//! # Example
//!
//! ```
-//! # extern crate secp256k1;
+//! # extern crate bitcoin;
//! #
-//! # use lightning::routing::network_graph::NetworkGraph;
+//! # use lightning::routing::gossip::NetworkGraph;
//! # use lightning::routing::router::{RouteParameters, find_route};
-//! # use lightning::routing::scoring::{ProbabilisticScorer, ProbabilisticScoringParameters, Scorer, ScoringParameters};
+//! # use lightning::routing::scoring::{ProbabilisticScorer, ProbabilisticScoringParameters};
+//! # use lightning::chain::keysinterface::{KeysManager, KeysInterface};
//! # use lightning::util::logger::{Logger, Record};
-//! # use secp256k1::key::PublicKey;
+//! # use bitcoin::secp256k1::PublicKey;
//! #
//! # struct FakeLogger {};
//! # impl Logger for FakeLogger {
//! # fn log(&self, record: &Record) { unimplemented!() }
//! # }
-//! # fn find_scored_route(payer: PublicKey, route_params: RouteParameters, network_graph: NetworkGraph) {
+//! # fn find_scored_route(payer: PublicKey, route_params: RouteParameters, network_graph: NetworkGraph<&FakeLogger>) {
//! # let logger = FakeLogger {};
//! #
//! // Use the default channel penalties.
//! let params = ProbabilisticScoringParameters::default();
-//! let scorer = ProbabilisticScorer::new(params, &network_graph);
+//! let scorer = ProbabilisticScorer::new(params, &network_graph, &logger);
//!
//! // Or use custom channel penalties.
//! let params = ProbabilisticScoringParameters {
//! liquidity_penalty_multiplier_msat: 2 * 1000,
//! ..ProbabilisticScoringParameters::default()
//! };
-//! let scorer = ProbabilisticScorer::new(params, &network_graph);
+//! let scorer = ProbabilisticScorer::new(params, &network_graph, &logger);
+//! # let random_seed_bytes = [42u8; 32];
//!
-//! let route = find_route(&payer, &route_params, &network_graph, None, &logger, &scorer);
+//! let route = find_route(&payer, &route_params, &network_graph, None, &logger, &scorer, &random_seed_bytes);
//! # }
//! ```
//!
/// [`u64::max_value`] is given to indicate sufficient capacity for the invoice's full amount.
/// Thus, implementations should be overflow-safe.
#[must_use]
- pub channel_penalty_msat: extern "C" fn (this_arg: *const c_void, short_channel_id: u64, send_amt_msat: u64, capacity_msat: u64, source: &crate::lightning::routing::network_graph::NodeId, target: &crate::lightning::routing::network_graph::NodeId) -> u64,
+ pub channel_penalty_msat: extern "C" fn (this_arg: *const c_void, short_channel_id: u64, source: &crate::lightning::routing::gossip::NodeId, target: &crate::lightning::routing::gossip::NodeId, usage: crate::lightning::routing::scoring::ChannelUsage) -> u64,
/// Handles updating channel penalties after failing to route through a channel.
pub payment_path_failed: extern "C" fn (this_arg: *mut c_void, path: crate::c_types::derived::CVec_RouteHopZ, short_channel_id: u64),
/// Handles updating channel penalties after successfully routing along a path.
pub payment_path_successful: extern "C" fn (this_arg: *mut c_void, path: crate::c_types::derived::CVec_RouteHopZ),
+ /// Handles updating channel penalties after a probe over the given path failed.
+ pub probe_failed: extern "C" fn (this_arg: *mut c_void, path: crate::c_types::derived::CVec_RouteHopZ, short_channel_id: u64),
+ /// Handles updating channel penalties after a probe over the given path succeeded.
+ pub probe_successful: extern "C" fn (this_arg: *mut c_void, path: crate::c_types::derived::CVec_RouteHopZ),
/// Serialize the object into a byte array
pub write: extern "C" fn (this_arg: *const c_void) -> crate::c_types::derived::CVec_u8Z,
/// Frees any resources associated with this object given its this_arg pointer.
channel_penalty_msat: Clone::clone(&orig.channel_penalty_msat),
payment_path_failed: Clone::clone(&orig.payment_path_failed),
payment_path_successful: Clone::clone(&orig.payment_path_successful),
+ probe_failed: Clone::clone(&orig.probe_failed),
+ probe_successful: Clone::clone(&orig.probe_successful),
write: Clone::clone(&orig.write),
free: Clone::clone(&orig.free),
}
use lightning::routing::scoring::Score as rustScore;
impl rustScore for Score {
- fn channel_penalty_msat(&self, mut short_channel_id: u64, mut send_amt_msat: u64, mut capacity_msat: u64, mut source: &lightning::routing::network_graph::NodeId, mut target: &lightning::routing::network_graph::NodeId) -> u64 {
- let mut ret = (self.channel_penalty_msat)(self.this_arg, short_channel_id, send_amt_msat, capacity_msat, &crate::lightning::routing::network_graph::NodeId { inner: unsafe { ObjOps::nonnull_ptr_to_inner((source as *const lightning::routing::network_graph::NodeId<>) as *mut _) }, is_owned: false }, &crate::lightning::routing::network_graph::NodeId { inner: unsafe { ObjOps::nonnull_ptr_to_inner((target as *const lightning::routing::network_graph::NodeId<>) as *mut _) }, is_owned: false });
+ fn channel_penalty_msat(&self, mut short_channel_id: u64, mut source: &lightning::routing::gossip::NodeId, mut target: &lightning::routing::gossip::NodeId, mut usage: lightning::routing::scoring::ChannelUsage) -> u64 {
+ let mut ret = (self.channel_penalty_msat)(self.this_arg, short_channel_id, &crate::lightning::routing::gossip::NodeId { inner: unsafe { ObjOps::nonnull_ptr_to_inner((source as *const lightning::routing::gossip::NodeId<>) as *mut _) }, is_owned: false }, &crate::lightning::routing::gossip::NodeId { inner: unsafe { ObjOps::nonnull_ptr_to_inner((target as *const lightning::routing::gossip::NodeId<>) as *mut _) }, is_owned: false }, crate::lightning::routing::scoring::ChannelUsage { inner: ObjOps::heap_alloc(usage), is_owned: true });
ret
}
fn payment_path_failed(&mut self, mut path: &[&lightning::routing::router::RouteHop], mut short_channel_id: u64) {
let mut local_path = Vec::new(); for item in path.iter() { local_path.push( { crate::lightning::routing::router::RouteHop { inner: unsafe { ObjOps::nonnull_ptr_to_inner(((*item) as *const lightning::routing::router::RouteHop<>) as *mut _) }, is_owned: false } }); };
(self.payment_path_successful)(self.this_arg, local_path.into())
}
+ fn probe_failed(&mut self, mut path: &[&lightning::routing::router::RouteHop], mut short_channel_id: u64) {
+ let mut local_path = Vec::new(); for item in path.iter() { local_path.push( { crate::lightning::routing::router::RouteHop { inner: unsafe { ObjOps::nonnull_ptr_to_inner(((*item) as *const lightning::routing::router::RouteHop<>) as *mut _) }, is_owned: false } }); };
+ (self.probe_failed)(self.this_arg, local_path.into(), short_channel_id)
+ }
+ fn probe_successful(&mut self, mut path: &[&lightning::routing::router::RouteHop]) {
+ let mut local_path = Vec::new(); for item in path.iter() { local_path.push( { crate::lightning::routing::router::RouteHop { inner: unsafe { ObjOps::nonnull_ptr_to_inner(((*item) as *const lightning::routing::router::RouteHop<>) as *mut _) }, is_owned: false } }); };
+ (self.probe_successful)(self.this_arg, local_path.into())
+ }
}
// We're essentially a pointer already, or at least a set of pointers, so allow us to be used
}
}
}
+/// Refers to a scorer that is accessible under lock and also writeable to disk
+///
+/// We need this trait to be able to pass in a scorer to `lightning-background-processor` that will enable us to
+/// use the Persister to persist it.
+#[repr(C)]
+pub struct WriteableScore {
+ /// 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,
+ /// Implementation of LockableScore for this object.
+ pub LockableScore: crate::lightning::routing::scoring::LockableScore,
+ /// Serialize the object into a byte array
+ pub write: extern "C" fn (this_arg: *const c_void) -> crate::c_types::derived::CVec_u8Z,
+ /// 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)>,
+}
+unsafe impl Send for WriteableScore {}
+unsafe impl Sync for WriteableScore {}
+#[no_mangle]
+pub(crate) extern "C" fn WriteableScore_clone_fields(orig: &WriteableScore) -> WriteableScore {
+ WriteableScore {
+ this_arg: orig.this_arg,
+ LockableScore: crate::lightning::routing::scoring::LockableScore_clone_fields(&orig.LockableScore),
+ write: Clone::clone(&orig.write),
+ free: Clone::clone(&orig.free),
+ }
+}
+impl<'a> lightning::routing::scoring::LockableScore<'a> for WriteableScore {
+ type Locked = crate::lightning::routing::scoring::Score;
+ fn lock(&'a self) -> crate::lightning::routing::scoring::Score {
+ let mut ret = (self.LockableScore.lock)(self.LockableScore.this_arg);
+ ret
+ }
+}
+impl lightning::util::ser::Writeable for WriteableScore {
+ fn write<W: lightning::util::ser::Writer>(&self, w: &mut W) -> Result<(), crate::c_types::io::Error> {
+ let vec = (self.write)(self.this_arg);
+ w.write_all(vec.as_slice())
+ }
+}
+
+use lightning::routing::scoring::WriteableScore as rustWriteableScore;
+impl<'a> rustWriteableScore<'a> for WriteableScore {
+}
+
+// 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 core::ops::Deref for WriteableScore {
+ type Target = Self;
+ fn deref(&self) -> &Self {
+ self
+ }
+}
+/// Calls the free function if one is set
+#[no_mangle]
+pub extern "C" fn WriteableScore_free(this_ptr: WriteableScore) { }
+impl Drop for WriteableScore {
+ fn drop(&mut self) {
+ if let Some(f) = self.free {
+ f(self.this_arg);
+ }
+ }
+}
use lightning::routing::scoring::MultiThreadedLockableScore as nativeMultiThreadedLockableScoreImport;
pub(crate) type nativeMultiThreadedLockableScore = nativeMultiThreadedLockableScoreImport<crate::lightning::routing::scoring::Score>;
ret
}
}
-/// Creates a new [`MultiThreadedLockableScore`] given an underlying [`Score`].
-#[must_use]
-#[no_mangle]
-pub extern "C" fn MultiThreadedLockableScore_new(mut score: crate::lightning::routing::scoring::Score) -> MultiThreadedLockableScore {
- let mut ret = lightning::routing::scoring::MultiThreadedLockableScore::new(score);
- MultiThreadedLockableScore { inner: ObjOps::heap_alloc(ret), is_owned: true }
-}
+use lightning::routing::scoring::MultiThreadedScoreLock as nativeMultiThreadedScoreLockImport;
+pub(crate) type nativeMultiThreadedScoreLock = nativeMultiThreadedScoreLockImport<'static, crate::lightning::routing::scoring::Score>;
-use lightning::routing::scoring::FixedPenaltyScorer as nativeFixedPenaltyScorerImport;
-pub(crate) type nativeFixedPenaltyScorer = nativeFixedPenaltyScorerImport;
-
-/// [`Score`] implementation that uses a fixed penalty.
+/// A locked `MultiThreadedLockableScore`.
#[must_use]
#[repr(C)]
-pub struct FixedPenaltyScorer {
+pub struct MultiThreadedScoreLock {
/// A pointer to the opaque Rust object.
/// 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 nativeFixedPenaltyScorer,
+ pub inner: *mut nativeMultiThreadedScoreLock,
/// Indicates that this is the only struct which contains the same pointer.
/// Rust functions which take ownership of an object provided via an argument require
pub is_owned: bool,
}
-impl Drop for FixedPenaltyScorer {
+impl Drop for MultiThreadedScoreLock {
fn drop(&mut self) {
- if self.is_owned && !<*mut nativeFixedPenaltyScorer>::is_null(self.inner) {
+ if self.is_owned && !<*mut nativeMultiThreadedScoreLock>::is_null(self.inner) {
let _ = unsafe { Box::from_raw(ObjOps::untweak_ptr(self.inner)) };
}
}
}
-/// Frees any resources used by the FixedPenaltyScorer, if is_owned is set and inner is non-NULL.
+/// Frees any resources used by the MultiThreadedScoreLock, if is_owned is set and inner is non-NULL.
#[no_mangle]
-pub extern "C" fn FixedPenaltyScorer_free(this_obj: FixedPenaltyScorer) { }
+pub extern "C" fn MultiThreadedScoreLock_free(this_obj: MultiThreadedScoreLock) { }
#[allow(unused)]
/// Used only if an object of this type is returned as a trait impl by a method
-pub(crate) extern "C" fn FixedPenaltyScorer_free_void(this_ptr: *mut c_void) {
- unsafe { let _ = Box::from_raw(this_ptr as *mut nativeFixedPenaltyScorer); }
+pub(crate) extern "C" fn MultiThreadedScoreLock_free_void(this_ptr: *mut c_void) {
+ unsafe { let _ = Box::from_raw(this_ptr as *mut nativeMultiThreadedScoreLock); }
}
#[allow(unused)]
-impl FixedPenaltyScorer {
- pub(crate) fn get_native_ref(&self) -> &'static nativeFixedPenaltyScorer {
+impl MultiThreadedScoreLock {
+ pub(crate) fn get_native_ref(&self) -> &'static nativeMultiThreadedScoreLock {
unsafe { &*ObjOps::untweak_ptr(self.inner) }
}
- pub(crate) fn get_native_mut_ref(&self) -> &'static mut nativeFixedPenaltyScorer {
+ pub(crate) fn get_native_mut_ref(&self) -> &'static mut nativeMultiThreadedScoreLock {
unsafe { &mut *ObjOps::untweak_ptr(self.inner) }
}
/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy
- pub(crate) fn take_inner(mut self) -> *mut nativeFixedPenaltyScorer {
+ pub(crate) fn take_inner(mut self) -> *mut nativeMultiThreadedScoreLock {
assert!(self.is_owned);
let ret = ObjOps::untweak_ptr(self.inner);
self.inner = core::ptr::null_mut();
ret
}
}
+impl From<nativeMultiThreadedScoreLock> for crate::lightning::routing::scoring::Score {
+ fn from(obj: nativeMultiThreadedScoreLock) -> Self {
+ let mut rust_obj = MultiThreadedScoreLock { inner: ObjOps::heap_alloc(obj), is_owned: true };
+ let mut ret = MultiThreadedScoreLock_as_Score(&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 = core::ptr::null_mut();
+ ret.free = Some(MultiThreadedScoreLock_free_void);
+ ret
+ }
+}
+/// Constructs a new Score which calls the relevant methods on this_arg.
+/// This copies the `inner` pointer in this_arg and thus the returned Score must be freed before this_arg is
#[no_mangle]
-/// Serialize the FixedPenaltyScorer object into a byte array which can be read by FixedPenaltyScorer_read
-pub extern "C" fn FixedPenaltyScorer_write(obj: &FixedPenaltyScorer) -> crate::c_types::derived::CVec_u8Z {
+pub extern "C" fn MultiThreadedScoreLock_as_Score(this_arg: &MultiThreadedScoreLock) -> crate::lightning::routing::scoring::Score {
+ crate::lightning::routing::scoring::Score {
+ this_arg: unsafe { ObjOps::untweak_ptr((*this_arg).inner) as *mut c_void },
+ free: None,
+ channel_penalty_msat: MultiThreadedScoreLock_Score_channel_penalty_msat,
+ payment_path_failed: MultiThreadedScoreLock_Score_payment_path_failed,
+ payment_path_successful: MultiThreadedScoreLock_Score_payment_path_successful,
+ probe_failed: MultiThreadedScoreLock_Score_probe_failed,
+ probe_successful: MultiThreadedScoreLock_Score_probe_successful,
+ write: MultiThreadedScoreLock_write_void,
+ }
+}
+
+#[must_use]
+extern "C" fn MultiThreadedScoreLock_Score_channel_penalty_msat(this_arg: *const c_void, mut short_channel_id: u64, source: &crate::lightning::routing::gossip::NodeId, target: &crate::lightning::routing::gossip::NodeId, mut usage: crate::lightning::routing::scoring::ChannelUsage) -> u64 {
+ let mut ret = <nativeMultiThreadedScoreLock as lightning::routing::scoring::Score<>>::channel_penalty_msat(unsafe { &mut *(this_arg as *mut nativeMultiThreadedScoreLock) }, short_channel_id, source.get_native_ref(), target.get_native_ref(), *unsafe { Box::from_raw(usage.take_inner()) });
+ ret
+}
+extern "C" fn MultiThreadedScoreLock_Score_payment_path_failed(this_arg: *mut c_void, mut path: crate::c_types::derived::CVec_RouteHopZ, mut short_channel_id: u64) {
+ let mut local_path = Vec::new(); for mut item in path.as_slice().iter() { local_path.push( { item.get_native_ref() }); };
+ <nativeMultiThreadedScoreLock as lightning::routing::scoring::Score<>>::payment_path_failed(unsafe { &mut *(this_arg as *mut nativeMultiThreadedScoreLock) }, &local_path[..], short_channel_id)
+}
+extern "C" fn MultiThreadedScoreLock_Score_payment_path_successful(this_arg: *mut c_void, mut path: crate::c_types::derived::CVec_RouteHopZ) {
+ let mut local_path = Vec::new(); for mut item in path.as_slice().iter() { local_path.push( { item.get_native_ref() }); };
+ <nativeMultiThreadedScoreLock as lightning::routing::scoring::Score<>>::payment_path_successful(unsafe { &mut *(this_arg as *mut nativeMultiThreadedScoreLock) }, &local_path[..])
+}
+extern "C" fn MultiThreadedScoreLock_Score_probe_failed(this_arg: *mut c_void, mut path: crate::c_types::derived::CVec_RouteHopZ, mut short_channel_id: u64) {
+ let mut local_path = Vec::new(); for mut item in path.as_slice().iter() { local_path.push( { item.get_native_ref() }); };
+ <nativeMultiThreadedScoreLock as lightning::routing::scoring::Score<>>::probe_failed(unsafe { &mut *(this_arg as *mut nativeMultiThreadedScoreLock) }, &local_path[..], short_channel_id)
+}
+extern "C" fn MultiThreadedScoreLock_Score_probe_successful(this_arg: *mut c_void, mut path: crate::c_types::derived::CVec_RouteHopZ) {
+ let mut local_path = Vec::new(); for mut item in path.as_slice().iter() { local_path.push( { item.get_native_ref() }); };
+ <nativeMultiThreadedScoreLock as lightning::routing::scoring::Score<>>::probe_successful(unsafe { &mut *(this_arg as *mut nativeMultiThreadedScoreLock) }, &local_path[..])
+}
+
+#[no_mangle]
+/// Serialize the MultiThreadedScoreLock object into a byte array which can be read by MultiThreadedScoreLock_read
+pub extern "C" fn MultiThreadedScoreLock_write(obj: &crate::lightning::routing::scoring::MultiThreadedScoreLock) -> crate::c_types::derived::CVec_u8Z {
crate::c_types::serialize_obj(unsafe { &*obj }.get_native_ref())
}
#[no_mangle]
-pub(crate) extern "C" fn FixedPenaltyScorer_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z {
- crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeFixedPenaltyScorer) })
+pub(crate) extern "C" fn MultiThreadedScoreLock_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z {
+ crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeMultiThreadedScoreLock) })
}
+impl From<nativeMultiThreadedLockableScore> for crate::lightning::routing::scoring::LockableScore {
+ fn from(obj: nativeMultiThreadedLockableScore) -> Self {
+ let mut rust_obj = MultiThreadedLockableScore { inner: ObjOps::heap_alloc(obj), is_owned: true };
+ let mut ret = MultiThreadedLockableScore_as_LockableScore(&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 = core::ptr::null_mut();
+ ret.free = Some(MultiThreadedLockableScore_free_void);
+ ret
+ }
+}
+/// Constructs a new LockableScore which calls the relevant methods on this_arg.
+/// This copies the `inner` pointer in this_arg and thus the returned LockableScore must be freed before this_arg is
#[no_mangle]
-/// Read a FixedPenaltyScorer from a byte array, created by FixedPenaltyScorer_write
-pub extern "C" fn FixedPenaltyScorer_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_FixedPenaltyScorerDecodeErrorZ {
- let res: Result<lightning::routing::scoring::FixedPenaltyScorer, lightning::ln::msgs::DecodeError> = crate::c_types::deserialize_obj(ser);
- let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::lightning::routing::scoring::FixedPenaltyScorer { inner: ObjOps::heap_alloc(o), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::lightning::ln::msgs::DecodeError { inner: ObjOps::heap_alloc(e), is_owned: true } }).into() };
- local_res
+pub extern "C" fn MultiThreadedLockableScore_as_LockableScore(this_arg: &MultiThreadedLockableScore) -> crate::lightning::routing::scoring::LockableScore {
+ crate::lightning::routing::scoring::LockableScore {
+ this_arg: unsafe { ObjOps::untweak_ptr((*this_arg).inner) as *mut c_void },
+ free: None,
+ lock: MultiThreadedLockableScore_LockableScore_lock,
+ }
}
-/// Creates a new scorer using `penalty_msat`.
+
#[must_use]
-#[no_mangle]
-pub extern "C" fn FixedPenaltyScorer_with_penalty(mut penalty_msat: u64) -> FixedPenaltyScorer {
- let mut ret = lightning::routing::scoring::FixedPenaltyScorer::with_penalty(penalty_msat);
- FixedPenaltyScorer { inner: ObjOps::heap_alloc(ret), is_owned: true }
+extern "C" fn MultiThreadedLockableScore_LockableScore_lock(this_arg: *const c_void) -> crate::lightning::routing::scoring::Score {
+ let mut ret = <nativeMultiThreadedLockableScore as lightning::routing::scoring::LockableScore<>>::lock(unsafe { &mut *(this_arg as *mut nativeMultiThreadedLockableScore) }, );
+ Into::into(ret)
}
-impl From<nativeFixedPenaltyScorer> for crate::lightning::routing::scoring::Score {
- fn from(obj: nativeFixedPenaltyScorer) -> Self {
- let mut rust_obj = FixedPenaltyScorer { inner: ObjOps::heap_alloc(obj), is_owned: true };
- let mut ret = FixedPenaltyScorer_as_Score(&rust_obj);
+#[no_mangle]
+/// Serialize the MultiThreadedLockableScore object into a byte array which can be read by MultiThreadedLockableScore_read
+pub extern "C" fn MultiThreadedLockableScore_write(obj: &crate::lightning::routing::scoring::MultiThreadedLockableScore) -> crate::c_types::derived::CVec_u8Z {
+ crate::c_types::serialize_obj(unsafe { &*obj }.get_native_ref())
+}
+#[no_mangle]
+pub(crate) extern "C" fn MultiThreadedLockableScore_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z {
+ crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeMultiThreadedLockableScore) })
+}
+impl From<nativeMultiThreadedLockableScore> for crate::lightning::routing::scoring::WriteableScore {
+ fn from(obj: nativeMultiThreadedLockableScore) -> Self {
+ let mut rust_obj = MultiThreadedLockableScore { inner: ObjOps::heap_alloc(obj), is_owned: true };
+ let mut ret = MultiThreadedLockableScore_as_WriteableScore(&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 = core::ptr::null_mut();
- ret.free = Some(FixedPenaltyScorer_free_void);
+ ret.free = Some(MultiThreadedLockableScore_free_void);
ret
}
}
-/// Constructs a new Score which calls the relevant methods on this_arg.
-/// This copies the `inner` pointer in this_arg and thus the returned Score must be freed before this_arg is
+/// Constructs a new WriteableScore which calls the relevant methods on this_arg.
+/// This copies the `inner` pointer in this_arg and thus the returned WriteableScore must be freed before this_arg is
#[no_mangle]
-pub extern "C" fn FixedPenaltyScorer_as_Score(this_arg: &FixedPenaltyScorer) -> crate::lightning::routing::scoring::Score {
- crate::lightning::routing::scoring::Score {
+pub extern "C" fn MultiThreadedLockableScore_as_WriteableScore(this_arg: &MultiThreadedLockableScore) -> crate::lightning::routing::scoring::WriteableScore {
+ crate::lightning::routing::scoring::WriteableScore {
this_arg: unsafe { ObjOps::untweak_ptr((*this_arg).inner) as *mut c_void },
free: None,
- channel_penalty_msat: FixedPenaltyScorer_Score_channel_penalty_msat,
- payment_path_failed: FixedPenaltyScorer_Score_payment_path_failed,
- payment_path_successful: FixedPenaltyScorer_Score_payment_path_successful,
- write: FixedPenaltyScorer_write_void,
+ LockableScore: crate::lightning::routing::scoring::LockableScore {
+ this_arg: unsafe { ObjOps::untweak_ptr((*this_arg).inner) as *mut c_void },
+ free: None,
+ lock: MultiThreadedLockableScore_LockableScore_lock,
+ },
+ write: MultiThreadedLockableScore_write_void,
}
}
+
+/// Creates a new [`MultiThreadedLockableScore`] given an underlying [`Score`].
#[must_use]
-extern "C" fn FixedPenaltyScorer_Score_channel_penalty_msat(this_arg: *const c_void, unused_0: u64, unused_1: u64, unused_2: u64, unused_3: &crate::lightning::routing::network_graph::NodeId, unused_4: &crate::lightning::routing::network_graph::NodeId) -> u64 {
- let mut ret = <nativeFixedPenaltyScorer as lightning::routing::scoring::Score<>>::channel_penalty_msat(unsafe { &mut *(this_arg as *mut nativeFixedPenaltyScorer) }, unused_0, unused_1, unused_2, unused_3.get_native_ref(), unused_4.get_native_ref());
- ret
-}
-extern "C" fn FixedPenaltyScorer_Score_payment_path_failed(this_arg: *mut c_void, mut _path: crate::c_types::derived::CVec_RouteHopZ, mut _short_channel_id: u64) {
- let mut local__path = Vec::new(); for mut item in _path.as_slice().iter() { local__path.push( { item.get_native_ref() }); };
- <nativeFixedPenaltyScorer as lightning::routing::scoring::Score<>>::payment_path_failed(unsafe { &mut *(this_arg as *mut nativeFixedPenaltyScorer) }, &local__path[..], _short_channel_id)
-}
-extern "C" fn FixedPenaltyScorer_Score_payment_path_successful(this_arg: *mut c_void, mut _path: crate::c_types::derived::CVec_RouteHopZ) {
- let mut local__path = Vec::new(); for mut item in _path.as_slice().iter() { local__path.push( { item.get_native_ref() }); };
- <nativeFixedPenaltyScorer as lightning::routing::scoring::Score<>>::payment_path_successful(unsafe { &mut *(this_arg as *mut nativeFixedPenaltyScorer) }, &local__path[..])
+#[no_mangle]
+pub extern "C" fn MultiThreadedLockableScore_new(mut score: crate::lightning::routing::scoring::Score) -> crate::lightning::routing::scoring::MultiThreadedLockableScore {
+ let mut ret = lightning::routing::scoring::MultiThreadedLockableScore::new(score);
+ crate::lightning::routing::scoring::MultiThreadedLockableScore { inner: ObjOps::heap_alloc(ret), is_owned: true }
}
-use lightning::routing::scoring::Scorer as nativeScorerImport;
-pub(crate) type nativeScorer = nativeScorerImport;
+use lightning::routing::scoring::ChannelUsage as nativeChannelUsageImport;
+pub(crate) type nativeChannelUsage = nativeChannelUsageImport;
-/// [`Score`] implementation that provides reasonable default behavior.
-///
-/// Used to apply a fixed penalty to each channel, thus avoiding long paths when shorter paths with
-/// slightly higher fees are available. Will further penalize channels that fail to relay payments.
-///
-/// See [module-level documentation] for usage and [`ScoringParameters`] for customization.
-///
-/// # Note
-///
-/// Mixing the `no-std` feature between serialization and deserialization results in undefined
-/// behavior.
-///
-/// [module-level documentation]: crate::routing::scoring
+/// Proposed use of a channel passed as a parameter to [`Score::channel_penalty_msat`].
#[must_use]
#[repr(C)]
-pub struct Scorer {
+pub struct ChannelUsage {
/// A pointer to the opaque Rust object.
/// 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 nativeScorer,
+ pub inner: *mut nativeChannelUsage,
/// Indicates that this is the only struct which contains the same pointer.
/// Rust functions which take ownership of an object provided via an argument require
pub is_owned: bool,
}
-impl Drop for Scorer {
+impl Drop for ChannelUsage {
fn drop(&mut self) {
- if self.is_owned && !<*mut nativeScorer>::is_null(self.inner) {
+ if self.is_owned && !<*mut nativeChannelUsage>::is_null(self.inner) {
let _ = unsafe { Box::from_raw(ObjOps::untweak_ptr(self.inner)) };
}
}
}
-/// Frees any resources used by the Scorer, if is_owned is set and inner is non-NULL.
+/// Frees any resources used by the ChannelUsage, if is_owned is set and inner is non-NULL.
#[no_mangle]
-pub extern "C" fn Scorer_free(this_obj: Scorer) { }
+pub extern "C" fn ChannelUsage_free(this_obj: ChannelUsage) { }
#[allow(unused)]
/// Used only if an object of this type is returned as a trait impl by a method
-pub(crate) extern "C" fn Scorer_free_void(this_ptr: *mut c_void) {
- unsafe { let _ = Box::from_raw(this_ptr as *mut nativeScorer); }
+pub(crate) extern "C" fn ChannelUsage_free_void(this_ptr: *mut c_void) {
+ unsafe { let _ = Box::from_raw(this_ptr as *mut nativeChannelUsage); }
}
#[allow(unused)]
-impl Scorer {
- pub(crate) fn get_native_ref(&self) -> &'static nativeScorer {
+impl ChannelUsage {
+ pub(crate) fn get_native_ref(&self) -> &'static nativeChannelUsage {
unsafe { &*ObjOps::untweak_ptr(self.inner) }
}
- pub(crate) fn get_native_mut_ref(&self) -> &'static mut nativeScorer {
+ pub(crate) fn get_native_mut_ref(&self) -> &'static mut nativeChannelUsage {
unsafe { &mut *ObjOps::untweak_ptr(self.inner) }
}
/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy
- pub(crate) fn take_inner(mut self) -> *mut nativeScorer {
+ pub(crate) fn take_inner(mut self) -> *mut nativeChannelUsage {
assert!(self.is_owned);
let ret = ObjOps::untweak_ptr(self.inner);
self.inner = core::ptr::null_mut();
ret
}
}
+/// The amount to send through the channel, denominated in millisatoshis.
+#[no_mangle]
+pub extern "C" fn ChannelUsage_get_amount_msat(this_ptr: &ChannelUsage) -> u64 {
+ let mut inner_val = &mut this_ptr.get_native_mut_ref().amount_msat;
+ *inner_val
+}
+/// The amount to send through the channel, denominated in millisatoshis.
+#[no_mangle]
+pub extern "C" fn ChannelUsage_set_amount_msat(this_ptr: &mut ChannelUsage, mut val: u64) {
+ unsafe { &mut *ObjOps::untweak_ptr(this_ptr.inner) }.amount_msat = val;
+}
+/// Total amount, denominated in millisatoshis, already allocated to send through the channel
+/// as part of a multi-path payment.
+#[no_mangle]
+pub extern "C" fn ChannelUsage_get_inflight_htlc_msat(this_ptr: &ChannelUsage) -> u64 {
+ let mut inner_val = &mut this_ptr.get_native_mut_ref().inflight_htlc_msat;
+ *inner_val
+}
+/// Total amount, denominated in millisatoshis, already allocated to send through the channel
+/// as part of a multi-path payment.
+#[no_mangle]
+pub extern "C" fn ChannelUsage_set_inflight_htlc_msat(this_ptr: &mut ChannelUsage, mut val: u64) {
+ unsafe { &mut *ObjOps::untweak_ptr(this_ptr.inner) }.inflight_htlc_msat = val;
+}
+/// The effective capacity of the channel.
+#[no_mangle]
+pub extern "C" fn ChannelUsage_get_effective_capacity(this_ptr: &ChannelUsage) -> crate::lightning::routing::gossip::EffectiveCapacity {
+ let mut inner_val = &mut this_ptr.get_native_mut_ref().effective_capacity;
+ crate::lightning::routing::gossip::EffectiveCapacity::from_native(inner_val)
+}
+/// The effective capacity of the channel.
+#[no_mangle]
+pub extern "C" fn ChannelUsage_set_effective_capacity(this_ptr: &mut ChannelUsage, mut val: crate::lightning::routing::gossip::EffectiveCapacity) {
+ unsafe { &mut *ObjOps::untweak_ptr(this_ptr.inner) }.effective_capacity = val.into_native();
+}
+/// Constructs a new ChannelUsage given each field
+#[must_use]
+#[no_mangle]
+pub extern "C" fn ChannelUsage_new(mut amount_msat_arg: u64, mut inflight_htlc_msat_arg: u64, mut effective_capacity_arg: crate::lightning::routing::gossip::EffectiveCapacity) -> ChannelUsage {
+ ChannelUsage { inner: ObjOps::heap_alloc(nativeChannelUsage {
+ amount_msat: amount_msat_arg,
+ inflight_htlc_msat: inflight_htlc_msat_arg,
+ effective_capacity: effective_capacity_arg.into_native(),
+ }), is_owned: true }
+}
+impl Clone for ChannelUsage {
+ fn clone(&self) -> Self {
+ Self {
+ inner: if <*mut nativeChannelUsage>::is_null(self.inner) { core::ptr::null_mut() } else {
+ ObjOps::heap_alloc(unsafe { &*ObjOps::untweak_ptr(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 ChannelUsage_clone_void(this_ptr: *const c_void) -> *mut c_void {
+ Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeChannelUsage)).clone() })) as *mut c_void
+}
+#[no_mangle]
+/// Creates a copy of the ChannelUsage
+pub extern "C" fn ChannelUsage_clone(orig: &ChannelUsage) -> ChannelUsage {
+ orig.clone()
+}
-use lightning::routing::scoring::ScoringParameters as nativeScoringParametersImport;
-pub(crate) type nativeScoringParameters = nativeScoringParametersImport;
+use lightning::routing::scoring::FixedPenaltyScorer as nativeFixedPenaltyScorerImport;
+pub(crate) type nativeFixedPenaltyScorer = nativeFixedPenaltyScorerImport;
-/// Parameters for configuring [`Scorer`].
+/// [`Score`] implementation that uses a fixed penalty.
#[must_use]
#[repr(C)]
-pub struct ScoringParameters {
+pub struct FixedPenaltyScorer {
/// A pointer to the opaque Rust object.
/// 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 nativeScoringParameters,
+ pub inner: *mut nativeFixedPenaltyScorer,
/// Indicates that this is the only struct which contains the same pointer.
/// Rust functions which take ownership of an object provided via an argument require
pub is_owned: bool,
}
-impl Drop for ScoringParameters {
+impl Drop for FixedPenaltyScorer {
fn drop(&mut self) {
- if self.is_owned && !<*mut nativeScoringParameters>::is_null(self.inner) {
+ if self.is_owned && !<*mut nativeFixedPenaltyScorer>::is_null(self.inner) {
let _ = unsafe { Box::from_raw(ObjOps::untweak_ptr(self.inner)) };
}
}
}
-/// Frees any resources used by the ScoringParameters, if is_owned is set and inner is non-NULL.
+/// Frees any resources used by the FixedPenaltyScorer, if is_owned is set and inner is non-NULL.
#[no_mangle]
-pub extern "C" fn ScoringParameters_free(this_obj: ScoringParameters) { }
+pub extern "C" fn FixedPenaltyScorer_free(this_obj: FixedPenaltyScorer) { }
#[allow(unused)]
/// Used only if an object of this type is returned as a trait impl by a method
-pub(crate) extern "C" fn ScoringParameters_free_void(this_ptr: *mut c_void) {
- unsafe { let _ = Box::from_raw(this_ptr as *mut nativeScoringParameters); }
+pub(crate) extern "C" fn FixedPenaltyScorer_free_void(this_ptr: *mut c_void) {
+ unsafe { let _ = Box::from_raw(this_ptr as *mut nativeFixedPenaltyScorer); }
}
#[allow(unused)]
-impl ScoringParameters {
- pub(crate) fn get_native_ref(&self) -> &'static nativeScoringParameters {
+impl FixedPenaltyScorer {
+ pub(crate) fn get_native_ref(&self) -> &'static nativeFixedPenaltyScorer {
unsafe { &*ObjOps::untweak_ptr(self.inner) }
}
- pub(crate) fn get_native_mut_ref(&self) -> &'static mut nativeScoringParameters {
+ pub(crate) fn get_native_mut_ref(&self) -> &'static mut nativeFixedPenaltyScorer {
unsafe { &mut *ObjOps::untweak_ptr(self.inner) }
}
/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy
- pub(crate) fn take_inner(mut self) -> *mut nativeScoringParameters {
+ pub(crate) fn take_inner(mut self) -> *mut nativeFixedPenaltyScorer {
assert!(self.is_owned);
let ret = ObjOps::untweak_ptr(self.inner);
self.inner = core::ptr::null_mut();
ret
}
}
-/// A fixed penalty in msats to apply to each channel.
-///
-/// Default value: 500 msat
-#[no_mangle]
-pub extern "C" fn ScoringParameters_get_base_penalty_msat(this_ptr: &ScoringParameters) -> u64 {
- let mut inner_val = &mut this_ptr.get_native_mut_ref().base_penalty_msat;
- *inner_val
-}
-/// A fixed penalty in msats to apply to each channel.
-///
-/// Default value: 500 msat
-#[no_mangle]
-pub extern "C" fn ScoringParameters_set_base_penalty_msat(this_ptr: &mut ScoringParameters, mut val: u64) {
- unsafe { &mut *ObjOps::untweak_ptr(this_ptr.inner) }.base_penalty_msat = val;
-}
-/// A penalty in msats to apply to a channel upon failing to relay a payment.
-///
-/// This accumulates for each failure but may be reduced over time based on
-/// [`failure_penalty_half_life`] or when successfully routing through a channel.
-///
-/// Default value: 1,024,000 msat
-///
-/// [`failure_penalty_half_life`]: Self::failure_penalty_half_life
-#[no_mangle]
-pub extern "C" fn ScoringParameters_get_failure_penalty_msat(this_ptr: &ScoringParameters) -> u64 {
- let mut inner_val = &mut this_ptr.get_native_mut_ref().failure_penalty_msat;
- *inner_val
-}
-/// A penalty in msats to apply to a channel upon failing to relay a payment.
-///
-/// This accumulates for each failure but may be reduced over time based on
-/// [`failure_penalty_half_life`] or when successfully routing through a channel.
-///
-/// Default value: 1,024,000 msat
-///
-/// [`failure_penalty_half_life`]: Self::failure_penalty_half_life
-#[no_mangle]
-pub extern "C" fn ScoringParameters_set_failure_penalty_msat(this_ptr: &mut ScoringParameters, mut val: u64) {
- unsafe { &mut *ObjOps::untweak_ptr(this_ptr.inner) }.failure_penalty_msat = val;
-}
-/// When the amount being sent over a channel is this many 1024ths of the total channel
-/// capacity, we begin applying [`overuse_penalty_msat_per_1024th`].
-///
-/// Default value: 128 1024ths (i.e. begin penalizing when an HTLC uses 1/8th of a channel)
-///
-/// [`overuse_penalty_msat_per_1024th`]: Self::overuse_penalty_msat_per_1024th
-#[no_mangle]
-pub extern "C" fn ScoringParameters_get_overuse_penalty_start_1024th(this_ptr: &ScoringParameters) -> u16 {
- let mut inner_val = &mut this_ptr.get_native_mut_ref().overuse_penalty_start_1024th;
- *inner_val
-}
-/// When the amount being sent over a channel is this many 1024ths of the total channel
-/// capacity, we begin applying [`overuse_penalty_msat_per_1024th`].
-///
-/// Default value: 128 1024ths (i.e. begin penalizing when an HTLC uses 1/8th of a channel)
-///
-/// [`overuse_penalty_msat_per_1024th`]: Self::overuse_penalty_msat_per_1024th
-#[no_mangle]
-pub extern "C" fn ScoringParameters_set_overuse_penalty_start_1024th(this_ptr: &mut ScoringParameters, mut val: u16) {
- unsafe { &mut *ObjOps::untweak_ptr(this_ptr.inner) }.overuse_penalty_start_1024th = val;
-}
-/// A penalty applied, per whole 1024ths of the channel capacity which the amount being sent
-/// over the channel exceeds [`overuse_penalty_start_1024th`] by.
-///
-/// Default value: 20 msat (i.e. 2560 msat penalty to use 1/4th of a channel, 7680 msat penalty
-/// to use half a channel, and 12,560 msat penalty to use 3/4ths of a channel)
-///
-/// [`overuse_penalty_start_1024th`]: Self::overuse_penalty_start_1024th
-#[no_mangle]
-pub extern "C" fn ScoringParameters_get_overuse_penalty_msat_per_1024th(this_ptr: &ScoringParameters) -> u64 {
- let mut inner_val = &mut this_ptr.get_native_mut_ref().overuse_penalty_msat_per_1024th;
- *inner_val
-}
-/// A penalty applied, per whole 1024ths of the channel capacity which the amount being sent
-/// over the channel exceeds [`overuse_penalty_start_1024th`] by.
-///
-/// Default value: 20 msat (i.e. 2560 msat penalty to use 1/4th of a channel, 7680 msat penalty
-/// to use half a channel, and 12,560 msat penalty to use 3/4ths of a channel)
-///
-/// [`overuse_penalty_start_1024th`]: Self::overuse_penalty_start_1024th
-#[no_mangle]
-pub extern "C" fn ScoringParameters_set_overuse_penalty_msat_per_1024th(this_ptr: &mut ScoringParameters, mut val: u64) {
- unsafe { &mut *ObjOps::untweak_ptr(this_ptr.inner) }.overuse_penalty_msat_per_1024th = val;
-}
-/// The time required to elapse before any accumulated [`failure_penalty_msat`] penalties are
-/// cut in half.
-///
-/// Successfully routing through a channel will immediately cut the penalty in half as well.
-///
-/// Default value: 1 hour
-///
-/// # Note
-///
-/// When built with the `no-std` feature, time will never elapse. Therefore, this penalty will
-/// never decay.
-///
-/// [`failure_penalty_msat`]: Self::failure_penalty_msat
-#[no_mangle]
-pub extern "C" fn ScoringParameters_get_failure_penalty_half_life(this_ptr: &ScoringParameters) -> u64 {
- let mut inner_val = &mut this_ptr.get_native_mut_ref().failure_penalty_half_life;
- inner_val.as_secs()
-}
-/// The time required to elapse before any accumulated [`failure_penalty_msat`] penalties are
-/// cut in half.
-///
-/// Successfully routing through a channel will immediately cut the penalty in half as well.
-///
-/// Default value: 1 hour
-///
-/// # Note
-///
-/// When built with the `no-std` feature, time will never elapse. Therefore, this penalty will
-/// never decay.
-///
-/// [`failure_penalty_msat`]: Self::failure_penalty_msat
-#[no_mangle]
-pub extern "C" fn ScoringParameters_set_failure_penalty_half_life(this_ptr: &mut ScoringParameters, mut val: u64) {
- unsafe { &mut *ObjOps::untweak_ptr(this_ptr.inner) }.failure_penalty_half_life = core::time::Duration::from_secs(val);
-}
-/// Constructs a new ScoringParameters given each field
-#[must_use]
-#[no_mangle]
-pub extern "C" fn ScoringParameters_new(mut base_penalty_msat_arg: u64, mut failure_penalty_msat_arg: u64, mut overuse_penalty_start_1024th_arg: u16, mut overuse_penalty_msat_per_1024th_arg: u64, mut failure_penalty_half_life_arg: u64) -> ScoringParameters {
- ScoringParameters { inner: ObjOps::heap_alloc(nativeScoringParameters {
- base_penalty_msat: base_penalty_msat_arg,
- failure_penalty_msat: failure_penalty_msat_arg,
- overuse_penalty_start_1024th: overuse_penalty_start_1024th_arg,
- overuse_penalty_msat_per_1024th: overuse_penalty_msat_per_1024th_arg,
- failure_penalty_half_life: core::time::Duration::from_secs(failure_penalty_half_life_arg),
- }), is_owned: true }
-}
-#[no_mangle]
-/// Serialize the ScoringParameters object into a byte array which can be read by ScoringParameters_read
-pub extern "C" fn ScoringParameters_write(obj: &ScoringParameters) -> crate::c_types::derived::CVec_u8Z {
- crate::c_types::serialize_obj(unsafe { &*obj }.get_native_ref())
+impl Clone for FixedPenaltyScorer {
+ fn clone(&self) -> Self {
+ Self {
+ inner: if <*mut nativeFixedPenaltyScorer>::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(crate) extern "C" fn ScoringParameters_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z {
- crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeScoringParameters) })
+#[allow(unused)]
+/// Used only if an object of this type is returned as a trait impl by a method
+pub(crate) extern "C" fn FixedPenaltyScorer_clone_void(this_ptr: *const c_void) -> *mut c_void {
+ Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeFixedPenaltyScorer)).clone() })) as *mut c_void
}
#[no_mangle]
-/// Read a ScoringParameters from a byte array, created by ScoringParameters_write
-pub extern "C" fn ScoringParameters_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_ScoringParametersDecodeErrorZ {
- let res: Result<lightning::routing::scoring::ScoringParameters, lightning::ln::msgs::DecodeError> = crate::c_types::deserialize_obj(ser);
- let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::lightning::routing::scoring::ScoringParameters { inner: ObjOps::heap_alloc(o), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::lightning::ln::msgs::DecodeError { inner: ObjOps::heap_alloc(e), is_owned: true } }).into() };
- local_res
+/// Creates a copy of the FixedPenaltyScorer
+pub extern "C" fn FixedPenaltyScorer_clone(orig: &FixedPenaltyScorer) -> FixedPenaltyScorer {
+ orig.clone()
}
-/// Creates a new scorer using the given scoring parameters.
+/// Creates a new scorer using `penalty_msat`.
#[must_use]
#[no_mangle]
-pub extern "C" fn Scorer_new(mut params: crate::lightning::routing::scoring::ScoringParameters) -> Scorer {
- let mut ret = lightning::routing::scoring::Scorer::new(*unsafe { Box::from_raw(params.take_inner()) });
- Scorer { inner: ObjOps::heap_alloc(ret), is_owned: true }
+pub extern "C" fn FixedPenaltyScorer_with_penalty(mut penalty_msat: u64) -> crate::lightning::routing::scoring::FixedPenaltyScorer {
+ let mut ret = lightning::routing::scoring::FixedPenaltyScorer::with_penalty(penalty_msat);
+ crate::lightning::routing::scoring::FixedPenaltyScorer { inner: ObjOps::heap_alloc(ret), is_owned: true }
}
-/// Creates a "default" Scorer. See struct and individual field documentaiton for details on which values are used.
-#[must_use]
-#[no_mangle]
-pub extern "C" fn Scorer_default() -> Scorer {
- Scorer { inner: ObjOps::heap_alloc(Default::default()), is_owned: true }
-}
-/// Creates a "default" ScoringParameters. See struct and individual field documentaiton for details on which values are used.
-#[must_use]
-#[no_mangle]
-pub extern "C" fn ScoringParameters_default() -> ScoringParameters {
- ScoringParameters { inner: ObjOps::heap_alloc(Default::default()), is_owned: true }
-}
-impl From<nativeScorer> for crate::lightning::routing::scoring::Score {
- fn from(obj: nativeScorer) -> Self {
- let mut rust_obj = Scorer { inner: ObjOps::heap_alloc(obj), is_owned: true };
- let mut ret = Scorer_as_Score(&rust_obj);
+impl From<nativeFixedPenaltyScorer> for crate::lightning::routing::scoring::Score {
+ fn from(obj: nativeFixedPenaltyScorer) -> Self {
+ let mut rust_obj = FixedPenaltyScorer { inner: ObjOps::heap_alloc(obj), is_owned: true };
+ let mut ret = FixedPenaltyScorer_as_Score(&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 = core::ptr::null_mut();
- ret.free = Some(Scorer_free_void);
+ ret.free = Some(FixedPenaltyScorer_free_void);
ret
}
}
/// Constructs a new Score which calls the relevant methods on this_arg.
/// This copies the `inner` pointer in this_arg and thus the returned Score must be freed before this_arg is
#[no_mangle]
-pub extern "C" fn Scorer_as_Score(this_arg: &Scorer) -> crate::lightning::routing::scoring::Score {
+pub extern "C" fn FixedPenaltyScorer_as_Score(this_arg: &FixedPenaltyScorer) -> crate::lightning::routing::scoring::Score {
crate::lightning::routing::scoring::Score {
this_arg: unsafe { ObjOps::untweak_ptr((*this_arg).inner) as *mut c_void },
free: None,
- channel_penalty_msat: Scorer_Score_channel_penalty_msat,
- payment_path_failed: Scorer_Score_payment_path_failed,
- payment_path_successful: Scorer_Score_payment_path_successful,
- write: Scorer_write_void,
+ channel_penalty_msat: FixedPenaltyScorer_Score_channel_penalty_msat,
+ payment_path_failed: FixedPenaltyScorer_Score_payment_path_failed,
+ payment_path_successful: FixedPenaltyScorer_Score_payment_path_successful,
+ probe_failed: FixedPenaltyScorer_Score_probe_failed,
+ probe_successful: FixedPenaltyScorer_Score_probe_successful,
+ write: FixedPenaltyScorer_write_void,
}
}
#[must_use]
-extern "C" fn Scorer_Score_channel_penalty_msat(this_arg: *const c_void, mut short_channel_id: u64, mut send_amt_msat: u64, mut capacity_msat: u64, _source: &crate::lightning::routing::network_graph::NodeId, _target: &crate::lightning::routing::network_graph::NodeId) -> u64 {
- let mut ret = <nativeScorer as lightning::routing::scoring::Score<>>::channel_penalty_msat(unsafe { &mut *(this_arg as *mut nativeScorer) }, short_channel_id, send_amt_msat, capacity_msat, _source.get_native_ref(), _target.get_native_ref());
+extern "C" fn FixedPenaltyScorer_Score_channel_penalty_msat(this_arg: *const c_void, mut short_channel_id: u64, source: &crate::lightning::routing::gossip::NodeId, target: &crate::lightning::routing::gossip::NodeId, mut usage: crate::lightning::routing::scoring::ChannelUsage) -> u64 {
+ let mut ret = <nativeFixedPenaltyScorer as lightning::routing::scoring::Score<>>::channel_penalty_msat(unsafe { &mut *(this_arg as *mut nativeFixedPenaltyScorer) }, short_channel_id, source.get_native_ref(), target.get_native_ref(), *unsafe { Box::from_raw(usage.take_inner()) });
ret
}
-extern "C" fn Scorer_Score_payment_path_failed(this_arg: *mut c_void, mut _path: crate::c_types::derived::CVec_RouteHopZ, mut short_channel_id: u64) {
- let mut local__path = Vec::new(); for mut item in _path.as_slice().iter() { local__path.push( { item.get_native_ref() }); };
- <nativeScorer as lightning::routing::scoring::Score<>>::payment_path_failed(unsafe { &mut *(this_arg as *mut nativeScorer) }, &local__path[..], short_channel_id)
+extern "C" fn FixedPenaltyScorer_Score_payment_path_failed(this_arg: *mut c_void, mut path: crate::c_types::derived::CVec_RouteHopZ, mut short_channel_id: u64) {
+ let mut local_path = Vec::new(); for mut item in path.as_slice().iter() { local_path.push( { item.get_native_ref() }); };
+ <nativeFixedPenaltyScorer as lightning::routing::scoring::Score<>>::payment_path_failed(unsafe { &mut *(this_arg as *mut nativeFixedPenaltyScorer) }, &local_path[..], short_channel_id)
+}
+extern "C" fn FixedPenaltyScorer_Score_payment_path_successful(this_arg: *mut c_void, mut path: crate::c_types::derived::CVec_RouteHopZ) {
+ let mut local_path = Vec::new(); for mut item in path.as_slice().iter() { local_path.push( { item.get_native_ref() }); };
+ <nativeFixedPenaltyScorer as lightning::routing::scoring::Score<>>::payment_path_successful(unsafe { &mut *(this_arg as *mut nativeFixedPenaltyScorer) }, &local_path[..])
+}
+extern "C" fn FixedPenaltyScorer_Score_probe_failed(this_arg: *mut c_void, mut path: crate::c_types::derived::CVec_RouteHopZ, mut short_channel_id: u64) {
+ let mut local_path = Vec::new(); for mut item in path.as_slice().iter() { local_path.push( { item.get_native_ref() }); };
+ <nativeFixedPenaltyScorer as lightning::routing::scoring::Score<>>::probe_failed(unsafe { &mut *(this_arg as *mut nativeFixedPenaltyScorer) }, &local_path[..], short_channel_id)
}
-extern "C" fn Scorer_Score_payment_path_successful(this_arg: *mut c_void, mut path: crate::c_types::derived::CVec_RouteHopZ) {
+extern "C" fn FixedPenaltyScorer_Score_probe_successful(this_arg: *mut c_void, mut path: crate::c_types::derived::CVec_RouteHopZ) {
let mut local_path = Vec::new(); for mut item in path.as_slice().iter() { local_path.push( { item.get_native_ref() }); };
- <nativeScorer as lightning::routing::scoring::Score<>>::payment_path_successful(unsafe { &mut *(this_arg as *mut nativeScorer) }, &local_path[..])
+ <nativeFixedPenaltyScorer as lightning::routing::scoring::Score<>>::probe_successful(unsafe { &mut *(this_arg as *mut nativeFixedPenaltyScorer) }, &local_path[..])
}
#[no_mangle]
-/// Serialize the Scorer object into a byte array which can be read by Scorer_read
-pub extern "C" fn Scorer_write(obj: &Scorer) -> crate::c_types::derived::CVec_u8Z {
+/// Serialize the FixedPenaltyScorer object into a byte array which can be read by FixedPenaltyScorer_read
+pub extern "C" fn FixedPenaltyScorer_write(obj: &crate::lightning::routing::scoring::FixedPenaltyScorer) -> crate::c_types::derived::CVec_u8Z {
crate::c_types::serialize_obj(unsafe { &*obj }.get_native_ref())
}
#[no_mangle]
-pub(crate) extern "C" fn Scorer_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z {
- crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeScorer) })
+pub(crate) extern "C" fn FixedPenaltyScorer_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z {
+ crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeFixedPenaltyScorer) })
}
#[no_mangle]
-/// Read a Scorer from a byte array, created by Scorer_write
-pub extern "C" fn Scorer_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_ScorerDecodeErrorZ {
- let res: Result<lightning::routing::scoring::Scorer, lightning::ln::msgs::DecodeError> = crate::c_types::deserialize_obj(ser);
- let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::lightning::routing::scoring::Scorer { inner: ObjOps::heap_alloc(o), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::lightning::ln::msgs::DecodeError { inner: ObjOps::heap_alloc(e), is_owned: true } }).into() };
+/// Read a FixedPenaltyScorer from a byte array, created by FixedPenaltyScorer_write
+pub extern "C" fn FixedPenaltyScorer_read(ser: crate::c_types::u8slice, arg: u64) -> crate::c_types::derived::CResult_FixedPenaltyScorerDecodeErrorZ {
+ let arg_conv = arg;
+ let res: Result<lightning::routing::scoring::FixedPenaltyScorer, 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( { crate::lightning::routing::scoring::FixedPenaltyScorer { inner: ObjOps::heap_alloc(o), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::lightning::ln::msgs::DecodeError::native_into(e) }).into() };
local_res
}
use lightning::routing::scoring::ProbabilisticScorer as nativeProbabilisticScorerImport;
-pub(crate) type nativeProbabilisticScorer = nativeProbabilisticScorerImport<&'static lightning::routing::network_graph::NetworkGraph>;
+pub(crate) type nativeProbabilisticScorer = nativeProbabilisticScorerImport<&'static lightning::routing::gossip::NetworkGraph<crate::lightning::util::logger::Logger>, crate::lightning::util::logger::Logger>;
/// [`Score`] implementation using channel success probability distributions.
///
-/// Based on *Optimally Reliable & Cheap Payment Flows on the Lightning Network* by Rene Pickhardt
-/// and Stefan Richter [[1]]. Given the uncertainty of channel liquidity balances, probability
-/// distributions are defined based on knowledge learned from successful and unsuccessful attempts.
-/// Then the negative `log10` of the success probability is used to determine the cost of routing a
-/// specific HTLC amount through a channel.
+/// Channels are tracked with upper and lower liquidity bounds - when an HTLC fails at a channel,
+/// we learn that the upper-bound on the available liquidity is lower than the amount of the HTLC.
+/// When a payment is forwarded through a channel (but fails later in the route), we learn the
+/// lower-bound on the channel's available liquidity must be at least the value of the HTLC.
+///
+/// These bounds are then used to determine a success probability using the formula from
+/// *Optimally Reliable & Cheap Payment Flows on the Lightning Network* by Rene Pickhardt
+/// and Stefan Richter [[1]] (i.e. `(upper_bound - payment_amount) / (upper_bound - lower_bound)`).
+///
+/// This probability is combined with the [`liquidity_penalty_multiplier_msat`] and
+/// [`liquidity_penalty_amount_multiplier_msat`] parameters to calculate a concrete penalty in
+/// milli-satoshis. The penalties, when added across all hops, have the property of being linear in
+/// terms of the entire path's success probability. This allows the router to directly compare
+/// penalties for different paths. See the documentation of those parameters for the exact formulas.
///
-/// Knowledge about channel liquidity balances takes the form of upper and lower bounds on the
-/// possible liquidity. Certainty of the bounds is decreased over time using a decay function. See
-/// [`ProbabilisticScoringParameters`] for details.
+/// The liquidity bounds are decayed by halving them every [`liquidity_offset_half_life`].
///
-/// Since the scorer aims to learn the current channel liquidity balances, it works best for nodes
-/// with high payment volume or that actively probe the [`NetworkGraph`]. Nodes with low payment
-/// volume are more likely to experience failed payment paths, which would need to be retried.
+/// Further, we track the history of our upper and lower liquidity bounds for each channel,
+/// allowing us to assign a second penalty (using [`historical_liquidity_penalty_multiplier_msat`]
+/// and [`historical_liquidity_penalty_amount_multiplier_msat`]) based on the same probability
+/// formula, but using the history of a channel rather than our latest estimates for the liquidity
+/// bounds.
///
/// # Note
///
/// behavior.
///
/// [1]: https://arxiv.org/abs/2107.05322
+/// [`liquidity_penalty_multiplier_msat`]: ProbabilisticScoringParameters::liquidity_penalty_multiplier_msat
+/// [`liquidity_penalty_amount_multiplier_msat`]: ProbabilisticScoringParameters::liquidity_penalty_amount_multiplier_msat
+/// [`liquidity_offset_half_life`]: ProbabilisticScoringParameters::liquidity_offset_half_life
+/// [`historical_liquidity_penalty_multiplier_msat`]: ProbabilisticScoringParameters::historical_liquidity_penalty_multiplier_msat
+/// [`historical_liquidity_penalty_amount_multiplier_msat`]: ProbabilisticScoringParameters::historical_liquidity_penalty_amount_multiplier_msat
#[must_use]
#[repr(C)]
pub struct ProbabilisticScorer {
pub(crate) type nativeProbabilisticScoringParameters = nativeProbabilisticScoringParametersImport;
/// Parameters for configuring [`ProbabilisticScorer`].
+///
+/// Used to configure base, liquidity, and amount penalties, the sum of which comprises the channel
+/// penalty (i.e., the amount in msats willing to be paid to avoid routing through the channel).
+///
+/// The penalty applied to any channel by the [`ProbabilisticScorer`] is the sum of each of the
+/// parameters here.
#[must_use]
#[repr(C)]
pub struct ProbabilisticScoringParameters {
ret
}
}
-/// A multiplier used to determine the amount in msats willing to be paid to avoid routing
-/// through a channel, as per multiplying by the negative `log10` of the channel's success
-/// probability for a payment.
+/// A fixed penalty in msats to apply to each channel.
///
-/// The success probability is determined by the effective channel capacity, the payment amount,
-/// and knowledge learned from prior successful and unsuccessful payments. The lower bound of
-/// the success probability is 0.01, effectively limiting the penalty to the range
-/// `0..=2*liquidity_penalty_multiplier_msat`. The knowledge learned is decayed over time based
-/// on [`liquidity_offset_half_life`].
+/// Default value: 500 msat
+#[no_mangle]
+pub extern "C" fn ProbabilisticScoringParameters_get_base_penalty_msat(this_ptr: &ProbabilisticScoringParameters) -> u64 {
+ let mut inner_val = &mut this_ptr.get_native_mut_ref().base_penalty_msat;
+ *inner_val
+}
+/// A fixed penalty in msats to apply to each channel.
///
-/// Default value: 10,000 msat
+/// Default value: 500 msat
+#[no_mangle]
+pub extern "C" fn ProbabilisticScoringParameters_set_base_penalty_msat(this_ptr: &mut ProbabilisticScoringParameters, mut val: u64) {
+ unsafe { &mut *ObjOps::untweak_ptr(this_ptr.inner) }.base_penalty_msat = val;
+}
+/// A multiplier used with the payment amount to calculate a fixed penalty applied to each
+/// channel, in excess of the [`base_penalty_msat`].
+///
+/// The purpose of the amount penalty is to avoid having fees dominate the channel cost (i.e.,
+/// fees plus penalty) for large payments. The penalty is computed as the product of this
+/// multiplier and `2^30`ths of the payment amount.
+///
+/// ie `base_penalty_amount_multiplier_msat * amount_msat / 2^30`
+///
+/// Default value: 8,192 msat
+///
+/// [`base_penalty_msat`]: Self::base_penalty_msat
+#[no_mangle]
+pub extern "C" fn ProbabilisticScoringParameters_get_base_penalty_amount_multiplier_msat(this_ptr: &ProbabilisticScoringParameters) -> u64 {
+ let mut inner_val = &mut this_ptr.get_native_mut_ref().base_penalty_amount_multiplier_msat;
+ *inner_val
+}
+/// A multiplier used with the payment amount to calculate a fixed penalty applied to each
+/// channel, in excess of the [`base_penalty_msat`].
+///
+/// The purpose of the amount penalty is to avoid having fees dominate the channel cost (i.e.,
+/// fees plus penalty) for large payments. The penalty is computed as the product of this
+/// multiplier and `2^30`ths of the payment amount.
+///
+/// ie `base_penalty_amount_multiplier_msat * amount_msat / 2^30`
+///
+/// Default value: 8,192 msat
+///
+/// [`base_penalty_msat`]: Self::base_penalty_msat
+#[no_mangle]
+pub extern "C" fn ProbabilisticScoringParameters_set_base_penalty_amount_multiplier_msat(this_ptr: &mut ProbabilisticScoringParameters, mut val: u64) {
+ unsafe { &mut *ObjOps::untweak_ptr(this_ptr.inner) }.base_penalty_amount_multiplier_msat = val;
+}
+/// A multiplier used in conjunction with the negative `log10` of the channel's success
+/// probability for a payment, as determined by our latest estimates of the channel's
+/// liquidity, to determine the liquidity penalty.
+///
+/// The penalty is based in part on the knowledge learned from prior successful and unsuccessful
+/// payments. This knowledge is decayed over time based on [`liquidity_offset_half_life`]. The
+/// penalty is effectively limited to `2 * liquidity_penalty_multiplier_msat` (corresponding to
+/// lower bounding the success probability to `0.01`) when the amount falls within the
+/// uncertainty bounds of the channel liquidity balance. Amounts above the upper bound will
+/// result in a `u64::max_value` penalty, however.
+///
+/// `-log10(success_probability) * liquidity_penalty_multiplier_msat`
+///
+/// Default value: 30,000 msat
///
/// [`liquidity_offset_half_life`]: Self::liquidity_offset_half_life
#[no_mangle]
let mut inner_val = &mut this_ptr.get_native_mut_ref().liquidity_penalty_multiplier_msat;
*inner_val
}
-/// A multiplier used to determine the amount in msats willing to be paid to avoid routing
-/// through a channel, as per multiplying by the negative `log10` of the channel's success
-/// probability for a payment.
+/// A multiplier used in conjunction with the negative `log10` of the channel's success
+/// probability for a payment, as determined by our latest estimates of the channel's
+/// liquidity, to determine the liquidity penalty.
///
-/// The success probability is determined by the effective channel capacity, the payment amount,
-/// and knowledge learned from prior successful and unsuccessful payments. The lower bound of
-/// the success probability is 0.01, effectively limiting the penalty to the range
-/// `0..=2*liquidity_penalty_multiplier_msat`. The knowledge learned is decayed over time based
-/// on [`liquidity_offset_half_life`].
+/// The penalty is based in part on the knowledge learned from prior successful and unsuccessful
+/// payments. This knowledge is decayed over time based on [`liquidity_offset_half_life`]. The
+/// penalty is effectively limited to `2 * liquidity_penalty_multiplier_msat` (corresponding to
+/// lower bounding the success probability to `0.01`) when the amount falls within the
+/// uncertainty bounds of the channel liquidity balance. Amounts above the upper bound will
+/// result in a `u64::max_value` penalty, however.
///
-/// Default value: 10,000 msat
+/// `-log10(success_probability) * liquidity_penalty_multiplier_msat`
+///
+/// Default value: 30,000 msat
///
/// [`liquidity_offset_half_life`]: Self::liquidity_offset_half_life
#[no_mangle]
pub extern "C" fn ProbabilisticScoringParameters_set_liquidity_penalty_multiplier_msat(this_ptr: &mut ProbabilisticScoringParameters, mut val: u64) {
unsafe { &mut *ObjOps::untweak_ptr(this_ptr.inner) }.liquidity_penalty_multiplier_msat = val;
}
-/// The time required to elapse before any knowledge learned about channel liquidity balances is
-/// cut in half.
+/// Whenever this amount of time elapses since the last update to a channel's liquidity bounds,
+/// the distance from the bounds to \"zero\" is cut in half. In other words, the lower-bound on
+/// the available liquidity is halved and the upper-bound moves half-way to the channel's total
+/// capacity.
///
-/// The bounds are defined in terms of offsets and are initially zero. Increasing the offsets
-/// gives tighter bounds on the channel liquidity balance. Thus, halving the offsets decreases
-/// the certainty of the channel liquidity balance.
+/// Because halving the liquidity bounds grows the uncertainty on the channel's liquidity,
+/// the penalty for an amount within the new bounds may change. See the [`ProbabilisticScorer`]
+/// struct documentation for more info on the way the liquidity bounds are used.
///
-/// Default value: 1 hour
+/// For example, if the channel's capacity is 1 million sats, and the current upper and lower
+/// liquidity bounds are 200,000 sats and 600,000 sats, after this amount of time the upper
+/// and lower liquidity bounds will be decayed to 100,000 and 800,000 sats.
+///
+/// Default value: 6 hours
///
/// # Note
///
let mut inner_val = &mut this_ptr.get_native_mut_ref().liquidity_offset_half_life;
inner_val.as_secs()
}
-/// The time required to elapse before any knowledge learned about channel liquidity balances is
-/// cut in half.
+/// Whenever this amount of time elapses since the last update to a channel's liquidity bounds,
+/// the distance from the bounds to \"zero\" is cut in half. In other words, the lower-bound on
+/// the available liquidity is halved and the upper-bound moves half-way to the channel's total
+/// capacity.
+///
+/// Because halving the liquidity bounds grows the uncertainty on the channel's liquidity,
+/// the penalty for an amount within the new bounds may change. See the [`ProbabilisticScorer`]
+/// struct documentation for more info on the way the liquidity bounds are used.
///
-/// The bounds are defined in terms of offsets and are initially zero. Increasing the offsets
-/// gives tighter bounds on the channel liquidity balance. Thus, halving the offsets decreases
-/// the certainty of the channel liquidity balance.
+/// For example, if the channel's capacity is 1 million sats, and the current upper and lower
+/// liquidity bounds are 200,000 sats and 600,000 sats, after this amount of time the upper
+/// and lower liquidity bounds will be decayed to 100,000 and 800,000 sats.
///
-/// Default value: 1 hour
+/// Default value: 6 hours
///
/// # Note
///
pub extern "C" fn ProbabilisticScoringParameters_set_liquidity_offset_half_life(this_ptr: &mut ProbabilisticScoringParameters, mut val: u64) {
unsafe { &mut *ObjOps::untweak_ptr(this_ptr.inner) }.liquidity_offset_half_life = core::time::Duration::from_secs(val);
}
-/// Constructs a new ProbabilisticScoringParameters given each field
-#[must_use]
+/// A multiplier used in conjunction with a payment amount and the negative `log10` of the
+/// channel's success probability for the payment, as determined by our latest estimates of the
+/// channel's liquidity, to determine the amount penalty.
+///
+/// The purpose of the amount penalty is to avoid having fees dominate the channel cost (i.e.,
+/// fees plus penalty) for large payments. The penalty is computed as the product of this
+/// multiplier and `2^20`ths of the payment amount, weighted by the negative `log10` of the
+/// success probability.
+///
+/// `-log10(success_probability) * liquidity_penalty_amount_multiplier_msat * amount_msat / 2^20`
+///
+/// In practice, this means for 0.1 success probability (`-log10(0.1) == 1`) each `2^20`th of
+/// the amount will result in a penalty of the multiplier. And, as the success probability
+/// decreases, the negative `log10` weighting will increase dramatically. For higher success
+/// probabilities, the multiplier will have a decreasing effect as the negative `log10` will
+/// fall below `1`.
+///
+/// Default value: 192 msat
#[no_mangle]
-pub extern "C" fn ProbabilisticScoringParameters_new(mut liquidity_penalty_multiplier_msat_arg: u64, mut liquidity_offset_half_life_arg: u64) -> ProbabilisticScoringParameters {
- ProbabilisticScoringParameters { inner: ObjOps::heap_alloc(nativeProbabilisticScoringParameters {
- liquidity_penalty_multiplier_msat: liquidity_penalty_multiplier_msat_arg,
- liquidity_offset_half_life: core::time::Duration::from_secs(liquidity_offset_half_life_arg),
- }), is_owned: true }
+pub extern "C" fn ProbabilisticScoringParameters_get_liquidity_penalty_amount_multiplier_msat(this_ptr: &ProbabilisticScoringParameters) -> u64 {
+ let mut inner_val = &mut this_ptr.get_native_mut_ref().liquidity_penalty_amount_multiplier_msat;
+ *inner_val
+}
+/// A multiplier used in conjunction with a payment amount and the negative `log10` of the
+/// channel's success probability for the payment, as determined by our latest estimates of the
+/// channel's liquidity, to determine the amount penalty.
+///
+/// The purpose of the amount penalty is to avoid having fees dominate the channel cost (i.e.,
+/// fees plus penalty) for large payments. The penalty is computed as the product of this
+/// multiplier and `2^20`ths of the payment amount, weighted by the negative `log10` of the
+/// success probability.
+///
+/// `-log10(success_probability) * liquidity_penalty_amount_multiplier_msat * amount_msat / 2^20`
+///
+/// In practice, this means for 0.1 success probability (`-log10(0.1) == 1`) each `2^20`th of
+/// the amount will result in a penalty of the multiplier. And, as the success probability
+/// decreases, the negative `log10` weighting will increase dramatically. For higher success
+/// probabilities, the multiplier will have a decreasing effect as the negative `log10` will
+/// fall below `1`.
+///
+/// Default value: 192 msat
+#[no_mangle]
+pub extern "C" fn ProbabilisticScoringParameters_set_liquidity_penalty_amount_multiplier_msat(this_ptr: &mut ProbabilisticScoringParameters, mut val: u64) {
+ unsafe { &mut *ObjOps::untweak_ptr(this_ptr.inner) }.liquidity_penalty_amount_multiplier_msat = val;
+}
+/// A multiplier used in conjunction with the negative `log10` of the channel's success
+/// probability for the payment, as determined based on the history of our estimates of the
+/// channel's available liquidity, to determine a penalty.
+///
+/// This penalty is similar to [`liquidity_penalty_multiplier_msat`], however, instead of using
+/// only our latest estimate for the current liquidity available in the channel, it estimates
+/// success probability based on the estimated liquidity available in the channel through
+/// history. Specifically, every time we update our liquidity bounds on a given channel, we
+/// track which of several buckets those bounds fall into, exponentially decaying the
+/// probability of each bucket as new samples are added.
+///
+/// Default value: 10,000 msat
+///
+/// [`liquidity_penalty_multiplier_msat`]: Self::liquidity_penalty_multiplier_msat
+#[no_mangle]
+pub extern "C" fn ProbabilisticScoringParameters_get_historical_liquidity_penalty_multiplier_msat(this_ptr: &ProbabilisticScoringParameters) -> u64 {
+ let mut inner_val = &mut this_ptr.get_native_mut_ref().historical_liquidity_penalty_multiplier_msat;
+ *inner_val
+}
+/// A multiplier used in conjunction with the negative `log10` of the channel's success
+/// probability for the payment, as determined based on the history of our estimates of the
+/// channel's available liquidity, to determine a penalty.
+///
+/// This penalty is similar to [`liquidity_penalty_multiplier_msat`], however, instead of using
+/// only our latest estimate for the current liquidity available in the channel, it estimates
+/// success probability based on the estimated liquidity available in the channel through
+/// history. Specifically, every time we update our liquidity bounds on a given channel, we
+/// track which of several buckets those bounds fall into, exponentially decaying the
+/// probability of each bucket as new samples are added.
+///
+/// Default value: 10,000 msat
+///
+/// [`liquidity_penalty_multiplier_msat`]: Self::liquidity_penalty_multiplier_msat
+#[no_mangle]
+pub extern "C" fn ProbabilisticScoringParameters_set_historical_liquidity_penalty_multiplier_msat(this_ptr: &mut ProbabilisticScoringParameters, mut val: u64) {
+ unsafe { &mut *ObjOps::untweak_ptr(this_ptr.inner) }.historical_liquidity_penalty_multiplier_msat = val;
+}
+/// A multiplier used in conjunction with the payment amount and the negative `log10` of the
+/// channel's success probability for the payment, as determined based on the history of our
+/// estimates of the channel's available liquidity, to determine a penalty.
+///
+/// The purpose of the amount penalty is to avoid having fees dominate the channel cost for
+/// large payments. The penalty is computed as the product of this multiplier and the `2^20`ths
+/// of the payment amount, weighted by the negative `log10` of the success probability.
+///
+/// This penalty is similar to [`liquidity_penalty_amount_multiplier_msat`], however, instead
+/// of using only our latest estimate for the current liquidity available in the channel, it
+/// estimates success probability based on the estimated liquidity available in the channel
+/// through history. Specifically, every time we update our liquidity bounds on a given
+/// channel, we track which of several buckets those bounds fall into, exponentially decaying
+/// the probability of each bucket as new samples are added.
+///
+/// Default value: 64 msat
+///
+/// [`liquidity_penalty_amount_multiplier_msat`]: Self::liquidity_penalty_amount_multiplier_msat
+#[no_mangle]
+pub extern "C" fn ProbabilisticScoringParameters_get_historical_liquidity_penalty_amount_multiplier_msat(this_ptr: &ProbabilisticScoringParameters) -> u64 {
+ let mut inner_val = &mut this_ptr.get_native_mut_ref().historical_liquidity_penalty_amount_multiplier_msat;
+ *inner_val
+}
+/// A multiplier used in conjunction with the payment amount and the negative `log10` of the
+/// channel's success probability for the payment, as determined based on the history of our
+/// estimates of the channel's available liquidity, to determine a penalty.
+///
+/// The purpose of the amount penalty is to avoid having fees dominate the channel cost for
+/// large payments. The penalty is computed as the product of this multiplier and the `2^20`ths
+/// of the payment amount, weighted by the negative `log10` of the success probability.
+///
+/// This penalty is similar to [`liquidity_penalty_amount_multiplier_msat`], however, instead
+/// of using only our latest estimate for the current liquidity available in the channel, it
+/// estimates success probability based on the estimated liquidity available in the channel
+/// through history. Specifically, every time we update our liquidity bounds on a given
+/// channel, we track which of several buckets those bounds fall into, exponentially decaying
+/// the probability of each bucket as new samples are added.
+///
+/// Default value: 64 msat
+///
+/// [`liquidity_penalty_amount_multiplier_msat`]: Self::liquidity_penalty_amount_multiplier_msat
+#[no_mangle]
+pub extern "C" fn ProbabilisticScoringParameters_set_historical_liquidity_penalty_amount_multiplier_msat(this_ptr: &mut ProbabilisticScoringParameters, mut val: u64) {
+ unsafe { &mut *ObjOps::untweak_ptr(this_ptr.inner) }.historical_liquidity_penalty_amount_multiplier_msat = val;
+}
+/// If we aren't learning any new datapoints for a channel, the historical liquidity bounds
+/// tracking can simply live on with increasingly stale data. Instead, when a channel has not
+/// seen a liquidity estimate update for this amount of time, the historical datapoints are
+/// decayed by half.
+///
+/// Note that after 16 or more half lives all historical data will be completely gone.
+///
+/// Default value: 14 days
+#[no_mangle]
+pub extern "C" fn ProbabilisticScoringParameters_get_historical_no_updates_half_life(this_ptr: &ProbabilisticScoringParameters) -> u64 {
+ let mut inner_val = &mut this_ptr.get_native_mut_ref().historical_no_updates_half_life;
+ inner_val.as_secs()
+}
+/// If we aren't learning any new datapoints for a channel, the historical liquidity bounds
+/// tracking can simply live on with increasingly stale data. Instead, when a channel has not
+/// seen a liquidity estimate update for this amount of time, the historical datapoints are
+/// decayed by half.
+///
+/// Note that after 16 or more half lives all historical data will be completely gone.
+///
+/// Default value: 14 days
+#[no_mangle]
+pub extern "C" fn ProbabilisticScoringParameters_set_historical_no_updates_half_life(this_ptr: &mut ProbabilisticScoringParameters, mut val: u64) {
+ unsafe { &mut *ObjOps::untweak_ptr(this_ptr.inner) }.historical_no_updates_half_life = core::time::Duration::from_secs(val);
+}
+/// This penalty is applied when `htlc_maximum_msat` is equal to or larger than half of the
+/// channel's capacity, which makes us prefer nodes with a smaller `htlc_maximum_msat`. We
+/// treat such nodes preferentially as this makes balance discovery attacks harder to execute,
+/// thereby creating an incentive to restrict `htlc_maximum_msat` and improve privacy.
+///
+/// Default value: 250 msat
+#[no_mangle]
+pub extern "C" fn ProbabilisticScoringParameters_get_anti_probing_penalty_msat(this_ptr: &ProbabilisticScoringParameters) -> u64 {
+ let mut inner_val = &mut this_ptr.get_native_mut_ref().anti_probing_penalty_msat;
+ *inner_val
+}
+/// This penalty is applied when `htlc_maximum_msat` is equal to or larger than half of the
+/// channel's capacity, which makes us prefer nodes with a smaller `htlc_maximum_msat`. We
+/// treat such nodes preferentially as this makes balance discovery attacks harder to execute,
+/// thereby creating an incentive to restrict `htlc_maximum_msat` and improve privacy.
+///
+/// Default value: 250 msat
+#[no_mangle]
+pub extern "C" fn ProbabilisticScoringParameters_set_anti_probing_penalty_msat(this_ptr: &mut ProbabilisticScoringParameters, mut val: u64) {
+ unsafe { &mut *ObjOps::untweak_ptr(this_ptr.inner) }.anti_probing_penalty_msat = val;
+}
+/// This penalty is applied when the amount we're attempting to send over a channel exceeds our
+/// current estimate of the channel's available liquidity.
+///
+/// Note that in this case all other penalties, including the
+/// [`liquidity_penalty_multiplier_msat`] and [`liquidity_penalty_amount_multiplier_msat`]-based
+/// penalties, as well as the [`base_penalty_msat`] and the [`anti_probing_penalty_msat`], if
+/// applicable, are still included in the overall penalty.
+///
+/// If you wish to avoid creating paths with such channels entirely, setting this to a value of
+/// `u64::max_value()` will guarantee that.
+///
+/// Default value: 1_0000_0000_000 msat (1 Bitcoin)
+///
+/// [`liquidity_penalty_multiplier_msat`]: Self::liquidity_penalty_multiplier_msat
+/// [`liquidity_penalty_amount_multiplier_msat`]: Self::liquidity_penalty_amount_multiplier_msat
+/// [`base_penalty_msat`]: Self::base_penalty_msat
+/// [`anti_probing_penalty_msat`]: Self::anti_probing_penalty_msat
+#[no_mangle]
+pub extern "C" fn ProbabilisticScoringParameters_get_considered_impossible_penalty_msat(this_ptr: &ProbabilisticScoringParameters) -> u64 {
+ let mut inner_val = &mut this_ptr.get_native_mut_ref().considered_impossible_penalty_msat;
+ *inner_val
+}
+/// This penalty is applied when the amount we're attempting to send over a channel exceeds our
+/// current estimate of the channel's available liquidity.
+///
+/// Note that in this case all other penalties, including the
+/// [`liquidity_penalty_multiplier_msat`] and [`liquidity_penalty_amount_multiplier_msat`]-based
+/// penalties, as well as the [`base_penalty_msat`] and the [`anti_probing_penalty_msat`], if
+/// applicable, are still included in the overall penalty.
+///
+/// If you wish to avoid creating paths with such channels entirely, setting this to a value of
+/// `u64::max_value()` will guarantee that.
+///
+/// Default value: 1_0000_0000_000 msat (1 Bitcoin)
+///
+/// [`liquidity_penalty_multiplier_msat`]: Self::liquidity_penalty_multiplier_msat
+/// [`liquidity_penalty_amount_multiplier_msat`]: Self::liquidity_penalty_amount_multiplier_msat
+/// [`base_penalty_msat`]: Self::base_penalty_msat
+/// [`anti_probing_penalty_msat`]: Self::anti_probing_penalty_msat
+#[no_mangle]
+pub extern "C" fn ProbabilisticScoringParameters_set_considered_impossible_penalty_msat(this_ptr: &mut ProbabilisticScoringParameters, mut val: u64) {
+ unsafe { &mut *ObjOps::untweak_ptr(this_ptr.inner) }.considered_impossible_penalty_msat = val;
}
impl Clone for ProbabilisticScoringParameters {
fn clone(&self) -> Self {
pub extern "C" fn ProbabilisticScoringParameters_clone(orig: &ProbabilisticScoringParameters) -> ProbabilisticScoringParameters {
orig.clone()
}
+/// Creates a new scorer using the given scoring parameters for sending payments from a node
+/// through a network graph.
+#[must_use]
#[no_mangle]
-/// Serialize the ProbabilisticScoringParameters object into a byte array which can be read by ProbabilisticScoringParameters_read
-pub extern "C" fn ProbabilisticScoringParameters_write(obj: &ProbabilisticScoringParameters) -> crate::c_types::derived::CVec_u8Z {
- crate::c_types::serialize_obj(unsafe { &*obj }.get_native_ref())
+pub extern "C" fn ProbabilisticScorer_new(mut params: crate::lightning::routing::scoring::ProbabilisticScoringParameters, network_graph: &crate::lightning::routing::gossip::NetworkGraph, mut logger: crate::lightning::util::logger::Logger) -> crate::lightning::routing::scoring::ProbabilisticScorer {
+ let mut ret = lightning::routing::scoring::ProbabilisticScorer::new(*unsafe { Box::from_raw(params.take_inner()) }, network_graph.get_native_ref(), logger);
+ crate::lightning::routing::scoring::ProbabilisticScorer { inner: ObjOps::heap_alloc(ret), is_owned: true }
}
+
+/// Dump the contents of this scorer into the configured logger.
+///
+/// Note that this writes roughly one line per channel for which we have a liquidity estimate,
+/// which may be a substantial amount of log output.
#[no_mangle]
-pub(crate) extern "C" fn ProbabilisticScoringParameters_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z {
- crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeProbabilisticScoringParameters) })
+pub extern "C" fn ProbabilisticScorer_debug_log_liquidity_stats(this_arg: &crate::lightning::routing::scoring::ProbabilisticScorer) {
+ unsafe { &*ObjOps::untweak_ptr(this_arg.inner) }.debug_log_liquidity_stats()
}
+
+/// Query the estimated minimum and maximum liquidity available for sending a payment over the
+/// channel with `scid` towards the given `target` node.
+#[must_use]
#[no_mangle]
-/// Read a ProbabilisticScoringParameters from a byte array, created by ProbabilisticScoringParameters_write
-pub extern "C" fn ProbabilisticScoringParameters_read(ser: crate::c_types::u8slice) -> crate::c_types::derived::CResult_ProbabilisticScoringParametersDecodeErrorZ {
- let res: Result<lightning::routing::scoring::ProbabilisticScoringParameters, lightning::ln::msgs::DecodeError> = crate::c_types::deserialize_obj(ser);
- let mut local_res = match res { Ok(mut o) => crate::c_types::CResultTempl::ok( { crate::lightning::routing::scoring::ProbabilisticScoringParameters { inner: ObjOps::heap_alloc(o), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::lightning::ln::msgs::DecodeError { inner: ObjOps::heap_alloc(e), is_owned: true } }).into() };
- local_res
+pub extern "C" fn ProbabilisticScorer_estimated_channel_liquidity_range(this_arg: &crate::lightning::routing::scoring::ProbabilisticScorer, mut scid: u64, target: &crate::lightning::routing::gossip::NodeId) -> crate::c_types::derived::COption_C2Tuple_u64u64ZZ {
+ let mut ret = unsafe { &*ObjOps::untweak_ptr(this_arg.inner) }.estimated_channel_liquidity_range(scid, target.get_native_ref());
+ let mut local_ret = if ret.is_none() { crate::c_types::derived::COption_C2Tuple_u64u64ZZ::None } else { crate::c_types::derived::COption_C2Tuple_u64u64ZZ::Some( { let (mut orig_ret_0_0, mut orig_ret_0_1) = (ret.unwrap()); let mut local_ret_0 = (orig_ret_0_0, orig_ret_0_1).into(); local_ret_0 }) };
+ local_ret
}
-/// Creates a new scorer using the given scoring parameters for sending payments from a node
-/// through a network graph.
-#[must_use]
+
+/// Marks the node with the given `node_id` as banned, i.e.,
+/// it will be avoided during path finding.
+#[no_mangle]
+pub extern "C" fn ProbabilisticScorer_add_banned(this_arg: &mut crate::lightning::routing::scoring::ProbabilisticScorer, node_id: &crate::lightning::routing::gossip::NodeId) {
+ unsafe { &mut (*ObjOps::untweak_ptr(this_arg.inner as *mut crate::lightning::routing::scoring::nativeProbabilisticScorer)) }.add_banned(node_id.get_native_ref())
+}
+
+/// Removes the node with the given `node_id` from the list of nodes to avoid.
+#[no_mangle]
+pub extern "C" fn ProbabilisticScorer_remove_banned(this_arg: &mut crate::lightning::routing::scoring::ProbabilisticScorer, node_id: &crate::lightning::routing::gossip::NodeId) {
+ unsafe { &mut (*ObjOps::untweak_ptr(this_arg.inner as *mut crate::lightning::routing::scoring::nativeProbabilisticScorer)) }.remove_banned(node_id.get_native_ref())
+}
+
+/// Sets a manual penalty for the given node.
+#[no_mangle]
+pub extern "C" fn ProbabilisticScorer_set_manual_penalty(this_arg: &mut crate::lightning::routing::scoring::ProbabilisticScorer, node_id: &crate::lightning::routing::gossip::NodeId, mut penalty: u64) {
+ unsafe { &mut (*ObjOps::untweak_ptr(this_arg.inner as *mut crate::lightning::routing::scoring::nativeProbabilisticScorer)) }.set_manual_penalty(node_id.get_native_ref(), penalty)
+}
+
+/// Removes the node with the given `node_id` from the list of manual penalties.
+#[no_mangle]
+pub extern "C" fn ProbabilisticScorer_remove_manual_penalty(this_arg: &mut crate::lightning::routing::scoring::ProbabilisticScorer, node_id: &crate::lightning::routing::gossip::NodeId) {
+ unsafe { &mut (*ObjOps::untweak_ptr(this_arg.inner as *mut crate::lightning::routing::scoring::nativeProbabilisticScorer)) }.remove_manual_penalty(node_id.get_native_ref())
+}
+
+/// Clears the list of manual penalties that are applied during path finding.
+#[no_mangle]
+pub extern "C" fn ProbabilisticScorer_clear_manual_penalties(this_arg: &mut crate::lightning::routing::scoring::ProbabilisticScorer) {
+ unsafe { &mut (*ObjOps::untweak_ptr(this_arg.inner as *mut crate::lightning::routing::scoring::nativeProbabilisticScorer)) }.clear_manual_penalties()
+}
+
+/// Marks all nodes in the given list as banned, i.e.,
+/// they will be avoided during path finding.
#[no_mangle]
-pub extern "C" fn ProbabilisticScorer_new(mut params: crate::lightning::routing::scoring::ProbabilisticScoringParameters, network_graph: &crate::lightning::routing::network_graph::NetworkGraph) -> ProbabilisticScorer {
- let mut ret = lightning::routing::scoring::ProbabilisticScorer::new(*unsafe { Box::from_raw(params.take_inner()) }, network_graph.get_native_ref());
- ProbabilisticScorer { inner: ObjOps::heap_alloc(ret), is_owned: true }
+pub extern "C" fn ProbabilisticScoringParameters_add_banned_from_list(this_arg: &mut crate::lightning::routing::scoring::ProbabilisticScoringParameters, mut node_ids: crate::c_types::derived::CVec_NodeIdZ) {
+ let mut local_node_ids = Vec::new(); for mut item in node_ids.into_rust().drain(..) { local_node_ids.push( { *unsafe { Box::from_raw(item.take_inner()) } }); };
+ unsafe { &mut (*ObjOps::untweak_ptr(this_arg.inner as *mut crate::lightning::routing::scoring::nativeProbabilisticScoringParameters)) }.add_banned_from_list(local_node_ids)
}
/// Creates a "default" ProbabilisticScoringParameters. See struct and individual field documentaiton for details on which values are used.
channel_penalty_msat: ProbabilisticScorer_Score_channel_penalty_msat,
payment_path_failed: ProbabilisticScorer_Score_payment_path_failed,
payment_path_successful: ProbabilisticScorer_Score_payment_path_successful,
+ probe_failed: ProbabilisticScorer_Score_probe_failed,
+ probe_successful: ProbabilisticScorer_Score_probe_successful,
write: ProbabilisticScorer_write_void,
}
}
#[must_use]
-extern "C" fn ProbabilisticScorer_Score_channel_penalty_msat(this_arg: *const c_void, mut short_channel_id: u64, mut amount_msat: u64, mut capacity_msat: u64, source: &crate::lightning::routing::network_graph::NodeId, target: &crate::lightning::routing::network_graph::NodeId) -> u64 {
- let mut ret = <nativeProbabilisticScorer as lightning::routing::scoring::Score<>>::channel_penalty_msat(unsafe { &mut *(this_arg as *mut nativeProbabilisticScorer) }, short_channel_id, amount_msat, capacity_msat, source.get_native_ref(), target.get_native_ref());
+extern "C" fn ProbabilisticScorer_Score_channel_penalty_msat(this_arg: *const c_void, mut short_channel_id: u64, source: &crate::lightning::routing::gossip::NodeId, target: &crate::lightning::routing::gossip::NodeId, mut usage: crate::lightning::routing::scoring::ChannelUsage) -> u64 {
+ let mut ret = <nativeProbabilisticScorer as lightning::routing::scoring::Score<>>::channel_penalty_msat(unsafe { &mut *(this_arg as *mut nativeProbabilisticScorer) }, short_channel_id, source.get_native_ref(), target.get_native_ref(), *unsafe { Box::from_raw(usage.take_inner()) });
ret
}
extern "C" fn ProbabilisticScorer_Score_payment_path_failed(this_arg: *mut c_void, mut path: crate::c_types::derived::CVec_RouteHopZ, mut short_channel_id: u64) {
let mut local_path = Vec::new(); for mut item in path.as_slice().iter() { local_path.push( { item.get_native_ref() }); };
<nativeProbabilisticScorer as lightning::routing::scoring::Score<>>::payment_path_successful(unsafe { &mut *(this_arg as *mut nativeProbabilisticScorer) }, &local_path[..])
}
+extern "C" fn ProbabilisticScorer_Score_probe_failed(this_arg: *mut c_void, mut path: crate::c_types::derived::CVec_RouteHopZ, mut short_channel_id: u64) {
+ let mut local_path = Vec::new(); for mut item in path.as_slice().iter() { local_path.push( { item.get_native_ref() }); };
+ <nativeProbabilisticScorer as lightning::routing::scoring::Score<>>::probe_failed(unsafe { &mut *(this_arg as *mut nativeProbabilisticScorer) }, &local_path[..], short_channel_id)
+}
+extern "C" fn ProbabilisticScorer_Score_probe_successful(this_arg: *mut c_void, mut path: crate::c_types::derived::CVec_RouteHopZ) {
+ let mut local_path = Vec::new(); for mut item in path.as_slice().iter() { local_path.push( { item.get_native_ref() }); };
+ <nativeProbabilisticScorer as lightning::routing::scoring::Score<>>::probe_successful(unsafe { &mut *(this_arg as *mut nativeProbabilisticScorer) }, &local_path[..])
+}
+
+mod approx {
+
+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};
+}
#[no_mangle]
/// Serialize the ProbabilisticScorer object into a byte array which can be read by ProbabilisticScorer_read
-pub extern "C" fn ProbabilisticScorer_write(obj: &ProbabilisticScorer) -> crate::c_types::derived::CVec_u8Z {
+pub extern "C" fn ProbabilisticScorer_write(obj: &crate::lightning::routing::scoring::ProbabilisticScorer) -> crate::c_types::derived::CVec_u8Z {
crate::c_types::serialize_obj(unsafe { &*obj }.get_native_ref())
}
#[no_mangle]
}
#[no_mangle]
/// Read a ProbabilisticScorer from a byte array, created by ProbabilisticScorer_write
-pub extern "C" fn ProbabilisticScorer_read(ser: crate::c_types::u8slice, arg: crate::c_types::derived::C2Tuple_ProbabilisticScoringParametersNetworkGraphZ) -> crate::c_types::derived::CResult_ProbabilisticScorerDecodeErrorZ {
- let (mut orig_arg_0, mut orig_arg_1) = arg.to_rust(); let mut local_arg = (*unsafe { Box::from_raw(orig_arg_0.take_inner()) }, orig_arg_1.get_native_ref());
- let arg_conv = local_arg;
- let res: Result<lightning::routing::scoring::ProbabilisticScorer<&lightning::routing::network_graph::NetworkGraph>, 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( { crate::lightning::routing::scoring::ProbabilisticScorer { inner: ObjOps::heap_alloc(o), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::lightning::ln::msgs::DecodeError { inner: ObjOps::heap_alloc(e), is_owned: true } }).into() };
+pub extern "C" fn ProbabilisticScorer_read(ser: crate::c_types::u8slice, arg_a: crate::lightning::routing::scoring::ProbabilisticScoringParameters, arg_b: &crate::lightning::routing::gossip::NetworkGraph, arg_c: crate::lightning::util::logger::Logger) -> crate::c_types::derived::CResult_ProbabilisticScorerDecodeErrorZ {
+ let arg_a_conv = *unsafe { Box::from_raw(arg_a.take_inner()) };
+ let arg_b_conv = arg_b.get_native_ref();
+ let arg_c_conv = arg_c;
+ let arg_conv = (arg_a_conv, arg_b_conv, arg_c_conv);
+ let res: Result<lightning::routing::scoring::ProbabilisticScorer<&lightning::routing::gossip::NetworkGraph<crate::lightning::util::logger::Logger>, crate::lightning::util::logger::Logger>, 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( { crate::lightning::routing::scoring::ProbabilisticScorer { inner: ObjOps::heap_alloc(o), is_owned: true } }).into(), Err(mut e) => crate::c_types::CResultTempl::err( { crate::lightning::ln::msgs::DecodeError::native_into(e) }).into() };
local_res
}
-mod time {
-
-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};
-
-}
projects / ldk-c-bindings / blobdiff