//! Structs and traits which allow other parts of rust-lightning to interact with the blockchain.
-use std::str::FromStr;
-use std::ffi::c_void;
+use alloc::str::FromStr;
+use core::ffi::c_void;
use core::convert::Infallible;
use bitcoin::hashes::Hash;
use crate::c_types::*;
+#[cfg(feature="no-std")]
+use alloc::{vec::Vec, boxed::Box};
pub mod chaininterface;
pub mod chainmonitor;
pub mod keysinterface;
mod onchaintx {
-use std::str::FromStr;
-use std::ffi::c_void;
+use alloc::str::FromStr;
+use core::ffi::c_void;
use core::convert::Infallible;
use bitcoin::hashes::Hash;
use crate::c_types::*;
+#[cfg(feature="no-std")]
+use alloc::{vec::Vec, boxed::Box};
}
mod package {
-use std::str::FromStr;
-use std::ffi::c_void;
+use alloc::str::FromStr;
+use core::ffi::c_void;
use core::convert::Infallible;
use bitcoin::hashes::Hash;
use crate::c_types::*;
+#[cfg(feature="no-std")]
+use alloc::{vec::Vec, boxed::Box};
}
use lightning::chain::BestBlock as nativeBestBlockImport;
-type nativeBestBlock = nativeBestBlockImport;
+pub(crate) type nativeBestBlock = nativeBestBlockImport;
/// The best known block as identified by its hash and height.
#[must_use]
pub extern "C" fn BestBlock_free(this_obj: BestBlock) { }
#[allow(unused)]
/// Used only if an object of this type is returned as a trait impl by a method
-extern "C" fn BestBlock_free_void(this_ptr: *mut c_void) {
+pub(crate) extern "C" fn BestBlock_free_void(this_ptr: *mut c_void) {
unsafe { let _ = Box::from_raw(this_ptr as *mut nativeBestBlock); }
}
#[allow(unused)]
pub(crate) fn take_inner(mut self) -> *mut nativeBestBlock {
assert!(self.is_owned);
let ret = ObjOps::untweak_ptr(self.inner);
- self.inner = std::ptr::null_mut();
+ self.inner = core::ptr::null_mut();
ret
}
}
impl Clone for BestBlock {
fn clone(&self) -> Self {
Self {
- inner: if <*mut nativeBestBlock>::is_null(self.inner) { std::ptr::null_mut() } else {
+ inner: if <*mut nativeBestBlock>::is_null(self.inner) { core::ptr::null_mut() } else {
ObjOps::heap_alloc(unsafe { &*ObjOps::untweak_ptr(self.inner) }.clone()) },
is_owned: true,
}
/// network.
#[must_use]
#[no_mangle]
-pub extern "C" fn BestBlock_from_genesis(mut network: crate::bitcoin::network::Network) -> BestBlock {
+pub extern "C" fn BestBlock_from_genesis(mut network: crate::bitcoin::network::Network) -> crate::lightning::chain::BestBlock {
let mut ret = lightning::chain::BestBlock::from_genesis(network.into_bitcoin());
- BestBlock { inner: ObjOps::heap_alloc(ret), is_owned: true }
+ crate::lightning::chain::BestBlock { inner: ObjOps::heap_alloc(ret), is_owned: true }
}
/// Returns a `BestBlock` as identified by the given block hash and height.
#[must_use]
#[no_mangle]
-pub extern "C" fn BestBlock_new(mut block_hash: crate::c_types::ThirtyTwoBytes, mut height: u32) -> BestBlock {
+pub extern "C" fn BestBlock_new(mut block_hash: crate::c_types::ThirtyTwoBytes, mut height: u32) -> crate::lightning::chain::BestBlock {
let mut ret = lightning::chain::BestBlock::new(::bitcoin::hash_types::BlockHash::from_slice(&block_hash.data[..]).unwrap(), height);
- BestBlock { inner: ObjOps::heap_alloc(ret), is_owned: true }
+ crate::lightning::chain::BestBlock { inner: ObjOps::heap_alloc(ret), is_owned: true }
}
/// Returns the best block hash.
#[must_use]
#[no_mangle]
-pub extern "C" fn BestBlock_block_hash(this_arg: &BestBlock) -> crate::c_types::ThirtyTwoBytes {
+pub extern "C" fn BestBlock_block_hash(this_arg: &crate::lightning::chain::BestBlock) -> crate::c_types::ThirtyTwoBytes {
let mut ret = unsafe { &*ObjOps::untweak_ptr(this_arg.inner) }.block_hash();
crate::c_types::ThirtyTwoBytes { data: ret.into_inner() }
}
/// Returns the best block height.
#[must_use]
#[no_mangle]
-pub extern "C" fn BestBlock_height(this_arg: &BestBlock) -> u32 {
+pub extern "C" fn BestBlock_height(this_arg: &crate::lightning::chain::BestBlock) -> u32 {
let mut ret = unsafe { &*ObjOps::untweak_ptr(this_arg.inner) }.height();
ret
}
/// An error when accessing the chain via [`Access`].
-#[must_use]
#[derive(Clone)]
+#[must_use]
#[repr(C)]
pub enum AccessError {
/// The requested chain is unknown.
/// The requested transaction doesn't exist or hasn't confirmed.
UnknownTx,
}
-use lightning::chain::AccessError as nativeAccessError;
+use lightning::chain::AccessError as AccessErrorImport;
+pub(crate) type nativeAccessError = AccessErrorImport;
+
impl AccessError {
#[allow(unused)]
pub(crate) fn to_native(&self) -> nativeAccessError {
/// 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
+ /// [`short_channel_id`]: https://github.com/lightning/bolts/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,
/// Frees any resources associated with this object given its this_arg pointer.
// 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 {
+impl core::ops::Deref for Access {
type Target = Self;
fn deref(&self) -> &Self {
self
/// sourcing chain data using a block-oriented API should prefer this interface over [`Confirm`].
/// Such clients fetch the entire header chain whereas clients using [`Confirm`] only fetch headers
/// when needed.
+///
+/// By using [`Listen::filtered_block_connected`] this interface supports clients fetching the
+/// entire header chain and only blocks with matching transaction data using BIP 157 filters or
+/// other similar filtering.
#[repr(C)]
pub struct Listen {
/// An opaque pointer which is passed to your function implementations as an argument.
/// This has no meaning in the LDK, and can be NULL or any other value.
pub this_arg: *mut c_void,
+ /// Notifies the listener that a block was added at the given height, with the transaction data
+ /// possibly filtered.
+ pub filtered_block_connected: extern "C" fn (this_arg: *const c_void, header: *const [u8; 80], txdata: crate::c_types::derived::CVec_C2Tuple_usizeTransactionZZ, height: u32),
/// 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(crate) extern "C" fn Listen_clone_fields(orig: &Listen) -> Listen {
Listen {
this_arg: orig.this_arg,
+ filtered_block_connected: Clone::clone(&orig.filtered_block_connected),
block_connected: Clone::clone(&orig.block_connected),
block_disconnected: Clone::clone(&orig.block_disconnected),
free: Clone::clone(&orig.free),
use lightning::chain::Listen as rustListen;
impl rustListen for Listen {
+ fn filtered_block_connected(&self, mut header: &bitcoin::blockdata::block::BlockHeader, mut txdata: &lightning::chain::transaction::TransactionData, mut height: u32) {
+ let mut local_header = { let mut s = [0u8; 80]; s[..].copy_from_slice(&::bitcoin::consensus::encode::serialize(header)); s };
+ let mut local_txdata = Vec::new(); for item in txdata.iter() { local_txdata.push( { let (mut orig_txdata_0_0, mut orig_txdata_0_1) = item; let mut local_txdata_0 = (orig_txdata_0_0, crate::c_types::Transaction::from_bitcoin(&orig_txdata_0_1)).into(); local_txdata_0 }); };
+ (self.filtered_block_connected)(self.this_arg, &local_header, local_txdata.into(), height)
+ }
fn block_connected(&self, mut block: &bitcoin::blockdata::block::Block, mut 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)
// 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 {
+impl core::ops::Deref for Listen {
type Target = Self;
fn deref(&self) -> &Self {
self
// 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 Confirm {
+impl core::ops::Deref for Confirm {
type Target = Self;
fn deref(&self) -> &Self {
self
}
}
/// An error enum representing a failure to persist a channel monitor update.
-#[must_use]
#[derive(Clone)]
+#[must_use]
#[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.
+ /// submitting new commitment transactions to the counterparty. Once the update(s) that failed
+ /// have been successfully applied, a [`MonitorEvent::UpdateCompleted`] event should be returned
+ /// via [`Watch::release_pending_monitor_events`] which will then 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
/// 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 even if updates made after TemporaryFailure succeed you must still provide a
+ /// [`MonitorEvent::UpdateCompleted`] to ensure you have the latest monitor and re-enable
+ /// normal channel operation. Note that this is normally generated through a call to
+ /// [`ChainMonitor::channel_monitor_updated`].
///
- /// 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
+ /// Note that the update being processed here will not be replayed for you when you return a
+ /// [`MonitorEvent::UpdateCompleted`] event via [`Watch::release_pending_monitor_events`], so
+ /// you must store the update itself 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.
+ ///
+ /// [`ChainMonitor::channel_monitor_updated`]: chainmonitor::ChainMonitor::channel_monitor_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
/// lagging behind on block processing.
PermanentFailure,
}
-use lightning::chain::ChannelMonitorUpdateErr as nativeChannelMonitorUpdateErr;
+use lightning::chain::ChannelMonitorUpdateErr as ChannelMonitorUpdateErrImport;
+pub(crate) type nativeChannelMonitorUpdateErr = ChannelMonitorUpdateErrImport;
+
impl ChannelMonitorUpdateErr {
#[allow(unused)]
pub(crate) fn to_native(&self) -> nativeChannelMonitorUpdateErr {
pub update_channel: extern "C" fn (this_arg: *const c_void, funding_txo: crate::lightning::chain::transaction::OutPoint, update: crate::lightning::chain::channelmonitor::ChannelMonitorUpdate) -> crate::c_types::derived::CResult_NoneChannelMonitorUpdateErrZ,
/// Returns any monitor events since the last call. Subsequent calls must only return new
/// events.
+ ///
+ /// Note that after any block- or transaction-connection calls to a [`ChannelMonitor`], no
+ /// further events may be returned here until the [`ChannelMonitor`] has been fully persisted
+ /// to disk.
+ ///
+ /// For details on asynchronous [`ChannelMonitor`] updating and returning
+ /// [`MonitorEvent::UpdateCompleted`] here, see [`ChannelMonitorUpdateErr::TemporaryFailure`].
#[must_use]
- pub release_pending_monitor_events: extern "C" fn (this_arg: *const c_void) -> crate::c_types::derived::CVec_MonitorEventZ,
+ pub release_pending_monitor_events: extern "C" fn (this_arg: *const c_void) -> crate::c_types::derived::CVec_C3Tuple_OutPointCVec_MonitorEventZPublicKeyZZ,
/// Frees any resources associated with this object given its this_arg pointer.
/// Does not need to free the outer struct containing function pointers and may be NULL is no resources need to be freed.
pub free: Option<extern "C" fn(this_arg: *mut c_void)>,
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<lightning::chain::channelmonitor::MonitorEvent> {
+ fn release_pending_monitor_events(&self) -> Vec<(lightning::chain::transaction::OutPoint, Vec<lightning::chain::channelmonitor::MonitorEvent>, Option<bitcoin::secp256k1::PublicKey>)> {
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() }); };
+ 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 = Vec::new(); for mut item in orig_ret_0_1.into_rust().drain(..) { local_orig_ret_0_1.push( { item.into_native() }); }; let mut local_orig_ret_0_2 = if orig_ret_0_2.is_null() { None } else { Some( { orig_ret_0_2.into_rust() }) }; 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
}
}
// 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 {
+impl core::ops::Deref for Watch {
type Target = Self;
fn deref(&self) -> &Self {
self
// 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 {
+impl core::ops::Deref for Filter {
type Target = Self;
fn deref(&self) -> &Self {
self
}
use lightning::chain::WatchedOutput as nativeWatchedOutputImport;
-type nativeWatchedOutput = nativeWatchedOutputImport;
+pub(crate) type nativeWatchedOutput = nativeWatchedOutputImport;
/// A transaction output watched by a [`ChannelMonitor`] for spends on-chain.
///
pub extern "C" fn WatchedOutput_free(this_obj: WatchedOutput) { }
#[allow(unused)]
/// Used only if an object of this type is returned as a trait impl by a method
-extern "C" fn WatchedOutput_free_void(this_ptr: *mut c_void) {
+pub(crate) extern "C" fn WatchedOutput_free_void(this_ptr: *mut c_void) {
unsafe { let _ = Box::from_raw(this_ptr as *mut nativeWatchedOutput); }
}
#[allow(unused)]
pub(crate) fn take_inner(mut self) -> *mut nativeWatchedOutput {
assert!(self.is_owned);
let ret = ObjOps::untweak_ptr(self.inner);
- self.inner = std::ptr::null_mut();
+ self.inner = core::ptr::null_mut();
ret
}
}
#[no_mangle]
pub extern "C" fn WatchedOutput_get_outpoint(this_ptr: &WatchedOutput) -> crate::lightning::chain::transaction::OutPoint {
let mut inner_val = &mut this_ptr.get_native_mut_ref().outpoint;
- crate::lightning::chain::transaction::OutPoint { inner: unsafe { ObjOps::nonnull_ptr_to_inner((inner_val as *const _) as *mut _) }, is_owned: false }
+ crate::lightning::chain::transaction::OutPoint { inner: unsafe { ObjOps::nonnull_ptr_to_inner((inner_val as *const lightning::chain::transaction::OutPoint<>) as *mut _) }, is_owned: false }
}
/// Outpoint identifying the transaction output.
#[no_mangle]
impl Clone for WatchedOutput {
fn clone(&self) -> Self {
Self {
- inner: if <*mut nativeWatchedOutput>::is_null(self.inner) { std::ptr::null_mut() } else {
+ inner: if <*mut nativeWatchedOutput>::is_null(self.inner) { core::ptr::null_mut() } else {
ObjOps::heap_alloc(unsafe { &*ObjOps::untweak_ptr(self.inner) }.clone()) },
is_owned: true,
}
#[no_mangle]
pub extern "C" fn WatchedOutput_hash(o: &WatchedOutput) -> u64 {
if o.inner.is_null() { return 0; }
- // Note that we'd love to use std::collections::hash_map::DefaultHasher but it's not in core
+ // Note that we'd love to use alloc::collections::hash_map::DefaultHasher but it's not in core
#[allow(deprecated)]
let mut hasher = core::hash::SipHasher::new();
- std::hash::Hash::hash(o.get_native_ref(), &mut hasher);
- std::hash::Hasher::finish(&hasher)
+ core::hash::Hash::hash(o.get_native_ref(), &mut hasher);
+ core::hash::Hasher::finish(&hasher)
}