msgs::UnsignedNodeAnnouncement) { + unsafe { &mut *this_ptr.inner }.contents = *unsafe { Box::from_raw(val.take_inner()) }; +} +#[must_use] +#[no_mangle] +pub extern "C" fn NodeAnnouncement_new(mut signature_arg: crate::c_types::Signature, mut contents_arg: crate::ln::msgs::UnsignedNodeAnnouncement) -> NodeAnnouncement { + NodeAnnouncement { inner: Box::into_raw(Box::new(nativeNodeAnnouncement { + signature: signature_arg.into_rust(), + contents: *unsafe { Box::from_raw(contents_arg.take_inner()) }, + })), is_owned: true } +} +impl Clone for NodeAnnouncement { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeNodeAnnouncement>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn NodeAnnouncement_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeNodeAnnouncement)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn NodeAnnouncement_clone(orig: &NodeAnnouncement) -> NodeAnnouncement { + orig.clone() +} + +use lightning::ln::msgs::UnsignedChannelAnnouncement as nativeUnsignedChannelAnnouncementImport; +type nativeUnsignedChannelAnnouncement = nativeUnsignedChannelAnnouncementImport; + +/// The unsigned part of a channel_announcement +#[must_use] +#[repr(C)] +pub struct UnsignedChannelAnnouncement { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeUnsignedChannelAnnouncement, + pub is_owned: bool, +} + +impl Drop for UnsignedChannelAnnouncement { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeUnsignedChannelAnnouncement>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn UnsignedChannelAnnouncement_free(this_ptr: UnsignedChannelAnnouncement) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn UnsignedChannelAnnouncement_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeUnsignedChannelAnnouncement); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl UnsignedChannelAnnouncement { + pub(crate) fn take_inner(mut self) -> *mut nativeUnsignedChannelAnnouncement { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The advertised channel features +#[no_mangle] +pub extern "C" fn UnsignedChannelAnnouncement_get_features(this_ptr: &UnsignedChannelAnnouncement) -> crate::ln::features::ChannelFeatures { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.features; + crate::ln::features::ChannelFeatures { inner: unsafe { ( (&((*inner_val)) as *const _) as *mut _) }, is_owned: false } +} +/// The advertised channel features +#[no_mangle] +pub extern "C" fn UnsignedChannelAnnouncement_set_features(this_ptr: &mut UnsignedChannelAnnouncement, mut val: crate::ln::features::ChannelFeatures) { + unsafe { &mut *this_ptr.inner }.features = *unsafe { Box::from_raw(val.take_inner()) }; +} +/// The genesis hash of the blockchain where the channel is to be opened +#[no_mangle] +pub extern "C" fn UnsignedChannelAnnouncement_get_chain_hash(this_ptr: &UnsignedChannelAnnouncement) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.chain_hash; + (*inner_val).as_inner() +} +/// The genesis hash of the blockchain where the channel is to be opened +#[no_mangle] +pub extern "C" fn UnsignedChannelAnnouncement_set_chain_hash(this_ptr: &mut UnsignedChannelAnnouncement, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.chain_hash = ::bitcoin::hash_types::BlockHash::from_slice(&val.data[..]).unwrap(); +} +/// The short channel ID +#[no_mangle] +pub extern "C" fn UnsignedChannelAnnouncement_get_short_channel_id(this_ptr: &UnsignedChannelAnnouncement) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.short_channel_id; + (*inner_val) +} +/// The short channel ID +#[no_mangle] +pub extern "C" fn UnsignedChannelAnnouncement_set_short_channel_id(this_ptr: &mut UnsignedChannelAnnouncement, mut val: u64) { + unsafe { &mut *this_ptr.inner }.short_channel_id = val; +} +/// One of the two node_ids which are endpoints of this channel +#[no_mangle] +pub extern "C" fn UnsignedChannelAnnouncement_get_node_id_1(this_ptr: &UnsignedChannelAnnouncement) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.node_id_1; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// One of the two node_ids which are endpoints of this channel +#[no_mangle] +pub extern "C" fn UnsignedChannelAnnouncement_set_node_id_1(this_ptr: &mut UnsignedChannelAnnouncement, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.node_id_1 = val.into_rust(); +} +/// The other of the two node_ids which are endpoints of this channel +#[no_mangle] +pub extern "C" fn UnsignedChannelAnnouncement_get_node_id_2(this_ptr: &UnsignedChannelAnnouncement) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.node_id_2; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// The other of the two node_ids which are endpoints of this channel +#[no_mangle] +pub extern "C" fn UnsignedChannelAnnouncement_set_node_id_2(this_ptr: &mut UnsignedChannelAnnouncement, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.node_id_2 = val.into_rust(); +} +/// The funding key for the first node +#[no_mangle] +pub extern "C" fn UnsignedChannelAnnouncement_get_bitcoin_key_1(this_ptr: &UnsignedChannelAnnouncement) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.bitcoin_key_1; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// The funding key for the first node +#[no_mangle] +pub extern "C" fn UnsignedChannelAnnouncement_set_bitcoin_key_1(this_ptr: &mut UnsignedChannelAnnouncement, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.bitcoin_key_1 = val.into_rust(); +} +/// The funding key for the second node +#[no_mangle] +pub extern "C" fn UnsignedChannelAnnouncement_get_bitcoin_key_2(this_ptr: &UnsignedChannelAnnouncement) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.bitcoin_key_2; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// The funding key for the second node +#[no_mangle] +pub extern "C" fn UnsignedChannelAnnouncement_set_bitcoin_key_2(this_ptr: &mut UnsignedChannelAnnouncement, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.bitcoin_key_2 = val.into_rust(); +} +impl Clone for UnsignedChannelAnnouncement { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeUnsignedChannelAnnouncement>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn UnsignedChannelAnnouncement_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeUnsignedChannelAnnouncement)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn UnsignedChannelAnnouncement_clone(orig: &UnsignedChannelAnnouncement) -> UnsignedChannelAnnouncement { + orig.clone() +} + +use lightning::ln::msgs::ChannelAnnouncement as nativeChannelAnnouncementImport; +type nativeChannelAnnouncement = nativeChannelAnnouncementImport; + +/// A channel_announcement message to be sent or received from a peer +#[must_use] +#[repr(C)] +pub struct ChannelAnnouncement { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeChannelAnnouncement, + pub is_owned: bool, +} + +impl Drop for ChannelAnnouncement { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeChannelAnnouncement>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn ChannelAnnouncement_free(this_ptr: ChannelAnnouncement) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn ChannelAnnouncement_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeChannelAnnouncement); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl ChannelAnnouncement { + pub(crate) fn take_inner(mut self) -> *mut nativeChannelAnnouncement { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// Authentication of the announcement by the first public node +#[no_mangle] +pub extern "C" fn ChannelAnnouncement_get_node_signature_1(this_ptr: &ChannelAnnouncement) -> crate::c_types::Signature { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.node_signature_1; + crate::c_types::Signature::from_rust(&(*inner_val)) +} +/// Authentication of the announcement by the first public node +#[no_mangle] +pub extern "C" fn ChannelAnnouncement_set_node_signature_1(this_ptr: &mut ChannelAnnouncement, mut val: crate::c_types::Signature) { + unsafe { &mut *this_ptr.inner }.node_signature_1 = val.into_rust(); +} +/// Authentication of the announcement by the second public node +#[no_mangle] +pub extern "C" fn ChannelAnnouncement_get_node_signature_2(this_ptr: &ChannelAnnouncement) -> crate::c_types::Signature { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.node_signature_2; + crate::c_types::Signature::from_rust(&(*inner_val)) +} +/// Authentication of the announcement by the second public node +#[no_mangle] +pub extern "C" fn ChannelAnnouncement_set_node_signature_2(this_ptr: &mut ChannelAnnouncement, mut val: crate::c_types::Signature) { + unsafe { &mut *this_ptr.inner }.node_signature_2 = val.into_rust(); +} +/// Proof of funding UTXO ownership by the first public node +#[no_mangle] +pub extern "C" fn ChannelAnnouncement_get_bitcoin_signature_1(this_ptr: &ChannelAnnouncement) -> crate::c_types::Signature { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.bitcoin_signature_1; + crate::c_types::Signature::from_rust(&(*inner_val)) +} +/// Proof of funding UTXO ownership by the first public node +#[no_mangle] +pub extern "C" fn ChannelAnnouncement_set_bitcoin_signature_1(this_ptr: &mut ChannelAnnouncement, mut val: crate::c_types::Signature) { + unsafe { &mut *this_ptr.inner }.bitcoin_signature_1 = val.into_rust(); +} +/// Proof of funding UTXO ownership by the second public node +#[no_mangle] +pub extern "C" fn ChannelAnnouncement_get_bitcoin_signature_2(this_ptr: &ChannelAnnouncement) -> crate::c_types::Signature { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.bitcoin_signature_2; + crate::c_types::Signature::from_rust(&(*inner_val)) +} +/// Proof of funding UTXO ownership by the second public node +#[no_mangle] +pub extern "C" fn ChannelAnnouncement_set_bitcoin_signature_2(this_ptr: &mut ChannelAnnouncement, mut val: crate::c_types::Signature) { + unsafe { &mut *this_ptr.inner }.bitcoin_signature_2 = val.into_rust(); +} +/// The actual announcement +#[no_mangle] +pub extern "C" fn ChannelAnnouncement_get_contents(this_ptr: &ChannelAnnouncement) -> crate::ln::msgs::UnsignedChannelAnnouncement { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.contents; + crate::ln::msgs::UnsignedChannelAnnouncement { inner: unsafe { ( (&((*inner_val)) as *const _) as *mut _) }, is_owned: false } +} +/// The actual announcement +#[no_mangle] +pub extern "C" fn ChannelAnnouncement_set_contents(this_ptr: &mut ChannelAnnouncement, mut val: crate::ln::msgs::UnsignedChannelAnnouncement) { + unsafe { &mut *this_ptr.inner }.contents = *unsafe { Box::from_raw(val.take_inner()) }; +} +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelAnnouncement_new(mut node_signature_1_arg: crate::c_types::Signature, mut node_signature_2_arg: crate::c_types::Signature, mut bitcoin_signature_1_arg: crate::c_types::Signature, mut bitcoin_signature_2_arg: crate::c_types::Signature, mut contents_arg: crate::ln::msgs::UnsignedChannelAnnouncement) -> ChannelAnnouncement { + ChannelAnnouncement { inner: Box::into_raw(Box::new(nativeChannelAnnouncement { + node_signature_1: node_signature_1_arg.into_rust(), + node_signature_2: node_signature_2_arg.into_rust(), + bitcoin_signature_1: bitcoin_signature_1_arg.into_rust(), + bitcoin_signature_2: bitcoin_signature_2_arg.into_rust(), + contents: *unsafe { Box::from_raw(contents_arg.take_inner()) }, + })), is_owned: true } +} +impl Clone for ChannelAnnouncement { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeChannelAnnouncement>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn ChannelAnnouncement_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeChannelAnnouncement)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn ChannelAnnouncement_clone(orig: &ChannelAnnouncement) -> ChannelAnnouncement { + orig.clone() +} + +use lightning::ln::msgs::UnsignedChannelUpdate as nativeUnsignedChannelUpdateImport; +type nativeUnsignedChannelUpdate = nativeUnsignedChannelUpdateImport; + +/// The unsigned part of a channel_update +#[must_use] +#[repr(C)] +pub struct UnsignedChannelUpdate { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeUnsignedChannelUpdate, + pub is_owned: bool, +} + +impl Drop for UnsignedChannelUpdate { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeUnsignedChannelUpdate>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn UnsignedChannelUpdate_free(this_ptr: UnsignedChannelUpdate) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn UnsignedChannelUpdate_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeUnsignedChannelUpdate); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl UnsignedChannelUpdate { + pub(crate) fn take_inner(mut self) -> *mut nativeUnsignedChannelUpdate { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The genesis hash of the blockchain where the channel is to be opened +#[no_mangle] +pub extern "C" fn UnsignedChannelUpdate_get_chain_hash(this_ptr: &UnsignedChannelUpdate) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.chain_hash; + (*inner_val).as_inner() +} +/// The genesis hash of the blockchain where the channel is to be opened +#[no_mangle] +pub extern "C" fn UnsignedChannelUpdate_set_chain_hash(this_ptr: &mut UnsignedChannelUpdate, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.chain_hash = ::bitcoin::hash_types::BlockHash::from_slice(&val.data[..]).unwrap(); +} +/// The short channel ID +#[no_mangle] +pub extern "C" fn UnsignedChannelUpdate_get_short_channel_id(this_ptr: &UnsignedChannelUpdate) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.short_channel_id; + (*inner_val) +} +/// The short channel ID +#[no_mangle] +pub extern "C" fn UnsignedChannelUpdate_set_short_channel_id(this_ptr: &mut UnsignedChannelUpdate, mut val: u64) { + unsafe { &mut *this_ptr.inner }.short_channel_id = val; +} +/// A strictly monotonic announcement counter, with gaps allowed, specific to this channel +#[no_mangle] +pub extern "C" fn UnsignedChannelUpdate_get_timestamp(this_ptr: &UnsignedChannelUpdate) -> u32 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.timestamp; + (*inner_val) +} +/// A strictly monotonic announcement counter, with gaps allowed, specific to this channel +#[no_mangle] +pub extern "C" fn UnsignedChannelUpdate_set_timestamp(this_ptr: &mut UnsignedChannelUpdate, mut val: u32) { + unsafe { &mut *this_ptr.inner }.timestamp = val; +} +/// Channel flags +#[no_mangle] +pub extern "C" fn UnsignedChannelUpdate_get_flags(this_ptr: &UnsignedChannelUpdate) -> u8 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.flags; + (*inner_val) +} +/// Channel flags +#[no_mangle] +pub extern "C" fn UnsignedChannelUpdate_set_flags(this_ptr: &mut UnsignedChannelUpdate, mut val: u8) { + unsafe { &mut *this_ptr.inner }.flags = val; +} +/// The number of blocks to subtract from incoming HTLC cltv_expiry values +#[no_mangle] +pub extern "C" fn UnsignedChannelUpdate_get_cltv_expiry_delta(this_ptr: &UnsignedChannelUpdate) -> u16 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.cltv_expiry_delta; + (*inner_val) +} +/// The number of blocks to subtract from incoming HTLC cltv_expiry values +#[no_mangle] +pub extern "C" fn UnsignedChannelUpdate_set_cltv_expiry_delta(this_ptr: &mut UnsignedChannelUpdate, mut val: u16) { + unsafe { &mut *this_ptr.inner }.cltv_expiry_delta = val; +} +/// The minimum HTLC size incoming to sender, in milli-satoshi +#[no_mangle] +pub extern "C" fn UnsignedChannelUpdate_get_htlc_minimum_msat(this_ptr: &UnsignedChannelUpdate) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.htlc_minimum_msat; + (*inner_val) +} +/// The minimum HTLC size incoming to sender, in milli-satoshi +#[no_mangle] +pub extern "C" fn UnsignedChannelUpdate_set_htlc_minimum_msat(this_ptr: &mut UnsignedChannelUpdate, mut val: u64) { + unsafe { &mut *this_ptr.inner }.htlc_minimum_msat = val; +} +/// The base HTLC fee charged by sender, in milli-satoshi +#[no_mangle] +pub extern "C" fn UnsignedChannelUpdate_get_fee_base_msat(this_ptr: &UnsignedChannelUpdate) -> u32 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.fee_base_msat; + (*inner_val) +} +/// The base HTLC fee charged by sender, in milli-satoshi +#[no_mangle] +pub extern "C" fn UnsignedChannelUpdate_set_fee_base_msat(this_ptr: &mut UnsignedChannelUpdate, mut val: u32) { + unsafe { &mut *this_ptr.inner }.fee_base_msat = val; +} +/// The amount to fee multiplier, in micro-satoshi +#[no_mangle] +pub extern "C" fn UnsignedChannelUpdate_get_fee_proportional_millionths(this_ptr: &UnsignedChannelUpdate) -> u32 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.fee_proportional_millionths; + (*inner_val) +} +/// The amount to fee multiplier, in micro-satoshi +#[no_mangle] +pub extern "C" fn UnsignedChannelUpdate_set_fee_proportional_millionths(this_ptr: &mut UnsignedChannelUpdate, mut val: u32) { + unsafe { &mut *this_ptr.inner }.fee_proportional_millionths = val; +} +impl Clone for UnsignedChannelUpdate { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeUnsignedChannelUpdate>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn UnsignedChannelUpdate_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeUnsignedChannelUpdate)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn UnsignedChannelUpdate_clone(orig: &UnsignedChannelUpdate) -> UnsignedChannelUpdate { + orig.clone() +} + +use lightning::ln::msgs::ChannelUpdate as nativeChannelUpdateImport; +type nativeChannelUpdate = nativeChannelUpdateImport; + +/// A channel_update message to be sent or received from a peer +#[must_use] +#[repr(C)] +pub struct ChannelUpdate { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeChannelUpdate, + pub is_owned: bool, +} + +impl Drop for ChannelUpdate { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeChannelUpdate>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn ChannelUpdate_free(this_ptr: ChannelUpdate) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn ChannelUpdate_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeChannelUpdate); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl ChannelUpdate { + pub(crate) fn take_inner(mut self) -> *mut nativeChannelUpdate { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// A signature of the channel update +#[no_mangle] +pub extern "C" fn ChannelUpdate_get_signature(this_ptr: &ChannelUpdate) -> crate::c_types::Signature { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.signature; + crate::c_types::Signature::from_rust(&(*inner_val)) +} +/// A signature of the channel update +#[no_mangle] +pub extern "C" fn ChannelUpdate_set_signature(this_ptr: &mut ChannelUpdate, mut val: crate::c_types::Signature) { + unsafe { &mut *this_ptr.inner }.signature = val.into_rust(); +} +/// The actual channel update +#[no_mangle] +pub extern "C" fn ChannelUpdate_get_contents(this_ptr: &ChannelUpdate) -> crate::ln::msgs::UnsignedChannelUpdate { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.contents; + crate::ln::msgs::UnsignedChannelUpdate { inner: unsafe { ( (&((*inner_val)) as *const _) as *mut _) }, is_owned: false } +} +/// The actual channel update +#[no_mangle] +pub extern "C" fn ChannelUpdate_set_contents(this_ptr: &mut ChannelUpdate, mut val: crate::ln::msgs::UnsignedChannelUpdate) { + unsafe { &mut *this_ptr.inner }.contents = *unsafe { Box::from_raw(val.take_inner()) }; +} +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelUpdate_new(mut signature_arg: crate::c_types::Signature, mut contents_arg: crate::ln::msgs::UnsignedChannelUpdate) -> ChannelUpdate { + ChannelUpdate { inner: Box::into_raw(Box::new(nativeChannelUpdate { + signature: signature_arg.into_rust(), + contents: *unsafe { Box::from_raw(contents_arg.take_inner()) }, + })), is_owned: true } +} +impl Clone for ChannelUpdate { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeChannelUpdate>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn ChannelUpdate_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeChannelUpdate)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn ChannelUpdate_clone(orig: &ChannelUpdate) -> ChannelUpdate { + orig.clone() +} + +use lightning::ln::msgs::QueryChannelRange as nativeQueryChannelRangeImport; +type nativeQueryChannelRange = nativeQueryChannelRangeImport; + +/// A query_channel_range message is used to query a peer for channel +/// UTXOs in a range of blocks. The recipient of a query makes a best +/// effort to reply to the query using one or more reply_channel_range +/// messages. +#[must_use] +#[repr(C)] +pub struct QueryChannelRange { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeQueryChannelRange, + pub is_owned: bool, +} + +impl Drop for QueryChannelRange { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeQueryChannelRange>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn QueryChannelRange_free(this_ptr: QueryChannelRange) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn QueryChannelRange_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeQueryChannelRange); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl QueryChannelRange { + pub(crate) fn take_inner(mut self) -> *mut nativeQueryChannelRange { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The genesis hash of the blockchain being queried +#[no_mangle] +pub extern "C" fn QueryChannelRange_get_chain_hash(this_ptr: &QueryChannelRange) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.chain_hash; + (*inner_val).as_inner() +} +/// The genesis hash of the blockchain being queried +#[no_mangle] +pub extern "C" fn QueryChannelRange_set_chain_hash(this_ptr: &mut QueryChannelRange, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.chain_hash = ::bitcoin::hash_types::BlockHash::from_slice(&val.data[..]).unwrap(); +} +/// The height of the first block for the channel UTXOs being queried +#[no_mangle] +pub extern "C" fn QueryChannelRange_get_first_blocknum(this_ptr: &QueryChannelRange) -> u32 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.first_blocknum; + (*inner_val) +} +/// The height of the first block for the channel UTXOs being queried +#[no_mangle] +pub extern "C" fn QueryChannelRange_set_first_blocknum(this_ptr: &mut QueryChannelRange, mut val: u32) { + unsafe { &mut *this_ptr.inner }.first_blocknum = val; +} +/// The number of blocks to include in the query results +#[no_mangle] +pub extern "C" fn QueryChannelRange_get_number_of_blocks(this_ptr: &QueryChannelRange) -> u32 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.number_of_blocks; + (*inner_val) +} +/// The number of blocks to include in the query results +#[no_mangle] +pub extern "C" fn QueryChannelRange_set_number_of_blocks(this_ptr: &mut QueryChannelRange, mut val: u32) { + unsafe { &mut *this_ptr.inner }.number_of_blocks = val; +} +#[must_use] +#[no_mangle] +pub extern "C" fn QueryChannelRange_new(mut chain_hash_arg: crate::c_types::ThirtyTwoBytes, mut first_blocknum_arg: u32, mut number_of_blocks_arg: u32) -> QueryChannelRange { + QueryChannelRange { inner: Box::into_raw(Box::new(nativeQueryChannelRange { + chain_hash: ::bitcoin::hash_types::BlockHash::from_slice(&chain_hash_arg.data[..]).unwrap(), + first_blocknum: first_blocknum_arg, + number_of_blocks: number_of_blocks_arg, + })), is_owned: true } +} +impl Clone for QueryChannelRange { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeQueryChannelRange>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn QueryChannelRange_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeQueryChannelRange)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn QueryChannelRange_clone(orig: &QueryChannelRange) -> QueryChannelRange { + orig.clone() +} + +use lightning::ln::msgs::ReplyChannelRange as nativeReplyChannelRangeImport; +type nativeReplyChannelRange = nativeReplyChannelRangeImport; + +/// A reply_channel_range message is a reply to a query_channel_range +/// message. Multiple reply_channel_range messages can be sent in reply +/// to a single query_channel_range message. The query recipient makes a +/// best effort to respond based on their local network view which may +/// not be a perfect view of the network. The short_channel_ids in the +/// reply are encoded. We only support encoding_type=0 uncompressed +/// serialization and do not support encoding_type=1 zlib serialization. +#[must_use] +#[repr(C)] +pub struct ReplyChannelRange { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeReplyChannelRange, + pub is_owned: bool, +} + +impl Drop for ReplyChannelRange { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeReplyChannelRange>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn ReplyChannelRange_free(this_ptr: ReplyChannelRange) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn ReplyChannelRange_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeReplyChannelRange); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl ReplyChannelRange { + pub(crate) fn take_inner(mut self) -> *mut nativeReplyChannelRange { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The genesis hash of the blockchain being queried +#[no_mangle] +pub extern "C" fn ReplyChannelRange_get_chain_hash(this_ptr: &ReplyChannelRange) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.chain_hash; + (*inner_val).as_inner() +} +/// The genesis hash of the blockchain being queried +#[no_mangle] +pub extern "C" fn ReplyChannelRange_set_chain_hash(this_ptr: &mut ReplyChannelRange, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.chain_hash = ::bitcoin::hash_types::BlockHash::from_slice(&val.data[..]).unwrap(); +} +/// The height of the first block in the range of the reply +#[no_mangle] +pub extern "C" fn ReplyChannelRange_get_first_blocknum(this_ptr: &ReplyChannelRange) -> u32 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.first_blocknum; + (*inner_val) +} +/// The height of the first block in the range of the reply +#[no_mangle] +pub extern "C" fn ReplyChannelRange_set_first_blocknum(this_ptr: &mut ReplyChannelRange, mut val: u32) { + unsafe { &mut *this_ptr.inner }.first_blocknum = val; +} +/// The number of blocks included in the range of the reply +#[no_mangle] +pub extern "C" fn ReplyChannelRange_get_number_of_blocks(this_ptr: &ReplyChannelRange) -> u32 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.number_of_blocks; + (*inner_val) +} +/// The number of blocks included in the range of the reply +#[no_mangle] +pub extern "C" fn ReplyChannelRange_set_number_of_blocks(this_ptr: &mut ReplyChannelRange, mut val: u32) { + unsafe { &mut *this_ptr.inner }.number_of_blocks = val; +} +/// True when this is the final reply for a query +#[no_mangle] +pub extern "C" fn ReplyChannelRange_get_sync_complete(this_ptr: &ReplyChannelRange) -> bool { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.sync_complete; + (*inner_val) +} +/// True when this is the final reply for a query +#[no_mangle] +pub extern "C" fn ReplyChannelRange_set_sync_complete(this_ptr: &mut ReplyChannelRange, mut val: bool) { + unsafe { &mut *this_ptr.inner }.sync_complete = val; +} +/// The short_channel_ids in the channel range +#[no_mangle] +pub extern "C" fn ReplyChannelRange_set_short_channel_ids(this_ptr: &mut ReplyChannelRange, mut val: crate::c_types::derived::CVec_u64Z) { + let mut local_val = Vec::new(); for mut item in val.into_rust().drain(..) { local_val.push( { item }); }; + unsafe { &mut *this_ptr.inner }.short_channel_ids = local_val; +} +#[must_use] +#[no_mangle] +pub extern "C" fn ReplyChannelRange_new(mut chain_hash_arg: crate::c_types::ThirtyTwoBytes, mut first_blocknum_arg: u32, mut number_of_blocks_arg: u32, mut sync_complete_arg: bool, mut short_channel_ids_arg: crate::c_types::derived::CVec_u64Z) -> ReplyChannelRange { + let mut local_short_channel_ids_arg = Vec::new(); for mut item in short_channel_ids_arg.into_rust().drain(..) { local_short_channel_ids_arg.push( { item }); }; + ReplyChannelRange { inner: Box::into_raw(Box::new(nativeReplyChannelRange { + chain_hash: ::bitcoin::hash_types::BlockHash::from_slice(&chain_hash_arg.data[..]).unwrap(), + first_blocknum: first_blocknum_arg, + number_of_blocks: number_of_blocks_arg, + sync_complete: sync_complete_arg, + short_channel_ids: local_short_channel_ids_arg, + })), is_owned: true } +} +impl Clone for ReplyChannelRange { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeReplyChannelRange>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn ReplyChannelRange_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeReplyChannelRange)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn ReplyChannelRange_clone(orig: &ReplyChannelRange) -> ReplyChannelRange { + orig.clone() +} + +use lightning::ln::msgs::QueryShortChannelIds as nativeQueryShortChannelIdsImport; +type nativeQueryShortChannelIds = nativeQueryShortChannelIdsImport; + +/// A query_short_channel_ids message is used to query a peer for +/// routing gossip messages related to one or more short_channel_ids. +/// The query recipient will reply with the latest, if available, +/// channel_announcement, channel_update and node_announcement messages +/// it maintains for the requested short_channel_ids followed by a +/// reply_short_channel_ids_end message. The short_channel_ids sent in +/// this query are encoded. We only support encoding_type=0 uncompressed +/// serialization and do not support encoding_type=1 zlib serialization. +#[must_use] +#[repr(C)] +pub struct QueryShortChannelIds { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeQueryShortChannelIds, + pub is_owned: bool, +} + +impl Drop for QueryShortChannelIds { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeQueryShortChannelIds>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn QueryShortChannelIds_free(this_ptr: QueryShortChannelIds) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn QueryShortChannelIds_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeQueryShortChannelIds); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl QueryShortChannelIds { + pub(crate) fn take_inner(mut self) -> *mut nativeQueryShortChannelIds { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The genesis hash of the blockchain being queried +#[no_mangle] +pub extern "C" fn QueryShortChannelIds_get_chain_hash(this_ptr: &QueryShortChannelIds) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.chain_hash; + (*inner_val).as_inner() +} +/// The genesis hash of the blockchain being queried +#[no_mangle] +pub extern "C" fn QueryShortChannelIds_set_chain_hash(this_ptr: &mut QueryShortChannelIds, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.chain_hash = ::bitcoin::hash_types::BlockHash::from_slice(&val.data[..]).unwrap(); +} +/// The short_channel_ids that are being queried +#[no_mangle] +pub extern "C" fn QueryShortChannelIds_set_short_channel_ids(this_ptr: &mut QueryShortChannelIds, mut val: crate::c_types::derived::CVec_u64Z) { + let mut local_val = Vec::new(); for mut item in val.into_rust().drain(..) { local_val.push( { item }); }; + unsafe { &mut *this_ptr.inner }.short_channel_ids = local_val; +} +#[must_use] +#[no_mangle] +pub extern "C" fn QueryShortChannelIds_new(mut chain_hash_arg: crate::c_types::ThirtyTwoBytes, mut short_channel_ids_arg: crate::c_types::derived::CVec_u64Z) -> QueryShortChannelIds { + let mut local_short_channel_ids_arg = Vec::new(); for mut item in short_channel_ids_arg.into_rust().drain(..) { local_short_channel_ids_arg.push( { item }); }; + QueryShortChannelIds { inner: Box::into_raw(Box::new(nativeQueryShortChannelIds { + chain_hash: ::bitcoin::hash_types::BlockHash::from_slice(&chain_hash_arg.data[..]).unwrap(), + short_channel_ids: local_short_channel_ids_arg, + })), is_owned: true } +} +impl Clone for QueryShortChannelIds { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeQueryShortChannelIds>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn QueryShortChannelIds_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeQueryShortChannelIds)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn QueryShortChannelIds_clone(orig: &QueryShortChannelIds) -> QueryShortChannelIds { + orig.clone() +} + +use lightning::ln::msgs::ReplyShortChannelIdsEnd as nativeReplyShortChannelIdsEndImport; +type nativeReplyShortChannelIdsEnd = nativeReplyShortChannelIdsEndImport; + +/// A reply_short_channel_ids_end message is sent as a reply to a +/// query_short_channel_ids message. The query recipient makes a best +/// effort to respond based on their local network view which may not be +/// a perfect view of the network. +#[must_use] +#[repr(C)] +pub struct ReplyShortChannelIdsEnd { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeReplyShortChannelIdsEnd, + pub is_owned: bool, +} + +impl Drop for ReplyShortChannelIdsEnd { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeReplyShortChannelIdsEnd>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn ReplyShortChannelIdsEnd_free(this_ptr: ReplyShortChannelIdsEnd) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn ReplyShortChannelIdsEnd_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeReplyShortChannelIdsEnd); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl ReplyShortChannelIdsEnd { + pub(crate) fn take_inner(mut self) -> *mut nativeReplyShortChannelIdsEnd { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The genesis hash of the blockchain that was queried +#[no_mangle] +pub extern "C" fn ReplyShortChannelIdsEnd_get_chain_hash(this_ptr: &ReplyShortChannelIdsEnd) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.chain_hash; + (*inner_val).as_inner() +} +/// The genesis hash of the blockchain that was queried +#[no_mangle] +pub extern "C" fn ReplyShortChannelIdsEnd_set_chain_hash(this_ptr: &mut ReplyShortChannelIdsEnd, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.chain_hash = ::bitcoin::hash_types::BlockHash::from_slice(&val.data[..]).unwrap(); +} +/// Indicates if the query recipient maintains up-to-date channel +/// information for the chain_hash +#[no_mangle] +pub extern "C" fn ReplyShortChannelIdsEnd_get_full_information(this_ptr: &ReplyShortChannelIdsEnd) -> bool { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.full_information; + (*inner_val) +} +/// Indicates if the query recipient maintains up-to-date channel +/// information for the chain_hash +#[no_mangle] +pub extern "C" fn ReplyShortChannelIdsEnd_set_full_information(this_ptr: &mut ReplyShortChannelIdsEnd, mut val: bool) { + unsafe { &mut *this_ptr.inner }.full_information = val; +} +#[must_use] +#[no_mangle] +pub extern "C" fn ReplyShortChannelIdsEnd_new(mut chain_hash_arg: crate::c_types::ThirtyTwoBytes, mut full_information_arg: bool) -> ReplyShortChannelIdsEnd { + ReplyShortChannelIdsEnd { inner: Box::into_raw(Box::new(nativeReplyShortChannelIdsEnd { + chain_hash: ::bitcoin::hash_types::BlockHash::from_slice(&chain_hash_arg.data[..]).unwrap(), + full_information: full_information_arg, + })), is_owned: true } +} +impl Clone for ReplyShortChannelIdsEnd { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeReplyShortChannelIdsEnd>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn ReplyShortChannelIdsEnd_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeReplyShortChannelIdsEnd)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn ReplyShortChannelIdsEnd_clone(orig: &ReplyShortChannelIdsEnd) -> ReplyShortChannelIdsEnd { + orig.clone() +} + +use lightning::ln::msgs::GossipTimestampFilter as nativeGossipTimestampFilterImport; +type nativeGossipTimestampFilter = nativeGossipTimestampFilterImport; + +/// A gossip_timestamp_filter message is used by a node to request +/// gossip relay for messages in the requested time range when the +/// gossip_queries feature has been negotiated. +#[must_use] +#[repr(C)] +pub struct GossipTimestampFilter { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeGossipTimestampFilter, + pub is_owned: bool, +} + +impl Drop for GossipTimestampFilter { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeGossipTimestampFilter>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn GossipTimestampFilter_free(this_ptr: GossipTimestampFilter) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn GossipTimestampFilter_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeGossipTimestampFilter); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl GossipTimestampFilter { + pub(crate) fn take_inner(mut self) -> *mut nativeGossipTimestampFilter { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The genesis hash of the blockchain for channel and node information +#[no_mangle] +pub extern "C" fn GossipTimestampFilter_get_chain_hash(this_ptr: &GossipTimestampFilter) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.chain_hash; + (*inner_val).as_inner() +} +/// The genesis hash of the blockchain for channel and node information +#[no_mangle] +pub extern "C" fn GossipTimestampFilter_set_chain_hash(this_ptr: &mut GossipTimestampFilter, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.chain_hash = ::bitcoin::hash_types::BlockHash::from_slice(&val.data[..]).unwrap(); +} +/// The starting unix timestamp +#[no_mangle] +pub extern "C" fn GossipTimestampFilter_get_first_timestamp(this_ptr: &GossipTimestampFilter) -> u32 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.first_timestamp; + (*inner_val) +} +/// The starting unix timestamp +#[no_mangle] +pub extern "C" fn GossipTimestampFilter_set_first_timestamp(this_ptr: &mut GossipTimestampFilter, mut val: u32) { + unsafe { &mut *this_ptr.inner }.first_timestamp = val; +} +/// The range of information in seconds +#[no_mangle] +pub extern "C" fn GossipTimestampFilter_get_timestamp_range(this_ptr: &GossipTimestampFilter) -> u32 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.timestamp_range; + (*inner_val) +} +/// The range of information in seconds +#[no_mangle] +pub extern "C" fn GossipTimestampFilter_set_timestamp_range(this_ptr: &mut GossipTimestampFilter, mut val: u32) { + unsafe { &mut *this_ptr.inner }.timestamp_range = val; +} +#[must_use] +#[no_mangle] +pub extern "C" fn GossipTimestampFilter_new(mut chain_hash_arg: crate::c_types::ThirtyTwoBytes, mut first_timestamp_arg: u32, mut timestamp_range_arg: u32) -> GossipTimestampFilter { + GossipTimestampFilter { inner: Box::into_raw(Box::new(nativeGossipTimestampFilter { + chain_hash: ::bitcoin::hash_types::BlockHash::from_slice(&chain_hash_arg.data[..]).unwrap(), + first_timestamp: first_timestamp_arg, + timestamp_range: timestamp_range_arg, + })), is_owned: true } +} +impl Clone for GossipTimestampFilter { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeGossipTimestampFilter>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn GossipTimestampFilter_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeGossipTimestampFilter)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn GossipTimestampFilter_clone(orig: &GossipTimestampFilter) -> GossipTimestampFilter { + orig.clone() +} +/// Used to put an error message in a LightningError +#[must_use] +#[derive(Clone)] +#[repr(C)] +pub enum ErrorAction { + /// The peer took some action which made us think they were useless. Disconnect them. + DisconnectPeer { + msg: crate::ln::msgs::ErrorMessage, + }, + /// The peer did something harmless that we weren't able to process, just log and ignore + IgnoreError, + /// The peer did something incorrect. Tell them. + SendErrorMessage { + msg: crate::ln::msgs::ErrorMessage, + }, +} +use lightning::ln::msgs::ErrorAction as nativeErrorAction; +impl ErrorAction { + #[allow(unused)] + pub(crate) fn to_native(&self) -> nativeErrorAction { + match self { + ErrorAction::DisconnectPeer {ref msg, } => { + let mut msg_nonref = (*msg).clone(); + let mut local_msg_nonref = if msg_nonref.inner.is_null() { None } else { Some( { *unsafe { Box::from_raw(msg_nonref.take_inner()) } }) }; + nativeErrorAction::DisconnectPeer { + msg: local_msg_nonref, + } + }, + ErrorAction::IgnoreError => nativeErrorAction::IgnoreError, + ErrorAction::SendErrorMessage {ref msg, } => { + let mut msg_nonref = (*msg).clone(); + nativeErrorAction::SendErrorMessage { + msg: *unsafe { Box::from_raw(msg_nonref.take_inner()) }, + } + }, + } + } + #[allow(unused)] + pub(crate) fn into_native(self) -> nativeErrorAction { + match self { + ErrorAction::DisconnectPeer {mut msg, } => { + let mut local_msg = if msg.inner.is_null() { None } else { Some( { *unsafe { Box::from_raw(msg.take_inner()) } }) }; + nativeErrorAction::DisconnectPeer { + msg: local_msg, + } + }, + ErrorAction::IgnoreError => nativeErrorAction::IgnoreError, + ErrorAction::SendErrorMessage {mut msg, } => { + nativeErrorAction::SendErrorMessage { + msg: *unsafe { Box::from_raw(msg.take_inner()) }, + } + }, + } + } + #[allow(unused)] + pub(crate) fn from_native(native: &nativeErrorAction) -> Self { + match native { + nativeErrorAction::DisconnectPeer {ref msg, } => { + let mut msg_nonref = (*msg).clone(); + let mut local_msg_nonref = crate::ln::msgs::ErrorMessage { inner: if msg_nonref.is_none() { std::ptr::null_mut() } else { { Box::into_raw(Box::new((msg_nonref.unwrap()))) } }, is_owned: true }; + ErrorAction::DisconnectPeer { + msg: local_msg_nonref, + } + }, + nativeErrorAction::IgnoreError => ErrorAction::IgnoreError, + nativeErrorAction::SendErrorMessage {ref msg, } => { + let mut msg_nonref = (*msg).clone(); + ErrorAction::SendErrorMessage { + msg: crate::ln::msgs::ErrorMessage { inner: Box::into_raw(Box::new(msg_nonref)), is_owned: true }, + } + }, + } + } + #[allow(unused)] + pub(crate) fn native_into(native: nativeErrorAction) -> Self { + match native { + nativeErrorAction::DisconnectPeer {mut msg, } => { + let mut local_msg = crate::ln::msgs::ErrorMessage { inner: if msg.is_none() { std::ptr::null_mut() } else { { Box::into_raw(Box::new((msg.unwrap()))) } }, is_owned: true }; + ErrorAction::DisconnectPeer { + msg: local_msg, + } + }, + nativeErrorAction::IgnoreError => ErrorAction::IgnoreError, + nativeErrorAction::SendErrorMessage {mut msg, } => { + ErrorAction::SendErrorMessage { + msg: crate::ln::msgs::ErrorMessage { inner: Box::into_raw(Box::new(msg)), is_owned: true }, + } + }, + } + } +} +#[no_mangle] +pub extern "C" fn ErrorAction_free(this_ptr: ErrorAction) { } +#[no_mangle] +pub extern "C" fn ErrorAction_clone(orig: &ErrorAction) -> ErrorAction { + orig.clone() +} + +use lightning::ln::msgs::LightningError as nativeLightningErrorImport; +type nativeLightningError = nativeLightningErrorImport; + +/// An Err type for failure to process messages. +#[must_use] +#[repr(C)] +pub struct LightningError { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeLightningError, + pub is_owned: bool, +} + +impl Drop for LightningError { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeLightningError>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn LightningError_free(this_ptr: LightningError) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn LightningError_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeLightningError); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl LightningError { + pub(crate) fn take_inner(mut self) -> *mut nativeLightningError { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// A human-readable message describing the error +#[no_mangle] +pub extern "C" fn LightningError_get_err(this_ptr: &LightningError) -> crate::c_types::Str { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.err; + (*inner_val).as_str().into() +} +/// A human-readable message describing the error +#[no_mangle] +pub extern "C" fn LightningError_set_err(this_ptr: &mut LightningError, mut val: crate::c_types::derived::CVec_u8Z) { + unsafe { &mut *this_ptr.inner }.err = String::from_utf8(val.into_rust()).unwrap(); +} +/// The action which should be taken against the offending peer. +#[no_mangle] +pub extern "C" fn LightningError_get_action(this_ptr: &LightningError) -> crate::ln::msgs::ErrorAction { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.action; + crate::ln::msgs::ErrorAction::from_native(&(*inner_val)) +} +/// The action which should be taken against the offending peer. +#[no_mangle] +pub extern "C" fn LightningError_set_action(this_ptr: &mut LightningError, mut val: crate::ln::msgs::ErrorAction) { + unsafe { &mut *this_ptr.inner }.action = val.into_native(); +} +#[must_use] +#[no_mangle] +pub extern "C" fn LightningError_new(mut err_arg: crate::c_types::derived::CVec_u8Z, mut action_arg: crate::ln::msgs::ErrorAction) -> LightningError { + LightningError { inner: Box::into_raw(Box::new(nativeLightningError { + err: String::from_utf8(err_arg.into_rust()).unwrap(), + action: action_arg.into_native(), + })), is_owned: true } +} +impl Clone for LightningError { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeLightningError>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn LightningError_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeLightningError)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn LightningError_clone(orig: &LightningError) -> LightningError { + orig.clone() +} + +use lightning::ln::msgs::CommitmentUpdate as nativeCommitmentUpdateImport; +type nativeCommitmentUpdate = nativeCommitmentUpdateImport; + +/// Struct used to return values from revoke_and_ack messages, containing a bunch of commitment +/// transaction updates if they were pending. +#[must_use] +#[repr(C)] +pub struct CommitmentUpdate { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeCommitmentUpdate, + pub is_owned: bool, +} + +impl Drop for CommitmentUpdate { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeCommitmentUpdate>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn CommitmentUpdate_free(this_ptr: CommitmentUpdate) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn CommitmentUpdate_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeCommitmentUpdate); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl CommitmentUpdate { + pub(crate) fn take_inner(mut self) -> *mut nativeCommitmentUpdate { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// update_add_htlc messages which should be sent +#[no_mangle] +pub extern "C" fn CommitmentUpdate_set_update_add_htlcs(this_ptr: &mut CommitmentUpdate, mut val: crate::c_types::derived::CVec_UpdateAddHTLCZ) { + let mut local_val = Vec::new(); for mut item in val.into_rust().drain(..) { local_val.push( { *unsafe { Box::from_raw(item.take_inner()) } }); }; + unsafe { &mut *this_ptr.inner }.update_add_htlcs = local_val; +} +/// update_fulfill_htlc messages which should be sent +#[no_mangle] +pub extern "C" fn CommitmentUpdate_set_update_fulfill_htlcs(this_ptr: &mut CommitmentUpdate, mut val: crate::c_types::derived::CVec_UpdateFulfillHTLCZ) { + let mut local_val = Vec::new(); for mut item in val.into_rust().drain(..) { local_val.push( { *unsafe { Box::from_raw(item.take_inner()) } }); }; + unsafe { &mut *this_ptr.inner }.update_fulfill_htlcs = local_val; +} +/// update_fail_htlc messages which should be sent +#[no_mangle] +pub extern "C" fn CommitmentUpdate_set_update_fail_htlcs(this_ptr: &mut CommitmentUpdate, mut val: crate::c_types::derived::CVec_UpdateFailHTLCZ) { + let mut local_val = Vec::new(); for mut item in val.into_rust().drain(..) { local_val.push( { *unsafe { Box::from_raw(item.take_inner()) } }); }; + unsafe { &mut *this_ptr.inner }.update_fail_htlcs = local_val; +} +/// update_fail_malformed_htlc messages which should be sent +#[no_mangle] +pub extern "C" fn CommitmentUpdate_set_update_fail_malformed_htlcs(this_ptr: &mut CommitmentUpdate, mut val: crate::c_types::derived::CVec_UpdateFailMalformedHTLCZ) { + let mut local_val = Vec::new(); for mut item in val.into_rust().drain(..) { local_val.push( { *unsafe { Box::from_raw(item.take_inner()) } }); }; + unsafe { &mut *this_ptr.inner }.update_fail_malformed_htlcs = local_val; +} +/// An update_fee message which should be sent +#[no_mangle] +pub extern "C" fn CommitmentUpdate_get_update_fee(this_ptr: &CommitmentUpdate) -> crate::ln::msgs::UpdateFee { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.update_fee; + let mut local_inner_val = crate::ln::msgs::UpdateFee { inner: unsafe { (if inner_val.is_none() { std::ptr::null() } else { { (inner_val.as_ref().unwrap()) } } as *const _) as *mut _ }, is_owned: false }; + local_inner_val +} +/// An update_fee message which should be sent +#[no_mangle] +pub extern "C" fn CommitmentUpdate_set_update_fee(this_ptr: &mut CommitmentUpdate, mut val: crate::ln::msgs::UpdateFee) { + let mut local_val = if val.inner.is_null() { None } else { Some( { *unsafe { Box::from_raw(val.take_inner()) } }) }; + unsafe { &mut *this_ptr.inner }.update_fee = local_val; +} +/// Finally, the commitment_signed message which should be sent +#[no_mangle] +pub extern "C" fn CommitmentUpdate_get_commitment_signed(this_ptr: &CommitmentUpdate) -> crate::ln::msgs::CommitmentSigned { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.commitment_signed; + crate::ln::msgs::CommitmentSigned { inner: unsafe { ( (&((*inner_val)) as *const _) as *mut _) }, is_owned: false } +} +/// Finally, the commitment_signed message which should be sent +#[no_mangle] +pub extern "C" fn CommitmentUpdate_set_commitment_signed(this_ptr: &mut CommitmentUpdate, mut val: crate::ln::msgs::CommitmentSigned) { + unsafe { &mut *this_ptr.inner }.commitment_signed = *unsafe { Box::from_raw(val.take_inner()) }; +} +#[must_use] +#[no_mangle] +pub extern "C" fn CommitmentUpdate_new(mut update_add_htlcs_arg: crate::c_types::derived::CVec_UpdateAddHTLCZ, mut update_fulfill_htlcs_arg: crate::c_types::derived::CVec_UpdateFulfillHTLCZ, mut update_fail_htlcs_arg: crate::c_types::derived::CVec_UpdateFailHTLCZ, mut update_fail_malformed_htlcs_arg: crate::c_types::derived::CVec_UpdateFailMalformedHTLCZ, mut update_fee_arg: crate::ln::msgs::UpdateFee, mut commitment_signed_arg: crate::ln::msgs::CommitmentSigned) -> CommitmentUpdate { + let mut local_update_add_htlcs_arg = Vec::new(); for mut item in update_add_htlcs_arg.into_rust().drain(..) { local_update_add_htlcs_arg.push( { *unsafe { Box::from_raw(item.take_inner()) } }); }; + let mut local_update_fulfill_htlcs_arg = Vec::new(); for mut item in update_fulfill_htlcs_arg.into_rust().drain(..) { local_update_fulfill_htlcs_arg.push( { *unsafe { Box::from_raw(item.take_inner()) } }); }; + let mut local_update_fail_htlcs_arg = Vec::new(); for mut item in update_fail_htlcs_arg.into_rust().drain(..) { local_update_fail_htlcs_arg.push( { *unsafe { Box::from_raw(item.take_inner()) } }); }; + let mut local_update_fail_malformed_htlcs_arg = Vec::new(); for mut item in update_fail_malformed_htlcs_arg.into_rust().drain(..) { local_update_fail_malformed_htlcs_arg.push( { *unsafe { Box::from_raw(item.take_inner()) } }); }; + let mut local_update_fee_arg = if update_fee_arg.inner.is_null() { None } else { Some( { *unsafe { Box::from_raw(update_fee_arg.take_inner()) } }) }; + CommitmentUpdate { inner: Box::into_raw(Box::new(nativeCommitmentUpdate { + update_add_htlcs: local_update_add_htlcs_arg, + update_fulfill_htlcs: local_update_fulfill_htlcs_arg, + update_fail_htlcs: local_update_fail_htlcs_arg, + update_fail_malformed_htlcs: local_update_fail_malformed_htlcs_arg, + update_fee: local_update_fee_arg, + commitment_signed: *unsafe { Box::from_raw(commitment_signed_arg.take_inner()) }, + })), is_owned: true } +} +impl Clone for CommitmentUpdate { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeCommitmentUpdate>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn CommitmentUpdate_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeCommitmentUpdate)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn CommitmentUpdate_clone(orig: &CommitmentUpdate) -> CommitmentUpdate { + orig.clone() +} +/// The information we received from a peer along the route of a payment we originated. This is +/// returned by ChannelMessageHandler::handle_update_fail_htlc to be passed into +/// RoutingMessageHandler::handle_htlc_fail_channel_update to update our network map. +#[must_use] +#[derive(Clone)] +#[repr(C)] +pub enum HTLCFailChannelUpdate { + /// We received an error which included a full ChannelUpdate message. + ChannelUpdateMessage { + msg: crate::ln::msgs::ChannelUpdate, + }, + /// We received an error which indicated only that a channel has been closed + ChannelClosed { + short_channel_id: u64, + is_permanent: bool, + }, + /// We received an error which indicated only that a node has failed + NodeFailure { + node_id: crate::c_types::PublicKey, + is_permanent: bool, + }, +} +use lightning::ln::msgs::HTLCFailChannelUpdate as nativeHTLCFailChannelUpdate; +impl HTLCFailChannelUpdate { + #[allow(unused)] + pub(crate) fn to_native(&self) -> nativeHTLCFailChannelUpdate { + match self { + HTLCFailChannelUpdate::ChannelUpdateMessage {ref msg, } => { + let mut msg_nonref = (*msg).clone(); + nativeHTLCFailChannelUpdate::ChannelUpdateMessage { + msg: *unsafe { Box::from_raw(msg_nonref.take_inner()) }, + } + }, + HTLCFailChannelUpdate::ChannelClosed {ref short_channel_id, ref is_permanent, } => { + let mut short_channel_id_nonref = (*short_channel_id).clone(); + let mut is_permanent_nonref = (*is_permanent).clone(); + nativeHTLCFailChannelUpdate::ChannelClosed { + short_channel_id: short_channel_id_nonref, + is_permanent: is_permanent_nonref, + } + }, + HTLCFailChannelUpdate::NodeFailure {ref node_id, ref is_permanent, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut is_permanent_nonref = (*is_permanent).clone(); + nativeHTLCFailChannelUpdate::NodeFailure { + node_id: node_id_nonref.into_rust(), + is_permanent: is_permanent_nonref, + } + }, + } + } + #[allow(unused)] + pub(crate) fn into_native(self) -> nativeHTLCFailChannelUpdate { + match self { + HTLCFailChannelUpdate::ChannelUpdateMessage {mut msg, } => { + nativeHTLCFailChannelUpdate::ChannelUpdateMessage { + msg: *unsafe { Box::from_raw(msg.take_inner()) }, + } + }, + HTLCFailChannelUpdate::ChannelClosed {mut short_channel_id, mut is_permanent, } => { + nativeHTLCFailChannelUpdate::ChannelClosed { + short_channel_id: short_channel_id, + is_permanent: is_permanent, + } + }, + HTLCFailChannelUpdate::NodeFailure {mut node_id, mut is_permanent, } => { + nativeHTLCFailChannelUpdate::NodeFailure { + node_id: node_id.into_rust(), + is_permanent: is_permanent, + } + }, + } + } + #[allow(unused)] + pub(crate) fn from_native(native: &nativeHTLCFailChannelUpdate) -> Self { + match native { + nativeHTLCFailChannelUpdate::ChannelUpdateMessage {ref msg, } => { + let mut msg_nonref = (*msg).clone(); + HTLCFailChannelUpdate::ChannelUpdateMessage { + msg: crate::ln::msgs::ChannelUpdate { inner: Box::into_raw(Box::new(msg_nonref)), is_owned: true }, + } + }, + nativeHTLCFailChannelUpdate::ChannelClosed {ref short_channel_id, ref is_permanent, } => { + let mut short_channel_id_nonref = (*short_channel_id).clone(); + let mut is_permanent_nonref = (*is_permanent).clone(); + HTLCFailChannelUpdate::ChannelClosed { + short_channel_id: short_channel_id_nonref, + is_permanent: is_permanent_nonref, + } + }, + nativeHTLCFailChannelUpdate::NodeFailure {ref node_id, ref is_permanent, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut is_permanent_nonref = (*is_permanent).clone(); + HTLCFailChannelUpdate::NodeFailure { + node_id: crate::c_types::PublicKey::from_rust(&node_id_nonref), + is_permanent: is_permanent_nonref, + } + }, + } + } + #[allow(unused)] + pub(crate) fn native_into(native: nativeHTLCFailChannelUpdate) -> Self { + match native { + nativeHTLCFailChannelUpdate::ChannelUpdateMessage {mut msg, } => { + HTLCFailChannelUpdate::ChannelUpdateMessage { + msg: crate::ln::msgs::ChannelUpdate { inner: Box::into_raw(Box::new(msg)), is_owned: true }, + } + }, + nativeHTLCFailChannelUpdate::ChannelClosed {mut short_channel_id, mut is_permanent, } => { + HTLCFailChannelUpdate::ChannelClosed { + short_channel_id: short_channel_id, + is_permanent: is_permanent, + } + }, + nativeHTLCFailChannelUpdate::NodeFailure {mut node_id, mut is_permanent, } => { + HTLCFailChannelUpdate::NodeFailure { + node_id: crate::c_types::PublicKey::from_rust(&node_id), + is_permanent: is_permanent, + } + }, + } + } +} +#[no_mangle] +pub extern "C" fn HTLCFailChannelUpdate_free(this_ptr: HTLCFailChannelUpdate) { } +#[no_mangle] +pub extern "C" fn HTLCFailChannelUpdate_clone(orig: &HTLCFailChannelUpdate) -> HTLCFailChannelUpdate { + orig.clone() +} +/// A trait to describe an object which can receive channel messages. +/// +/// Messages MAY be called in parallel when they originate from different their_node_ids, however +/// they MUST NOT be called in parallel when the two calls have the same their_node_id. +#[repr(C)] +pub struct ChannelMessageHandler { + pub this_arg: *mut c_void, + /// Handle an incoming open_channel message from the given peer. + pub handle_open_channel: extern "C" fn (this_arg: *const c_void, their_node_id: crate::c_types::PublicKey, their_features: crate::ln::features::InitFeatures, msg: &crate::ln::msgs::OpenChannel), + /// Handle an incoming accept_channel message from the given peer. + pub handle_accept_channel: extern "C" fn (this_arg: *const c_void, their_node_id: crate::c_types::PublicKey, their_features: crate::ln::features::InitFeatures, msg: &crate::ln::msgs::AcceptChannel), + /// Handle an incoming funding_created message from the given peer. + pub handle_funding_created: extern "C" fn (this_arg: *const c_void, their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::FundingCreated), + /// Handle an incoming funding_signed message from the given peer. + pub handle_funding_signed: extern "C" fn (this_arg: *const c_void, their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::FundingSigned), + /// Handle an incoming funding_locked message from the given peer. + pub handle_funding_locked: extern "C" fn (this_arg: *const c_void, their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::FundingLocked), + /// Handle an incoming shutdown message from the given peer. + pub handle_shutdown: extern "C" fn (this_arg: *const c_void, their_node_id: crate::c_types::PublicKey, their_features: &crate::ln::features::InitFeatures, msg: &crate::ln::msgs::Shutdown), + /// Handle an incoming closing_signed message from the given peer. + pub handle_closing_signed: extern "C" fn (this_arg: *const c_void, their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::ClosingSigned), + /// Handle an incoming update_add_htlc message from the given peer. + pub handle_update_add_htlc: extern "C" fn (this_arg: *const c_void, their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::UpdateAddHTLC), + /// Handle an incoming update_fulfill_htlc message from the given peer. + pub handle_update_fulfill_htlc: extern "C" fn (this_arg: *const c_void, their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::UpdateFulfillHTLC), + /// Handle an incoming update_fail_htlc message from the given peer. + pub handle_update_fail_htlc: extern "C" fn (this_arg: *const c_void, their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::UpdateFailHTLC), + /// Handle an incoming update_fail_malformed_htlc message from the given peer. + pub handle_update_fail_malformed_htlc: extern "C" fn (this_arg: *const c_void, their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::UpdateFailMalformedHTLC), + /// Handle an incoming commitment_signed message from the given peer. + pub handle_commitment_signed: extern "C" fn (this_arg: *const c_void, their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::CommitmentSigned), + /// Handle an incoming revoke_and_ack message from the given peer. + pub handle_revoke_and_ack: extern "C" fn (this_arg: *const c_void, their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::RevokeAndACK), + /// Handle an incoming update_fee message from the given peer. + pub handle_update_fee: extern "C" fn (this_arg: *const c_void, their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::UpdateFee), + /// Handle an incoming announcement_signatures message from the given peer. + pub handle_announcement_signatures: extern "C" fn (this_arg: *const c_void, their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::AnnouncementSignatures), + /// Indicates a connection to the peer failed/an existing connection was lost. If no connection + /// is believed to be possible in the future (eg they're sending us messages we don't + /// understand or indicate they require unknown feature bits), no_connection_possible is set + /// and any outstanding channels should be failed. + pub peer_disconnected: extern "C" fn (this_arg: *const c_void, their_node_id: crate::c_types::PublicKey, no_connection_possible: bool), + /// Handle a peer reconnecting, possibly generating channel_reestablish message(s). + pub peer_connected: extern "C" fn (this_arg: *const c_void, their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::Init), + /// Handle an incoming channel_reestablish message from the given peer. + pub handle_channel_reestablish: extern "C" fn (this_arg: *const c_void, their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::ChannelReestablish), + /// Handle an incoming error message from the given peer. + pub handle_error: extern "C" fn (this_arg: *const c_void, their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::ErrorMessage), + pub MessageSendEventsProvider: crate::util::events::MessageSendEventsProvider, + pub free: Option, +} +impl lightning::util::events::MessageSendEventsProvider for ChannelMessageHandler { + fn get_and_clear_pending_msg_events(&self) -> Vec { + ::get_and_clear_pending_msg_events(&self.MessageSendEventsProvider) + } +} +unsafe impl Send for ChannelMessageHandler {} +unsafe impl Sync for ChannelMessageHandler {} + +use lightning::ln::msgs::ChannelMessageHandler as rustChannelMessageHandler; +impl rustChannelMessageHandler for ChannelMessageHandler { + fn handle_open_channel(&self, their_node_id: &bitcoin::secp256k1::key::PublicKey, their_features: lightning::ln::features::InitFeatures, msg: &lightning::ln::msgs::OpenChannel) { + (self.handle_open_channel)(self.this_arg, crate::c_types::PublicKey::from_rust(&their_node_id), crate::ln::features::InitFeatures { inner: Box::into_raw(Box::new(their_features)), is_owned: true }, &crate::ln::msgs::OpenChannel { inner: unsafe { (msg as *const _) as *mut _ }, is_owned: false }) + } + fn handle_accept_channel(&self, their_node_id: &bitcoin::secp256k1::key::PublicKey, their_features: lightning::ln::features::InitFeatures, msg: &lightning::ln::msgs::AcceptChannel) { + (self.handle_accept_channel)(self.this_arg, crate::c_types::PublicKey::from_rust(&their_node_id), crate::ln::features::InitFeatures { inner: Box::into_raw(Box::new(their_features)), is_owned: true }, &crate::ln::msgs::AcceptChannel { inner: unsafe { (msg as *const _) as *mut _ }, is_owned: false }) + } + fn handle_funding_created(&self, their_node_id: &bitcoin::secp256k1::key::PublicKey, msg: &lightning::ln::msgs::FundingCreated) { + (self.handle_funding_created)(self.this_arg, crate::c_types::PublicKey::from_rust(&their_node_id), &crate::ln::msgs::FundingCreated { inner: unsafe { (msg as *const _) as *mut _ }, is_owned: false }) + } + fn handle_funding_signed(&self, their_node_id: &bitcoin::secp256k1::key::PublicKey, msg: &lightning::ln::msgs::FundingSigned) { + (self.handle_funding_signed)(self.this_arg, crate::c_types::PublicKey::from_rust(&their_node_id), &crate::ln::msgs::FundingSigned { inner: unsafe { (msg as *const _) as *mut _ }, is_owned: false }) + } + fn handle_funding_locked(&self, their_node_id: &bitcoin::secp256k1::key::PublicKey, msg: &lightning::ln::msgs::FundingLocked) { + (self.handle_funding_locked)(self.this_arg, crate::c_types::PublicKey::from_rust(&their_node_id), &crate::ln::msgs::FundingLocked { inner: unsafe { (msg as *const _) as *mut _ }, is_owned: false }) + } + fn handle_shutdown(&self, their_node_id: &bitcoin::secp256k1::key::PublicKey, their_features: &lightning::ln::features::InitFeatures, msg: &lightning::ln::msgs::Shutdown) { + (self.handle_shutdown)(self.this_arg, crate::c_types::PublicKey::from_rust(&their_node_id), &crate::ln::features::InitFeatures { inner: unsafe { (their_features as *const _) as *mut _ }, is_owned: false }, &crate::ln::msgs::Shutdown { inner: unsafe { (msg as *const _) as *mut _ }, is_owned: false }) + } + fn handle_closing_signed(&self, their_node_id: &bitcoin::secp256k1::key::PublicKey, msg: &lightning::ln::msgs::ClosingSigned) { + (self.handle_closing_signed)(self.this_arg, crate::c_types::PublicKey::from_rust(&their_node_id), &crate::ln::msgs::ClosingSigned { inner: unsafe { (msg as *const _) as *mut _ }, is_owned: false }) + } + fn handle_update_add_htlc(&self, their_node_id: &bitcoin::secp256k1::key::PublicKey, msg: &lightning::ln::msgs::UpdateAddHTLC) { + (self.handle_update_add_htlc)(self.this_arg, crate::c_types::PublicKey::from_rust(&their_node_id), &crate::ln::msgs::UpdateAddHTLC { inner: unsafe { (msg as *const _) as *mut _ }, is_owned: false }) + } + fn handle_update_fulfill_htlc(&self, their_node_id: &bitcoin::secp256k1::key::PublicKey, msg: &lightning::ln::msgs::UpdateFulfillHTLC) { + (self.handle_update_fulfill_htlc)(self.this_arg, crate::c_types::PublicKey::from_rust(&their_node_id), &crate::ln::msgs::UpdateFulfillHTLC { inner: unsafe { (msg as *const _) as *mut _ }, is_owned: false }) + } + fn handle_update_fail_htlc(&self, their_node_id: &bitcoin::secp256k1::key::PublicKey, msg: &lightning::ln::msgs::UpdateFailHTLC) { + (self.handle_update_fail_htlc)(self.this_arg, crate::c_types::PublicKey::from_rust(&their_node_id), &crate::ln::msgs::UpdateFailHTLC { inner: unsafe { (msg as *const _) as *mut _ }, is_owned: false }) + } + fn handle_update_fail_malformed_htlc(&self, their_node_id: &bitcoin::secp256k1::key::PublicKey, msg: &lightning::ln::msgs::UpdateFailMalformedHTLC) { + (self.handle_update_fail_malformed_htlc)(self.this_arg, crate::c_types::PublicKey::from_rust(&their_node_id), &crate::ln::msgs::UpdateFailMalformedHTLC { inner: unsafe { (msg as *const _) as *mut _ }, is_owned: false }) + } + fn handle_commitment_signed(&self, their_node_id: &bitcoin::secp256k1::key::PublicKey, msg: &lightning::ln::msgs::CommitmentSigned) { + (self.handle_commitment_signed)(self.this_arg, crate::c_types::PublicKey::from_rust(&their_node_id), &crate::ln::msgs::CommitmentSigned { inner: unsafe { (msg as *const _) as *mut _ }, is_owned: false }) + } + fn handle_revoke_and_ack(&self, their_node_id: &bitcoin::secp256k1::key::PublicKey, msg: &lightning::ln::msgs::RevokeAndACK) { + (self.handle_revoke_and_ack)(self.this_arg, crate::c_types::PublicKey::from_rust(&their_node_id), &crate::ln::msgs::RevokeAndACK { inner: unsafe { (msg as *const _) as *mut _ }, is_owned: false }) + } + fn handle_update_fee(&self, their_node_id: &bitcoin::secp256k1::key::PublicKey, msg: &lightning::ln::msgs::UpdateFee) { + (self.handle_update_fee)(self.this_arg, crate::c_types::PublicKey::from_rust(&their_node_id), &crate::ln::msgs::UpdateFee { inner: unsafe { (msg as *const _) as *mut _ }, is_owned: false }) + } + fn handle_announcement_signatures(&self, their_node_id: &bitcoin::secp256k1::key::PublicKey, msg: &lightning::ln::msgs::AnnouncementSignatures) { + (self.handle_announcement_signatures)(self.this_arg, crate::c_types::PublicKey::from_rust(&their_node_id), &crate::ln::msgs::AnnouncementSignatures { inner: unsafe { (msg as *const _) as *mut _ }, is_owned: false }) + } + fn peer_disconnected(&self, their_node_id: &bitcoin::secp256k1::key::PublicKey, no_connection_possible: bool) { + (self.peer_disconnected)(self.this_arg, crate::c_types::PublicKey::from_rust(&their_node_id), no_connection_possible) + } + fn peer_connected(&self, their_node_id: &bitcoin::secp256k1::key::PublicKey, msg: &lightning::ln::msgs::Init) { + (self.peer_connected)(self.this_arg, crate::c_types::PublicKey::from_rust(&their_node_id), &crate::ln::msgs::Init { inner: unsafe { (msg as *const _) as *mut _ }, is_owned: false }) + } + fn handle_channel_reestablish(&self, their_node_id: &bitcoin::secp256k1::key::PublicKey, msg: &lightning::ln::msgs::ChannelReestablish) { + (self.handle_channel_reestablish)(self.this_arg, crate::c_types::PublicKey::from_rust(&their_node_id), &crate::ln::msgs::ChannelReestablish { inner: unsafe { (msg as *const _) as *mut _ }, is_owned: false }) + } + fn handle_error(&self, their_node_id: &bitcoin::secp256k1::key::PublicKey, msg: &lightning::ln::msgs::ErrorMessage) { + (self.handle_error)(self.this_arg, crate::c_types::PublicKey::from_rust(&their_node_id), &crate::ln::msgs::ErrorMessage { inner: unsafe { (msg as *const _) as *mut _ }, is_owned: false }) + } +} + +// We're essentially a pointer already, or at least a set of pointers, so allow us to be used +// directly as a Deref trait in higher-level structs: +impl std::ops::Deref for ChannelMessageHandler { + type Target = Self; + fn deref(&self) -> &Self { + self + } +} +/// Calls the free function if one is set +#[no_mangle] +pub extern "C" fn ChannelMessageHandler_free(this_ptr: ChannelMessageHandler) { } +impl Drop for ChannelMessageHandler { + fn drop(&mut self) { + if let Some(f) = self.free { + f(self.this_arg); + } + } +} +/// A trait to describe an object which can receive routing messages. +/// +/// # Implementor DoS Warnings +/// +/// For `gossip_queries` messages there are potential DoS vectors when handling +/// inbound queries. Implementors using an on-disk network graph should be aware of +/// repeated disk I/O for queries accessing different parts of the network graph. +#[repr(C)] +pub struct RoutingMessageHandler { + pub this_arg: *mut c_void, + /// Handle an incoming node_announcement message, returning true if it should be forwarded on, + /// false or returning an Err otherwise. + #[must_use] + pub handle_node_announcement: extern "C" fn (this_arg: *const c_void, msg: &crate::ln::msgs::NodeAnnouncement) -> crate::c_types::derived::CResult_boolLightningErrorZ, + /// Handle a channel_announcement message, returning true if it should be forwarded on, false + /// or returning an Err otherwise. + #[must_use] + pub handle_channel_announcement: extern "C" fn (this_arg: *const c_void, msg: &crate::ln::msgs::ChannelAnnouncement) -> crate::c_types::derived::CResult_boolLightningErrorZ, + /// Handle an incoming channel_update message, returning true if it should be forwarded on, + /// false or returning an Err otherwise. + #[must_use] + pub handle_channel_update: extern "C" fn (this_arg: *const c_void, msg: &crate::ln::msgs::ChannelUpdate) -> crate::c_types::derived::CResult_boolLightningErrorZ, + /// Handle some updates to the route graph that we learned due to an outbound failed payment. + pub handle_htlc_fail_channel_update: extern "C" fn (this_arg: *const c_void, update: &crate::ln::msgs::HTLCFailChannelUpdate), + /// Gets a subset of the channel announcements and updates required to dump our routing table + /// to a remote node, starting at the short_channel_id indicated by starting_point and + /// including the batch_amount entries immediately higher in numerical value than starting_point. + #[must_use] + pub get_next_channel_announcements: extern "C" fn (this_arg: *const c_void, starting_point: u64, batch_amount: u8) -> crate::c_types::derived::CVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ, + /// Gets a subset of the node announcements required to dump our routing table to a remote node, + /// starting at the node *after* the provided publickey and including batch_amount entries + /// immediately higher (as defined by ::cmp) than starting_point. + /// If None is provided for starting_point, we start at the first node. + #[must_use] + pub get_next_node_announcements: extern "C" fn (this_arg: *const c_void, starting_point: crate::c_types::PublicKey, batch_amount: u8) -> crate::c_types::derived::CVec_NodeAnnouncementZ, + /// Called when a connection is established with a peer. This can be used to + /// perform routing table synchronization using a strategy defined by the + /// implementor. + pub sync_routing_table: extern "C" fn (this_arg: *const c_void, their_node_id: crate::c_types::PublicKey, init: &crate::ln::msgs::Init), + /// Handles the reply of a query we initiated to learn about channels + /// for a given range of blocks. We can expect to receive one or more + /// replies to a single query. + #[must_use] + pub handle_reply_channel_range: extern "C" fn (this_arg: *const c_void, their_node_id: crate::c_types::PublicKey, msg: crate::ln::msgs::ReplyChannelRange) -> crate::c_types::derived::CResult_NoneLightningErrorZ, + /// Handles the reply of a query we initiated asking for routing gossip + /// messages for a list of channels. We should receive this message when + /// a node has completed its best effort to send us the pertaining routing + /// gossip messages. + #[must_use] + pub handle_reply_short_channel_ids_end: extern "C" fn (this_arg: *const c_void, their_node_id: crate::c_types::PublicKey, msg: crate::ln::msgs::ReplyShortChannelIdsEnd) -> crate::c_types::derived::CResult_NoneLightningErrorZ, + /// Handles when a peer asks us to send a list of short_channel_ids + /// for the requested range of blocks. + #[must_use] + pub handle_query_channel_range: extern "C" fn (this_arg: *const c_void, their_node_id: crate::c_types::PublicKey, msg: crate::ln::msgs::QueryChannelRange) -> crate::c_types::derived::CResult_NoneLightningErrorZ, + /// Handles when a peer asks us to send routing gossip messages for a + /// list of short_channel_ids. + #[must_use] + pub handle_query_short_channel_ids: extern "C" fn (this_arg: *const c_void, their_node_id: crate::c_types::PublicKey, msg: crate::ln::msgs::QueryShortChannelIds) -> crate::c_types::derived::CResult_NoneLightningErrorZ, + pub MessageSendEventsProvider: crate::util::events::MessageSendEventsProvider, + pub free: Option, +} +unsafe impl Send for RoutingMessageHandler {} +unsafe impl Sync for RoutingMessageHandler {} +impl lightning::util::events::MessageSendEventsProvider for RoutingMessageHandler { + fn get_and_clear_pending_msg_events(&self) -> Vec { + ::get_and_clear_pending_msg_events(&self.MessageSendEventsProvider) + } +} + +use lightning::ln::msgs::RoutingMessageHandler as rustRoutingMessageHandler; +impl rustRoutingMessageHandler for RoutingMessageHandler { + fn handle_node_announcement(&self, msg: &lightning::ln::msgs::NodeAnnouncement) -> Result { + let mut ret = (self.handle_node_announcement)(self.this_arg, &crate::ln::msgs::NodeAnnouncement { inner: unsafe { (msg as *const _) as *mut _ }, is_owned: false }); + let mut local_ret = match ret.result_ok { true => Ok( { (*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.result)) }) }), false => Err( { *unsafe { Box::from_raw((*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.err)) }).take_inner()) } })}; + local_ret + } + fn handle_channel_announcement(&self, msg: &lightning::ln::msgs::ChannelAnnouncement) -> Result { + let mut ret = (self.handle_channel_announcement)(self.this_arg, &crate::ln::msgs::ChannelAnnouncement { inner: unsafe { (msg as *const _) as *mut _ }, is_owned: false }); + let mut local_ret = match ret.result_ok { true => Ok( { (*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.result)) }) }), false => Err( { *unsafe { Box::from_raw((*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.err)) }).take_inner()) } })}; + local_ret + } + fn handle_channel_update(&self, msg: &lightning::ln::msgs::ChannelUpdate) -> Result { + let mut ret = (self.handle_channel_update)(self.this_arg, &crate::ln::msgs::ChannelUpdate { inner: unsafe { (msg as *const _) as *mut _ }, is_owned: false }); + let mut local_ret = match ret.result_ok { true => Ok( { (*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.result)) }) }), false => Err( { *unsafe { Box::from_raw((*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.err)) }).take_inner()) } })}; + local_ret + } + fn handle_htlc_fail_channel_update(&self, update: &lightning::ln::msgs::HTLCFailChannelUpdate) { + (self.handle_htlc_fail_channel_update)(self.this_arg, &crate::ln::msgs::HTLCFailChannelUpdate::from_native(&update)) + } + fn get_next_channel_announcements(&self, starting_point: u64, batch_amount: u8) -> Vec<(lightning::ln::msgs::ChannelAnnouncement, Option, Option)> { + let mut ret = (self.get_next_channel_announcements)(self.this_arg, starting_point, batch_amount); + let mut local_ret = Vec::new(); for mut item in ret.into_rust().drain(..) { local_ret.push( { let (mut orig_ret_0_0, mut orig_ret_0_1, mut orig_ret_0_2) = item.to_rust(); let mut local_orig_ret_0_1 = if orig_ret_0_1.inner.is_null() { None } else { Some( { *unsafe { Box::from_raw(orig_ret_0_1.take_inner()) } }) }; let mut local_orig_ret_0_2 = if orig_ret_0_2.inner.is_null() { None } else { Some( { *unsafe { Box::from_raw(orig_ret_0_2.take_inner()) } }) }; let mut local_ret_0 = (*unsafe { Box::from_raw(orig_ret_0_0.take_inner()) }, local_orig_ret_0_1, local_orig_ret_0_2); local_ret_0 }); }; + local_ret + } + fn get_next_node_announcements(&self, starting_point: Option<&bitcoin::secp256k1::key::PublicKey>, batch_amount: u8) -> Vec { + let mut local_starting_point = if starting_point.is_none() { crate::c_types::PublicKey::null() } else { { crate::c_types::PublicKey::from_rust(&(starting_point.unwrap())) } }; + let mut ret = (self.get_next_node_announcements)(self.this_arg, local_starting_point, batch_amount); + let mut local_ret = Vec::new(); for mut item in ret.into_rust().drain(..) { local_ret.push( { *unsafe { Box::from_raw(item.take_inner()) } }); }; + local_ret + } + fn sync_routing_table(&self, their_node_id: &bitcoin::secp256k1::key::PublicKey, init: &lightning::ln::msgs::Init) { + (self.sync_routing_table)(self.this_arg, crate::c_types::PublicKey::from_rust(&their_node_id), &crate::ln::msgs::Init { inner: unsafe { (init as *const _) as *mut _ }, is_owned: false }) + } + fn handle_reply_channel_range(&self, their_node_id: &bitcoin::secp256k1::key::PublicKey, msg: lightning::ln::msgs::ReplyChannelRange) -> Result<(), lightning::ln::msgs::LightningError> { + let mut ret = (self.handle_reply_channel_range)(self.this_arg, crate::c_types::PublicKey::from_rust(&their_node_id), crate::ln::msgs::ReplyChannelRange { inner: Box::into_raw(Box::new(msg)), is_owned: true }); + let mut local_ret = match ret.result_ok { true => Ok( { () /*(*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.result)) })*/ }), false => Err( { *unsafe { Box::from_raw((*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.err)) }).take_inner()) } })}; + local_ret + } + fn handle_reply_short_channel_ids_end(&self, their_node_id: &bitcoin::secp256k1::key::PublicKey, msg: lightning::ln::msgs::ReplyShortChannelIdsEnd) -> Result<(), lightning::ln::msgs::LightningError> { + let mut ret = (self.handle_reply_short_channel_ids_end)(self.this_arg, crate::c_types::PublicKey::from_rust(&their_node_id), crate::ln::msgs::ReplyShortChannelIdsEnd { inner: Box::into_raw(Box::new(msg)), is_owned: true }); + let mut local_ret = match ret.result_ok { true => Ok( { () /*(*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.result)) })*/ }), false => Err( { *unsafe { Box::from_raw((*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.err)) }).take_inner()) } })}; + local_ret + } + fn handle_query_channel_range(&self, their_node_id: &bitcoin::secp256k1::key::PublicKey, msg: lightning::ln::msgs::QueryChannelRange) -> Result<(), lightning::ln::msgs::LightningError> { + let mut ret = (self.handle_query_channel_range)(self.this_arg, crate::c_types::PublicKey::from_rust(&their_node_id), crate::ln::msgs::QueryChannelRange { inner: Box::into_raw(Box::new(msg)), is_owned: true }); + let mut local_ret = match ret.result_ok { true => Ok( { () /*(*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.result)) })*/ }), false => Err( { *unsafe { Box::from_raw((*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.err)) }).take_inner()) } })}; + local_ret + } + fn handle_query_short_channel_ids(&self, their_node_id: &bitcoin::secp256k1::key::PublicKey, msg: lightning::ln::msgs::QueryShortChannelIds) -> Result<(), lightning::ln::msgs::LightningError> { + let mut ret = (self.handle_query_short_channel_ids)(self.this_arg, crate::c_types::PublicKey::from_rust(&their_node_id), crate::ln::msgs::QueryShortChannelIds { inner: Box::into_raw(Box::new(msg)), is_owned: true }); + let mut local_ret = match ret.result_ok { true => Ok( { () /*(*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.result)) })*/ }), false => Err( { *unsafe { Box::from_raw((*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.err)) }).take_inner()) } })}; + local_ret + } +} + +// We're essentially a pointer already, or at least a set of pointers, so allow us to be used +// directly as a Deref trait in higher-level structs: +impl std::ops::Deref for RoutingMessageHandler { + type Target = Self; + fn deref(&self) -> &Self { + self + } +} +/// Calls the free function if one is set +#[no_mangle] +pub extern "C" fn RoutingMessageHandler_free(this_ptr: RoutingMessageHandler) { } +impl Drop for RoutingMessageHandler { + fn drop(&mut self) { + if let Some(f) = self.free { + f(self.this_arg); + } + } +} +#[no_mangle] +pub extern "C" fn AcceptChannel_write(obj: &AcceptChannel) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn AcceptChannel_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeAcceptChannel) }) +} +#[no_mangle] +pub extern "C" fn AcceptChannel_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_AcceptChannelDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::AcceptChannel { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn AnnouncementSignatures_write(obj: &AnnouncementSignatures) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn AnnouncementSignatures_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeAnnouncementSignatures) }) +} +#[no_mangle] +pub extern "C" fn AnnouncementSignatures_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_AnnouncementSignaturesDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::AnnouncementSignatures { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn ChannelReestablish_write(obj: &ChannelReestablish) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn ChannelReestablish_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeChannelReestablish) }) +} +#[no_mangle] +pub extern "C" fn ChannelReestablish_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_ChannelReestablishDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::ChannelReestablish { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn ClosingSigned_write(obj: &ClosingSigned) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn ClosingSigned_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeClosingSigned) }) +} +#[no_mangle] +pub extern "C" fn ClosingSigned_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_ClosingSignedDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::ClosingSigned { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn CommitmentSigned_write(obj: &CommitmentSigned) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn CommitmentSigned_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeCommitmentSigned) }) +} +#[no_mangle] +pub extern "C" fn CommitmentSigned_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_CommitmentSignedDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::CommitmentSigned { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn FundingCreated_write(obj: &FundingCreated) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn FundingCreated_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeFundingCreated) }) +} +#[no_mangle] +pub extern "C" fn FundingCreated_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_FundingCreatedDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::FundingCreated { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn FundingSigned_write(obj: &FundingSigned) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn FundingSigned_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeFundingSigned) }) +} +#[no_mangle] +pub extern "C" fn FundingSigned_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_FundingSignedDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::FundingSigned { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn FundingLocked_write(obj: &FundingLocked) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn FundingLocked_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeFundingLocked) }) +} +#[no_mangle] +pub extern "C" fn FundingLocked_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_FundingLockedDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::FundingLocked { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn Init_write(obj: &Init) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn Init_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeInit) }) +} +#[no_mangle] +pub extern "C" fn Init_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_InitDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::Init { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn OpenChannel_write(obj: &OpenChannel) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn OpenChannel_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeOpenChannel) }) +} +#[no_mangle] +pub extern "C" fn OpenChannel_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_OpenChannelDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::OpenChannel { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn RevokeAndACK_write(obj: &RevokeAndACK) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn RevokeAndACK_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeRevokeAndACK) }) +} +#[no_mangle] +pub extern "C" fn RevokeAndACK_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_RevokeAndACKDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::RevokeAndACK { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn Shutdown_write(obj: &Shutdown) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn Shutdown_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeShutdown) }) +} +#[no_mangle] +pub extern "C" fn Shutdown_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_ShutdownDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::Shutdown { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn UpdateFailHTLC_write(obj: &UpdateFailHTLC) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn UpdateFailHTLC_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeUpdateFailHTLC) }) +} +#[no_mangle] +pub extern "C" fn UpdateFailHTLC_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_UpdateFailHTLCDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::UpdateFailHTLC { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn UpdateFailMalformedHTLC_write(obj: &UpdateFailMalformedHTLC) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn UpdateFailMalformedHTLC_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeUpdateFailMalformedHTLC) }) +} +#[no_mangle] +pub extern "C" fn UpdateFailMalformedHTLC_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_UpdateFailMalformedHTLCDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::UpdateFailMalformedHTLC { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn UpdateFee_write(obj: &UpdateFee) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn UpdateFee_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeUpdateFee) }) +} +#[no_mangle] +pub extern "C" fn UpdateFee_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_UpdateFeeDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::UpdateFee { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn UpdateFulfillHTLC_write(obj: &UpdateFulfillHTLC) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn UpdateFulfillHTLC_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeUpdateFulfillHTLC) }) +} +#[no_mangle] +pub extern "C" fn UpdateFulfillHTLC_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_UpdateFulfillHTLCDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::UpdateFulfillHTLC { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn UpdateAddHTLC_write(obj: &UpdateAddHTLC) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn UpdateAddHTLC_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeUpdateAddHTLC) }) +} +#[no_mangle] +pub extern "C" fn UpdateAddHTLC_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_UpdateAddHTLCDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::UpdateAddHTLC { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn Ping_write(obj: &Ping) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn Ping_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativePing) }) +} +#[no_mangle] +pub extern "C" fn Ping_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_PingDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::Ping { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn Pong_write(obj: &Pong) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn Pong_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativePong) }) +} +#[no_mangle] +pub extern "C" fn Pong_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_PongDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::Pong { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn UnsignedChannelAnnouncement_write(obj: &UnsignedChannelAnnouncement) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn UnsignedChannelAnnouncement_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeUnsignedChannelAnnouncement) }) +} +#[no_mangle] +pub extern "C" fn UnsignedChannelAnnouncement_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_UnsignedChannelAnnouncementDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::UnsignedChannelAnnouncement { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn ChannelAnnouncement_write(obj: &ChannelAnnouncement) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn ChannelAnnouncement_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeChannelAnnouncement) }) +} +#[no_mangle] +pub extern "C" fn ChannelAnnouncement_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_ChannelAnnouncementDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::ChannelAnnouncement { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn UnsignedChannelUpdate_write(obj: &UnsignedChannelUpdate) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn UnsignedChannelUpdate_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeUnsignedChannelUpdate) }) +} +#[no_mangle] +pub extern "C" fn UnsignedChannelUpdate_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_UnsignedChannelUpdateDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::UnsignedChannelUpdate { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn ChannelUpdate_write(obj: &ChannelUpdate) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn ChannelUpdate_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeChannelUpdate) }) +} +#[no_mangle] +pub extern "C" fn ChannelUpdate_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_ChannelUpdateDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::ChannelUpdate { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn ErrorMessage_write(obj: &ErrorMessage) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn ErrorMessage_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeErrorMessage) }) +} +#[no_mangle] +pub extern "C" fn ErrorMessage_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_ErrorMessageDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::ErrorMessage { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn UnsignedNodeAnnouncement_write(obj: &UnsignedNodeAnnouncement) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn UnsignedNodeAnnouncement_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeUnsignedNodeAnnouncement) }) +} +#[no_mangle] +pub extern "C" fn UnsignedNodeAnnouncement_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_UnsignedNodeAnnouncementDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::UnsignedNodeAnnouncement { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn NodeAnnouncement_write(obj: &NodeAnnouncement) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn NodeAnnouncement_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeNodeAnnouncement) }) +} +#[no_mangle] +pub extern "C" fn NodeAnnouncement_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_NodeAnnouncementDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::NodeAnnouncement { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn QueryShortChannelIds_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_QueryShortChannelIdsDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::QueryShortChannelIds { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn QueryShortChannelIds_write(obj: &QueryShortChannelIds) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn QueryShortChannelIds_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeQueryShortChannelIds) }) +} +#[no_mangle] +pub extern "C" fn ReplyShortChannelIdsEnd_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_ReplyShortChannelIdsEndDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::ReplyShortChannelIdsEnd { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn ReplyShortChannelIdsEnd_write(obj: &ReplyShortChannelIdsEnd) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn ReplyShortChannelIdsEnd_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeReplyShortChannelIdsEnd) }) +} +#[no_mangle] +pub extern "C" fn QueryChannelRange_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_QueryChannelRangeDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::QueryChannelRange { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn QueryChannelRange_write(obj: &QueryChannelRange) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn QueryChannelRange_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeQueryChannelRange) }) +} +#[no_mangle] +pub extern "C" fn ReplyChannelRange_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_ReplyChannelRangeDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::ReplyChannelRange { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn ReplyChannelRange_write(obj: &ReplyChannelRange) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn ReplyChannelRange_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeReplyChannelRange) }) +} +#[no_mangle] +pub extern "C" fn GossipTimestampFilter_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_GossipTimestampFilterDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::ln::msgs::GossipTimestampFilter { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn GossipTimestampFilter_write(obj: &GossipTimestampFilter) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn GossipTimestampFilter_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeGossipTimestampFilter) }) +} diff --git a/lightning-c-bindings/src/ln/peer_handler.rs b/lightning-c-bindings/src/ln/peer_handler.rs new file mode 100644 index 0000000..96966a8 --- /dev/null +++ b/lightning-c-bindings/src/ln/peer_handler.rs @@ -0,0 +1,790 @@ +//! Top level peer message handling and socket handling logic lives here. +//! +//! Instead of actually servicing sockets ourselves we require that you implement the +//! SocketDescriptor interface and use that to receive actions which you should perform on the +//! socket, and call into PeerManager with bytes read from the socket. The PeerManager will then +//! call into the provided message handlers (probably a ChannelManager and NetGraphmsgHandler) with messages +//! they should handle, and encoding/sending response messages. + +use std::ffi::c_void; +use bitcoin::hashes::Hash; +use crate::c_types::*; + + +use lightning::ln::peer_handler::IgnoringMessageHandler as nativeIgnoringMessageHandlerImport; +type nativeIgnoringMessageHandler = nativeIgnoringMessageHandlerImport; + +/// A dummy struct which implements `RoutingMessageHandler` without storing any routing information +/// or doing any processing. You can provide one of these as the route_handler in a MessageHandler. +#[must_use] +#[repr(C)] +pub struct IgnoringMessageHandler { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeIgnoringMessageHandler, + pub is_owned: bool, +} + +impl Drop for IgnoringMessageHandler { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeIgnoringMessageHandler>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn IgnoringMessageHandler_free(this_ptr: IgnoringMessageHandler) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn IgnoringMessageHandler_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeIgnoringMessageHandler); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl IgnoringMessageHandler { + pub(crate) fn take_inner(mut self) -> *mut nativeIgnoringMessageHandler { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +#[must_use] +#[no_mangle] +pub extern "C" fn IgnoringMessageHandler_new() -> IgnoringMessageHandler { + IgnoringMessageHandler { inner: Box::into_raw(Box::new(nativeIgnoringMessageHandler { + })), is_owned: true } +} +impl From for crate::util::events::MessageSendEventsProvider { + fn from(obj: nativeIgnoringMessageHandler) -> Self { + let mut rust_obj = IgnoringMessageHandler { inner: Box::into_raw(Box::new(obj)), is_owned: true }; + let mut ret = IgnoringMessageHandler_as_MessageSendEventsProvider(&rust_obj); + // We want to free rust_obj when ret gets drop()'d, not rust_obj, so wipe rust_obj's pointer and set ret's free() fn + rust_obj.inner = std::ptr::null_mut(); + ret.free = Some(IgnoringMessageHandler_free_void); + ret + } +} +#[no_mangle] +pub extern "C" fn IgnoringMessageHandler_as_MessageSendEventsProvider(this_arg: &IgnoringMessageHandler) -> crate::util::events::MessageSendEventsProvider { + crate::util::events::MessageSendEventsProvider { + this_arg: unsafe { (*this_arg).inner as *mut c_void }, + free: None, + get_and_clear_pending_msg_events: IgnoringMessageHandler_MessageSendEventsProvider_get_and_clear_pending_msg_events, + } +} + +#[must_use] +extern "C" fn IgnoringMessageHandler_MessageSendEventsProvider_get_and_clear_pending_msg_events(this_arg: *const c_void) -> crate::c_types::derived::CVec_MessageSendEventZ { + let mut ret = >::get_and_clear_pending_msg_events(unsafe { &mut *(this_arg as *mut nativeIgnoringMessageHandler) }, ); + let mut local_ret = Vec::new(); for mut item in ret.drain(..) { local_ret.push( { crate::util::events::MessageSendEvent::native_into(item) }); }; + local_ret.into() +} + +impl From for crate::ln::msgs::RoutingMessageHandler { + fn from(obj: nativeIgnoringMessageHandler) -> Self { + let mut rust_obj = IgnoringMessageHandler { inner: Box::into_raw(Box::new(obj)), is_owned: true }; + let mut ret = IgnoringMessageHandler_as_RoutingMessageHandler(&rust_obj); + // We want to free rust_obj when ret gets drop()'d, not rust_obj, so wipe rust_obj's pointer and set ret's free() fn + rust_obj.inner = std::ptr::null_mut(); + ret.free = Some(IgnoringMessageHandler_free_void); + ret + } +} +#[no_mangle] +pub extern "C" fn IgnoringMessageHandler_as_RoutingMessageHandler(this_arg: &IgnoringMessageHandler) -> crate::ln::msgs::RoutingMessageHandler { + crate::ln::msgs::RoutingMessageHandler { + this_arg: unsafe { (*this_arg).inner as *mut c_void }, + free: None, + handle_node_announcement: IgnoringMessageHandler_RoutingMessageHandler_handle_node_announcement, + handle_channel_announcement: IgnoringMessageHandler_RoutingMessageHandler_handle_channel_announcement, + handle_channel_update: IgnoringMessageHandler_RoutingMessageHandler_handle_channel_update, + handle_htlc_fail_channel_update: IgnoringMessageHandler_RoutingMessageHandler_handle_htlc_fail_channel_update, + get_next_channel_announcements: IgnoringMessageHandler_RoutingMessageHandler_get_next_channel_announcements, + get_next_node_announcements: IgnoringMessageHandler_RoutingMessageHandler_get_next_node_announcements, + sync_routing_table: IgnoringMessageHandler_RoutingMessageHandler_sync_routing_table, + handle_reply_channel_range: IgnoringMessageHandler_RoutingMessageHandler_handle_reply_channel_range, + handle_reply_short_channel_ids_end: IgnoringMessageHandler_RoutingMessageHandler_handle_reply_short_channel_ids_end, + handle_query_channel_range: IgnoringMessageHandler_RoutingMessageHandler_handle_query_channel_range, + handle_query_short_channel_ids: IgnoringMessageHandler_RoutingMessageHandler_handle_query_short_channel_ids, + MessageSendEventsProvider: crate::util::events::MessageSendEventsProvider { + this_arg: unsafe { (*this_arg).inner as *mut c_void }, + free: None, + get_and_clear_pending_msg_events: IgnoringMessageHandler_RoutingMessageHandler_get_and_clear_pending_msg_events, + }, + } +} + +#[must_use] +extern "C" fn IgnoringMessageHandler_RoutingMessageHandler_handle_node_announcement(this_arg: *const c_void, _msg: &crate::ln::msgs::NodeAnnouncement) -> crate::c_types::derived::CResult_boolLightningErrorZ { + let mut ret = >::handle_node_announcement(unsafe { &mut *(this_arg as *mut nativeIgnoringMessageHandler) }, unsafe { &*_msg.inner }); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { o }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::LightningError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} +#[must_use] +extern "C" fn IgnoringMessageHandler_RoutingMessageHandler_handle_channel_announcement(this_arg: *const c_void, _msg: &crate::ln::msgs::ChannelAnnouncement) -> crate::c_types::derived::CResult_boolLightningErrorZ { + let mut ret = >::handle_channel_announcement(unsafe { &mut *(this_arg as *mut nativeIgnoringMessageHandler) }, unsafe { &*_msg.inner }); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { o }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::LightningError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} +#[must_use] +extern "C" fn IgnoringMessageHandler_RoutingMessageHandler_handle_channel_update(this_arg: *const c_void, _msg: &crate::ln::msgs::ChannelUpdate) -> crate::c_types::derived::CResult_boolLightningErrorZ { + let mut ret = >::handle_channel_update(unsafe { &mut *(this_arg as *mut nativeIgnoringMessageHandler) }, unsafe { &*_msg.inner }); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { o }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::LightningError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} +extern "C" fn IgnoringMessageHandler_RoutingMessageHandler_handle_htlc_fail_channel_update(this_arg: *const c_void, _update: &crate::ln::msgs::HTLCFailChannelUpdate) { + >::handle_htlc_fail_channel_update(unsafe { &mut *(this_arg as *mut nativeIgnoringMessageHandler) }, &_update.to_native()) +} +#[must_use] +extern "C" fn IgnoringMessageHandler_RoutingMessageHandler_get_next_channel_announcements(this_arg: *const c_void, mut _starting_point: u64, mut _batch_amount: u8) -> crate::c_types::derived::CVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ { + let mut ret = >::get_next_channel_announcements(unsafe { &mut *(this_arg as *mut nativeIgnoringMessageHandler) }, _starting_point, _batch_amount); + let mut local_ret = Vec::new(); for mut item in ret.drain(..) { local_ret.push( { let (mut orig_ret_0_0, mut orig_ret_0_1, mut orig_ret_0_2) = item; let mut local_orig_ret_0_1 = crate::ln::msgs::ChannelUpdate { inner: if orig_ret_0_1.is_none() { std::ptr::null_mut() } else { { Box::into_raw(Box::new((orig_ret_0_1.unwrap()))) } }, is_owned: true }; let mut local_orig_ret_0_2 = crate::ln::msgs::ChannelUpdate { inner: if orig_ret_0_2.is_none() { std::ptr::null_mut() } else { { Box::into_raw(Box::new((orig_ret_0_2.unwrap()))) } }, is_owned: true }; let mut local_ret_0 = (crate::ln::msgs::ChannelAnnouncement { inner: Box::into_raw(Box::new(orig_ret_0_0)), is_owned: true }, local_orig_ret_0_1, local_orig_ret_0_2).into(); local_ret_0 }); }; + local_ret.into() +} +#[must_use] +extern "C" fn IgnoringMessageHandler_RoutingMessageHandler_get_next_node_announcements(this_arg: *const c_void, mut _starting_point: crate::c_types::PublicKey, mut _batch_amount: u8) -> crate::c_types::derived::CVec_NodeAnnouncementZ { + let mut local__starting_point_base = if _starting_point.is_null() { None } else { Some( { _starting_point.into_rust() }) }; let mut local__starting_point = local__starting_point_base.as_ref(); + let mut ret = >::get_next_node_announcements(unsafe { &mut *(this_arg as *mut nativeIgnoringMessageHandler) }, local__starting_point, _batch_amount); + let mut local_ret = Vec::new(); for mut item in ret.drain(..) { local_ret.push( { crate::ln::msgs::NodeAnnouncement { inner: Box::into_raw(Box::new(item)), is_owned: true } }); }; + local_ret.into() +} +extern "C" fn IgnoringMessageHandler_RoutingMessageHandler_sync_routing_table(this_arg: *const c_void, mut _their_node_id: crate::c_types::PublicKey, _init: &crate::ln::msgs::Init) { + >::sync_routing_table(unsafe { &mut *(this_arg as *mut nativeIgnoringMessageHandler) }, &_their_node_id.into_rust(), unsafe { &*_init.inner }) +} +#[must_use] +extern "C" fn IgnoringMessageHandler_RoutingMessageHandler_handle_reply_channel_range(this_arg: *const c_void, mut _their_node_id: crate::c_types::PublicKey, mut _msg: crate::ln::msgs::ReplyChannelRange) -> crate::c_types::derived::CResult_NoneLightningErrorZ { + let mut ret = >::handle_reply_channel_range(unsafe { &mut *(this_arg as *mut nativeIgnoringMessageHandler) }, &_their_node_id.into_rust(), *unsafe { Box::from_raw(_msg.take_inner()) }); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::LightningError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} +#[must_use] +extern "C" fn IgnoringMessageHandler_RoutingMessageHandler_handle_reply_short_channel_ids_end(this_arg: *const c_void, mut _their_node_id: crate::c_types::PublicKey, mut _msg: crate::ln::msgs::ReplyShortChannelIdsEnd) -> crate::c_types::derived::CResult_NoneLightningErrorZ { + let mut ret = >::handle_reply_short_channel_ids_end(unsafe { &mut *(this_arg as *mut nativeIgnoringMessageHandler) }, &_their_node_id.into_rust(), *unsafe { Box::from_raw(_msg.take_inner()) }); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::LightningError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} +#[must_use] +extern "C" fn IgnoringMessageHandler_RoutingMessageHandler_handle_query_channel_range(this_arg: *const c_void, mut _their_node_id: crate::c_types::PublicKey, mut _msg: crate::ln::msgs::QueryChannelRange) -> crate::c_types::derived::CResult_NoneLightningErrorZ { + let mut ret = >::handle_query_channel_range(unsafe { &mut *(this_arg as *mut nativeIgnoringMessageHandler) }, &_their_node_id.into_rust(), *unsafe { Box::from_raw(_msg.take_inner()) }); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::LightningError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} +#[must_use] +extern "C" fn IgnoringMessageHandler_RoutingMessageHandler_handle_query_short_channel_ids(this_arg: *const c_void, mut _their_node_id: crate::c_types::PublicKey, mut _msg: crate::ln::msgs::QueryShortChannelIds) -> crate::c_types::derived::CResult_NoneLightningErrorZ { + let mut ret = >::handle_query_short_channel_ids(unsafe { &mut *(this_arg as *mut nativeIgnoringMessageHandler) }, &_their_node_id.into_rust(), *unsafe { Box::from_raw(_msg.take_inner()) }); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::LightningError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} +#[must_use] +extern "C" fn IgnoringMessageHandler_RoutingMessageHandler_get_and_clear_pending_msg_events(this_arg: *const c_void) -> crate::c_types::derived::CVec_MessageSendEventZ { + let mut ret = >::get_and_clear_pending_msg_events(unsafe { &mut *(this_arg as *mut nativeIgnoringMessageHandler) }, ); + let mut local_ret = Vec::new(); for mut item in ret.drain(..) { local_ret.push( { crate::util::events::MessageSendEvent::native_into(item) }); }; + local_ret.into() +} + + +use lightning::ln::peer_handler::ErroringMessageHandler as nativeErroringMessageHandlerImport; +type nativeErroringMessageHandler = nativeErroringMessageHandlerImport; + +/// A dummy struct which implements `ChannelMessageHandler` without having any channels. +/// You can provide one of these as the route_handler in a MessageHandler. +#[must_use] +#[repr(C)] +pub struct ErroringMessageHandler { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeErroringMessageHandler, + pub is_owned: bool, +} + +impl Drop for ErroringMessageHandler { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeErroringMessageHandler>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn ErroringMessageHandler_free(this_ptr: ErroringMessageHandler) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn ErroringMessageHandler_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeErroringMessageHandler); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl ErroringMessageHandler { + pub(crate) fn take_inner(mut self) -> *mut nativeErroringMessageHandler { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// Constructs a new ErroringMessageHandler +#[must_use] +#[no_mangle] +pub extern "C" fn ErroringMessageHandler_new() -> ErroringMessageHandler { + let mut ret = lightning::ln::peer_handler::ErroringMessageHandler::new(); + ErroringMessageHandler { inner: Box::into_raw(Box::new(ret)), is_owned: true } +} + +impl From for crate::util::events::MessageSendEventsProvider { + fn from(obj: nativeErroringMessageHandler) -> Self { + let mut rust_obj = ErroringMessageHandler { inner: Box::into_raw(Box::new(obj)), is_owned: true }; + let mut ret = ErroringMessageHandler_as_MessageSendEventsProvider(&rust_obj); + // We want to free rust_obj when ret gets drop()'d, not rust_obj, so wipe rust_obj's pointer and set ret's free() fn + rust_obj.inner = std::ptr::null_mut(); + ret.free = Some(ErroringMessageHandler_free_void); + ret + } +} +#[no_mangle] +pub extern "C" fn ErroringMessageHandler_as_MessageSendEventsProvider(this_arg: &ErroringMessageHandler) -> crate::util::events::MessageSendEventsProvider { + crate::util::events::MessageSendEventsProvider { + this_arg: unsafe { (*this_arg).inner as *mut c_void }, + free: None, + get_and_clear_pending_msg_events: ErroringMessageHandler_MessageSendEventsProvider_get_and_clear_pending_msg_events, + } +} + +#[must_use] +extern "C" fn ErroringMessageHandler_MessageSendEventsProvider_get_and_clear_pending_msg_events(this_arg: *const c_void) -> crate::c_types::derived::CVec_MessageSendEventZ { + let mut ret = >::get_and_clear_pending_msg_events(unsafe { &mut *(this_arg as *mut nativeErroringMessageHandler) }, ); + let mut local_ret = Vec::new(); for mut item in ret.drain(..) { local_ret.push( { crate::util::events::MessageSendEvent::native_into(item) }); }; + local_ret.into() +} + +impl From for crate::ln::msgs::ChannelMessageHandler { + fn from(obj: nativeErroringMessageHandler) -> Self { + let mut rust_obj = ErroringMessageHandler { inner: Box::into_raw(Box::new(obj)), is_owned: true }; + let mut ret = ErroringMessageHandler_as_ChannelMessageHandler(&rust_obj); + // We want to free rust_obj when ret gets drop()'d, not rust_obj, so wipe rust_obj's pointer and set ret's free() fn + rust_obj.inner = std::ptr::null_mut(); + ret.free = Some(ErroringMessageHandler_free_void); + ret + } +} +#[no_mangle] +pub extern "C" fn ErroringMessageHandler_as_ChannelMessageHandler(this_arg: &ErroringMessageHandler) -> crate::ln::msgs::ChannelMessageHandler { + crate::ln::msgs::ChannelMessageHandler { + this_arg: unsafe { (*this_arg).inner as *mut c_void }, + free: None, + handle_open_channel: ErroringMessageHandler_ChannelMessageHandler_handle_open_channel, + handle_accept_channel: ErroringMessageHandler_ChannelMessageHandler_handle_accept_channel, + handle_funding_created: ErroringMessageHandler_ChannelMessageHandler_handle_funding_created, + handle_funding_signed: ErroringMessageHandler_ChannelMessageHandler_handle_funding_signed, + handle_funding_locked: ErroringMessageHandler_ChannelMessageHandler_handle_funding_locked, + handle_shutdown: ErroringMessageHandler_ChannelMessageHandler_handle_shutdown, + handle_closing_signed: ErroringMessageHandler_ChannelMessageHandler_handle_closing_signed, + handle_update_add_htlc: ErroringMessageHandler_ChannelMessageHandler_handle_update_add_htlc, + handle_update_fulfill_htlc: ErroringMessageHandler_ChannelMessageHandler_handle_update_fulfill_htlc, + handle_update_fail_htlc: ErroringMessageHandler_ChannelMessageHandler_handle_update_fail_htlc, + handle_update_fail_malformed_htlc: ErroringMessageHandler_ChannelMessageHandler_handle_update_fail_malformed_htlc, + handle_commitment_signed: ErroringMessageHandler_ChannelMessageHandler_handle_commitment_signed, + handle_revoke_and_ack: ErroringMessageHandler_ChannelMessageHandler_handle_revoke_and_ack, + handle_update_fee: ErroringMessageHandler_ChannelMessageHandler_handle_update_fee, + handle_announcement_signatures: ErroringMessageHandler_ChannelMessageHandler_handle_announcement_signatures, + peer_disconnected: ErroringMessageHandler_ChannelMessageHandler_peer_disconnected, + peer_connected: ErroringMessageHandler_ChannelMessageHandler_peer_connected, + handle_channel_reestablish: ErroringMessageHandler_ChannelMessageHandler_handle_channel_reestablish, + handle_error: ErroringMessageHandler_ChannelMessageHandler_handle_error, + MessageSendEventsProvider: crate::util::events::MessageSendEventsProvider { + this_arg: unsafe { (*this_arg).inner as *mut c_void }, + free: None, + get_and_clear_pending_msg_events: ErroringMessageHandler_ChannelMessageHandler_get_and_clear_pending_msg_events, + }, + } +} + +extern "C" fn ErroringMessageHandler_ChannelMessageHandler_handle_open_channel(this_arg: *const c_void, mut their_node_id: crate::c_types::PublicKey, mut _their_features: crate::ln::features::InitFeatures, msg: &crate::ln::msgs::OpenChannel) { + >::handle_open_channel(unsafe { &mut *(this_arg as *mut nativeErroringMessageHandler) }, &their_node_id.into_rust(), *unsafe { Box::from_raw(_their_features.take_inner()) }, unsafe { &*msg.inner }) +} +extern "C" fn ErroringMessageHandler_ChannelMessageHandler_handle_accept_channel(this_arg: *const c_void, mut their_node_id: crate::c_types::PublicKey, mut _their_features: crate::ln::features::InitFeatures, msg: &crate::ln::msgs::AcceptChannel) { + >::handle_accept_channel(unsafe { &mut *(this_arg as *mut nativeErroringMessageHandler) }, &their_node_id.into_rust(), *unsafe { Box::from_raw(_their_features.take_inner()) }, unsafe { &*msg.inner }) +} +extern "C" fn ErroringMessageHandler_ChannelMessageHandler_handle_funding_created(this_arg: *const c_void, mut their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::FundingCreated) { + >::handle_funding_created(unsafe { &mut *(this_arg as *mut nativeErroringMessageHandler) }, &their_node_id.into_rust(), unsafe { &*msg.inner }) +} +extern "C" fn ErroringMessageHandler_ChannelMessageHandler_handle_funding_signed(this_arg: *const c_void, mut their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::FundingSigned) { + >::handle_funding_signed(unsafe { &mut *(this_arg as *mut nativeErroringMessageHandler) }, &their_node_id.into_rust(), unsafe { &*msg.inner }) +} +extern "C" fn ErroringMessageHandler_ChannelMessageHandler_handle_funding_locked(this_arg: *const c_void, mut their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::FundingLocked) { + >::handle_funding_locked(unsafe { &mut *(this_arg as *mut nativeErroringMessageHandler) }, &their_node_id.into_rust(), unsafe { &*msg.inner }) +} +extern "C" fn ErroringMessageHandler_ChannelMessageHandler_handle_shutdown(this_arg: *const c_void, mut their_node_id: crate::c_types::PublicKey, _their_features: &crate::ln::features::InitFeatures, msg: &crate::ln::msgs::Shutdown) { + >::handle_shutdown(unsafe { &mut *(this_arg as *mut nativeErroringMessageHandler) }, &their_node_id.into_rust(), unsafe { &*_their_features.inner }, unsafe { &*msg.inner }) +} +extern "C" fn ErroringMessageHandler_ChannelMessageHandler_handle_closing_signed(this_arg: *const c_void, mut their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::ClosingSigned) { + >::handle_closing_signed(unsafe { &mut *(this_arg as *mut nativeErroringMessageHandler) }, &their_node_id.into_rust(), unsafe { &*msg.inner }) +} +extern "C" fn ErroringMessageHandler_ChannelMessageHandler_handle_update_add_htlc(this_arg: *const c_void, mut their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::UpdateAddHTLC) { + >::handle_update_add_htlc(unsafe { &mut *(this_arg as *mut nativeErroringMessageHandler) }, &their_node_id.into_rust(), unsafe { &*msg.inner }) +} +extern "C" fn ErroringMessageHandler_ChannelMessageHandler_handle_update_fulfill_htlc(this_arg: *const c_void, mut their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::UpdateFulfillHTLC) { + >::handle_update_fulfill_htlc(unsafe { &mut *(this_arg as *mut nativeErroringMessageHandler) }, &their_node_id.into_rust(), unsafe { &*msg.inner }) +} +extern "C" fn ErroringMessageHandler_ChannelMessageHandler_handle_update_fail_htlc(this_arg: *const c_void, mut their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::UpdateFailHTLC) { + >::handle_update_fail_htlc(unsafe { &mut *(this_arg as *mut nativeErroringMessageHandler) }, &their_node_id.into_rust(), unsafe { &*msg.inner }) +} +extern "C" fn ErroringMessageHandler_ChannelMessageHandler_handle_update_fail_malformed_htlc(this_arg: *const c_void, mut their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::UpdateFailMalformedHTLC) { + >::handle_update_fail_malformed_htlc(unsafe { &mut *(this_arg as *mut nativeErroringMessageHandler) }, &their_node_id.into_rust(), unsafe { &*msg.inner }) +} +extern "C" fn ErroringMessageHandler_ChannelMessageHandler_handle_commitment_signed(this_arg: *const c_void, mut their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::CommitmentSigned) { + >::handle_commitment_signed(unsafe { &mut *(this_arg as *mut nativeErroringMessageHandler) }, &their_node_id.into_rust(), unsafe { &*msg.inner }) +} +extern "C" fn ErroringMessageHandler_ChannelMessageHandler_handle_revoke_and_ack(this_arg: *const c_void, mut their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::RevokeAndACK) { + >::handle_revoke_and_ack(unsafe { &mut *(this_arg as *mut nativeErroringMessageHandler) }, &their_node_id.into_rust(), unsafe { &*msg.inner }) +} +extern "C" fn ErroringMessageHandler_ChannelMessageHandler_handle_update_fee(this_arg: *const c_void, mut their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::UpdateFee) { + >::handle_update_fee(unsafe { &mut *(this_arg as *mut nativeErroringMessageHandler) }, &their_node_id.into_rust(), unsafe { &*msg.inner }) +} +extern "C" fn ErroringMessageHandler_ChannelMessageHandler_handle_announcement_signatures(this_arg: *const c_void, mut their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::AnnouncementSignatures) { + >::handle_announcement_signatures(unsafe { &mut *(this_arg as *mut nativeErroringMessageHandler) }, &their_node_id.into_rust(), unsafe { &*msg.inner }) +} +extern "C" fn ErroringMessageHandler_ChannelMessageHandler_handle_channel_reestablish(this_arg: *const c_void, mut their_node_id: crate::c_types::PublicKey, msg: &crate::ln::msgs::ChannelReestablish) { + >::handle_channel_reestablish(unsafe { &mut *(this_arg as *mut nativeErroringMessageHandler) }, &their_node_id.into_rust(), unsafe { &*msg.inner }) +} +extern "C" fn ErroringMessageHandler_ChannelMessageHandler_peer_disconnected(this_arg: *const c_void, mut _their_node_id: crate::c_types::PublicKey, mut _no_connection_possible: bool) { + >::peer_disconnected(unsafe { &mut *(this_arg as *mut nativeErroringMessageHandler) }, &_their_node_id.into_rust(), _no_connection_possible) +} +extern "C" fn ErroringMessageHandler_ChannelMessageHandler_peer_connected(this_arg: *const c_void, mut _their_node_id: crate::c_types::PublicKey, _msg: &crate::ln::msgs::Init) { + >::peer_connected(unsafe { &mut *(this_arg as *mut nativeErroringMessageHandler) }, &_their_node_id.into_rust(), unsafe { &*_msg.inner }) +} +extern "C" fn ErroringMessageHandler_ChannelMessageHandler_handle_error(this_arg: *const c_void, mut _their_node_id: crate::c_types::PublicKey, _msg: &crate::ln::msgs::ErrorMessage) { + >::handle_error(unsafe { &mut *(this_arg as *mut nativeErroringMessageHandler) }, &_their_node_id.into_rust(), unsafe { &*_msg.inner }) +} +#[must_use] +extern "C" fn ErroringMessageHandler_ChannelMessageHandler_get_and_clear_pending_msg_events(this_arg: *const c_void) -> crate::c_types::derived::CVec_MessageSendEventZ { + let mut ret = >::get_and_clear_pending_msg_events(unsafe { &mut *(this_arg as *mut nativeErroringMessageHandler) }, ); + let mut local_ret = Vec::new(); for mut item in ret.drain(..) { local_ret.push( { crate::util::events::MessageSendEvent::native_into(item) }); }; + local_ret.into() +} + + +use lightning::ln::peer_handler::MessageHandler as nativeMessageHandlerImport; +type nativeMessageHandler = nativeMessageHandlerImport; + +/// Provides references to trait impls which handle different types of messages. +#[must_use] +#[repr(C)] +pub struct MessageHandler { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeMessageHandler, + pub is_owned: bool, +} + +impl Drop for MessageHandler { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeMessageHandler>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn MessageHandler_free(this_ptr: MessageHandler) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn MessageHandler_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeMessageHandler); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl MessageHandler { + pub(crate) fn take_inner(mut self) -> *mut nativeMessageHandler { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// A message handler which handles messages specific to channels. Usually this is just a +/// ChannelManager object or a ErroringMessageHandler. +#[no_mangle] +pub extern "C" fn MessageHandler_get_chan_handler(this_ptr: &MessageHandler) -> *const crate::ln::msgs::ChannelMessageHandler { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.chan_handler; + &(*inner_val) +} +/// A message handler which handles messages specific to channels. Usually this is just a +/// ChannelManager object or a ErroringMessageHandler. +#[no_mangle] +pub extern "C" fn MessageHandler_set_chan_handler(this_ptr: &mut MessageHandler, mut val: crate::ln::msgs::ChannelMessageHandler) { + unsafe { &mut *this_ptr.inner }.chan_handler = val; +} +/// A message handler which handles messages updating our knowledge of the network channel +/// graph. Usually this is just a NetGraphMsgHandlerMonitor object or an IgnoringMessageHandler. +#[no_mangle] +pub extern "C" fn MessageHandler_get_route_handler(this_ptr: &MessageHandler) -> *const crate::ln::msgs::RoutingMessageHandler { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.route_handler; + &(*inner_val) +} +/// A message handler which handles messages updating our knowledge of the network channel +/// graph. Usually this is just a NetGraphMsgHandlerMonitor object or an IgnoringMessageHandler. +#[no_mangle] +pub extern "C" fn MessageHandler_set_route_handler(this_ptr: &mut MessageHandler, mut val: crate::ln::msgs::RoutingMessageHandler) { + unsafe { &mut *this_ptr.inner }.route_handler = val; +} +#[must_use] +#[no_mangle] +pub extern "C" fn MessageHandler_new(mut chan_handler_arg: crate::ln::msgs::ChannelMessageHandler, mut route_handler_arg: crate::ln::msgs::RoutingMessageHandler) -> MessageHandler { + MessageHandler { inner: Box::into_raw(Box::new(nativeMessageHandler { + chan_handler: chan_handler_arg, + route_handler: route_handler_arg, + })), is_owned: true } +} +/// Provides an object which can be used to send data to and which uniquely identifies a connection +/// to a remote host. You will need to be able to generate multiple of these which meet Eq and +/// implement Hash to meet the PeerManager API. +/// +/// For efficiency, Clone should be relatively cheap for this type. +/// +/// You probably want to just extend an int and put a file descriptor in a struct and implement +/// send_data. Note that if you are using a higher-level net library that may call close() itself, +/// be careful to ensure you don't have races whereby you might register a new connection with an +/// fd which is the same as a previous one which has yet to be removed via +/// PeerManager::socket_disconnected(). +#[repr(C)] +pub struct SocketDescriptor { + pub this_arg: *mut c_void, + /// Attempts to send some data from the given slice to the peer. + /// + /// Returns the amount of data which was sent, possibly 0 if the socket has since disconnected. + /// Note that in the disconnected case, socket_disconnected must still fire and further write + /// attempts may occur until that time. + /// + /// If the returned size is smaller than data.len(), a write_available event must + /// trigger the next time more data can be written. Additionally, until the a send_data event + /// completes fully, no further read_events should trigger on the same peer! + /// + /// If a read_event on this descriptor had previously returned true (indicating that read + /// events should be paused to prevent DoS in the send buffer), resume_read may be set + /// indicating that read events on this descriptor should resume. A resume_read of false does + /// *not* imply that further read events should be paused. + #[must_use] + pub send_data: extern "C" fn (this_arg: *mut c_void, data: crate::c_types::u8slice, resume_read: bool) -> usize, + /// Disconnect the socket pointed to by this SocketDescriptor. Once this function returns, no + /// more calls to write_buffer_space_avail, read_event or socket_disconnected may be made with + /// this descriptor. No socket_disconnected call should be generated as a result of this call, + /// though races may occur whereby disconnect_socket is called after a call to + /// socket_disconnected but prior to socket_disconnected returning. + pub disconnect_socket: extern "C" fn (this_arg: *mut c_void), + pub eq: extern "C" fn (this_arg: *const c_void, other_arg: &SocketDescriptor) -> bool, + pub hash: extern "C" fn (this_arg: *const c_void) -> u64, + pub clone: Option *mut c_void>, + pub free: Option, +} +impl std::cmp::Eq for SocketDescriptor {} +impl std::cmp::PartialEq for SocketDescriptor { + fn eq(&self, o: &Self) -> bool { (self.eq)(self.this_arg, o) } +} +impl std::hash::Hash for SocketDescriptor { + fn hash(&self, hasher: &mut H) { hasher.write_u64((self.hash)(self.this_arg)) } +} +#[no_mangle] +pub extern "C" fn SocketDescriptor_clone(orig: &SocketDescriptor) -> SocketDescriptor { + SocketDescriptor { + this_arg: if let Some(f) = orig.clone { (f)(orig.this_arg) } else { orig.this_arg }, + send_data: orig.send_data.clone(), + disconnect_socket: orig.disconnect_socket.clone(), + eq: orig.eq.clone(), + hash: orig.hash.clone(), + clone: orig.clone.clone(), + free: orig.free.clone(), + } +} +impl Clone for SocketDescriptor { + fn clone(&self) -> Self { + SocketDescriptor_clone(self) + } +} + +use lightning::ln::peer_handler::SocketDescriptor as rustSocketDescriptor; +impl rustSocketDescriptor for SocketDescriptor { + fn send_data(&mut self, data: &[u8], resume_read: bool) -> usize { + let mut local_data = crate::c_types::u8slice::from_slice(data); + let mut ret = (self.send_data)(self.this_arg, local_data, resume_read); + ret + } + fn disconnect_socket(&mut self) { + (self.disconnect_socket)(self.this_arg) + } +} + +// We're essentially a pointer already, or at least a set of pointers, so allow us to be used +// directly as a Deref trait in higher-level structs: +impl std::ops::Deref for SocketDescriptor { + type Target = Self; + fn deref(&self) -> &Self { + self + } +} +/// Calls the free function if one is set +#[no_mangle] +pub extern "C" fn SocketDescriptor_free(this_ptr: SocketDescriptor) { } +impl Drop for SocketDescriptor { + fn drop(&mut self) { + if let Some(f) = self.free { + f(self.this_arg); + } + } +} + +use lightning::ln::peer_handler::PeerHandleError as nativePeerHandleErrorImport; +type nativePeerHandleError = nativePeerHandleErrorImport; + +/// Error for PeerManager errors. If you get one of these, you must disconnect the socket and +/// generate no further read_event/write_buffer_space_avail/socket_disconnected calls for the +/// descriptor. +#[must_use] +#[repr(C)] +pub struct PeerHandleError { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativePeerHandleError, + pub is_owned: bool, +} + +impl Drop for PeerHandleError { + fn drop(&mut self) { + if self.is_owned && !<*mut nativePeerHandleError>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn PeerHandleError_free(this_ptr: PeerHandleError) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn PeerHandleError_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativePeerHandleError); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl PeerHandleError { + pub(crate) fn take_inner(mut self) -> *mut nativePeerHandleError { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// Used to indicate that we probably can't make any future connections to this peer, implying +/// we should go ahead and force-close any channels we have with it. +#[no_mangle] +pub extern "C" fn PeerHandleError_get_no_connection_possible(this_ptr: &PeerHandleError) -> bool { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.no_connection_possible; + (*inner_val) +} +/// Used to indicate that we probably can't make any future connections to this peer, implying +/// we should go ahead and force-close any channels we have with it. +#[no_mangle] +pub extern "C" fn PeerHandleError_set_no_connection_possible(this_ptr: &mut PeerHandleError, mut val: bool) { + unsafe { &mut *this_ptr.inner }.no_connection_possible = val; +} +#[must_use] +#[no_mangle] +pub extern "C" fn PeerHandleError_new(mut no_connection_possible_arg: bool) -> PeerHandleError { + PeerHandleError { inner: Box::into_raw(Box::new(nativePeerHandleError { + no_connection_possible: no_connection_possible_arg, + })), is_owned: true } +} +impl Clone for PeerHandleError { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativePeerHandleError>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn PeerHandleError_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativePeerHandleError)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn PeerHandleError_clone(orig: &PeerHandleError) -> PeerHandleError { + orig.clone() +} + +use lightning::ln::peer_handler::PeerManager as nativePeerManagerImport; +type nativePeerManager = nativePeerManagerImport; + +/// A PeerManager manages a set of peers, described by their SocketDescriptor and marshalls socket +/// events into messages which it passes on to its MessageHandlers. +/// +/// Rather than using a plain PeerManager, it is preferable to use either a SimpleArcPeerManager +/// a SimpleRefPeerManager, for conciseness. See their documentation for more details, but +/// essentially you should default to using a SimpleRefPeerManager, and use a +/// SimpleArcPeerManager when you require a PeerManager with a static lifetime, such as when +/// you're using lightning-net-tokio. +#[must_use] +#[repr(C)] +pub struct PeerManager { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativePeerManager, + pub is_owned: bool, +} + +impl Drop for PeerManager { + fn drop(&mut self) { + if self.is_owned && !<*mut nativePeerManager>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn PeerManager_free(this_ptr: PeerManager) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn PeerManager_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativePeerManager); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl PeerManager { + pub(crate) fn take_inner(mut self) -> *mut nativePeerManager { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// Constructs a new PeerManager with the given message handlers and node_id secret key +/// ephemeral_random_data is used to derive per-connection ephemeral keys and must be +/// cryptographically secure random bytes. +#[must_use] +#[no_mangle] +pub extern "C" fn PeerManager_new(mut message_handler: crate::ln::peer_handler::MessageHandler, mut our_node_secret: crate::c_types::SecretKey, ephemeral_random_data: *const [u8; 32], mut logger: crate::util::logger::Logger) -> PeerManager { + let mut ret = lightning::ln::peer_handler::PeerManager::new(*unsafe { Box::from_raw(message_handler.take_inner()) }, our_node_secret.into_rust(), unsafe { &*ephemeral_random_data}, logger); + PeerManager { inner: Box::into_raw(Box::new(ret)), is_owned: true } +} + +/// Get the list of node ids for peers which have completed the initial handshake. +/// +/// For outbound connections, this will be the same as the their_node_id parameter passed in to +/// new_outbound_connection, however entries will only appear once the initial handshake has +/// completed and we are sure the remote peer has the private key for the given node_id. +#[must_use] +#[no_mangle] +pub extern "C" fn PeerManager_get_peer_node_ids(this_arg: &PeerManager) -> crate::c_types::derived::CVec_PublicKeyZ { + let mut ret = unsafe { &*this_arg.inner }.get_peer_node_ids(); + let mut local_ret = Vec::new(); for mut item in ret.drain(..) { local_ret.push( { crate::c_types::PublicKey::from_rust(&item) }); }; + local_ret.into() +} + +/// Indicates a new outbound connection has been established to a node with the given node_id. +/// Note that if an Err is returned here you MUST NOT call socket_disconnected for the new +/// descriptor but must disconnect the connection immediately. +/// +/// Returns a small number of bytes to send to the remote node (currently always 50). +/// +/// Panics if descriptor is duplicative with some other descriptor which has not yet had a +/// socket_disconnected(). +#[must_use] +#[no_mangle] +pub extern "C" fn PeerManager_new_outbound_connection(this_arg: &PeerManager, mut their_node_id: crate::c_types::PublicKey, mut descriptor: crate::ln::peer_handler::SocketDescriptor) -> crate::c_types::derived::CResult_CVec_u8ZPeerHandleErrorZ { + let mut ret = unsafe { &*this_arg.inner }.new_outbound_connection(their_node_id.into_rust(), descriptor); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { let mut local_ret_0 = Vec::new(); for mut item in o.drain(..) { local_ret_0.push( { item }); }; local_ret_0.into() }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::peer_handler::PeerHandleError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} + +/// Indicates a new inbound connection has been established. +/// +/// May refuse the connection by returning an Err, but will never write bytes to the remote end +/// (outbound connector always speaks first). Note that if an Err is returned here you MUST NOT +/// call socket_disconnected for the new descriptor but must disconnect the connection +/// immediately. +/// +/// Panics if descriptor is duplicative with some other descriptor which has not yet had +/// socket_disconnected called. +#[must_use] +#[no_mangle] +pub extern "C" fn PeerManager_new_inbound_connection(this_arg: &PeerManager, mut descriptor: crate::ln::peer_handler::SocketDescriptor) -> crate::c_types::derived::CResult_NonePeerHandleErrorZ { + let mut ret = unsafe { &*this_arg.inner }.new_inbound_connection(descriptor); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::peer_handler::PeerHandleError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} + +/// Indicates that there is room to write data to the given socket descriptor. +/// +/// May return an Err to indicate that the connection should be closed. +/// +/// Will most likely call send_data on the descriptor passed in (or the descriptor handed into +/// new_*\\_connection) before returning. Thus, be very careful with reentrancy issues! The +/// invariants around calling write_buffer_space_avail in case a write did not fully complete +/// must still hold - be ready to call write_buffer_space_avail again if a write call generated +/// here isn't sufficient! Panics if the descriptor was not previously registered in a +/// new_\\*_connection event. +#[must_use] +#[no_mangle] +pub extern "C" fn PeerManager_write_buffer_space_avail(this_arg: &PeerManager, descriptor: &mut crate::ln::peer_handler::SocketDescriptor) -> crate::c_types::derived::CResult_NonePeerHandleErrorZ { + let mut ret = unsafe { &*this_arg.inner }.write_buffer_space_avail(descriptor); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::peer_handler::PeerHandleError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} + +/// Indicates that data was read from the given socket descriptor. +/// +/// May return an Err to indicate that the connection should be closed. +/// +/// Will *not* call back into send_data on any descriptors to avoid reentrancy complexity. +/// Thus, however, you almost certainly want to call process_events() after any read_event to +/// generate send_data calls to handle responses. +/// +/// If Ok(true) is returned, further read_events should not be triggered until a send_data call +/// on this file descriptor has resume_read set (preventing DoS issues in the send buffer). +/// +/// Panics if the descriptor was not previously registered in a new_*_connection event. +#[must_use] +#[no_mangle] +pub extern "C" fn PeerManager_read_event(this_arg: &PeerManager, peer_descriptor: &mut crate::ln::peer_handler::SocketDescriptor, mut data: crate::c_types::u8slice) -> crate::c_types::derived::CResult_boolPeerHandleErrorZ { + let mut ret = unsafe { &*this_arg.inner }.read_event(peer_descriptor, data.to_slice()); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { o }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::peer_handler::PeerHandleError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} + +/// Checks for any events generated by our handlers and processes them. Includes sending most +/// response messages as well as messages generated by calls to handler functions directly (eg +/// functions like ChannelManager::process_pending_htlc_forward or send_payment). +#[no_mangle] +pub extern "C" fn PeerManager_process_events(this_arg: &PeerManager) { + unsafe { &*this_arg.inner }.process_events() +} + +/// Indicates that the given socket descriptor's connection is now closed. +/// +/// This must only be called if the socket has been disconnected by the peer or your own +/// decision to disconnect it and must NOT be called in any case where other parts of this +/// library (eg PeerHandleError, explicit disconnect_socket calls) instruct you to disconnect +/// the peer. +/// +/// Panics if the descriptor was not previously registered in a successful new_*_connection event. +#[no_mangle] +pub extern "C" fn PeerManager_socket_disconnected(this_arg: &PeerManager, descriptor: &crate::ln::peer_handler::SocketDescriptor) { + unsafe { &*this_arg.inner }.socket_disconnected(descriptor) +} + +/// Disconnect a peer given its node id. +/// +/// Set no_connection_possible to true to prevent any further connection with this peer, +/// force-closing any channels we have with it. +/// +/// If a peer is connected, this will call `disconnect_socket` on the descriptor for the peer, +/// so be careful about reentrancy issues. +#[no_mangle] +pub extern "C" fn PeerManager_disconnect_by_node_id(this_arg: &PeerManager, mut node_id: crate::c_types::PublicKey, mut no_connection_possible: bool) { + unsafe { &*this_arg.inner }.disconnect_by_node_id(node_id.into_rust(), no_connection_possible) +} + +/// This function should be called roughly once every 30 seconds. +/// It will send pings to each peer and disconnect those which did not respond to the last round of pings. +/// Will most likely call send_data on all of the registered descriptors, thus, be very careful with reentrancy issues! +#[no_mangle] +pub extern "C" fn PeerManager_timer_tick_occured(this_arg: &PeerManager) { + unsafe { &*this_arg.inner }.timer_tick_occured() +} + diff --git a/lightning-c-bindings/src/routing/mod.rs b/lightning-c-bindings/src/routing/mod.rs new file mode 100644 index 0000000..4311ff3 --- /dev/null +++ b/lightning-c-bindings/src/routing/mod.rs @@ -0,0 +1,8 @@ +//! Structs and impls for receiving messages about the network and storing the topology live here. + +use std::ffi::c_void; +use bitcoin::hashes::Hash; +use crate::c_types::*; + +pub mod router; +pub mod network_graph; diff --git a/lightning-c-bindings/src/routing/network_graph.rs b/lightning-c-bindings/src/routing/network_graph.rs new file mode 100644 index 0000000..72910e8 --- /dev/null +++ b/lightning-c-bindings/src/routing/network_graph.rs @@ -0,0 +1,1116 @@ +//! The top-level network map tracking logic lives here. + +use std::ffi::c_void; +use bitcoin::hashes::Hash; +use crate::c_types::*; + + +use lightning::routing::network_graph::NetworkGraph as nativeNetworkGraphImport; +type nativeNetworkGraph = nativeNetworkGraphImport; + +/// Represents the network as nodes and channels between them +#[must_use] +#[repr(C)] +pub struct NetworkGraph { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeNetworkGraph, + pub is_owned: bool, +} + +impl Drop for NetworkGraph { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeNetworkGraph>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn NetworkGraph_free(this_ptr: NetworkGraph) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn NetworkGraph_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeNetworkGraph); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl NetworkGraph { + pub(crate) fn take_inner(mut self) -> *mut nativeNetworkGraph { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +impl Clone for NetworkGraph { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeNetworkGraph>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn NetworkGraph_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeNetworkGraph)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn NetworkGraph_clone(orig: &NetworkGraph) -> NetworkGraph { + orig.clone() +} + +use lightning::routing::network_graph::LockedNetworkGraph as nativeLockedNetworkGraphImport; +type nativeLockedNetworkGraph = nativeLockedNetworkGraphImport<'static>; + +/// A simple newtype for RwLockReadGuard<'a, NetworkGraph>. +/// This exists only to make accessing a RwLock possible from +/// the C bindings, as it can be done directly in Rust code. +#[must_use] +#[repr(C)] +pub struct LockedNetworkGraph { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeLockedNetworkGraph, + pub is_owned: bool, +} + +impl Drop for LockedNetworkGraph { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeLockedNetworkGraph>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn LockedNetworkGraph_free(this_ptr: LockedNetworkGraph) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn LockedNetworkGraph_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeLockedNetworkGraph); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl LockedNetworkGraph { + pub(crate) fn take_inner(mut self) -> *mut nativeLockedNetworkGraph { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} + +use lightning::routing::network_graph::NetGraphMsgHandler as nativeNetGraphMsgHandlerImport; +type nativeNetGraphMsgHandler = nativeNetGraphMsgHandlerImport; + +/// Receives and validates network updates from peers, +/// stores authentic and relevant data as a network graph. +/// This network graph is then used for routing payments. +/// Provides interface to help with initial routing sync by +/// serving historical announcements. +#[must_use] +#[repr(C)] +pub struct NetGraphMsgHandler { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeNetGraphMsgHandler, + pub is_owned: bool, +} + +impl Drop for NetGraphMsgHandler { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeNetGraphMsgHandler>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn NetGraphMsgHandler_free(this_ptr: NetGraphMsgHandler) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn NetGraphMsgHandler_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeNetGraphMsgHandler); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl NetGraphMsgHandler { + pub(crate) fn take_inner(mut self) -> *mut nativeNetGraphMsgHandler { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// Creates a new tracker of the actual state of the network of channels and nodes, +/// assuming a fresh network graph. +/// Chain monitor is used to make sure announced channels exist on-chain, +/// channel data is correct, and that the announcement is signed with +/// channel owners' keys. +#[must_use] +#[no_mangle] +pub extern "C" fn NetGraphMsgHandler_new(mut genesis_hash: crate::c_types::ThirtyTwoBytes, chain_access: *mut crate::chain::Access, mut logger: crate::util::logger::Logger) -> NetGraphMsgHandler { + let mut local_chain_access = if chain_access == std::ptr::null_mut() { None } else { Some( { unsafe { *Box::from_raw(chain_access) } }) }; + let mut ret = lightning::routing::network_graph::NetGraphMsgHandler::new(::bitcoin::hash_types::BlockHash::from_slice(&genesis_hash.data[..]).unwrap(), local_chain_access, logger); + NetGraphMsgHandler { inner: Box::into_raw(Box::new(ret)), is_owned: true } +} + +/// Creates a new tracker of the actual state of the network of channels and nodes, +/// assuming an existing Network Graph. +#[must_use] +#[no_mangle] +pub extern "C" fn NetGraphMsgHandler_from_net_graph(chain_access: *mut crate::chain::Access, mut logger: crate::util::logger::Logger, mut network_graph: crate::routing::network_graph::NetworkGraph) -> NetGraphMsgHandler { + let mut local_chain_access = if chain_access == std::ptr::null_mut() { None } else { Some( { unsafe { *Box::from_raw(chain_access) } }) }; + let mut ret = lightning::routing::network_graph::NetGraphMsgHandler::from_net_graph(local_chain_access, logger, *unsafe { Box::from_raw(network_graph.take_inner()) }); + NetGraphMsgHandler { inner: Box::into_raw(Box::new(ret)), is_owned: true } +} + +/// Adds a provider used to check new announcements. Does not affect +/// existing announcements unless they are updated. +/// Add, update or remove the provider would replace the current one. +#[no_mangle] +pub extern "C" fn NetGraphMsgHandler_add_chain_access(this_arg: &mut NetGraphMsgHandler, chain_access: *mut crate::chain::Access) { + let mut local_chain_access = if chain_access == std::ptr::null_mut() { None } else { Some( { unsafe { *Box::from_raw(chain_access) } }) }; + unsafe { &mut (*(this_arg.inner as *mut nativeNetGraphMsgHandler)) }.add_chain_access(local_chain_access) +} + +/// Take a read lock on the network_graph and return it in the C-bindings +/// newtype helper. This is likely only useful when called via the C +/// bindings as you can call `self.network_graph.read().unwrap()` in Rust +/// yourself. +#[must_use] +#[no_mangle] +pub extern "C" fn NetGraphMsgHandler_read_locked_graph(this_arg: &NetGraphMsgHandler) -> crate::routing::network_graph::LockedNetworkGraph { + let mut ret = unsafe { &*this_arg.inner }.read_locked_graph(); + crate::routing::network_graph::LockedNetworkGraph { inner: Box::into_raw(Box::new(ret)), is_owned: true } +} + +/// Get a reference to the NetworkGraph which this read-lock contains. +#[must_use] +#[no_mangle] +pub extern "C" fn LockedNetworkGraph_graph(this_arg: &LockedNetworkGraph) -> crate::routing::network_graph::NetworkGraph { + let mut ret = unsafe { &*this_arg.inner }.graph(); + crate::routing::network_graph::NetworkGraph { inner: unsafe { ( (&(*ret) as *const _) as *mut _) }, is_owned: false } +} + +impl From for crate::ln::msgs::RoutingMessageHandler { + fn from(obj: nativeNetGraphMsgHandler) -> Self { + let mut rust_obj = NetGraphMsgHandler { inner: Box::into_raw(Box::new(obj)), is_owned: true }; + let mut ret = NetGraphMsgHandler_as_RoutingMessageHandler(&rust_obj); + // We want to free rust_obj when ret gets drop()'d, not rust_obj, so wipe rust_obj's pointer and set ret's free() fn + rust_obj.inner = std::ptr::null_mut(); + ret.free = Some(NetGraphMsgHandler_free_void); + ret + } +} +#[no_mangle] +pub extern "C" fn NetGraphMsgHandler_as_RoutingMessageHandler(this_arg: &NetGraphMsgHandler) -> crate::ln::msgs::RoutingMessageHandler { + crate::ln::msgs::RoutingMessageHandler { + this_arg: unsafe { (*this_arg).inner as *mut c_void }, + free: None, + handle_node_announcement: NetGraphMsgHandler_RoutingMessageHandler_handle_node_announcement, + handle_channel_announcement: NetGraphMsgHandler_RoutingMessageHandler_handle_channel_announcement, + handle_channel_update: NetGraphMsgHandler_RoutingMessageHandler_handle_channel_update, + handle_htlc_fail_channel_update: NetGraphMsgHandler_RoutingMessageHandler_handle_htlc_fail_channel_update, + get_next_channel_announcements: NetGraphMsgHandler_RoutingMessageHandler_get_next_channel_announcements, + get_next_node_announcements: NetGraphMsgHandler_RoutingMessageHandler_get_next_node_announcements, + sync_routing_table: NetGraphMsgHandler_RoutingMessageHandler_sync_routing_table, + handle_reply_channel_range: NetGraphMsgHandler_RoutingMessageHandler_handle_reply_channel_range, + handle_reply_short_channel_ids_end: NetGraphMsgHandler_RoutingMessageHandler_handle_reply_short_channel_ids_end, + handle_query_channel_range: NetGraphMsgHandler_RoutingMessageHandler_handle_query_channel_range, + handle_query_short_channel_ids: NetGraphMsgHandler_RoutingMessageHandler_handle_query_short_channel_ids, + MessageSendEventsProvider: crate::util::events::MessageSendEventsProvider { + this_arg: unsafe { (*this_arg).inner as *mut c_void }, + free: None, + get_and_clear_pending_msg_events: NetGraphMsgHandler_RoutingMessageHandler_get_and_clear_pending_msg_events, + }, + } +} + +#[must_use] +extern "C" fn NetGraphMsgHandler_RoutingMessageHandler_handle_node_announcement(this_arg: *const c_void, msg: &crate::ln::msgs::NodeAnnouncement) -> crate::c_types::derived::CResult_boolLightningErrorZ { + let mut ret = >::handle_node_announcement(unsafe { &mut *(this_arg as *mut nativeNetGraphMsgHandler) }, unsafe { &*msg.inner }); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { o }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::LightningError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} +#[must_use] +extern "C" fn NetGraphMsgHandler_RoutingMessageHandler_handle_channel_announcement(this_arg: *const c_void, msg: &crate::ln::msgs::ChannelAnnouncement) -> crate::c_types::derived::CResult_boolLightningErrorZ { + let mut ret = >::handle_channel_announcement(unsafe { &mut *(this_arg as *mut nativeNetGraphMsgHandler) }, unsafe { &*msg.inner }); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { o }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::LightningError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} +extern "C" fn NetGraphMsgHandler_RoutingMessageHandler_handle_htlc_fail_channel_update(this_arg: *const c_void, update: &crate::ln::msgs::HTLCFailChannelUpdate) { + >::handle_htlc_fail_channel_update(unsafe { &mut *(this_arg as *mut nativeNetGraphMsgHandler) }, &update.to_native()) +} +#[must_use] +extern "C" fn NetGraphMsgHandler_RoutingMessageHandler_handle_channel_update(this_arg: *const c_void, msg: &crate::ln::msgs::ChannelUpdate) -> crate::c_types::derived::CResult_boolLightningErrorZ { + let mut ret = >::handle_channel_update(unsafe { &mut *(this_arg as *mut nativeNetGraphMsgHandler) }, unsafe { &*msg.inner }); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { o }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::LightningError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} +#[must_use] +extern "C" fn NetGraphMsgHandler_RoutingMessageHandler_get_next_channel_announcements(this_arg: *const c_void, mut starting_point: u64, mut batch_amount: u8) -> crate::c_types::derived::CVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ { + let mut ret = >::get_next_channel_announcements(unsafe { &mut *(this_arg as *mut nativeNetGraphMsgHandler) }, starting_point, batch_amount); + let mut local_ret = Vec::new(); for mut item in ret.drain(..) { local_ret.push( { let (mut orig_ret_0_0, mut orig_ret_0_1, mut orig_ret_0_2) = item; let mut local_orig_ret_0_1 = crate::ln::msgs::ChannelUpdate { inner: if orig_ret_0_1.is_none() { std::ptr::null_mut() } else { { Box::into_raw(Box::new((orig_ret_0_1.unwrap()))) } }, is_owned: true }; let mut local_orig_ret_0_2 = crate::ln::msgs::ChannelUpdate { inner: if orig_ret_0_2.is_none() { std::ptr::null_mut() } else { { Box::into_raw(Box::new((orig_ret_0_2.unwrap()))) } }, is_owned: true }; let mut local_ret_0 = (crate::ln::msgs::ChannelAnnouncement { inner: Box::into_raw(Box::new(orig_ret_0_0)), is_owned: true }, local_orig_ret_0_1, local_orig_ret_0_2).into(); local_ret_0 }); }; + local_ret.into() +} +#[must_use] +extern "C" fn NetGraphMsgHandler_RoutingMessageHandler_get_next_node_announcements(this_arg: *const c_void, mut starting_point: crate::c_types::PublicKey, mut batch_amount: u8) -> crate::c_types::derived::CVec_NodeAnnouncementZ { + let mut local_starting_point_base = if starting_point.is_null() { None } else { Some( { starting_point.into_rust() }) }; let mut local_starting_point = local_starting_point_base.as_ref(); + let mut ret = >::get_next_node_announcements(unsafe { &mut *(this_arg as *mut nativeNetGraphMsgHandler) }, local_starting_point, batch_amount); + let mut local_ret = Vec::new(); for mut item in ret.drain(..) { local_ret.push( { crate::ln::msgs::NodeAnnouncement { inner: Box::into_raw(Box::new(item)), is_owned: true } }); }; + local_ret.into() +} +extern "C" fn NetGraphMsgHandler_RoutingMessageHandler_sync_routing_table(this_arg: *const c_void, mut their_node_id: crate::c_types::PublicKey, init_msg: &crate::ln::msgs::Init) { + >::sync_routing_table(unsafe { &mut *(this_arg as *mut nativeNetGraphMsgHandler) }, &their_node_id.into_rust(), unsafe { &*init_msg.inner }) +} +#[must_use] +extern "C" fn NetGraphMsgHandler_RoutingMessageHandler_handle_reply_channel_range(this_arg: *const c_void, mut their_node_id: crate::c_types::PublicKey, mut msg: crate::ln::msgs::ReplyChannelRange) -> crate::c_types::derived::CResult_NoneLightningErrorZ { + let mut ret = >::handle_reply_channel_range(unsafe { &mut *(this_arg as *mut nativeNetGraphMsgHandler) }, &their_node_id.into_rust(), *unsafe { Box::from_raw(msg.take_inner()) }); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::LightningError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} +#[must_use] +extern "C" fn NetGraphMsgHandler_RoutingMessageHandler_handle_reply_short_channel_ids_end(this_arg: *const c_void, mut their_node_id: crate::c_types::PublicKey, mut msg: crate::ln::msgs::ReplyShortChannelIdsEnd) -> crate::c_types::derived::CResult_NoneLightningErrorZ { + let mut ret = >::handle_reply_short_channel_ids_end(unsafe { &mut *(this_arg as *mut nativeNetGraphMsgHandler) }, &their_node_id.into_rust(), *unsafe { Box::from_raw(msg.take_inner()) }); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::LightningError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} +#[must_use] +extern "C" fn NetGraphMsgHandler_RoutingMessageHandler_handle_query_channel_range(this_arg: *const c_void, mut _their_node_id: crate::c_types::PublicKey, mut _msg: crate::ln::msgs::QueryChannelRange) -> crate::c_types::derived::CResult_NoneLightningErrorZ { + let mut ret = >::handle_query_channel_range(unsafe { &mut *(this_arg as *mut nativeNetGraphMsgHandler) }, &_their_node_id.into_rust(), *unsafe { Box::from_raw(_msg.take_inner()) }); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::LightningError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} +#[must_use] +extern "C" fn NetGraphMsgHandler_RoutingMessageHandler_handle_query_short_channel_ids(this_arg: *const c_void, mut _their_node_id: crate::c_types::PublicKey, mut _msg: crate::ln::msgs::QueryShortChannelIds) -> crate::c_types::derived::CResult_NoneLightningErrorZ { + let mut ret = >::handle_query_short_channel_ids(unsafe { &mut *(this_arg as *mut nativeNetGraphMsgHandler) }, &_their_node_id.into_rust(), *unsafe { Box::from_raw(_msg.take_inner()) }); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::LightningError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} +#[must_use] +extern "C" fn NetGraphMsgHandler_RoutingMessageHandler_get_and_clear_pending_msg_events(this_arg: *const c_void) -> crate::c_types::derived::CVec_MessageSendEventZ { + let mut ret = >::get_and_clear_pending_msg_events(unsafe { &mut *(this_arg as *mut nativeNetGraphMsgHandler) }, ); + let mut local_ret = Vec::new(); for mut item in ret.drain(..) { local_ret.push( { crate::util::events::MessageSendEvent::native_into(item) }); }; + local_ret.into() +} + +impl From for crate::util::events::MessageSendEventsProvider { + fn from(obj: nativeNetGraphMsgHandler) -> Self { + let mut rust_obj = NetGraphMsgHandler { inner: Box::into_raw(Box::new(obj)), is_owned: true }; + let mut ret = NetGraphMsgHandler_as_MessageSendEventsProvider(&rust_obj); + // We want to free rust_obj when ret gets drop()'d, not rust_obj, so wipe rust_obj's pointer and set ret's free() fn + rust_obj.inner = std::ptr::null_mut(); + ret.free = Some(NetGraphMsgHandler_free_void); + ret + } +} +#[no_mangle] +pub extern "C" fn NetGraphMsgHandler_as_MessageSendEventsProvider(this_arg: &NetGraphMsgHandler) -> crate::util::events::MessageSendEventsProvider { + crate::util::events::MessageSendEventsProvider { + this_arg: unsafe { (*this_arg).inner as *mut c_void }, + free: None, + get_and_clear_pending_msg_events: NetGraphMsgHandler_MessageSendEventsProvider_get_and_clear_pending_msg_events, + } +} + +#[must_use] +extern "C" fn NetGraphMsgHandler_MessageSendEventsProvider_get_and_clear_pending_msg_events(this_arg: *const c_void) -> crate::c_types::derived::CVec_MessageSendEventZ { + let mut ret = >::get_and_clear_pending_msg_events(unsafe { &mut *(this_arg as *mut nativeNetGraphMsgHandler) }, ); + let mut local_ret = Vec::new(); for mut item in ret.drain(..) { local_ret.push( { crate::util::events::MessageSendEvent::native_into(item) }); }; + local_ret.into() +} + + +use lightning::routing::network_graph::DirectionalChannelInfo as nativeDirectionalChannelInfoImport; +type nativeDirectionalChannelInfo = nativeDirectionalChannelInfoImport; + +/// Details about one direction of a channel. Received +/// within a channel update. +#[must_use] +#[repr(C)] +pub struct DirectionalChannelInfo { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeDirectionalChannelInfo, + pub is_owned: bool, +} + +impl Drop for DirectionalChannelInfo { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeDirectionalChannelInfo>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn DirectionalChannelInfo_free(this_ptr: DirectionalChannelInfo) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn DirectionalChannelInfo_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeDirectionalChannelInfo); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl DirectionalChannelInfo { + pub(crate) fn take_inner(mut self) -> *mut nativeDirectionalChannelInfo { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// When the last update to the channel direction was issued. +/// Value is opaque, as set in the announcement. +#[no_mangle] +pub extern "C" fn DirectionalChannelInfo_get_last_update(this_ptr: &DirectionalChannelInfo) -> u32 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.last_update; + (*inner_val) +} +/// When the last update to the channel direction was issued. +/// Value is opaque, as set in the announcement. +#[no_mangle] +pub extern "C" fn DirectionalChannelInfo_set_last_update(this_ptr: &mut DirectionalChannelInfo, mut val: u32) { + unsafe { &mut *this_ptr.inner }.last_update = val; +} +/// Whether the channel can be currently used for payments (in this one direction). +#[no_mangle] +pub extern "C" fn DirectionalChannelInfo_get_enabled(this_ptr: &DirectionalChannelInfo) -> bool { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.enabled; + (*inner_val) +} +/// Whether the channel can be currently used for payments (in this one direction). +#[no_mangle] +pub extern "C" fn DirectionalChannelInfo_set_enabled(this_ptr: &mut DirectionalChannelInfo, mut val: bool) { + unsafe { &mut *this_ptr.inner }.enabled = val; +} +/// The difference in CLTV values that you must have when routing through this channel. +#[no_mangle] +pub extern "C" fn DirectionalChannelInfo_get_cltv_expiry_delta(this_ptr: &DirectionalChannelInfo) -> u16 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.cltv_expiry_delta; + (*inner_val) +} +/// The difference in CLTV values that you must have when routing through this channel. +#[no_mangle] +pub extern "C" fn DirectionalChannelInfo_set_cltv_expiry_delta(this_ptr: &mut DirectionalChannelInfo, mut val: u16) { + unsafe { &mut *this_ptr.inner }.cltv_expiry_delta = val; +} +/// The minimum value, which must be relayed to the next hop via the channel +#[no_mangle] +pub extern "C" fn DirectionalChannelInfo_get_htlc_minimum_msat(this_ptr: &DirectionalChannelInfo) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.htlc_minimum_msat; + (*inner_val) +} +/// The minimum value, which must be relayed to the next hop via the channel +#[no_mangle] +pub extern "C" fn DirectionalChannelInfo_set_htlc_minimum_msat(this_ptr: &mut DirectionalChannelInfo, mut val: u64) { + unsafe { &mut *this_ptr.inner }.htlc_minimum_msat = val; +} +/// Fees charged when the channel is used for routing +#[no_mangle] +pub extern "C" fn DirectionalChannelInfo_get_fees(this_ptr: &DirectionalChannelInfo) -> crate::routing::network_graph::RoutingFees { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.fees; + crate::routing::network_graph::RoutingFees { inner: unsafe { ( (&((*inner_val)) as *const _) as *mut _) }, is_owned: false } +} +/// Fees charged when the channel is used for routing +#[no_mangle] +pub extern "C" fn DirectionalChannelInfo_set_fees(this_ptr: &mut DirectionalChannelInfo, mut val: crate::routing::network_graph::RoutingFees) { + unsafe { &mut *this_ptr.inner }.fees = *unsafe { Box::from_raw(val.take_inner()) }; +} +/// Most recent update for the channel received from the network +/// Mostly redundant with the data we store in fields explicitly. +/// Everything else is useful only for sending out for initial routing sync. +/// Not stored if contains excess data to prevent DoS. +#[no_mangle] +pub extern "C" fn DirectionalChannelInfo_get_last_update_message(this_ptr: &DirectionalChannelInfo) -> crate::ln::msgs::ChannelUpdate { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.last_update_message; + let mut local_inner_val = crate::ln::msgs::ChannelUpdate { inner: unsafe { (if inner_val.is_none() { std::ptr::null() } else { { (inner_val.as_ref().unwrap()) } } as *const _) as *mut _ }, is_owned: false }; + local_inner_val +} +/// Most recent update for the channel received from the network +/// Mostly redundant with the data we store in fields explicitly. +/// Everything else is useful only for sending out for initial routing sync. +/// Not stored if contains excess data to prevent DoS. +#[no_mangle] +pub extern "C" fn DirectionalChannelInfo_set_last_update_message(this_ptr: &mut DirectionalChannelInfo, mut val: crate::ln::msgs::ChannelUpdate) { + let mut local_val = if val.inner.is_null() { None } else { Some( { *unsafe { Box::from_raw(val.take_inner()) } }) }; + unsafe { &mut *this_ptr.inner }.last_update_message = local_val; +} +impl Clone for DirectionalChannelInfo { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeDirectionalChannelInfo>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn DirectionalChannelInfo_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeDirectionalChannelInfo)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn DirectionalChannelInfo_clone(orig: &DirectionalChannelInfo) -> DirectionalChannelInfo { + orig.clone() +} +#[no_mangle] +pub extern "C" fn DirectionalChannelInfo_write(obj: &DirectionalChannelInfo) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn DirectionalChannelInfo_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeDirectionalChannelInfo) }) +} +#[no_mangle] +pub extern "C" fn DirectionalChannelInfo_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_DirectionalChannelInfoDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::routing::network_graph::DirectionalChannelInfo { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} + +use lightning::routing::network_graph::ChannelInfo as nativeChannelInfoImport; +type nativeChannelInfo = nativeChannelInfoImport; + +/// Details about a channel (both directions). +/// Received within a channel announcement. +#[must_use] +#[repr(C)] +pub struct ChannelInfo { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeChannelInfo, + pub is_owned: bool, +} + +impl Drop for ChannelInfo { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeChannelInfo>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn ChannelInfo_free(this_ptr: ChannelInfo) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn ChannelInfo_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeChannelInfo); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl ChannelInfo { + pub(crate) fn take_inner(mut self) -> *mut nativeChannelInfo { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// Protocol features of a channel communicated during its announcement +#[no_mangle] +pub extern "C" fn ChannelInfo_get_features(this_ptr: &ChannelInfo) -> crate::ln::features::ChannelFeatures { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.features; + crate::ln::features::ChannelFeatures { inner: unsafe { ( (&((*inner_val)) as *const _) as *mut _) }, is_owned: false } +} +/// Protocol features of a channel communicated during its announcement +#[no_mangle] +pub extern "C" fn ChannelInfo_set_features(this_ptr: &mut ChannelInfo, mut val: crate::ln::features::ChannelFeatures) { + unsafe { &mut *this_ptr.inner }.features = *unsafe { Box::from_raw(val.take_inner()) }; +} +/// Source node of the first direction of a channel +#[no_mangle] +pub extern "C" fn ChannelInfo_get_node_one(this_ptr: &ChannelInfo) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.node_one; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// Source node of the first direction of a channel +#[no_mangle] +pub extern "C" fn ChannelInfo_set_node_one(this_ptr: &mut ChannelInfo, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.node_one = val.into_rust(); +} +/// Details about the first direction of a channel +#[no_mangle] +pub extern "C" fn ChannelInfo_get_one_to_two(this_ptr: &ChannelInfo) -> crate::routing::network_graph::DirectionalChannelInfo { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.one_to_two; + let mut local_inner_val = crate::routing::network_graph::DirectionalChannelInfo { inner: unsafe { (if inner_val.is_none() { std::ptr::null() } else { { (inner_val.as_ref().unwrap()) } } as *const _) as *mut _ }, is_owned: false }; + local_inner_val +} +/// Details about the first direction of a channel +#[no_mangle] +pub extern "C" fn ChannelInfo_set_one_to_two(this_ptr: &mut ChannelInfo, mut val: crate::routing::network_graph::DirectionalChannelInfo) { + let mut local_val = if val.inner.is_null() { None } else { Some( { *unsafe { Box::from_raw(val.take_inner()) } }) }; + unsafe { &mut *this_ptr.inner }.one_to_two = local_val; +} +/// Source node of the second direction of a channel +#[no_mangle] +pub extern "C" fn ChannelInfo_get_node_two(this_ptr: &ChannelInfo) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.node_two; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// Source node of the second direction of a channel +#[no_mangle] +pub extern "C" fn ChannelInfo_set_node_two(this_ptr: &mut ChannelInfo, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.node_two = val.into_rust(); +} +/// Details about the second direction of a channel +#[no_mangle] +pub extern "C" fn ChannelInfo_get_two_to_one(this_ptr: &ChannelInfo) -> crate::routing::network_graph::DirectionalChannelInfo { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.two_to_one; + let mut local_inner_val = crate::routing::network_graph::DirectionalChannelInfo { inner: unsafe { (if inner_val.is_none() { std::ptr::null() } else { { (inner_val.as_ref().unwrap()) } } as *const _) as *mut _ }, is_owned: false }; + local_inner_val +} +/// Details about the second direction of a channel +#[no_mangle] +pub extern "C" fn ChannelInfo_set_two_to_one(this_ptr: &mut ChannelInfo, mut val: crate::routing::network_graph::DirectionalChannelInfo) { + let mut local_val = if val.inner.is_null() { None } else { Some( { *unsafe { Box::from_raw(val.take_inner()) } }) }; + unsafe { &mut *this_ptr.inner }.two_to_one = local_val; +} +/// An initial announcement of the channel +/// Mostly redundant with the data we store in fields explicitly. +/// Everything else is useful only for sending out for initial routing sync. +/// Not stored if contains excess data to prevent DoS. +#[no_mangle] +pub extern "C" fn ChannelInfo_get_announcement_message(this_ptr: &ChannelInfo) -> crate::ln::msgs::ChannelAnnouncement { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.announcement_message; + let mut local_inner_val = crate::ln::msgs::ChannelAnnouncement { inner: unsafe { (if inner_val.is_none() { std::ptr::null() } else { { (inner_val.as_ref().unwrap()) } } as *const _) as *mut _ }, is_owned: false }; + local_inner_val +} +/// An initial announcement of the channel +/// Mostly redundant with the data we store in fields explicitly. +/// Everything else is useful only for sending out for initial routing sync. +/// Not stored if contains excess data to prevent DoS. +#[no_mangle] +pub extern "C" fn ChannelInfo_set_announcement_message(this_ptr: &mut ChannelInfo, mut val: crate::ln::msgs::ChannelAnnouncement) { + let mut local_val = if val.inner.is_null() { None } else { Some( { *unsafe { Box::from_raw(val.take_inner()) } }) }; + unsafe { &mut *this_ptr.inner }.announcement_message = local_val; +} +impl Clone for ChannelInfo { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeChannelInfo>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn ChannelInfo_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeChannelInfo)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn ChannelInfo_clone(orig: &ChannelInfo) -> ChannelInfo { + orig.clone() +} +#[no_mangle] +pub extern "C" fn ChannelInfo_write(obj: &ChannelInfo) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn ChannelInfo_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeChannelInfo) }) +} +#[no_mangle] +pub extern "C" fn ChannelInfo_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_ChannelInfoDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::routing::network_graph::ChannelInfo { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} + +use lightning::routing::network_graph::RoutingFees as nativeRoutingFeesImport; +type nativeRoutingFees = nativeRoutingFeesImport; + +/// Fees for routing via a given channel or a node +#[must_use] +#[repr(C)] +pub struct RoutingFees { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeRoutingFees, + pub is_owned: bool, +} + +impl Drop for RoutingFees { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeRoutingFees>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn RoutingFees_free(this_ptr: RoutingFees) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn RoutingFees_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeRoutingFees); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl RoutingFees { + pub(crate) fn take_inner(mut self) -> *mut nativeRoutingFees { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// Flat routing fee in satoshis +#[no_mangle] +pub extern "C" fn RoutingFees_get_base_msat(this_ptr: &RoutingFees) -> u32 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.base_msat; + (*inner_val) +} +/// Flat routing fee in satoshis +#[no_mangle] +pub extern "C" fn RoutingFees_set_base_msat(this_ptr: &mut RoutingFees, mut val: u32) { + unsafe { &mut *this_ptr.inner }.base_msat = val; +} +/// Liquidity-based routing fee in millionths of a routed amount. +/// In other words, 10000 is 1%. +#[no_mangle] +pub extern "C" fn RoutingFees_get_proportional_millionths(this_ptr: &RoutingFees) -> u32 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.proportional_millionths; + (*inner_val) +} +/// Liquidity-based routing fee in millionths of a routed amount. +/// In other words, 10000 is 1%. +#[no_mangle] +pub extern "C" fn RoutingFees_set_proportional_millionths(this_ptr: &mut RoutingFees, mut val: u32) { + unsafe { &mut *this_ptr.inner }.proportional_millionths = val; +} +#[must_use] +#[no_mangle] +pub extern "C" fn RoutingFees_new(mut base_msat_arg: u32, mut proportional_millionths_arg: u32) -> RoutingFees { + RoutingFees { inner: Box::into_raw(Box::new(nativeRoutingFees { + base_msat: base_msat_arg, + proportional_millionths: proportional_millionths_arg, + })), is_owned: true } +} +impl Clone for RoutingFees { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeRoutingFees>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn RoutingFees_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeRoutingFees)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn RoutingFees_clone(orig: &RoutingFees) -> RoutingFees { + orig.clone() +} +#[no_mangle] +pub extern "C" fn RoutingFees_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_RoutingFeesDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::routing::network_graph::RoutingFees { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn RoutingFees_write(obj: &RoutingFees) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn RoutingFees_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeRoutingFees) }) +} + +use lightning::routing::network_graph::NodeAnnouncementInfo as nativeNodeAnnouncementInfoImport; +type nativeNodeAnnouncementInfo = nativeNodeAnnouncementInfoImport; + +/// Information received in the latest node_announcement from this node. +#[must_use] +#[repr(C)] +pub struct NodeAnnouncementInfo { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeNodeAnnouncementInfo, + pub is_owned: bool, +} + +impl Drop for NodeAnnouncementInfo { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeNodeAnnouncementInfo>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn NodeAnnouncementInfo_free(this_ptr: NodeAnnouncementInfo) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn NodeAnnouncementInfo_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeNodeAnnouncementInfo); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl NodeAnnouncementInfo { + pub(crate) fn take_inner(mut self) -> *mut nativeNodeAnnouncementInfo { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// Protocol features the node announced support for +#[no_mangle] +pub extern "C" fn NodeAnnouncementInfo_get_features(this_ptr: &NodeAnnouncementInfo) -> crate::ln::features::NodeFeatures { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.features; + crate::ln::features::NodeFeatures { inner: unsafe { ( (&((*inner_val)) as *const _) as *mut _) }, is_owned: false } +} +/// Protocol features the node announced support for +#[no_mangle] +pub extern "C" fn NodeAnnouncementInfo_set_features(this_ptr: &mut NodeAnnouncementInfo, mut val: crate::ln::features::NodeFeatures) { + unsafe { &mut *this_ptr.inner }.features = *unsafe { Box::from_raw(val.take_inner()) }; +} +/// When the last known update to the node state was issued. +/// Value is opaque, as set in the announcement. +#[no_mangle] +pub extern "C" fn NodeAnnouncementInfo_get_last_update(this_ptr: &NodeAnnouncementInfo) -> u32 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.last_update; + (*inner_val) +} +/// When the last known update to the node state was issued. +/// Value is opaque, as set in the announcement. +#[no_mangle] +pub extern "C" fn NodeAnnouncementInfo_set_last_update(this_ptr: &mut NodeAnnouncementInfo, mut val: u32) { + unsafe { &mut *this_ptr.inner }.last_update = val; +} +/// Color assigned to the node +#[no_mangle] +pub extern "C" fn NodeAnnouncementInfo_get_rgb(this_ptr: &NodeAnnouncementInfo) -> *const [u8; 3] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.rgb; + &(*inner_val) +} +/// Color assigned to the node +#[no_mangle] +pub extern "C" fn NodeAnnouncementInfo_set_rgb(this_ptr: &mut NodeAnnouncementInfo, mut val: crate::c_types::ThreeBytes) { + unsafe { &mut *this_ptr.inner }.rgb = val.data; +} +/// Moniker assigned to the node. +/// May be invalid or malicious (eg control chars), +/// should not be exposed to the user. +#[no_mangle] +pub extern "C" fn NodeAnnouncementInfo_get_alias(this_ptr: &NodeAnnouncementInfo) -> *const [u8; 32] { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.alias; + &(*inner_val) +} +/// Moniker assigned to the node. +/// May be invalid or malicious (eg control chars), +/// should not be exposed to the user. +#[no_mangle] +pub extern "C" fn NodeAnnouncementInfo_set_alias(this_ptr: &mut NodeAnnouncementInfo, mut val: crate::c_types::ThirtyTwoBytes) { + unsafe { &mut *this_ptr.inner }.alias = val.data; +} +/// Internet-level addresses via which one can connect to the node +#[no_mangle] +pub extern "C" fn NodeAnnouncementInfo_set_addresses(this_ptr: &mut NodeAnnouncementInfo, mut val: crate::c_types::derived::CVec_NetAddressZ) { + let mut local_val = Vec::new(); for mut item in val.into_rust().drain(..) { local_val.push( { item.into_native() }); }; + unsafe { &mut *this_ptr.inner }.addresses = local_val; +} +/// An initial announcement of the node +/// Mostly redundant with the data we store in fields explicitly. +/// Everything else is useful only for sending out for initial routing sync. +/// Not stored if contains excess data to prevent DoS. +#[no_mangle] +pub extern "C" fn NodeAnnouncementInfo_get_announcement_message(this_ptr: &NodeAnnouncementInfo) -> crate::ln::msgs::NodeAnnouncement { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.announcement_message; + let mut local_inner_val = crate::ln::msgs::NodeAnnouncement { inner: unsafe { (if inner_val.is_none() { std::ptr::null() } else { { (inner_val.as_ref().unwrap()) } } as *const _) as *mut _ }, is_owned: false }; + local_inner_val +} +/// An initial announcement of the node +/// Mostly redundant with the data we store in fields explicitly. +/// Everything else is useful only for sending out for initial routing sync. +/// Not stored if contains excess data to prevent DoS. +#[no_mangle] +pub extern "C" fn NodeAnnouncementInfo_set_announcement_message(this_ptr: &mut NodeAnnouncementInfo, mut val: crate::ln::msgs::NodeAnnouncement) { + let mut local_val = if val.inner.is_null() { None } else { Some( { *unsafe { Box::from_raw(val.take_inner()) } }) }; + unsafe { &mut *this_ptr.inner }.announcement_message = local_val; +} +#[must_use] +#[no_mangle] +pub extern "C" fn NodeAnnouncementInfo_new(mut features_arg: crate::ln::features::NodeFeatures, mut last_update_arg: u32, mut rgb_arg: crate::c_types::ThreeBytes, mut alias_arg: crate::c_types::ThirtyTwoBytes, mut addresses_arg: crate::c_types::derived::CVec_NetAddressZ, mut announcement_message_arg: crate::ln::msgs::NodeAnnouncement) -> NodeAnnouncementInfo { + let mut local_addresses_arg = Vec::new(); for mut item in addresses_arg.into_rust().drain(..) { local_addresses_arg.push( { item.into_native() }); }; + let mut local_announcement_message_arg = if announcement_message_arg.inner.is_null() { None } else { Some( { *unsafe { Box::from_raw(announcement_message_arg.take_inner()) } }) }; + NodeAnnouncementInfo { inner: Box::into_raw(Box::new(nativeNodeAnnouncementInfo { + features: *unsafe { Box::from_raw(features_arg.take_inner()) }, + last_update: last_update_arg, + rgb: rgb_arg.data, + alias: alias_arg.data, + addresses: local_addresses_arg, + announcement_message: local_announcement_message_arg, + })), is_owned: true } +} +impl Clone for NodeAnnouncementInfo { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeNodeAnnouncementInfo>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn NodeAnnouncementInfo_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeNodeAnnouncementInfo)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn NodeAnnouncementInfo_clone(orig: &NodeAnnouncementInfo) -> NodeAnnouncementInfo { + orig.clone() +} +#[no_mangle] +pub extern "C" fn NodeAnnouncementInfo_write(obj: &NodeAnnouncementInfo) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn NodeAnnouncementInfo_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeNodeAnnouncementInfo) }) +} +#[no_mangle] +pub extern "C" fn NodeAnnouncementInfo_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_NodeAnnouncementInfoDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::routing::network_graph::NodeAnnouncementInfo { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} + +use lightning::routing::network_graph::NodeInfo as nativeNodeInfoImport; +type nativeNodeInfo = nativeNodeInfoImport; + +/// Details about a node in the network, known from the network announcement. +#[must_use] +#[repr(C)] +pub struct NodeInfo { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeNodeInfo, + pub is_owned: bool, +} + +impl Drop for NodeInfo { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeNodeInfo>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn NodeInfo_free(this_ptr: NodeInfo) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn NodeInfo_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeNodeInfo); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl NodeInfo { + pub(crate) fn take_inner(mut self) -> *mut nativeNodeInfo { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// All valid channels a node has announced +#[no_mangle] +pub extern "C" fn NodeInfo_set_channels(this_ptr: &mut NodeInfo, mut val: crate::c_types::derived::CVec_u64Z) { + let mut local_val = Vec::new(); for mut item in val.into_rust().drain(..) { local_val.push( { item }); }; + unsafe { &mut *this_ptr.inner }.channels = local_val; +} +/// Lowest fees enabling routing via any of the enabled, known channels to a node. +/// The two fields (flat and proportional fee) are independent, +/// meaning they don't have to refer to the same channel. +#[no_mangle] +pub extern "C" fn NodeInfo_get_lowest_inbound_channel_fees(this_ptr: &NodeInfo) -> crate::routing::network_graph::RoutingFees { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.lowest_inbound_channel_fees; + let mut local_inner_val = crate::routing::network_graph::RoutingFees { inner: unsafe { (if inner_val.is_none() { std::ptr::null() } else { { (inner_val.as_ref().unwrap()) } } as *const _) as *mut _ }, is_owned: false }; + local_inner_val +} +/// Lowest fees enabling routing via any of the enabled, known channels to a node. +/// The two fields (flat and proportional fee) are independent, +/// meaning they don't have to refer to the same channel. +#[no_mangle] +pub extern "C" fn NodeInfo_set_lowest_inbound_channel_fees(this_ptr: &mut NodeInfo, mut val: crate::routing::network_graph::RoutingFees) { + let mut local_val = if val.inner.is_null() { None } else { Some( { *unsafe { Box::from_raw(val.take_inner()) } }) }; + unsafe { &mut *this_ptr.inner }.lowest_inbound_channel_fees = local_val; +} +/// More information about a node from node_announcement. +/// Optional because we store a Node entry after learning about it from +/// a channel announcement, but before receiving a node announcement. +#[no_mangle] +pub extern "C" fn NodeInfo_get_announcement_info(this_ptr: &NodeInfo) -> crate::routing::network_graph::NodeAnnouncementInfo { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.announcement_info; + let mut local_inner_val = crate::routing::network_graph::NodeAnnouncementInfo { inner: unsafe { (if inner_val.is_none() { std::ptr::null() } else { { (inner_val.as_ref().unwrap()) } } as *const _) as *mut _ }, is_owned: false }; + local_inner_val +} +/// More information about a node from node_announcement. +/// Optional because we store a Node entry after learning about it from +/// a channel announcement, but before receiving a node announcement. +#[no_mangle] +pub extern "C" fn NodeInfo_set_announcement_info(this_ptr: &mut NodeInfo, mut val: crate::routing::network_graph::NodeAnnouncementInfo) { + let mut local_val = if val.inner.is_null() { None } else { Some( { *unsafe { Box::from_raw(val.take_inner()) } }) }; + unsafe { &mut *this_ptr.inner }.announcement_info = local_val; +} +#[must_use] +#[no_mangle] +pub extern "C" fn NodeInfo_new(mut channels_arg: crate::c_types::derived::CVec_u64Z, mut lowest_inbound_channel_fees_arg: crate::routing::network_graph::RoutingFees, mut announcement_info_arg: crate::routing::network_graph::NodeAnnouncementInfo) -> NodeInfo { + let mut local_channels_arg = Vec::new(); for mut item in channels_arg.into_rust().drain(..) { local_channels_arg.push( { item }); }; + let mut local_lowest_inbound_channel_fees_arg = if lowest_inbound_channel_fees_arg.inner.is_null() { None } else { Some( { *unsafe { Box::from_raw(lowest_inbound_channel_fees_arg.take_inner()) } }) }; + let mut local_announcement_info_arg = if announcement_info_arg.inner.is_null() { None } else { Some( { *unsafe { Box::from_raw(announcement_info_arg.take_inner()) } }) }; + NodeInfo { inner: Box::into_raw(Box::new(nativeNodeInfo { + channels: local_channels_arg, + lowest_inbound_channel_fees: local_lowest_inbound_channel_fees_arg, + announcement_info: local_announcement_info_arg, + })), is_owned: true } +} +impl Clone for NodeInfo { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeNodeInfo>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn NodeInfo_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeNodeInfo)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn NodeInfo_clone(orig: &NodeInfo) -> NodeInfo { + orig.clone() +} +#[no_mangle] +pub extern "C" fn NodeInfo_write(obj: &NodeInfo) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn NodeInfo_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeNodeInfo) }) +} +#[no_mangle] +pub extern "C" fn NodeInfo_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_NodeInfoDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::routing::network_graph::NodeInfo { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +#[no_mangle] +pub extern "C" fn NetworkGraph_write(obj: &NetworkGraph) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn NetworkGraph_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeNetworkGraph) }) +} +#[no_mangle] +pub extern "C" fn NetworkGraph_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_NetworkGraphDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::routing::network_graph::NetworkGraph { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} +/// Creates a new, empty, network graph. +#[must_use] +#[no_mangle] +pub extern "C" fn NetworkGraph_new(mut genesis_hash: crate::c_types::ThirtyTwoBytes) -> crate::routing::network_graph::NetworkGraph { + let mut ret = lightning::routing::network_graph::NetworkGraph::new(::bitcoin::hash_types::BlockHash::from_slice(&genesis_hash.data[..]).unwrap()); + crate::routing::network_graph::NetworkGraph { inner: Box::into_raw(Box::new(ret)), is_owned: true } +} + +/// For an already known node (from channel announcements), update its stored properties from a +/// given node announcement. +/// +/// You probably don't want to call this directly, instead relying on a NetGraphMsgHandler's +/// RoutingMessageHandler implementation to call it indirectly. This may be useful to accept +/// routing messages from a source using a protocol other than the lightning P2P protocol. +#[must_use] +#[no_mangle] +pub extern "C" fn NetworkGraph_update_node_from_announcement(this_arg: &mut NetworkGraph, msg: &crate::ln::msgs::NodeAnnouncement) -> crate::c_types::derived::CResult_NoneLightningErrorZ { + let mut ret = unsafe { &mut (*(this_arg.inner as *mut nativeNetworkGraph)) }.update_node_from_announcement(unsafe { &*msg.inner }, secp256k1::SECP256K1); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::LightningError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} + +/// For an already known node (from channel announcements), update its stored properties from a +/// given node announcement without verifying the associated signatures. Because we aren't +/// given the associated signatures here we cannot relay the node announcement to any of our +/// peers. +#[must_use] +#[no_mangle] +pub extern "C" fn NetworkGraph_update_node_from_unsigned_announcement(this_arg: &mut NetworkGraph, msg: &crate::ln::msgs::UnsignedNodeAnnouncement) -> crate::c_types::derived::CResult_NoneLightningErrorZ { + let mut ret = unsafe { &mut (*(this_arg.inner as *mut nativeNetworkGraph)) }.update_node_from_unsigned_announcement(unsafe { &*msg.inner }); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::LightningError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} + +/// Store or update channel info from a channel announcement. +/// +/// You probably don't want to call this directly, instead relying on a NetGraphMsgHandler's +/// RoutingMessageHandler implementation to call it indirectly. This may be useful to accept +/// routing messages from a source using a protocol other than the lightning P2P protocol. +/// +/// If a `chain::Access` object is provided via `chain_access`, it will be called to verify +/// the corresponding UTXO exists on chain and is correctly-formatted. +#[must_use] +#[no_mangle] +pub extern "C" fn NetworkGraph_update_channel_from_announcement(this_arg: &mut NetworkGraph, msg: &crate::ln::msgs::ChannelAnnouncement, chain_access: *mut crate::chain::Access) -> crate::c_types::derived::CResult_NoneLightningErrorZ { + let mut local_chain_access = if chain_access == std::ptr::null_mut() { None } else { Some( { unsafe { *Box::from_raw(chain_access) } }) }; + let mut ret = unsafe { &mut (*(this_arg.inner as *mut nativeNetworkGraph)) }.update_channel_from_announcement(unsafe { &*msg.inner }, &local_chain_access, secp256k1::SECP256K1); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::LightningError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} + +/// Store or update channel info from a channel announcement without verifying the associated +/// signatures. Because we aren't given the associated signatures here we cannot relay the +/// channel announcement to any of our peers. +/// +/// If a `chain::Access` object is provided via `chain_access`, it will be called to verify +/// the corresponding UTXO exists on chain and is correctly-formatted. +#[must_use] +#[no_mangle] +pub extern "C" fn NetworkGraph_update_channel_from_unsigned_announcement(this_arg: &mut NetworkGraph, msg: &crate::ln::msgs::UnsignedChannelAnnouncement, chain_access: *mut crate::chain::Access) -> crate::c_types::derived::CResult_NoneLightningErrorZ { + let mut local_chain_access = if chain_access == std::ptr::null_mut() { None } else { Some( { unsafe { *Box::from_raw(chain_access) } }) }; + let mut ret = unsafe { &mut (*(this_arg.inner as *mut nativeNetworkGraph)) }.update_channel_from_unsigned_announcement(unsafe { &*msg.inner }, &local_chain_access); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::LightningError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} + +/// Close a channel if a corresponding HTLC fail was sent. +/// If permanent, removes a channel from the local storage. +/// May cause the removal of nodes too, if this was their last channel. +/// If not permanent, makes channels unavailable for routing. +#[no_mangle] +pub extern "C" fn NetworkGraph_close_channel_from_update(this_arg: &mut NetworkGraph, mut short_channel_id: u64, mut is_permanent: bool) { + unsafe { &mut (*(this_arg.inner as *mut nativeNetworkGraph)) }.close_channel_from_update(short_channel_id, is_permanent) +} + +/// For an already known (from announcement) channel, update info about one of the directions +/// of the channel. +/// +/// You probably don't want to call this directly, instead relying on a NetGraphMsgHandler's +/// RoutingMessageHandler implementation to call it indirectly. This may be useful to accept +/// routing messages from a source using a protocol other than the lightning P2P protocol. +#[must_use] +#[no_mangle] +pub extern "C" fn NetworkGraph_update_channel(this_arg: &mut NetworkGraph, msg: &crate::ln::msgs::ChannelUpdate) -> crate::c_types::derived::CResult_NoneLightningErrorZ { + let mut ret = unsafe { &mut (*(this_arg.inner as *mut nativeNetworkGraph)) }.update_channel(unsafe { &*msg.inner }, secp256k1::SECP256K1); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::LightningError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} + +/// For an already known (from announcement) channel, update info about one of the directions +/// of the channel without verifying the associated signatures. Because we aren't given the +/// associated signatures here we cannot relay the channel update to any of our peers. +#[must_use] +#[no_mangle] +pub extern "C" fn NetworkGraph_update_channel_unsigned(this_arg: &mut NetworkGraph, msg: &crate::ln::msgs::UnsignedChannelUpdate) -> crate::c_types::derived::CResult_NoneLightningErrorZ { + let mut ret = unsafe { &mut (*(this_arg.inner as *mut nativeNetworkGraph)) }.update_channel_unsigned(unsafe { &*msg.inner }); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { 0u8 /*o*/ }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::LightningError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} + diff --git a/lightning-c-bindings/src/routing/router.rs b/lightning-c-bindings/src/routing/router.rs new file mode 100644 index 0000000..32b4aeb --- /dev/null +++ b/lightning-c-bindings/src/routing/router.rs @@ -0,0 +1,368 @@ +//! The top-level routing/network map tracking logic lives here. +//! +//! You probably want to create a NetGraphMsgHandler and use that as your RoutingMessageHandler and then +//! interrogate it to get routes for your own payments. + +use std::ffi::c_void; +use bitcoin::hashes::Hash; +use crate::c_types::*; + + +use lightning::routing::router::RouteHop as nativeRouteHopImport; +type nativeRouteHop = nativeRouteHopImport; + +/// A hop in a route +#[must_use] +#[repr(C)] +pub struct RouteHop { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeRouteHop, + pub is_owned: bool, +} + +impl Drop for RouteHop { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeRouteHop>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn RouteHop_free(this_ptr: RouteHop) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn RouteHop_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeRouteHop); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl RouteHop { + pub(crate) fn take_inner(mut self) -> *mut nativeRouteHop { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The node_id of the node at this hop. +#[no_mangle] +pub extern "C" fn RouteHop_get_pubkey(this_ptr: &RouteHop) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.pubkey; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// The node_id of the node at this hop. +#[no_mangle] +pub extern "C" fn RouteHop_set_pubkey(this_ptr: &mut RouteHop, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.pubkey = val.into_rust(); +} +/// The node_announcement features of the node at this hop. For the last hop, these may be +/// amended to match the features present in the invoice this node generated. +#[no_mangle] +pub extern "C" fn RouteHop_get_node_features(this_ptr: &RouteHop) -> crate::ln::features::NodeFeatures { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.node_features; + crate::ln::features::NodeFeatures { inner: unsafe { ( (&((*inner_val)) as *const _) as *mut _) }, is_owned: false } +} +/// The node_announcement features of the node at this hop. For the last hop, these may be +/// amended to match the features present in the invoice this node generated. +#[no_mangle] +pub extern "C" fn RouteHop_set_node_features(this_ptr: &mut RouteHop, mut val: crate::ln::features::NodeFeatures) { + unsafe { &mut *this_ptr.inner }.node_features = *unsafe { Box::from_raw(val.take_inner()) }; +} +/// The channel that should be used from the previous hop to reach this node. +#[no_mangle] +pub extern "C" fn RouteHop_get_short_channel_id(this_ptr: &RouteHop) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.short_channel_id; + (*inner_val) +} +/// The channel that should be used from the previous hop to reach this node. +#[no_mangle] +pub extern "C" fn RouteHop_set_short_channel_id(this_ptr: &mut RouteHop, mut val: u64) { + unsafe { &mut *this_ptr.inner }.short_channel_id = val; +} +/// The channel_announcement features of the channel that should be used from the previous hop +/// to reach this node. +#[no_mangle] +pub extern "C" fn RouteHop_get_channel_features(this_ptr: &RouteHop) -> crate::ln::features::ChannelFeatures { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.channel_features; + crate::ln::features::ChannelFeatures { inner: unsafe { ( (&((*inner_val)) as *const _) as *mut _) }, is_owned: false } +} +/// The channel_announcement features of the channel that should be used from the previous hop +/// to reach this node. +#[no_mangle] +pub extern "C" fn RouteHop_set_channel_features(this_ptr: &mut RouteHop, mut val: crate::ln::features::ChannelFeatures) { + unsafe { &mut *this_ptr.inner }.channel_features = *unsafe { Box::from_raw(val.take_inner()) }; +} +/// The fee taken on this hop (for paying for the use of the *next* channel in the path). +/// For the last hop, this should be the full value of the payment (might be more than +/// requested if we had to match htlc_minimum_msat). +#[no_mangle] +pub extern "C" fn RouteHop_get_fee_msat(this_ptr: &RouteHop) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.fee_msat; + (*inner_val) +} +/// The fee taken on this hop (for paying for the use of the *next* channel in the path). +/// For the last hop, this should be the full value of the payment (might be more than +/// requested if we had to match htlc_minimum_msat). +#[no_mangle] +pub extern "C" fn RouteHop_set_fee_msat(this_ptr: &mut RouteHop, mut val: u64) { + unsafe { &mut *this_ptr.inner }.fee_msat = val; +} +/// The CLTV delta added for this hop. For the last hop, this should be the full CLTV value +/// expected at the destination, in excess of the current block height. +#[no_mangle] +pub extern "C" fn RouteHop_get_cltv_expiry_delta(this_ptr: &RouteHop) -> u32 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.cltv_expiry_delta; + (*inner_val) +} +/// The CLTV delta added for this hop. For the last hop, this should be the full CLTV value +/// expected at the destination, in excess of the current block height. +#[no_mangle] +pub extern "C" fn RouteHop_set_cltv_expiry_delta(this_ptr: &mut RouteHop, mut val: u32) { + unsafe { &mut *this_ptr.inner }.cltv_expiry_delta = val; +} +#[must_use] +#[no_mangle] +pub extern "C" fn RouteHop_new(mut pubkey_arg: crate::c_types::PublicKey, mut node_features_arg: crate::ln::features::NodeFeatures, mut short_channel_id_arg: u64, mut channel_features_arg: crate::ln::features::ChannelFeatures, mut fee_msat_arg: u64, mut cltv_expiry_delta_arg: u32) -> RouteHop { + RouteHop { inner: Box::into_raw(Box::new(nativeRouteHop { + pubkey: pubkey_arg.into_rust(), + node_features: *unsafe { Box::from_raw(node_features_arg.take_inner()) }, + short_channel_id: short_channel_id_arg, + channel_features: *unsafe { Box::from_raw(channel_features_arg.take_inner()) }, + fee_msat: fee_msat_arg, + cltv_expiry_delta: cltv_expiry_delta_arg, + })), is_owned: true } +} +impl Clone for RouteHop { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeRouteHop>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn RouteHop_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeRouteHop)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn RouteHop_clone(orig: &RouteHop) -> RouteHop { + orig.clone() +} + +use lightning::routing::router::Route as nativeRouteImport; +type nativeRoute = nativeRouteImport; + +/// A route directs a payment from the sender (us) to the recipient. If the recipient supports MPP, +/// it can take multiple paths. Each path is composed of one or more hops through the network. +#[must_use] +#[repr(C)] +pub struct Route { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeRoute, + pub is_owned: bool, +} + +impl Drop for Route { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeRoute>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn Route_free(this_ptr: Route) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn Route_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeRoute); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl Route { + pub(crate) fn take_inner(mut self) -> *mut nativeRoute { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The list of routes taken for a single (potentially-)multi-part payment. The pubkey of the +/// last RouteHop in each path must be the same. +/// Each entry represents a list of hops, NOT INCLUDING our own, where the last hop is the +/// destination. Thus, this must always be at least length one. While the maximum length of any +/// given path is variable, keeping the length of any path to less than 20 should currently +/// ensure it is viable. +#[no_mangle] +pub extern "C" fn Route_set_paths(this_ptr: &mut Route, mut val: crate::c_types::derived::CVec_CVec_RouteHopZZ) { + let mut local_val = Vec::new(); for mut item in val.into_rust().drain(..) { local_val.push( { let mut local_val_0 = Vec::new(); for mut item in item.into_rust().drain(..) { local_val_0.push( { *unsafe { Box::from_raw(item.take_inner()) } }); }; local_val_0 }); }; + unsafe { &mut *this_ptr.inner }.paths = local_val; +} +#[must_use] +#[no_mangle] +pub extern "C" fn Route_new(mut paths_arg: crate::c_types::derived::CVec_CVec_RouteHopZZ) -> Route { + let mut local_paths_arg = Vec::new(); for mut item in paths_arg.into_rust().drain(..) { local_paths_arg.push( { let mut local_paths_arg_0 = Vec::new(); for mut item in item.into_rust().drain(..) { local_paths_arg_0.push( { *unsafe { Box::from_raw(item.take_inner()) } }); }; local_paths_arg_0 }); }; + Route { inner: Box::into_raw(Box::new(nativeRoute { + paths: local_paths_arg, + })), is_owned: true } +} +impl Clone for Route { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeRoute>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn Route_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeRoute)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn Route_clone(orig: &Route) -> Route { + orig.clone() +} +#[no_mangle] +pub extern "C" fn Route_write(obj: &Route) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn Route_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeRoute) }) +} +#[no_mangle] +pub extern "C" fn Route_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_RouteDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::routing::router::Route { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} + +use lightning::routing::router::RouteHint as nativeRouteHintImport; +type nativeRouteHint = nativeRouteHintImport; + +/// A channel descriptor which provides a last-hop route to get_route +#[must_use] +#[repr(C)] +pub struct RouteHint { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeRouteHint, + pub is_owned: bool, +} + +impl Drop for RouteHint { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeRouteHint>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn RouteHint_free(this_ptr: RouteHint) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn RouteHint_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeRouteHint); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl RouteHint { + pub(crate) fn take_inner(mut self) -> *mut nativeRouteHint { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// The node_id of the non-target end of the route +#[no_mangle] +pub extern "C" fn RouteHint_get_src_node_id(this_ptr: &RouteHint) -> crate::c_types::PublicKey { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.src_node_id; + crate::c_types::PublicKey::from_rust(&(*inner_val)) +} +/// The node_id of the non-target end of the route +#[no_mangle] +pub extern "C" fn RouteHint_set_src_node_id(this_ptr: &mut RouteHint, mut val: crate::c_types::PublicKey) { + unsafe { &mut *this_ptr.inner }.src_node_id = val.into_rust(); +} +/// The short_channel_id of this channel +#[no_mangle] +pub extern "C" fn RouteHint_get_short_channel_id(this_ptr: &RouteHint) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.short_channel_id; + (*inner_val) +} +/// The short_channel_id of this channel +#[no_mangle] +pub extern "C" fn RouteHint_set_short_channel_id(this_ptr: &mut RouteHint, mut val: u64) { + unsafe { &mut *this_ptr.inner }.short_channel_id = val; +} +/// The fees which must be paid to use this channel +#[no_mangle] +pub extern "C" fn RouteHint_get_fees(this_ptr: &RouteHint) -> crate::routing::network_graph::RoutingFees { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.fees; + crate::routing::network_graph::RoutingFees { inner: unsafe { ( (&((*inner_val)) as *const _) as *mut _) }, is_owned: false } +} +/// The fees which must be paid to use this channel +#[no_mangle] +pub extern "C" fn RouteHint_set_fees(this_ptr: &mut RouteHint, mut val: crate::routing::network_graph::RoutingFees) { + unsafe { &mut *this_ptr.inner }.fees = *unsafe { Box::from_raw(val.take_inner()) }; +} +/// The difference in CLTV values between this node and the next node. +#[no_mangle] +pub extern "C" fn RouteHint_get_cltv_expiry_delta(this_ptr: &RouteHint) -> u16 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.cltv_expiry_delta; + (*inner_val) +} +/// The difference in CLTV values between this node and the next node. +#[no_mangle] +pub extern "C" fn RouteHint_set_cltv_expiry_delta(this_ptr: &mut RouteHint, mut val: u16) { + unsafe { &mut *this_ptr.inner }.cltv_expiry_delta = val; +} +impl Clone for RouteHint { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeRouteHint>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn RouteHint_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeRouteHint)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn RouteHint_clone(orig: &RouteHint) -> RouteHint { + orig.clone() +} +/// Gets a route from us (payer) to the given target node (payee). +/// +/// Extra routing hops between known nodes and the target will be used if they are included in +/// last_hops. +/// +/// If some channels aren't announced, it may be useful to fill in a first_hops with the +/// results from a local ChannelManager::list_usable_channels() call. If it is filled in, our +/// view of our local channels (from net_graph_msg_handler) will be ignored, and only those +/// in first_hops will be used. +/// +/// Panics if first_hops contains channels without short_channel_ids +/// (ChannelManager::list_usable_channels will never include such channels). +/// +/// The fees on channels from us to next-hops are ignored (as they are assumed to all be +/// equal), however the enabled/disabled bit on such channels as well as the +/// htlc_minimum_msat/htlc_maximum_msat *are* checked as they may change based on the receiving node. +#[no_mangle] +pub extern "C" fn get_route(mut our_node_id: crate::c_types::PublicKey, network: &crate::routing::network_graph::NetworkGraph, mut payee: crate::c_types::PublicKey, first_hops: *mut crate::c_types::derived::CVec_ChannelDetailsZ, mut last_hops: crate::c_types::derived::CVec_RouteHintZ, mut final_value_msat: u64, mut final_cltv: u32, mut logger: crate::util::logger::Logger) -> crate::c_types::derived::CResult_RouteLightningErrorZ { + let mut local_first_hops_base = if first_hops == std::ptr::null_mut() { None } else { Some( { let mut local_first_hops_0 = Vec::new(); for mut item in unsafe { &mut *first_hops }.as_slice().iter() { local_first_hops_0.push( { unsafe { &*item.inner } }); }; local_first_hops_0 }) }; let mut local_first_hops = local_first_hops_base.as_ref().map(|a| &a[..]); + let mut local_last_hops = Vec::new(); for mut item in last_hops.as_slice().iter() { local_last_hops.push( { unsafe { &*item.inner } }); }; + let mut ret = lightning::routing::router::get_route(&our_node_id.into_rust(), unsafe { &*network.inner }, &payee.into_rust(), local_first_hops, &local_last_hops[..], final_value_msat, final_cltv, logger); + let mut local_ret = match ret { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::routing::router::Route { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::LightningError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_ret +} + diff --git a/lightning-c-bindings/src/util/config.rs b/lightning-c-bindings/src/util/config.rs new file mode 100644 index 0000000..9f8769d --- /dev/null +++ b/lightning-c-bindings/src/util/config.rs @@ -0,0 +1,709 @@ +//! Various user-configurable channel limits and settings which ChannelManager +//! applies for you. + +use std::ffi::c_void; +use bitcoin::hashes::Hash; +use crate::c_types::*; + + +use lightning::util::config::ChannelHandshakeConfig as nativeChannelHandshakeConfigImport; +type nativeChannelHandshakeConfig = nativeChannelHandshakeConfigImport; + +/// Configuration we set when applicable. +/// +/// Default::default() provides sane defaults. +#[must_use] +#[repr(C)] +pub struct ChannelHandshakeConfig { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeChannelHandshakeConfig, + pub is_owned: bool, +} + +impl Drop for ChannelHandshakeConfig { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeChannelHandshakeConfig>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn ChannelHandshakeConfig_free(this_ptr: ChannelHandshakeConfig) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn ChannelHandshakeConfig_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeChannelHandshakeConfig); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl ChannelHandshakeConfig { + pub(crate) fn take_inner(mut self) -> *mut nativeChannelHandshakeConfig { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// Confirmations we will wait for before considering the channel locked in. +/// Applied only for inbound channels (see ChannelHandshakeLimits::max_minimum_depth for the +/// equivalent limit applied to outbound channels). +/// +/// Default value: 6. +#[no_mangle] +pub extern "C" fn ChannelHandshakeConfig_get_minimum_depth(this_ptr: &ChannelHandshakeConfig) -> u32 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.minimum_depth; + (*inner_val) +} +/// Confirmations we will wait for before considering the channel locked in. +/// Applied only for inbound channels (see ChannelHandshakeLimits::max_minimum_depth for the +/// equivalent limit applied to outbound channels). +/// +/// Default value: 6. +#[no_mangle] +pub extern "C" fn ChannelHandshakeConfig_set_minimum_depth(this_ptr: &mut ChannelHandshakeConfig, mut val: u32) { + unsafe { &mut *this_ptr.inner }.minimum_depth = val; +} +/// Set to the amount of time we require our counterparty to wait to claim their money. +/// +/// It's one of the main parameter of our security model. We (or one of our watchtowers) MUST +/// be online to check for peer having broadcast a revoked transaction to steal our funds +/// at least once every our_to_self_delay blocks. +/// +/// Meanwhile, asking for a too high delay, we bother peer to freeze funds for nothing in +/// case of an honest unilateral channel close, which implicitly decrease the economic value of +/// our channel. +/// +/// Default value: BREAKDOWN_TIMEOUT (currently 144), we enforce it as a minimum at channel +/// opening so you can tweak config to ask for more security, not less. +#[no_mangle] +pub extern "C" fn ChannelHandshakeConfig_get_our_to_self_delay(this_ptr: &ChannelHandshakeConfig) -> u16 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.our_to_self_delay; + (*inner_val) +} +/// Set to the amount of time we require our counterparty to wait to claim their money. +/// +/// It's one of the main parameter of our security model. We (or one of our watchtowers) MUST +/// be online to check for peer having broadcast a revoked transaction to steal our funds +/// at least once every our_to_self_delay blocks. +/// +/// Meanwhile, asking for a too high delay, we bother peer to freeze funds for nothing in +/// case of an honest unilateral channel close, which implicitly decrease the economic value of +/// our channel. +/// +/// Default value: BREAKDOWN_TIMEOUT (currently 144), we enforce it as a minimum at channel +/// opening so you can tweak config to ask for more security, not less. +#[no_mangle] +pub extern "C" fn ChannelHandshakeConfig_set_our_to_self_delay(this_ptr: &mut ChannelHandshakeConfig, mut val: u16) { + unsafe { &mut *this_ptr.inner }.our_to_self_delay = val; +} +/// Set to the smallest value HTLC we will accept to process. +/// +/// This value is sent to our counterparty on channel-open and we close the channel any time +/// our counterparty misbehaves by sending us an HTLC with a value smaller than this. +/// +/// Default value: 1. If the value is less than 1, it is ignored and set to 1, as is required +/// by the protocol. +#[no_mangle] +pub extern "C" fn ChannelHandshakeConfig_get_our_htlc_minimum_msat(this_ptr: &ChannelHandshakeConfig) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.our_htlc_minimum_msat; + (*inner_val) +} +/// Set to the smallest value HTLC we will accept to process. +/// +/// This value is sent to our counterparty on channel-open and we close the channel any time +/// our counterparty misbehaves by sending us an HTLC with a value smaller than this. +/// +/// Default value: 1. If the value is less than 1, it is ignored and set to 1, as is required +/// by the protocol. +#[no_mangle] +pub extern "C" fn ChannelHandshakeConfig_set_our_htlc_minimum_msat(this_ptr: &mut ChannelHandshakeConfig, mut val: u64) { + unsafe { &mut *this_ptr.inner }.our_htlc_minimum_msat = val; +} +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelHandshakeConfig_new(mut minimum_depth_arg: u32, mut our_to_self_delay_arg: u16, mut our_htlc_minimum_msat_arg: u64) -> ChannelHandshakeConfig { + ChannelHandshakeConfig { inner: Box::into_raw(Box::new(nativeChannelHandshakeConfig { + minimum_depth: minimum_depth_arg, + our_to_self_delay: our_to_self_delay_arg, + our_htlc_minimum_msat: our_htlc_minimum_msat_arg, + })), is_owned: true } +} +impl Clone for ChannelHandshakeConfig { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeChannelHandshakeConfig>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn ChannelHandshakeConfig_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeChannelHandshakeConfig)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn ChannelHandshakeConfig_clone(orig: &ChannelHandshakeConfig) -> ChannelHandshakeConfig { + orig.clone() +} +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelHandshakeConfig_default() -> ChannelHandshakeConfig { + ChannelHandshakeConfig { inner: Box::into_raw(Box::new(Default::default())), is_owned: true } +} + +use lightning::util::config::ChannelHandshakeLimits as nativeChannelHandshakeLimitsImport; +type nativeChannelHandshakeLimits = nativeChannelHandshakeLimitsImport; + +/// Optional channel limits which are applied during channel creation. +/// +/// These limits are only applied to our counterparty's limits, not our own. +/// +/// Use 0/::max_value() as appropriate to skip checking. +/// +/// Provides sane defaults for most configurations. +/// +/// Most additional limits are disabled except those with which specify a default in individual +/// field documentation. Note that this may result in barely-usable channels, but since they +/// are applied mostly only to incoming channels that's not much of a problem. +#[must_use] +#[repr(C)] +pub struct ChannelHandshakeLimits { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeChannelHandshakeLimits, + pub is_owned: bool, +} + +impl Drop for ChannelHandshakeLimits { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeChannelHandshakeLimits>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn ChannelHandshakeLimits_free(this_ptr: ChannelHandshakeLimits) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn ChannelHandshakeLimits_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeChannelHandshakeLimits); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl ChannelHandshakeLimits { + pub(crate) fn take_inner(mut self) -> *mut nativeChannelHandshakeLimits { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// Minimum allowed satoshis when a channel is funded, this is supplied by the sender and so +/// only applies to inbound channels. +/// +/// Default value: 0. +#[no_mangle] +pub extern "C" fn ChannelHandshakeLimits_get_min_funding_satoshis(this_ptr: &ChannelHandshakeLimits) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.min_funding_satoshis; + (*inner_val) +} +/// Minimum allowed satoshis when a channel is funded, this is supplied by the sender and so +/// only applies to inbound channels. +/// +/// Default value: 0. +#[no_mangle] +pub extern "C" fn ChannelHandshakeLimits_set_min_funding_satoshis(this_ptr: &mut ChannelHandshakeLimits, mut val: u64) { + unsafe { &mut *this_ptr.inner }.min_funding_satoshis = val; +} +/// The remote node sets a limit on the minimum size of HTLCs we can send to them. This allows +/// you to limit the maximum minimum-size they can require. +/// +/// Default value: u64::max_value. +#[no_mangle] +pub extern "C" fn ChannelHandshakeLimits_get_max_htlc_minimum_msat(this_ptr: &ChannelHandshakeLimits) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.max_htlc_minimum_msat; + (*inner_val) +} +/// The remote node sets a limit on the minimum size of HTLCs we can send to them. This allows +/// you to limit the maximum minimum-size they can require. +/// +/// Default value: u64::max_value. +#[no_mangle] +pub extern "C" fn ChannelHandshakeLimits_set_max_htlc_minimum_msat(this_ptr: &mut ChannelHandshakeLimits, mut val: u64) { + unsafe { &mut *this_ptr.inner }.max_htlc_minimum_msat = val; +} +/// The remote node sets a limit on the maximum value of pending HTLCs to them at any given +/// time to limit their funds exposure to HTLCs. This allows you to set a minimum such value. +/// +/// Default value: 0. +#[no_mangle] +pub extern "C" fn ChannelHandshakeLimits_get_min_max_htlc_value_in_flight_msat(this_ptr: &ChannelHandshakeLimits) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.min_max_htlc_value_in_flight_msat; + (*inner_val) +} +/// The remote node sets a limit on the maximum value of pending HTLCs to them at any given +/// time to limit their funds exposure to HTLCs. This allows you to set a minimum such value. +/// +/// Default value: 0. +#[no_mangle] +pub extern "C" fn ChannelHandshakeLimits_set_min_max_htlc_value_in_flight_msat(this_ptr: &mut ChannelHandshakeLimits, mut val: u64) { + unsafe { &mut *this_ptr.inner }.min_max_htlc_value_in_flight_msat = val; +} +/// The remote node will require we keep a certain amount in direct payment to ourselves at all +/// time, ensuring that we are able to be punished if we broadcast an old state. This allows to +/// you limit the amount which we will have to keep to ourselves (and cannot use for HTLCs). +/// +/// Default value: u64::max_value. +#[no_mangle] +pub extern "C" fn ChannelHandshakeLimits_get_max_channel_reserve_satoshis(this_ptr: &ChannelHandshakeLimits) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.max_channel_reserve_satoshis; + (*inner_val) +} +/// The remote node will require we keep a certain amount in direct payment to ourselves at all +/// time, ensuring that we are able to be punished if we broadcast an old state. This allows to +/// you limit the amount which we will have to keep to ourselves (and cannot use for HTLCs). +/// +/// Default value: u64::max_value. +#[no_mangle] +pub extern "C" fn ChannelHandshakeLimits_set_max_channel_reserve_satoshis(this_ptr: &mut ChannelHandshakeLimits, mut val: u64) { + unsafe { &mut *this_ptr.inner }.max_channel_reserve_satoshis = val; +} +/// The remote node sets a limit on the maximum number of pending HTLCs to them at any given +/// time. This allows you to set a minimum such value. +/// +/// Default value: 0. +#[no_mangle] +pub extern "C" fn ChannelHandshakeLimits_get_min_max_accepted_htlcs(this_ptr: &ChannelHandshakeLimits) -> u16 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.min_max_accepted_htlcs; + (*inner_val) +} +/// The remote node sets a limit on the maximum number of pending HTLCs to them at any given +/// time. This allows you to set a minimum such value. +/// +/// Default value: 0. +#[no_mangle] +pub extern "C" fn ChannelHandshakeLimits_set_min_max_accepted_htlcs(this_ptr: &mut ChannelHandshakeLimits, mut val: u16) { + unsafe { &mut *this_ptr.inner }.min_max_accepted_htlcs = val; +} +/// Outputs below a certain value will not be added to on-chain transactions. The dust value is +/// required to always be higher than this value so this only applies to HTLC outputs (and +/// potentially to-self outputs before any payments have been made). +/// Thus, HTLCs below this amount plus HTLC transaction fees are not enforceable on-chain. +/// This setting allows you to set a minimum dust limit for their commitment transactions, +/// reflecting the reality that tiny outputs are not considered standard transactions and will +/// not propagate through the Bitcoin network. +/// +/// Default value: 546, the current dust limit on the Bitcoin network. +#[no_mangle] +pub extern "C" fn ChannelHandshakeLimits_get_min_dust_limit_satoshis(this_ptr: &ChannelHandshakeLimits) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.min_dust_limit_satoshis; + (*inner_val) +} +/// Outputs below a certain value will not be added to on-chain transactions. The dust value is +/// required to always be higher than this value so this only applies to HTLC outputs (and +/// potentially to-self outputs before any payments have been made). +/// Thus, HTLCs below this amount plus HTLC transaction fees are not enforceable on-chain. +/// This setting allows you to set a minimum dust limit for their commitment transactions, +/// reflecting the reality that tiny outputs are not considered standard transactions and will +/// not propagate through the Bitcoin network. +/// +/// Default value: 546, the current dust limit on the Bitcoin network. +#[no_mangle] +pub extern "C" fn ChannelHandshakeLimits_set_min_dust_limit_satoshis(this_ptr: &mut ChannelHandshakeLimits, mut val: u64) { + unsafe { &mut *this_ptr.inner }.min_dust_limit_satoshis = val; +} +/// Maximum allowed threshold above which outputs will not be generated in their commitment +/// transactions. +/// HTLCs below this amount plus HTLC transaction fees are not enforceable on-chain. +/// +/// Default value: u64::max_value. +#[no_mangle] +pub extern "C" fn ChannelHandshakeLimits_get_max_dust_limit_satoshis(this_ptr: &ChannelHandshakeLimits) -> u64 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.max_dust_limit_satoshis; + (*inner_val) +} +/// Maximum allowed threshold above which outputs will not be generated in their commitment +/// transactions. +/// HTLCs below this amount plus HTLC transaction fees are not enforceable on-chain. +/// +/// Default value: u64::max_value. +#[no_mangle] +pub extern "C" fn ChannelHandshakeLimits_set_max_dust_limit_satoshis(this_ptr: &mut ChannelHandshakeLimits, mut val: u64) { + unsafe { &mut *this_ptr.inner }.max_dust_limit_satoshis = val; +} +/// Before a channel is usable the funding transaction will need to be confirmed by at least a +/// certain number of blocks, specified by the node which is not the funder (as the funder can +/// assume they aren't going to double-spend themselves). +/// This config allows you to set a limit on the maximum amount of time to wait. +/// +/// Default value: 144, or roughly one day and only applies to outbound channels. +#[no_mangle] +pub extern "C" fn ChannelHandshakeLimits_get_max_minimum_depth(this_ptr: &ChannelHandshakeLimits) -> u32 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.max_minimum_depth; + (*inner_val) +} +/// Before a channel is usable the funding transaction will need to be confirmed by at least a +/// certain number of blocks, specified by the node which is not the funder (as the funder can +/// assume they aren't going to double-spend themselves). +/// This config allows you to set a limit on the maximum amount of time to wait. +/// +/// Default value: 144, or roughly one day and only applies to outbound channels. +#[no_mangle] +pub extern "C" fn ChannelHandshakeLimits_set_max_minimum_depth(this_ptr: &mut ChannelHandshakeLimits, mut val: u32) { + unsafe { &mut *this_ptr.inner }.max_minimum_depth = val; +} +/// Set to force the incoming channel to match our announced channel preference in +/// ChannelConfig. +/// +/// Default value: true, to make the default that no announced channels are possible (which is +/// appropriate for any nodes which are not online very reliably). +#[no_mangle] +pub extern "C" fn ChannelHandshakeLimits_get_force_announced_channel_preference(this_ptr: &ChannelHandshakeLimits) -> bool { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.force_announced_channel_preference; + (*inner_val) +} +/// Set to force the incoming channel to match our announced channel preference in +/// ChannelConfig. +/// +/// Default value: true, to make the default that no announced channels are possible (which is +/// appropriate for any nodes which are not online very reliably). +#[no_mangle] +pub extern "C" fn ChannelHandshakeLimits_set_force_announced_channel_preference(this_ptr: &mut ChannelHandshakeLimits, mut val: bool) { + unsafe { &mut *this_ptr.inner }.force_announced_channel_preference = val; +} +/// Set to the amount of time we're willing to wait to claim money back to us. +/// +/// Not checking this value would be a security issue, as our peer would be able to set it to +/// max relative lock-time (a year) and we would \"lose\" money as it would be locked for a long time. +/// +/// Default value: MAX_LOCAL_BREAKDOWN_TIMEOUT (1008), which we also enforce as a maximum value +/// so you can tweak config to reduce the loss of having useless locked funds (if your peer accepts) +#[no_mangle] +pub extern "C" fn ChannelHandshakeLimits_get_their_to_self_delay(this_ptr: &ChannelHandshakeLimits) -> u16 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.their_to_self_delay; + (*inner_val) +} +/// Set to the amount of time we're willing to wait to claim money back to us. +/// +/// Not checking this value would be a security issue, as our peer would be able to set it to +/// max relative lock-time (a year) and we would \"lose\" money as it would be locked for a long time. +/// +/// Default value: MAX_LOCAL_BREAKDOWN_TIMEOUT (1008), which we also enforce as a maximum value +/// so you can tweak config to reduce the loss of having useless locked funds (if your peer accepts) +#[no_mangle] +pub extern "C" fn ChannelHandshakeLimits_set_their_to_self_delay(this_ptr: &mut ChannelHandshakeLimits, mut val: u16) { + unsafe { &mut *this_ptr.inner }.their_to_self_delay = val; +} +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelHandshakeLimits_new(mut min_funding_satoshis_arg: u64, mut max_htlc_minimum_msat_arg: u64, mut min_max_htlc_value_in_flight_msat_arg: u64, mut max_channel_reserve_satoshis_arg: u64, mut min_max_accepted_htlcs_arg: u16, mut min_dust_limit_satoshis_arg: u64, mut max_dust_limit_satoshis_arg: u64, mut max_minimum_depth_arg: u32, mut force_announced_channel_preference_arg: bool, mut their_to_self_delay_arg: u16) -> ChannelHandshakeLimits { + ChannelHandshakeLimits { inner: Box::into_raw(Box::new(nativeChannelHandshakeLimits { + min_funding_satoshis: min_funding_satoshis_arg, + max_htlc_minimum_msat: max_htlc_minimum_msat_arg, + min_max_htlc_value_in_flight_msat: min_max_htlc_value_in_flight_msat_arg, + max_channel_reserve_satoshis: max_channel_reserve_satoshis_arg, + min_max_accepted_htlcs: min_max_accepted_htlcs_arg, + min_dust_limit_satoshis: min_dust_limit_satoshis_arg, + max_dust_limit_satoshis: max_dust_limit_satoshis_arg, + max_minimum_depth: max_minimum_depth_arg, + force_announced_channel_preference: force_announced_channel_preference_arg, + their_to_self_delay: their_to_self_delay_arg, + })), is_owned: true } +} +impl Clone for ChannelHandshakeLimits { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeChannelHandshakeLimits>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn ChannelHandshakeLimits_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeChannelHandshakeLimits)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn ChannelHandshakeLimits_clone(orig: &ChannelHandshakeLimits) -> ChannelHandshakeLimits { + orig.clone() +} +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelHandshakeLimits_default() -> ChannelHandshakeLimits { + ChannelHandshakeLimits { inner: Box::into_raw(Box::new(Default::default())), is_owned: true } +} + +use lightning::util::config::ChannelConfig as nativeChannelConfigImport; +type nativeChannelConfig = nativeChannelConfigImport; + +/// Options which apply on a per-channel basis and may change at runtime or based on negotiation +/// with our counterparty. +#[must_use] +#[repr(C)] +pub struct ChannelConfig { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeChannelConfig, + pub is_owned: bool, +} + +impl Drop for ChannelConfig { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeChannelConfig>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn ChannelConfig_free(this_ptr: ChannelConfig) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn ChannelConfig_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeChannelConfig); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl ChannelConfig { + pub(crate) fn take_inner(mut self) -> *mut nativeChannelConfig { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// Amount (in millionths of a satoshi) the channel will charge per transferred satoshi. +/// This may be allowed to change at runtime in a later update, however doing so must result in +/// update messages sent to notify all nodes of our updated relay fee. +/// +/// Default value: 0. +#[no_mangle] +pub extern "C" fn ChannelConfig_get_fee_proportional_millionths(this_ptr: &ChannelConfig) -> u32 { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.fee_proportional_millionths; + (*inner_val) +} +/// Amount (in millionths of a satoshi) the channel will charge per transferred satoshi. +/// This may be allowed to change at runtime in a later update, however doing so must result in +/// update messages sent to notify all nodes of our updated relay fee. +/// +/// Default value: 0. +#[no_mangle] +pub extern "C" fn ChannelConfig_set_fee_proportional_millionths(this_ptr: &mut ChannelConfig, mut val: u32) { + unsafe { &mut *this_ptr.inner }.fee_proportional_millionths = val; +} +/// Set to announce the channel publicly and notify all nodes that they can route via this +/// channel. +/// +/// This should only be set to true for nodes which expect to be online reliably. +/// +/// As the node which funds a channel picks this value this will only apply for new outbound +/// channels unless ChannelHandshakeLimits::force_announced_channel_preferences is set. +/// +/// This cannot be changed after the initial channel handshake. +/// +/// Default value: false. +#[no_mangle] +pub extern "C" fn ChannelConfig_get_announced_channel(this_ptr: &ChannelConfig) -> bool { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.announced_channel; + (*inner_val) +} +/// Set to announce the channel publicly and notify all nodes that they can route via this +/// channel. +/// +/// This should only be set to true for nodes which expect to be online reliably. +/// +/// As the node which funds a channel picks this value this will only apply for new outbound +/// channels unless ChannelHandshakeLimits::force_announced_channel_preferences is set. +/// +/// This cannot be changed after the initial channel handshake. +/// +/// Default value: false. +#[no_mangle] +pub extern "C" fn ChannelConfig_set_announced_channel(this_ptr: &mut ChannelConfig, mut val: bool) { + unsafe { &mut *this_ptr.inner }.announced_channel = val; +} +/// When set, we commit to an upfront shutdown_pubkey at channel open. If our counterparty +/// supports it, they will then enforce the mutual-close output to us matches what we provided +/// at intialization, preventing us from closing to an alternate pubkey. +/// +/// This is set to true by default to provide a slight increase in security, though ultimately +/// any attacker who is able to take control of a channel can just as easily send the funds via +/// lightning payments, so we never require that our counterparties support this option. +/// +/// This cannot be changed after a channel has been initialized. +/// +/// Default value: true. +#[no_mangle] +pub extern "C" fn ChannelConfig_get_commit_upfront_shutdown_pubkey(this_ptr: &ChannelConfig) -> bool { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.commit_upfront_shutdown_pubkey; + (*inner_val) +} +/// When set, we commit to an upfront shutdown_pubkey at channel open. If our counterparty +/// supports it, they will then enforce the mutual-close output to us matches what we provided +/// at intialization, preventing us from closing to an alternate pubkey. +/// +/// This is set to true by default to provide a slight increase in security, though ultimately +/// any attacker who is able to take control of a channel can just as easily send the funds via +/// lightning payments, so we never require that our counterparties support this option. +/// +/// This cannot be changed after a channel has been initialized. +/// +/// Default value: true. +#[no_mangle] +pub extern "C" fn ChannelConfig_set_commit_upfront_shutdown_pubkey(this_ptr: &mut ChannelConfig, mut val: bool) { + unsafe { &mut *this_ptr.inner }.commit_upfront_shutdown_pubkey = val; +} +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelConfig_new(mut fee_proportional_millionths_arg: u32, mut announced_channel_arg: bool, mut commit_upfront_shutdown_pubkey_arg: bool) -> ChannelConfig { + ChannelConfig { inner: Box::into_raw(Box::new(nativeChannelConfig { + fee_proportional_millionths: fee_proportional_millionths_arg, + announced_channel: announced_channel_arg, + commit_upfront_shutdown_pubkey: commit_upfront_shutdown_pubkey_arg, + })), is_owned: true } +} +impl Clone for ChannelConfig { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeChannelConfig>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn ChannelConfig_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeChannelConfig)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn ChannelConfig_clone(orig: &ChannelConfig) -> ChannelConfig { + orig.clone() +} +#[must_use] +#[no_mangle] +pub extern "C" fn ChannelConfig_default() -> ChannelConfig { + ChannelConfig { inner: Box::into_raw(Box::new(Default::default())), is_owned: true } +} +#[no_mangle] +pub extern "C" fn ChannelConfig_write(obj: &ChannelConfig) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*unsafe { &*obj }.inner }) +} +#[no_mangle] +pub(crate) extern "C" fn ChannelConfig_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeChannelConfig) }) +} +#[no_mangle] +pub extern "C" fn ChannelConfig_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_ChannelConfigDecodeErrorZ { + let res = crate::c_types::deserialize_obj(ser); + let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::util::config::ChannelConfig { inner: Box::into_raw(Box::new(o)), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::ln::msgs::DecodeError { inner: Box::into_raw(Box::new(e)), is_owned: true } }).into() }; + local_res +} + +use lightning::util::config::UserConfig as nativeUserConfigImport; +type nativeUserConfig = nativeUserConfigImport; + +/// Top-level config which holds ChannelHandshakeLimits and ChannelConfig. +/// +/// Default::default() provides sane defaults for most configurations +/// (but currently with 0 relay fees!) +#[must_use] +#[repr(C)] +pub struct UserConfig { + /// Nearly everywhere, inner must be non-null, however in places where + /// the Rust equivalent takes an Option, it may be set to null to indicate None. + pub inner: *mut nativeUserConfig, + pub is_owned: bool, +} + +impl Drop for UserConfig { + fn drop(&mut self) { + if self.is_owned && !<*mut nativeUserConfig>::is_null(self.inner) { + let _ = unsafe { Box::from_raw(self.inner) }; + } + } +} +#[no_mangle] +pub extern "C" fn UserConfig_free(this_ptr: UserConfig) { } +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +extern "C" fn UserConfig_free_void(this_ptr: *mut c_void) { + unsafe { let _ = Box::from_raw(this_ptr as *mut nativeUserConfig); } +} +#[allow(unused)] +/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy +impl UserConfig { + pub(crate) fn take_inner(mut self) -> *mut nativeUserConfig { + assert!(self.is_owned); + let ret = self.inner; + self.inner = std::ptr::null_mut(); + ret + } +} +/// Channel config that we propose to our counterparty. +#[no_mangle] +pub extern "C" fn UserConfig_get_own_channel_config(this_ptr: &UserConfig) -> crate::util::config::ChannelHandshakeConfig { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.own_channel_config; + crate::util::config::ChannelHandshakeConfig { inner: unsafe { ( (&((*inner_val)) as *const _) as *mut _) }, is_owned: false } +} +/// Channel config that we propose to our counterparty. +#[no_mangle] +pub extern "C" fn UserConfig_set_own_channel_config(this_ptr: &mut UserConfig, mut val: crate::util::config::ChannelHandshakeConfig) { + unsafe { &mut *this_ptr.inner }.own_channel_config = *unsafe { Box::from_raw(val.take_inner()) }; +} +/// Limits applied to our counterparty's proposed channel config settings. +#[no_mangle] +pub extern "C" fn UserConfig_get_peer_channel_config_limits(this_ptr: &UserConfig) -> crate::util::config::ChannelHandshakeLimits { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.peer_channel_config_limits; + crate::util::config::ChannelHandshakeLimits { inner: unsafe { ( (&((*inner_val)) as *const _) as *mut _) }, is_owned: false } +} +/// Limits applied to our counterparty's proposed channel config settings. +#[no_mangle] +pub extern "C" fn UserConfig_set_peer_channel_config_limits(this_ptr: &mut UserConfig, mut val: crate::util::config::ChannelHandshakeLimits) { + unsafe { &mut *this_ptr.inner }.peer_channel_config_limits = *unsafe { Box::from_raw(val.take_inner()) }; +} +/// Channel config which affects behavior during channel lifetime. +#[no_mangle] +pub extern "C" fn UserConfig_get_channel_options(this_ptr: &UserConfig) -> crate::util::config::ChannelConfig { + let mut inner_val = &mut unsafe { &mut *this_ptr.inner }.channel_options; + crate::util::config::ChannelConfig { inner: unsafe { ( (&((*inner_val)) as *const _) as *mut _) }, is_owned: false } +} +/// Channel config which affects behavior during channel lifetime. +#[no_mangle] +pub extern "C" fn UserConfig_set_channel_options(this_ptr: &mut UserConfig, mut val: crate::util::config::ChannelConfig) { + unsafe { &mut *this_ptr.inner }.channel_options = *unsafe { Box::from_raw(val.take_inner()) }; +} +#[must_use] +#[no_mangle] +pub extern "C" fn UserConfig_new(mut own_channel_config_arg: crate::util::config::ChannelHandshakeConfig, mut peer_channel_config_limits_arg: crate::util::config::ChannelHandshakeLimits, mut channel_options_arg: crate::util::config::ChannelConfig) -> UserConfig { + UserConfig { inner: Box::into_raw(Box::new(nativeUserConfig { + own_channel_config: *unsafe { Box::from_raw(own_channel_config_arg.take_inner()) }, + peer_channel_config_limits: *unsafe { Box::from_raw(peer_channel_config_limits_arg.take_inner()) }, + channel_options: *unsafe { Box::from_raw(channel_options_arg.take_inner()) }, + })), is_owned: true } +} +impl Clone for UserConfig { + fn clone(&self) -> Self { + Self { + inner: if <*mut nativeUserConfig>::is_null(self.inner) { std::ptr::null_mut() } else { + Box::into_raw(Box::new(unsafe { &*self.inner }.clone())) }, + is_owned: true, + } + } +} +#[allow(unused)] +/// Used only if an object of this type is returned as a trait impl by a method +pub(crate) extern "C" fn UserConfig_clone_void(this_ptr: *const c_void) -> *mut c_void { + Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeUserConfig)).clone() })) as *mut c_void +} +#[no_mangle] +pub extern "C" fn UserConfig_clone(orig: &UserConfig) -> UserConfig { + orig.clone() +} +#[must_use] +#[no_mangle] +pub extern "C" fn UserConfig_default() -> UserConfig { + UserConfig { inner: Box::into_raw(Box::new(Default::default())), is_owned: true } +} diff --git a/lightning-c-bindings/src/util/errors.rs b/lightning-c-bindings/src/util/errors.rs new file mode 100644 index 0000000..9b0e757 --- /dev/null +++ b/lightning-c-bindings/src/util/errors.rs @@ -0,0 +1,166 @@ +//! Error types live here. + +use std::ffi::c_void; +use bitcoin::hashes::Hash; +use crate::c_types::*; + +/// Indicates an error on the client's part (usually some variant of attempting to use too-low or +/// too-high values) +#[must_use] +#[derive(Clone)] +#[repr(C)] +pub enum APIError { + /// Indicates the API was wholly misused (see err for more). Cases where these can be returned + /// are documented, but generally indicates some precondition of a function was violated. + APIMisuseError { + err: crate::c_types::derived::CVec_u8Z, + }, + /// Due to a high feerate, we were unable to complete the request. + /// For example, this may be returned if the feerate implies we cannot open a channel at the + /// requested value, but opening a larger channel would succeed. + FeeRateTooHigh { + err: crate::c_types::derived::CVec_u8Z, + feerate: u32, + }, + /// A malformed Route was provided (eg overflowed value, node id mismatch, overly-looped route, + /// too-many-hops, etc). + RouteError { + err: crate::c_types::Str, + }, + /// We were unable to complete the request as the Channel required to do so is unable to + /// complete the request (or was not found). This can take many forms, including disconnected + /// peer, channel at capacity, channel shutting down, etc. + ChannelUnavailable { + err: crate::c_types::derived::CVec_u8Z, + }, + /// An attempt to call watch/update_channel returned an Err (ie you did this!), causing the + /// attempted action to fail. + MonitorUpdateFailed, +} +use lightning::util::errors::APIError as nativeAPIError; +impl APIError { + #[allow(unused)] + pub(crate) fn to_native(&self) -> nativeAPIError { + match self { + APIError::APIMisuseError {ref err, } => { + let mut err_nonref = (*err).clone(); + nativeAPIError::APIMisuseError { + err: String::from_utf8(err_nonref.into_rust()).unwrap(), + } + }, + APIError::FeeRateTooHigh {ref err, ref feerate, } => { + let mut err_nonref = (*err).clone(); + let mut feerate_nonref = (*feerate).clone(); + nativeAPIError::FeeRateTooHigh { + err: String::from_utf8(err_nonref.into_rust()).unwrap(), + feerate: feerate_nonref, + } + }, + APIError::RouteError {ref err, } => { + let mut err_nonref = (*err).clone(); + nativeAPIError::RouteError { + err: err_nonref.into(), + } + }, + APIError::ChannelUnavailable {ref err, } => { + let mut err_nonref = (*err).clone(); + nativeAPIError::ChannelUnavailable { + err: String::from_utf8(err_nonref.into_rust()).unwrap(), + } + }, + APIError::MonitorUpdateFailed => nativeAPIError::MonitorUpdateFailed, + } + } + #[allow(unused)] + pub(crate) fn into_native(self) -> nativeAPIError { + match self { + APIError::APIMisuseError {mut err, } => { + nativeAPIError::APIMisuseError { + err: String::from_utf8(err.into_rust()).unwrap(), + } + }, + APIError::FeeRateTooHigh {mut err, mut feerate, } => { + nativeAPIError::FeeRateTooHigh { + err: String::from_utf8(err.into_rust()).unwrap(), + feerate: feerate, + } + }, + APIError::RouteError {mut err, } => { + nativeAPIError::RouteError { + err: err.into(), + } + }, + APIError::ChannelUnavailable {mut err, } => { + nativeAPIError::ChannelUnavailable { + err: String::from_utf8(err.into_rust()).unwrap(), + } + }, + APIError::MonitorUpdateFailed => nativeAPIError::MonitorUpdateFailed, + } + } + #[allow(unused)] + pub(crate) fn from_native(native: &nativeAPIError) -> Self { + match native { + nativeAPIError::APIMisuseError {ref err, } => { + let mut err_nonref = (*err).clone(); + APIError::APIMisuseError { + err: err_nonref.into_bytes().into(), + } + }, + nativeAPIError::FeeRateTooHigh {ref err, ref feerate, } => { + let mut err_nonref = (*err).clone(); + let mut feerate_nonref = (*feerate).clone(); + APIError::FeeRateTooHigh { + err: err_nonref.into_bytes().into(), + feerate: feerate_nonref, + } + }, + nativeAPIError::RouteError {ref err, } => { + let mut err_nonref = (*err).clone(); + APIError::RouteError { + err: err_nonref.into(), + } + }, + nativeAPIError::ChannelUnavailable {ref err, } => { + let mut err_nonref = (*err).clone(); + APIError::ChannelUnavailable { + err: err_nonref.into_bytes().into(), + } + }, + nativeAPIError::MonitorUpdateFailed => APIError::MonitorUpdateFailed, + } + } + #[allow(unused)] + pub(crate) fn native_into(native: nativeAPIError) -> Self { + match native { + nativeAPIError::APIMisuseError {mut err, } => { + APIError::APIMisuseError { + err: err.into_bytes().into(), + } + }, + nativeAPIError::FeeRateTooHigh {mut err, mut feerate, } => { + APIError::FeeRateTooHigh { + err: err.into_bytes().into(), + feerate: feerate, + } + }, + nativeAPIError::RouteError {mut err, } => { + APIError::RouteError { + err: err.into(), + } + }, + nativeAPIError::ChannelUnavailable {mut err, } => { + APIError::ChannelUnavailable { + err: err.into_bytes().into(), + } + }, + nativeAPIError::MonitorUpdateFailed => APIError::MonitorUpdateFailed, + } + } +} +#[no_mangle] +pub extern "C" fn APIError_free(this_ptr: APIError) { } +#[no_mangle] +pub extern "C" fn APIError_clone(orig: &APIError) -> APIError { + orig.clone() +} diff --git a/lightning-c-bindings/src/util/events.rs b/lightning-c-bindings/src/util/events.rs new file mode 100644 index 0000000..5289367 --- /dev/null +++ b/lightning-c-bindings/src/util/events.rs @@ -0,0 +1,1016 @@ +//! Events are returned from various bits in the library which indicate some action must be taken +//! by the client. +//! +//! Because we don't have a built-in runtime, it's up to the client to call events at a time in the +//! future, as well as generate and broadcast funding transactions handle payment preimages and a +//! few other things. + +use std::ffi::c_void; +use bitcoin::hashes::Hash; +use crate::c_types::*; + +/// An Event which you should probably take some action in response to. +/// +/// Note that while Writeable and Readable are implemented for Event, you probably shouldn't use +/// them directly as they don't round-trip exactly (for example FundingGenerationReady is never +/// written as it makes no sense to respond to it after reconnecting to peers). +#[must_use] +#[derive(Clone)] +#[repr(C)] +pub enum Event { + /// Used to indicate that the client should generate a funding transaction with the given + /// parameters and then call ChannelManager::funding_transaction_generated. + /// Generated in ChannelManager message handling. + /// Note that *all inputs* in the funding transaction must spend SegWit outputs or your + /// counterparty can steal your funds! + FundingGenerationReady { + temporary_channel_id: crate::c_types::ThirtyTwoBytes, + channel_value_satoshis: u64, + output_script: crate::c_types::derived::CVec_u8Z, + user_channel_id: u64, + }, + /// Used to indicate that the client may now broadcast the funding transaction it created for a + /// channel. Broadcasting such a transaction prior to this event may lead to our counterparty + /// trivially stealing all funds in the funding transaction! + FundingBroadcastSafe { + funding_txo: crate::chain::transaction::OutPoint, + user_channel_id: u64, + }, + /// Indicates we've received money! Just gotta dig out that payment preimage and feed it to + /// ChannelManager::claim_funds to get it.... + /// Note that if the preimage is not known or the amount paid is incorrect, you should call + /// ChannelManager::fail_htlc_backwards to free up resources for this HTLC and avoid + /// network congestion. + /// The amount paid should be considered 'incorrect' when it is less than or more than twice + /// the amount expected. + /// If you fail to call either ChannelManager::claim_funds or + /// ChannelManager::fail_htlc_backwards within the HTLC's timeout, the HTLC will be + /// automatically failed. + PaymentReceived { + payment_hash: crate::c_types::ThirtyTwoBytes, + payment_secret: crate::c_types::ThirtyTwoBytes, + amt: u64, + }, + /// Indicates an outbound payment we made succeeded (ie it made it all the way to its target + /// and we got back the payment preimage for it). + /// Note that duplicative PaymentSent Events may be generated - it is your responsibility to + /// deduplicate them by payment_preimage (which MUST be unique)! + PaymentSent { + payment_preimage: crate::c_types::ThirtyTwoBytes, + }, + /// Indicates an outbound payment we made failed. Probably some intermediary node dropped + /// something. You may wish to retry with a different route. + /// Note that duplicative PaymentFailed Events may be generated - it is your responsibility to + /// deduplicate them by payment_hash (which MUST be unique)! + PaymentFailed { + payment_hash: crate::c_types::ThirtyTwoBytes, + rejected_by_dest: bool, + }, + /// Used to indicate that ChannelManager::process_pending_htlc_forwards should be called at a + /// time in the future. + PendingHTLCsForwardable { + time_forwardable: u64, + }, + /// Used to indicate that an output was generated on-chain which you should know how to spend. + /// Such an output will *not* ever be spent by rust-lightning, and are not at risk of your + /// counterparty spending them due to some kind of timeout. Thus, you need to store them + /// somewhere and spend them when you create on-chain transactions. + SpendableOutputs { + outputs: crate::c_types::derived::CVec_SpendableOutputDescriptorZ, + }, +} +use lightning::util::events::Event as nativeEvent; +impl Event { + #[allow(unused)] + pub(crate) fn to_native(&self) -> nativeEvent { + match self { + Event::FundingGenerationReady {ref temporary_channel_id, ref channel_value_satoshis, ref output_script, ref user_channel_id, } => { + let mut temporary_channel_id_nonref = (*temporary_channel_id).clone(); + let mut channel_value_satoshis_nonref = (*channel_value_satoshis).clone(); + let mut output_script_nonref = (*output_script).clone(); + let mut user_channel_id_nonref = (*user_channel_id).clone(); + nativeEvent::FundingGenerationReady { + temporary_channel_id: temporary_channel_id_nonref.data, + channel_value_satoshis: channel_value_satoshis_nonref, + output_script: ::bitcoin::blockdata::script::Script::from(output_script_nonref.into_rust()), + user_channel_id: user_channel_id_nonref, + } + }, + Event::FundingBroadcastSafe {ref funding_txo, ref user_channel_id, } => { + let mut funding_txo_nonref = (*funding_txo).clone(); + let mut user_channel_id_nonref = (*user_channel_id).clone(); + nativeEvent::FundingBroadcastSafe { + funding_txo: *unsafe { Box::from_raw(funding_txo_nonref.take_inner()) }, + user_channel_id: user_channel_id_nonref, + } + }, + Event::PaymentReceived {ref payment_hash, ref payment_secret, ref amt, } => { + let mut payment_hash_nonref = (*payment_hash).clone(); + let mut payment_secret_nonref = (*payment_secret).clone(); + let mut local_payment_secret_nonref = if payment_secret_nonref.data == [0; 32] { None } else { Some( { ::lightning::ln::channelmanager::PaymentSecret(payment_secret_nonref.data) }) }; + let mut amt_nonref = (*amt).clone(); + nativeEvent::PaymentReceived { + payment_hash: ::lightning::ln::channelmanager::PaymentHash(payment_hash_nonref.data), + payment_secret: local_payment_secret_nonref, + amt: amt_nonref, + } + }, + Event::PaymentSent {ref payment_preimage, } => { + let mut payment_preimage_nonref = (*payment_preimage).clone(); + nativeEvent::PaymentSent { + payment_preimage: ::lightning::ln::channelmanager::PaymentPreimage(payment_preimage_nonref.data), + } + }, + Event::PaymentFailed {ref payment_hash, ref rejected_by_dest, } => { + let mut payment_hash_nonref = (*payment_hash).clone(); + let mut rejected_by_dest_nonref = (*rejected_by_dest).clone(); + nativeEvent::PaymentFailed { + payment_hash: ::lightning::ln::channelmanager::PaymentHash(payment_hash_nonref.data), + rejected_by_dest: rejected_by_dest_nonref, + } + }, + Event::PendingHTLCsForwardable {ref time_forwardable, } => { + let mut time_forwardable_nonref = (*time_forwardable).clone(); + nativeEvent::PendingHTLCsForwardable { + time_forwardable: std::time::Duration::from_secs(time_forwardable_nonref), + } + }, + Event::SpendableOutputs {ref outputs, } => { + let mut outputs_nonref = (*outputs).clone(); + let mut local_outputs_nonref = Vec::new(); for mut item in outputs_nonref.into_rust().drain(..) { local_outputs_nonref.push( { item.into_native() }); }; + nativeEvent::SpendableOutputs { + outputs: local_outputs_nonref, + } + }, + } + } + #[allow(unused)] + pub(crate) fn into_native(self) -> nativeEvent { + match self { + Event::FundingGenerationReady {mut temporary_channel_id, mut channel_value_satoshis, mut output_script, mut user_channel_id, } => { + nativeEvent::FundingGenerationReady { + temporary_channel_id: temporary_channel_id.data, + channel_value_satoshis: channel_value_satoshis, + output_script: ::bitcoin::blockdata::script::Script::from(output_script.into_rust()), + user_channel_id: user_channel_id, + } + }, + Event::FundingBroadcastSafe {mut funding_txo, mut user_channel_id, } => { + nativeEvent::FundingBroadcastSafe { + funding_txo: *unsafe { Box::from_raw(funding_txo.take_inner()) }, + user_channel_id: user_channel_id, + } + }, + Event::PaymentReceived {mut payment_hash, mut payment_secret, mut amt, } => { + let mut local_payment_secret = if payment_secret.data == [0; 32] { None } else { Some( { ::lightning::ln::channelmanager::PaymentSecret(payment_secret.data) }) }; + nativeEvent::PaymentReceived { + payment_hash: ::lightning::ln::channelmanager::PaymentHash(payment_hash.data), + payment_secret: local_payment_secret, + amt: amt, + } + }, + Event::PaymentSent {mut payment_preimage, } => { + nativeEvent::PaymentSent { + payment_preimage: ::lightning::ln::channelmanager::PaymentPreimage(payment_preimage.data), + } + }, + Event::PaymentFailed {mut payment_hash, mut rejected_by_dest, } => { + nativeEvent::PaymentFailed { + payment_hash: ::lightning::ln::channelmanager::PaymentHash(payment_hash.data), + rejected_by_dest: rejected_by_dest, + } + }, + Event::PendingHTLCsForwardable {mut time_forwardable, } => { + nativeEvent::PendingHTLCsForwardable { + time_forwardable: std::time::Duration::from_secs(time_forwardable), + } + }, + Event::SpendableOutputs {mut outputs, } => { + let mut local_outputs = Vec::new(); for mut item in outputs.into_rust().drain(..) { local_outputs.push( { item.into_native() }); }; + nativeEvent::SpendableOutputs { + outputs: local_outputs, + } + }, + } + } + #[allow(unused)] + pub(crate) fn from_native(native: &nativeEvent) -> Self { + match native { + nativeEvent::FundingGenerationReady {ref temporary_channel_id, ref channel_value_satoshis, ref output_script, ref user_channel_id, } => { + let mut temporary_channel_id_nonref = (*temporary_channel_id).clone(); + let mut channel_value_satoshis_nonref = (*channel_value_satoshis).clone(); + let mut output_script_nonref = (*output_script).clone(); + let mut user_channel_id_nonref = (*user_channel_id).clone(); + Event::FundingGenerationReady { + temporary_channel_id: crate::c_types::ThirtyTwoBytes { data: temporary_channel_id_nonref }, + channel_value_satoshis: channel_value_satoshis_nonref, + output_script: output_script_nonref.into_bytes().into(), + user_channel_id: user_channel_id_nonref, + } + }, + nativeEvent::FundingBroadcastSafe {ref funding_txo, ref user_channel_id, } => { + let mut funding_txo_nonref = (*funding_txo).clone(); + let mut user_channel_id_nonref = (*user_channel_id).clone(); + Event::FundingBroadcastSafe { + funding_txo: crate::chain::transaction::OutPoint { inner: Box::into_raw(Box::new(funding_txo_nonref)), is_owned: true }, + user_channel_id: user_channel_id_nonref, + } + }, + nativeEvent::PaymentReceived {ref payment_hash, ref payment_secret, ref amt, } => { + let mut payment_hash_nonref = (*payment_hash).clone(); + let mut payment_secret_nonref = (*payment_secret).clone(); + let mut local_payment_secret_nonref = if payment_secret_nonref.is_none() { crate::c_types::ThirtyTwoBytes::null() } else { { crate::c_types::ThirtyTwoBytes { data: (payment_secret_nonref.unwrap()).0 } } }; + let mut amt_nonref = (*amt).clone(); + Event::PaymentReceived { + payment_hash: crate::c_types::ThirtyTwoBytes { data: payment_hash_nonref.0 }, + payment_secret: local_payment_secret_nonref, + amt: amt_nonref, + } + }, + nativeEvent::PaymentSent {ref payment_preimage, } => { + let mut payment_preimage_nonref = (*payment_preimage).clone(); + Event::PaymentSent { + payment_preimage: crate::c_types::ThirtyTwoBytes { data: payment_preimage_nonref.0 }, + } + }, + nativeEvent::PaymentFailed {ref payment_hash, ref rejected_by_dest, } => { + let mut payment_hash_nonref = (*payment_hash).clone(); + let mut rejected_by_dest_nonref = (*rejected_by_dest).clone(); + Event::PaymentFailed { + payment_hash: crate::c_types::ThirtyTwoBytes { data: payment_hash_nonref.0 }, + rejected_by_dest: rejected_by_dest_nonref, + } + }, + nativeEvent::PendingHTLCsForwardable {ref time_forwardable, } => { + let mut time_forwardable_nonref = (*time_forwardable).clone(); + Event::PendingHTLCsForwardable { + time_forwardable: time_forwardable_nonref.as_secs(), + } + }, + nativeEvent::SpendableOutputs {ref outputs, } => { + let mut outputs_nonref = (*outputs).clone(); + let mut local_outputs_nonref = Vec::new(); for mut item in outputs_nonref.drain(..) { local_outputs_nonref.push( { crate::chain::keysinterface::SpendableOutputDescriptor::native_into(item) }); }; + Event::SpendableOutputs { + outputs: local_outputs_nonref.into(), + } + }, + } + } + #[allow(unused)] + pub(crate) fn native_into(native: nativeEvent) -> Self { + match native { + nativeEvent::FundingGenerationReady {mut temporary_channel_id, mut channel_value_satoshis, mut output_script, mut user_channel_id, } => { + Event::FundingGenerationReady { + temporary_channel_id: crate::c_types::ThirtyTwoBytes { data: temporary_channel_id }, + channel_value_satoshis: channel_value_satoshis, + output_script: output_script.into_bytes().into(), + user_channel_id: user_channel_id, + } + }, + nativeEvent::FundingBroadcastSafe {mut funding_txo, mut user_channel_id, } => { + Event::FundingBroadcastSafe { + funding_txo: crate::chain::transaction::OutPoint { inner: Box::into_raw(Box::new(funding_txo)), is_owned: true }, + user_channel_id: user_channel_id, + } + }, + nativeEvent::PaymentReceived {mut payment_hash, mut payment_secret, mut amt, } => { + let mut local_payment_secret = if payment_secret.is_none() { crate::c_types::ThirtyTwoBytes::null() } else { { crate::c_types::ThirtyTwoBytes { data: (payment_secret.unwrap()).0 } } }; + Event::PaymentReceived { + payment_hash: crate::c_types::ThirtyTwoBytes { data: payment_hash.0 }, + payment_secret: local_payment_secret, + amt: amt, + } + }, + nativeEvent::PaymentSent {mut payment_preimage, } => { + Event::PaymentSent { + payment_preimage: crate::c_types::ThirtyTwoBytes { data: payment_preimage.0 }, + } + }, + nativeEvent::PaymentFailed {mut payment_hash, mut rejected_by_dest, } => { + Event::PaymentFailed { + payment_hash: crate::c_types::ThirtyTwoBytes { data: payment_hash.0 }, + rejected_by_dest: rejected_by_dest, + } + }, + nativeEvent::PendingHTLCsForwardable {mut time_forwardable, } => { + Event::PendingHTLCsForwardable { + time_forwardable: time_forwardable.as_secs(), + } + }, + nativeEvent::SpendableOutputs {mut outputs, } => { + let mut local_outputs = Vec::new(); for mut item in outputs.drain(..) { local_outputs.push( { crate::chain::keysinterface::SpendableOutputDescriptor::native_into(item) }); }; + Event::SpendableOutputs { + outputs: local_outputs.into(), + } + }, + } + } +} +#[no_mangle] +pub extern "C" fn Event_free(this_ptr: Event) { } +#[no_mangle] +pub extern "C" fn Event_clone(orig: &Event) -> Event { + orig.clone() +} +#[no_mangle] +pub extern "C" fn Event_write(obj: &Event) -> crate::c_types::derived::CVec_u8Z { + crate::c_types::serialize_obj(&unsafe { &*obj }.to_native()) +} +/// An event generated by ChannelManager which indicates a message should be sent to a peer (or +/// broadcast to most peers). +/// These events are handled by PeerManager::process_events if you are using a PeerManager. +#[must_use] +#[derive(Clone)] +#[repr(C)] +pub enum MessageSendEvent { + /// Used to indicate that we've accepted a channel open and should send the accept_channel + /// message provided to the given peer. + SendAcceptChannel { + node_id: crate::c_types::PublicKey, + msg: crate::ln::msgs::AcceptChannel, + }, + /// Used to indicate that we've initiated a channel open and should send the open_channel + /// message provided to the given peer. + SendOpenChannel { + node_id: crate::c_types::PublicKey, + msg: crate::ln::msgs::OpenChannel, + }, + /// Used to indicate that a funding_created message should be sent to the peer with the given node_id. + SendFundingCreated { + node_id: crate::c_types::PublicKey, + msg: crate::ln::msgs::FundingCreated, + }, + /// Used to indicate that a funding_signed message should be sent to the peer with the given node_id. + SendFundingSigned { + node_id: crate::c_types::PublicKey, + msg: crate::ln::msgs::FundingSigned, + }, + /// Used to indicate that a funding_locked message should be sent to the peer with the given node_id. + SendFundingLocked { + node_id: crate::c_types::PublicKey, + msg: crate::ln::msgs::FundingLocked, + }, + /// Used to indicate that an announcement_signatures message should be sent to the peer with the given node_id. + SendAnnouncementSignatures { + node_id: crate::c_types::PublicKey, + msg: crate::ln::msgs::AnnouncementSignatures, + }, + /// Used to indicate that a series of HTLC update messages, as well as a commitment_signed + /// message should be sent to the peer with the given node_id. + UpdateHTLCs { + node_id: crate::c_types::PublicKey, + updates: crate::ln::msgs::CommitmentUpdate, + }, + /// Used to indicate that a revoke_and_ack message should be sent to the peer with the given node_id. + SendRevokeAndACK { + node_id: crate::c_types::PublicKey, + msg: crate::ln::msgs::RevokeAndACK, + }, + /// Used to indicate that a closing_signed message should be sent to the peer with the given node_id. + SendClosingSigned { + node_id: crate::c_types::PublicKey, + msg: crate::ln::msgs::ClosingSigned, + }, + /// Used to indicate that a shutdown message should be sent to the peer with the given node_id. + SendShutdown { + node_id: crate::c_types::PublicKey, + msg: crate::ln::msgs::Shutdown, + }, + /// Used to indicate that a channel_reestablish message should be sent to the peer with the given node_id. + SendChannelReestablish { + node_id: crate::c_types::PublicKey, + msg: crate::ln::msgs::ChannelReestablish, + }, + /// Used to indicate that a channel_announcement and channel_update should be broadcast to all + /// peers (except the peer with node_id either msg.contents.node_id_1 or msg.contents.node_id_2). + /// + /// Note that after doing so, you very likely (unless you did so very recently) want to call + /// ChannelManager::broadcast_node_announcement to trigger a BroadcastNodeAnnouncement event. + /// This ensures that any nodes which see our channel_announcement also have a relevant + /// node_announcement, including relevant feature flags which may be important for routing + /// through or to us. + BroadcastChannelAnnouncement { + msg: crate::ln::msgs::ChannelAnnouncement, + update_msg: crate::ln::msgs::ChannelUpdate, + }, + /// Used to indicate that a node_announcement should be broadcast to all peers. + BroadcastNodeAnnouncement { + msg: crate::ln::msgs::NodeAnnouncement, + }, + /// Used to indicate that a channel_update should be broadcast to all peers. + BroadcastChannelUpdate { + msg: crate::ln::msgs::ChannelUpdate, + }, + /// Broadcast an error downstream to be handled + HandleError { + node_id: crate::c_types::PublicKey, + action: crate::ln::msgs::ErrorAction, + }, + /// When a payment fails we may receive updates back from the hop where it failed. In such + /// cases this event is generated so that we can inform the network graph of this information. + PaymentFailureNetworkUpdate { + update: crate::ln::msgs::HTLCFailChannelUpdate, + }, + /// Query a peer for channels with funding transaction UTXOs in a block range. + SendChannelRangeQuery { + node_id: crate::c_types::PublicKey, + msg: crate::ln::msgs::QueryChannelRange, + }, + /// Request routing gossip messages from a peer for a list of channels identified by + /// their short_channel_ids. + SendShortIdsQuery { + node_id: crate::c_types::PublicKey, + msg: crate::ln::msgs::QueryShortChannelIds, + }, +} +use lightning::util::events::MessageSendEvent as nativeMessageSendEvent; +impl MessageSendEvent { + #[allow(unused)] + pub(crate) fn to_native(&self) -> nativeMessageSendEvent { + match self { + MessageSendEvent::SendAcceptChannel {ref node_id, ref msg, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut msg_nonref = (*msg).clone(); + nativeMessageSendEvent::SendAcceptChannel { + node_id: node_id_nonref.into_rust(), + msg: *unsafe { Box::from_raw(msg_nonref.take_inner()) }, + } + }, + MessageSendEvent::SendOpenChannel {ref node_id, ref msg, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut msg_nonref = (*msg).clone(); + nativeMessageSendEvent::SendOpenChannel { + node_id: node_id_nonref.into_rust(), + msg: *unsafe { Box::from_raw(msg_nonref.take_inner()) }, + } + }, + MessageSendEvent::SendFundingCreated {ref node_id, ref msg, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut msg_nonref = (*msg).clone(); + nativeMessageSendEvent::SendFundingCreated { + node_id: node_id_nonref.into_rust(), + msg: *unsafe { Box::from_raw(msg_nonref.take_inner()) }, + } + }, + MessageSendEvent::SendFundingSigned {ref node_id, ref msg, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut msg_nonref = (*msg).clone(); + nativeMessageSendEvent::SendFundingSigned { + node_id: node_id_nonref.into_rust(), + msg: *unsafe { Box::from_raw(msg_nonref.take_inner()) }, + } + }, + MessageSendEvent::SendFundingLocked {ref node_id, ref msg, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut msg_nonref = (*msg).clone(); + nativeMessageSendEvent::SendFundingLocked { + node_id: node_id_nonref.into_rust(), + msg: *unsafe { Box::from_raw(msg_nonref.take_inner()) }, + } + }, + MessageSendEvent::SendAnnouncementSignatures {ref node_id, ref msg, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut msg_nonref = (*msg).clone(); + nativeMessageSendEvent::SendAnnouncementSignatures { + node_id: node_id_nonref.into_rust(), + msg: *unsafe { Box::from_raw(msg_nonref.take_inner()) }, + } + }, + MessageSendEvent::UpdateHTLCs {ref node_id, ref updates, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut updates_nonref = (*updates).clone(); + nativeMessageSendEvent::UpdateHTLCs { + node_id: node_id_nonref.into_rust(), + updates: *unsafe { Box::from_raw(updates_nonref.take_inner()) }, + } + }, + MessageSendEvent::SendRevokeAndACK {ref node_id, ref msg, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut msg_nonref = (*msg).clone(); + nativeMessageSendEvent::SendRevokeAndACK { + node_id: node_id_nonref.into_rust(), + msg: *unsafe { Box::from_raw(msg_nonref.take_inner()) }, + } + }, + MessageSendEvent::SendClosingSigned {ref node_id, ref msg, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut msg_nonref = (*msg).clone(); + nativeMessageSendEvent::SendClosingSigned { + node_id: node_id_nonref.into_rust(), + msg: *unsafe { Box::from_raw(msg_nonref.take_inner()) }, + } + }, + MessageSendEvent::SendShutdown {ref node_id, ref msg, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut msg_nonref = (*msg).clone(); + nativeMessageSendEvent::SendShutdown { + node_id: node_id_nonref.into_rust(), + msg: *unsafe { Box::from_raw(msg_nonref.take_inner()) }, + } + }, + MessageSendEvent::SendChannelReestablish {ref node_id, ref msg, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut msg_nonref = (*msg).clone(); + nativeMessageSendEvent::SendChannelReestablish { + node_id: node_id_nonref.into_rust(), + msg: *unsafe { Box::from_raw(msg_nonref.take_inner()) }, + } + }, + MessageSendEvent::BroadcastChannelAnnouncement {ref msg, ref update_msg, } => { + let mut msg_nonref = (*msg).clone(); + let mut update_msg_nonref = (*update_msg).clone(); + nativeMessageSendEvent::BroadcastChannelAnnouncement { + msg: *unsafe { Box::from_raw(msg_nonref.take_inner()) }, + update_msg: *unsafe { Box::from_raw(update_msg_nonref.take_inner()) }, + } + }, + MessageSendEvent::BroadcastNodeAnnouncement {ref msg, } => { + let mut msg_nonref = (*msg).clone(); + nativeMessageSendEvent::BroadcastNodeAnnouncement { + msg: *unsafe { Box::from_raw(msg_nonref.take_inner()) }, + } + }, + MessageSendEvent::BroadcastChannelUpdate {ref msg, } => { + let mut msg_nonref = (*msg).clone(); + nativeMessageSendEvent::BroadcastChannelUpdate { + msg: *unsafe { Box::from_raw(msg_nonref.take_inner()) }, + } + }, + MessageSendEvent::HandleError {ref node_id, ref action, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut action_nonref = (*action).clone(); + nativeMessageSendEvent::HandleError { + node_id: node_id_nonref.into_rust(), + action: action_nonref.into_native(), + } + }, + MessageSendEvent::PaymentFailureNetworkUpdate {ref update, } => { + let mut update_nonref = (*update).clone(); + nativeMessageSendEvent::PaymentFailureNetworkUpdate { + update: update_nonref.into_native(), + } + }, + MessageSendEvent::SendChannelRangeQuery {ref node_id, ref msg, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut msg_nonref = (*msg).clone(); + nativeMessageSendEvent::SendChannelRangeQuery { + node_id: node_id_nonref.into_rust(), + msg: *unsafe { Box::from_raw(msg_nonref.take_inner()) }, + } + }, + MessageSendEvent::SendShortIdsQuery {ref node_id, ref msg, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut msg_nonref = (*msg).clone(); + nativeMessageSendEvent::SendShortIdsQuery { + node_id: node_id_nonref.into_rust(), + msg: *unsafe { Box::from_raw(msg_nonref.take_inner()) }, + } + }, + } + } + #[allow(unused)] + pub(crate) fn into_native(self) -> nativeMessageSendEvent { + match self { + MessageSendEvent::SendAcceptChannel {mut node_id, mut msg, } => { + nativeMessageSendEvent::SendAcceptChannel { + node_id: node_id.into_rust(), + msg: *unsafe { Box::from_raw(msg.take_inner()) }, + } + }, + MessageSendEvent::SendOpenChannel {mut node_id, mut msg, } => { + nativeMessageSendEvent::SendOpenChannel { + node_id: node_id.into_rust(), + msg: *unsafe { Box::from_raw(msg.take_inner()) }, + } + }, + MessageSendEvent::SendFundingCreated {mut node_id, mut msg, } => { + nativeMessageSendEvent::SendFundingCreated { + node_id: node_id.into_rust(), + msg: *unsafe { Box::from_raw(msg.take_inner()) }, + } + }, + MessageSendEvent::SendFundingSigned {mut node_id, mut msg, } => { + nativeMessageSendEvent::SendFundingSigned { + node_id: node_id.into_rust(), + msg: *unsafe { Box::from_raw(msg.take_inner()) }, + } + }, + MessageSendEvent::SendFundingLocked {mut node_id, mut msg, } => { + nativeMessageSendEvent::SendFundingLocked { + node_id: node_id.into_rust(), + msg: *unsafe { Box::from_raw(msg.take_inner()) }, + } + }, + MessageSendEvent::SendAnnouncementSignatures {mut node_id, mut msg, } => { + nativeMessageSendEvent::SendAnnouncementSignatures { + node_id: node_id.into_rust(), + msg: *unsafe { Box::from_raw(msg.take_inner()) }, + } + }, + MessageSendEvent::UpdateHTLCs {mut node_id, mut updates, } => { + nativeMessageSendEvent::UpdateHTLCs { + node_id: node_id.into_rust(), + updates: *unsafe { Box::from_raw(updates.take_inner()) }, + } + }, + MessageSendEvent::SendRevokeAndACK {mut node_id, mut msg, } => { + nativeMessageSendEvent::SendRevokeAndACK { + node_id: node_id.into_rust(), + msg: *unsafe { Box::from_raw(msg.take_inner()) }, + } + }, + MessageSendEvent::SendClosingSigned {mut node_id, mut msg, } => { + nativeMessageSendEvent::SendClosingSigned { + node_id: node_id.into_rust(), + msg: *unsafe { Box::from_raw(msg.take_inner()) }, + } + }, + MessageSendEvent::SendShutdown {mut node_id, mut msg, } => { + nativeMessageSendEvent::SendShutdown { + node_id: node_id.into_rust(), + msg: *unsafe { Box::from_raw(msg.take_inner()) }, + } + }, + MessageSendEvent::SendChannelReestablish {mut node_id, mut msg, } => { + nativeMessageSendEvent::SendChannelReestablish { + node_id: node_id.into_rust(), + msg: *unsafe { Box::from_raw(msg.take_inner()) }, + } + }, + MessageSendEvent::BroadcastChannelAnnouncement {mut msg, mut update_msg, } => { + nativeMessageSendEvent::BroadcastChannelAnnouncement { + msg: *unsafe { Box::from_raw(msg.take_inner()) }, + update_msg: *unsafe { Box::from_raw(update_msg.take_inner()) }, + } + }, + MessageSendEvent::BroadcastNodeAnnouncement {mut msg, } => { + nativeMessageSendEvent::BroadcastNodeAnnouncement { + msg: *unsafe { Box::from_raw(msg.take_inner()) }, + } + }, + MessageSendEvent::BroadcastChannelUpdate {mut msg, } => { + nativeMessageSendEvent::BroadcastChannelUpdate { + msg: *unsafe { Box::from_raw(msg.take_inner()) }, + } + }, + MessageSendEvent::HandleError {mut node_id, mut action, } => { + nativeMessageSendEvent::HandleError { + node_id: node_id.into_rust(), + action: action.into_native(), + } + }, + MessageSendEvent::PaymentFailureNetworkUpdate {mut update, } => { + nativeMessageSendEvent::PaymentFailureNetworkUpdate { + update: update.into_native(), + } + }, + MessageSendEvent::SendChannelRangeQuery {mut node_id, mut msg, } => { + nativeMessageSendEvent::SendChannelRangeQuery { + node_id: node_id.into_rust(), + msg: *unsafe { Box::from_raw(msg.take_inner()) }, + } + }, + MessageSendEvent::SendShortIdsQuery {mut node_id, mut msg, } => { + nativeMessageSendEvent::SendShortIdsQuery { + node_id: node_id.into_rust(), + msg: *unsafe { Box::from_raw(msg.take_inner()) }, + } + }, + } + } + #[allow(unused)] + pub(crate) fn from_native(native: &nativeMessageSendEvent) -> Self { + match native { + nativeMessageSendEvent::SendAcceptChannel {ref node_id, ref msg, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut msg_nonref = (*msg).clone(); + MessageSendEvent::SendAcceptChannel { + node_id: crate::c_types::PublicKey::from_rust(&node_id_nonref), + msg: crate::ln::msgs::AcceptChannel { inner: Box::into_raw(Box::new(msg_nonref)), is_owned: true }, + } + }, + nativeMessageSendEvent::SendOpenChannel {ref node_id, ref msg, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut msg_nonref = (*msg).clone(); + MessageSendEvent::SendOpenChannel { + node_id: crate::c_types::PublicKey::from_rust(&node_id_nonref), + msg: crate::ln::msgs::OpenChannel { inner: Box::into_raw(Box::new(msg_nonref)), is_owned: true }, + } + }, + nativeMessageSendEvent::SendFundingCreated {ref node_id, ref msg, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut msg_nonref = (*msg).clone(); + MessageSendEvent::SendFundingCreated { + node_id: crate::c_types::PublicKey::from_rust(&node_id_nonref), + msg: crate::ln::msgs::FundingCreated { inner: Box::into_raw(Box::new(msg_nonref)), is_owned: true }, + } + }, + nativeMessageSendEvent::SendFundingSigned {ref node_id, ref msg, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut msg_nonref = (*msg).clone(); + MessageSendEvent::SendFundingSigned { + node_id: crate::c_types::PublicKey::from_rust(&node_id_nonref), + msg: crate::ln::msgs::FundingSigned { inner: Box::into_raw(Box::new(msg_nonref)), is_owned: true }, + } + }, + nativeMessageSendEvent::SendFundingLocked {ref node_id, ref msg, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut msg_nonref = (*msg).clone(); + MessageSendEvent::SendFundingLocked { + node_id: crate::c_types::PublicKey::from_rust(&node_id_nonref), + msg: crate::ln::msgs::FundingLocked { inner: Box::into_raw(Box::new(msg_nonref)), is_owned: true }, + } + }, + nativeMessageSendEvent::SendAnnouncementSignatures {ref node_id, ref msg, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut msg_nonref = (*msg).clone(); + MessageSendEvent::SendAnnouncementSignatures { + node_id: crate::c_types::PublicKey::from_rust(&node_id_nonref), + msg: crate::ln::msgs::AnnouncementSignatures { inner: Box::into_raw(Box::new(msg_nonref)), is_owned: true }, + } + }, + nativeMessageSendEvent::UpdateHTLCs {ref node_id, ref updates, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut updates_nonref = (*updates).clone(); + MessageSendEvent::UpdateHTLCs { + node_id: crate::c_types::PublicKey::from_rust(&node_id_nonref), + updates: crate::ln::msgs::CommitmentUpdate { inner: Box::into_raw(Box::new(updates_nonref)), is_owned: true }, + } + }, + nativeMessageSendEvent::SendRevokeAndACK {ref node_id, ref msg, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut msg_nonref = (*msg).clone(); + MessageSendEvent::SendRevokeAndACK { + node_id: crate::c_types::PublicKey::from_rust(&node_id_nonref), + msg: crate::ln::msgs::RevokeAndACK { inner: Box::into_raw(Box::new(msg_nonref)), is_owned: true }, + } + }, + nativeMessageSendEvent::SendClosingSigned {ref node_id, ref msg, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut msg_nonref = (*msg).clone(); + MessageSendEvent::SendClosingSigned { + node_id: crate::c_types::PublicKey::from_rust(&node_id_nonref), + msg: crate::ln::msgs::ClosingSigned { inner: Box::into_raw(Box::new(msg_nonref)), is_owned: true }, + } + }, + nativeMessageSendEvent::SendShutdown {ref node_id, ref msg, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut msg_nonref = (*msg).clone(); + MessageSendEvent::SendShutdown { + node_id: crate::c_types::PublicKey::from_rust(&node_id_nonref), + msg: crate::ln::msgs::Shutdown { inner: Box::into_raw(Box::new(msg_nonref)), is_owned: true }, + } + }, + nativeMessageSendEvent::SendChannelReestablish {ref node_id, ref msg, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut msg_nonref = (*msg).clone(); + MessageSendEvent::SendChannelReestablish { + node_id: crate::c_types::PublicKey::from_rust(&node_id_nonref), + msg: crate::ln::msgs::ChannelReestablish { inner: Box::into_raw(Box::new(msg_nonref)), is_owned: true }, + } + }, + nativeMessageSendEvent::BroadcastChannelAnnouncement {ref msg, ref update_msg, } => { + let mut msg_nonref = (*msg).clone(); + let mut update_msg_nonref = (*update_msg).clone(); + MessageSendEvent::BroadcastChannelAnnouncement { + msg: crate::ln::msgs::ChannelAnnouncement { inner: Box::into_raw(Box::new(msg_nonref)), is_owned: true }, + update_msg: crate::ln::msgs::ChannelUpdate { inner: Box::into_raw(Box::new(update_msg_nonref)), is_owned: true }, + } + }, + nativeMessageSendEvent::BroadcastNodeAnnouncement {ref msg, } => { + let mut msg_nonref = (*msg).clone(); + MessageSendEvent::BroadcastNodeAnnouncement { + msg: crate::ln::msgs::NodeAnnouncement { inner: Box::into_raw(Box::new(msg_nonref)), is_owned: true }, + } + }, + nativeMessageSendEvent::BroadcastChannelUpdate {ref msg, } => { + let mut msg_nonref = (*msg).clone(); + MessageSendEvent::BroadcastChannelUpdate { + msg: crate::ln::msgs::ChannelUpdate { inner: Box::into_raw(Box::new(msg_nonref)), is_owned: true }, + } + }, + nativeMessageSendEvent::HandleError {ref node_id, ref action, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut action_nonref = (*action).clone(); + MessageSendEvent::HandleError { + node_id: crate::c_types::PublicKey::from_rust(&node_id_nonref), + action: crate::ln::msgs::ErrorAction::native_into(action_nonref), + } + }, + nativeMessageSendEvent::PaymentFailureNetworkUpdate {ref update, } => { + let mut update_nonref = (*update).clone(); + MessageSendEvent::PaymentFailureNetworkUpdate { + update: crate::ln::msgs::HTLCFailChannelUpdate::native_into(update_nonref), + } + }, + nativeMessageSendEvent::SendChannelRangeQuery {ref node_id, ref msg, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut msg_nonref = (*msg).clone(); + MessageSendEvent::SendChannelRangeQuery { + node_id: crate::c_types::PublicKey::from_rust(&node_id_nonref), + msg: crate::ln::msgs::QueryChannelRange { inner: Box::into_raw(Box::new(msg_nonref)), is_owned: true }, + } + }, + nativeMessageSendEvent::SendShortIdsQuery {ref node_id, ref msg, } => { + let mut node_id_nonref = (*node_id).clone(); + let mut msg_nonref = (*msg).clone(); + MessageSendEvent::SendShortIdsQuery { + node_id: crate::c_types::PublicKey::from_rust(&node_id_nonref), + msg: crate::ln::msgs::QueryShortChannelIds { inner: Box::into_raw(Box::new(msg_nonref)), is_owned: true }, + } + }, + } + } + #[allow(unused)] + pub(crate) fn native_into(native: nativeMessageSendEvent) -> Self { + match native { + nativeMessageSendEvent::SendAcceptChannel {mut node_id, mut msg, } => { + MessageSendEvent::SendAcceptChannel { + node_id: crate::c_types::PublicKey::from_rust(&node_id), + msg: crate::ln::msgs::AcceptChannel { inner: Box::into_raw(Box::new(msg)), is_owned: true }, + } + }, + nativeMessageSendEvent::SendOpenChannel {mut node_id, mut msg, } => { + MessageSendEvent::SendOpenChannel { + node_id: crate::c_types::PublicKey::from_rust(&node_id), + msg: crate::ln::msgs::OpenChannel { inner: Box::into_raw(Box::new(msg)), is_owned: true }, + } + }, + nativeMessageSendEvent::SendFundingCreated {mut node_id, mut msg, } => { + MessageSendEvent::SendFundingCreated { + node_id: crate::c_types::PublicKey::from_rust(&node_id), + msg: crate::ln::msgs::FundingCreated { inner: Box::into_raw(Box::new(msg)), is_owned: true }, + } + }, + nativeMessageSendEvent::SendFundingSigned {mut node_id, mut msg, } => { + MessageSendEvent::SendFundingSigned { + node_id: crate::c_types::PublicKey::from_rust(&node_id), + msg: crate::ln::msgs::FundingSigned { inner: Box::into_raw(Box::new(msg)), is_owned: true }, + } + }, + nativeMessageSendEvent::SendFundingLocked {mut node_id, mut msg, } => { + MessageSendEvent::SendFundingLocked { + node_id: crate::c_types::PublicKey::from_rust(&node_id), + msg: crate::ln::msgs::FundingLocked { inner: Box::into_raw(Box::new(msg)), is_owned: true }, + } + }, + nativeMessageSendEvent::SendAnnouncementSignatures {mut node_id, mut msg, } => { + MessageSendEvent::SendAnnouncementSignatures { + node_id: crate::c_types::PublicKey::from_rust(&node_id), + msg: crate::ln::msgs::AnnouncementSignatures { inner: Box::into_raw(Box::new(msg)), is_owned: true }, + } + }, + nativeMessageSendEvent::UpdateHTLCs {mut node_id, mut updates, } => { + MessageSendEvent::UpdateHTLCs { + node_id: crate::c_types::PublicKey::from_rust(&node_id), + updates: crate::ln::msgs::CommitmentUpdate { inner: Box::into_raw(Box::new(updates)), is_owned: true }, + } + }, + nativeMessageSendEvent::SendRevokeAndACK {mut node_id, mut msg, } => { + MessageSendEvent::SendRevokeAndACK { + node_id: crate::c_types::PublicKey::from_rust(&node_id), + msg: crate::ln::msgs::RevokeAndACK { inner: Box::into_raw(Box::new(msg)), is_owned: true }, + } + }, + nativeMessageSendEvent::SendClosingSigned {mut node_id, mut msg, } => { + MessageSendEvent::SendClosingSigned { + node_id: crate::c_types::PublicKey::from_rust(&node_id), + msg: crate::ln::msgs::ClosingSigned { inner: Box::into_raw(Box::new(msg)), is_owned: true }, + } + }, + nativeMessageSendEvent::SendShutdown {mut node_id, mut msg, } => { + MessageSendEvent::SendShutdown { + node_id: crate::c_types::PublicKey::from_rust(&node_id), + msg: crate::ln::msgs::Shutdown { inner: Box::into_raw(Box::new(msg)), is_owned: true }, + } + }, + nativeMessageSendEvent::SendChannelReestablish {mut node_id, mut msg, } => { + MessageSendEvent::SendChannelReestablish { + node_id: crate::c_types::PublicKey::from_rust(&node_id), + msg: crate::ln::msgs::ChannelReestablish { inner: Box::into_raw(Box::new(msg)), is_owned: true }, + } + }, + nativeMessageSendEvent::BroadcastChannelAnnouncement {mut msg, mut update_msg, } => { + MessageSendEvent::BroadcastChannelAnnouncement { + msg: crate::ln::msgs::ChannelAnnouncement { inner: Box::into_raw(Box::new(msg)), is_owned: true }, + update_msg: crate::ln::msgs::ChannelUpdate { inner: Box::into_raw(Box::new(update_msg)), is_owned: true }, + } + }, + nativeMessageSendEvent::BroadcastNodeAnnouncement {mut msg, } => { + MessageSendEvent::BroadcastNodeAnnouncement { + msg: crate::ln::msgs::NodeAnnouncement { inner: Box::into_raw(Box::new(msg)), is_owned: true }, + } + }, + nativeMessageSendEvent::BroadcastChannelUpdate {mut msg, } => { + MessageSendEvent::BroadcastChannelUpdate { + msg: crate::ln::msgs::ChannelUpdate { inner: Box::into_raw(Box::new(msg)), is_owned: true }, + } + }, + nativeMessageSendEvent::HandleError {mut node_id, mut action, } => { + MessageSendEvent::HandleError { + node_id: crate::c_types::PublicKey::from_rust(&node_id), + action: crate::ln::msgs::ErrorAction::native_into(action), + } + }, + nativeMessageSendEvent::PaymentFailureNetworkUpdate {mut update, } => { + MessageSendEvent::PaymentFailureNetworkUpdate { + update: crate::ln::msgs::HTLCFailChannelUpdate::native_into(update), + } + }, + nativeMessageSendEvent::SendChannelRangeQuery {mut node_id, mut msg, } => { + MessageSendEvent::SendChannelRangeQuery { + node_id: crate::c_types::PublicKey::from_rust(&node_id), + msg: crate::ln::msgs::QueryChannelRange { inner: Box::into_raw(Box::new(msg)), is_owned: true }, + } + }, + nativeMessageSendEvent::SendShortIdsQuery {mut node_id, mut msg, } => { + MessageSendEvent::SendShortIdsQuery { + node_id: crate::c_types::PublicKey::from_rust(&node_id), + msg: crate::ln::msgs::QueryShortChannelIds { inner: Box::into_raw(Box::new(msg)), is_owned: true }, + } + }, + } + } +} +#[no_mangle] +pub extern "C" fn MessageSendEvent_free(this_ptr: MessageSendEvent) { } +#[no_mangle] +pub extern "C" fn MessageSendEvent_clone(orig: &MessageSendEvent) -> MessageSendEvent { + orig.clone() +} +/// A trait indicating an object may generate message send events +#[repr(C)] +pub struct MessageSendEventsProvider { + pub this_arg: *mut c_void, + /// Gets the list of pending events which were generated by previous actions, clearing the list + /// in the process. + #[must_use] + pub get_and_clear_pending_msg_events: extern "C" fn (this_arg: *const c_void) -> crate::c_types::derived::CVec_MessageSendEventZ, + pub free: Option, +} + +use lightning::util::events::MessageSendEventsProvider as rustMessageSendEventsProvider; +impl rustMessageSendEventsProvider for MessageSendEventsProvider { + fn get_and_clear_pending_msg_events(&self) -> Vec { + let mut ret = (self.get_and_clear_pending_msg_events)(self.this_arg); + let mut local_ret = Vec::new(); for mut item in ret.into_rust().drain(..) { local_ret.push( { item.into_native() }); }; + local_ret + } +} + +// We're essentially a pointer already, or at least a set of pointers, so allow us to be used +// directly as a Deref trait in higher-level structs: +impl std::ops::Deref for MessageSendEventsProvider { + type Target = Self; + fn deref(&self) -> &Self { + self + } +} +/// Calls the free function if one is set +#[no_mangle] +pub extern "C" fn MessageSendEventsProvider_free(this_ptr: MessageSendEventsProvider) { } +impl Drop for MessageSendEventsProvider { + fn drop(&mut self) { + if let Some(f) = self.free { + f(self.this_arg); + } + } +} +/// A trait indicating an object may generate events +#[repr(C)] +pub struct EventsProvider { + pub this_arg: *mut c_void, + /// Gets the list of pending events which were generated by previous actions, clearing the list + /// in the process. + #[must_use] + pub get_and_clear_pending_events: extern "C" fn (this_arg: *const c_void) -> crate::c_types::derived::CVec_EventZ, + pub free: Option, +} + +use lightning::util::events::EventsProvider as rustEventsProvider; +impl rustEventsProvider for EventsProvider { + fn get_and_clear_pending_events(&self) -> Vec { + let mut ret = (self.get_and_clear_pending_events)(self.this_arg); + let mut local_ret = Vec::new(); for mut item in ret.into_rust().drain(..) { local_ret.push( { item.into_native() }); }; + local_ret + } +} + +// We're essentially a pointer already, or at least a set of pointers, so allow us to be used +// directly as a Deref trait in higher-level structs: +impl std::ops::Deref for EventsProvider { + type Target = Self; + fn deref(&self) -> &Self { + self + } +} +/// Calls the free function if one is set +#[no_mangle] +pub extern "C" fn EventsProvider_free(this_ptr: EventsProvider) { } +impl Drop for EventsProvider { + fn drop(&mut self) { + if let Some(f) = self.free { + f(self.this_arg); + } + } +} diff --git a/lightning-c-bindings/src/util/logger.rs b/lightning-c-bindings/src/util/logger.rs new file mode 100644 index 0000000..8a1fbb1 --- /dev/null +++ b/lightning-c-bindings/src/util/logger.rs @@ -0,0 +1,125 @@ +//! Log traits live here, which are called throughout the library to provide useful information for +//! debugging purposes. +//! +//! There is currently 2 ways to filter log messages. First one, by using compilation features, e.g \"max_level_off\". +//! The second one, client-side by implementing check against Record Level field. +//! Each module may have its own Logger or share one. + +use std::ffi::c_void; +use bitcoin::hashes::Hash; +use crate::c_types::*; + +/// An enum representing the available verbosity levels of the logger. +#[must_use] +#[derive(Clone)] +#[repr(C)] +pub enum Level { + ///Designates logger being silent + Off, + /// Designates very serious errors + Error, + /// Designates hazardous situations + Warn, + /// Designates useful information + Info, + /// Designates lower priority information + Debug, + /// Designates very low priority, often extremely verbose, information + Trace, +} +use lightning::util::logger::Level as nativeLevel; +impl Level { + #[allow(unused)] + pub(crate) fn to_native(&self) -> nativeLevel { + match self { + Level::Off => nativeLevel::Off, + Level::Error => nativeLevel::Error, + Level::Warn => nativeLevel::Warn, + Level::Info => nativeLevel::Info, + Level::Debug => nativeLevel::Debug, + Level::Trace => nativeLevel::Trace, + } + } + #[allow(unused)] + pub(crate) fn into_native(self) -> nativeLevel { + match self { + Level::Off => nativeLevel::Off, + Level::Error => nativeLevel::Error, + Level::Warn => nativeLevel::Warn, + Level::Info => nativeLevel::Info, + Level::Debug => nativeLevel::Debug, + Level::Trace => nativeLevel::Trace, + } + } + #[allow(unused)] + pub(crate) fn from_native(native: &nativeLevel) -> Self { + match native { + nativeLevel::Off => Level::Off, + nativeLevel::Error => Level::Error, + nativeLevel::Warn => Level::Warn, + nativeLevel::Info => Level::Info, + nativeLevel::Debug => Level::Debug, + nativeLevel::Trace => Level::Trace, + } + } + #[allow(unused)] + pub(crate) fn native_into(native: nativeLevel) -> Self { + match native { + nativeLevel::Off => Level::Off, + nativeLevel::Error => Level::Error, + nativeLevel::Warn => Level::Warn, + nativeLevel::Info => Level::Info, + nativeLevel::Debug => Level::Debug, + nativeLevel::Trace => Level::Trace, + } + } +} +#[no_mangle] +pub extern "C" fn Level_clone(orig: &Level) -> Level { + orig.clone() +} +/// Returns the most verbose logging level. +#[must_use] +#[no_mangle] +pub extern "C" fn Level_max() -> crate::util::logger::Level { + let mut ret = lightning::util::logger::Level::max(); + crate::util::logger::Level::native_into(ret) +} + +/// A trait encapsulating the operations required of a logger +#[repr(C)] +pub struct Logger { + pub this_arg: *mut c_void, + /// Logs the `Record` + pub log: extern "C" fn (this_arg: *const c_void, record: *const std::os::raw::c_char), + pub free: Option, +} +unsafe impl Sync for Logger {} +unsafe impl Send for Logger {} + +use lightning::util::logger::Logger as rustLogger; +impl rustLogger for Logger { + fn log(&self, record: &lightning::util::logger::Record) { + let mut local_record = std::ffi::CString::new(format!("{}", record.args)).unwrap(); + (self.log)(self.this_arg, local_record.as_ptr()) + } +} + +// We're essentially a pointer already, or at least a set of pointers, so allow us to be used +// directly as a Deref trait in higher-level structs: +impl std::ops::Deref for Logger { + type Target = Self; + fn deref(&self) -> &Self { + self + } +} +/// Calls the free function if one is set +#[no_mangle] +pub extern "C" fn Logger_free(this_ptr: Logger) { } +impl Drop for Logger { + fn drop(&mut self) { + if let Some(f) = self.free { + f(self.this_arg); + } + } +} diff --git a/lightning-c-bindings/src/util/macro_logger.rs b/lightning-c-bindings/src/util/macro_logger.rs new file mode 100644 index 0000000..79c1ea1 --- /dev/null +++ b/lightning-c-bindings/src/util/macro_logger.rs @@ -0,0 +1,6 @@ +/// Logging macro utilities. + +use std::ffi::c_void; +use bitcoin::hashes::Hash; +use crate::c_types::*; + diff --git a/lightning-c-bindings/src/util/mod.rs b/lightning-c-bindings/src/util/mod.rs new file mode 100644 index 0000000..8e5bf04 --- /dev/null +++ b/lightning-c-bindings/src/util/mod.rs @@ -0,0 +1,12 @@ +//! Some utility modules live here. See individual sub-modules for more info. + +use std::ffi::c_void; +use bitcoin::hashes::Hash; +use crate::c_types::*; + +pub mod events; +pub mod errors; +pub mod ser; +pub mod macro_logger; +pub mod logger; +pub mod config; diff --git a/lightning-c-bindings/src/util/ser.rs b/lightning-c-bindings/src/util/ser.rs new file mode 100644 index 0000000..db9549c --- /dev/null +++ b/lightning-c-bindings/src/util/ser.rs @@ -0,0 +1,10 @@ +//! A very simple serialization framework which is used to serialize/deserialize messages as well +//! as ChannelsManagers and ChannelMonitors. + +use std::ffi::c_void; +use bitcoin::hashes::Hash; +use crate::c_types::*; + + +#[no_mangle] +pub static MAX_BUF_SIZE: usize = lightning::util::ser::MAX_BUF_SIZE;