X-Git-Url: http://git.bitcoin.ninja/index.cgi?a=blobdiff_plain;f=lightning-c-bindings%2Fsrc%2Flightning%2Fchain%2Fmod.rs;h=fb9794fab8883aa76559703817abacb325f5c227;hb=a21177846ed75d66f68a1603f768410f07a65791;hp=bfed80c0bd2011057a772fd1850fb10f33b401cb;hpb=7428d63475aee8fa920405fd14eda47113337798;p=ldk-c-bindings diff --git a/lightning-c-bindings/src/lightning/chain/mod.rs b/lightning-c-bindings/src/lightning/chain/mod.rs index bfed80c..fb9794f 100644 --- a/lightning-c-bindings/src/lightning/chain/mod.rs +++ b/lightning-c-bindings/src/lightning/chain/mod.rs @@ -8,11 +8,13 @@ //! Structs and traits which allow other parts of rust-lightning to interact with the blockchain. -use std::str::FromStr; -use std::ffi::c_void; +use alloc::str::FromStr; +use core::ffi::c_void; use core::convert::Infallible; use bitcoin::hashes::Hash; use crate::c_types::*; +#[cfg(feature="no-std")] +use alloc::{vec::Vec, boxed::Box}; pub mod chaininterface; pub mod chainmonitor; @@ -21,25 +23,29 @@ pub mod transaction; pub mod keysinterface; mod onchaintx { -use std::str::FromStr; -use std::ffi::c_void; +use alloc::str::FromStr; +use core::ffi::c_void; use core::convert::Infallible; use bitcoin::hashes::Hash; use crate::c_types::*; +#[cfg(feature="no-std")] +use alloc::{vec::Vec, boxed::Box}; } mod package { -use std::str::FromStr; -use std::ffi::c_void; +use alloc::str::FromStr; +use core::ffi::c_void; use core::convert::Infallible; use bitcoin::hashes::Hash; use crate::c_types::*; +#[cfg(feature="no-std")] +use alloc::{vec::Vec, boxed::Box}; } use lightning::chain::BestBlock as nativeBestBlockImport; -type nativeBestBlock = nativeBestBlockImport; +pub(crate) type nativeBestBlock = nativeBestBlockImport; /// The best known block as identified by its hash and height. #[must_use] @@ -69,7 +75,7 @@ impl Drop for BestBlock { pub extern "C" fn BestBlock_free(this_obj: BestBlock) { } #[allow(unused)] /// Used only if an object of this type is returned as a trait impl by a method -extern "C" fn BestBlock_free_void(this_ptr: *mut c_void) { +pub(crate) extern "C" fn BestBlock_free_void(this_ptr: *mut c_void) { unsafe { let _ = Box::from_raw(this_ptr as *mut nativeBestBlock); } } #[allow(unused)] @@ -84,14 +90,14 @@ impl BestBlock { pub(crate) fn take_inner(mut self) -> *mut nativeBestBlock { assert!(self.is_owned); let ret = ObjOps::untweak_ptr(self.inner); - self.inner = std::ptr::null_mut(); + self.inner = core::ptr::null_mut(); ret } } impl Clone for BestBlock { fn clone(&self) -> Self { Self { - inner: if <*mut nativeBestBlock>::is_null(self.inner) { std::ptr::null_mut() } else { + inner: if <*mut nativeBestBlock>::is_null(self.inner) { core::ptr::null_mut() } else { ObjOps::heap_alloc(unsafe { &*ObjOps::untweak_ptr(self.inner) }.clone()) }, is_owned: true, } @@ -107,27 +113,36 @@ pub(crate) extern "C" fn BestBlock_clone_void(this_ptr: *const c_void) -> *mut c pub extern "C" fn BestBlock_clone(orig: &BestBlock) -> BestBlock { orig.clone() } +/// Checks if two BestBlocks contain equal inner contents. +/// This ignores pointers and is_owned flags and looks at the values in fields. +/// Two objects with NULL inner values will be considered "equal" here. +#[no_mangle] +pub extern "C" fn BestBlock_eq(a: &BestBlock, b: &BestBlock) -> bool { + if a.inner == b.inner { return true; } + if a.inner.is_null() || b.inner.is_null() { return false; } + if a.get_native_ref() == b.get_native_ref() { true } else { false } +} /// Constructs a `BestBlock` that represents the genesis block at height 0 of the given /// network. #[must_use] #[no_mangle] -pub extern "C" fn BestBlock_from_genesis(mut network: crate::bitcoin::network::Network) -> BestBlock { +pub extern "C" fn BestBlock_from_genesis(mut network: crate::bitcoin::network::Network) -> crate::lightning::chain::BestBlock { let mut ret = lightning::chain::BestBlock::from_genesis(network.into_bitcoin()); - BestBlock { inner: ObjOps::heap_alloc(ret), is_owned: true } + crate::lightning::chain::BestBlock { inner: ObjOps::heap_alloc(ret), is_owned: true } } /// Returns a `BestBlock` as identified by the given block hash and height. #[must_use] #[no_mangle] -pub extern "C" fn BestBlock_new(mut block_hash: crate::c_types::ThirtyTwoBytes, mut height: u32) -> BestBlock { +pub extern "C" fn BestBlock_new(mut block_hash: crate::c_types::ThirtyTwoBytes, mut height: u32) -> crate::lightning::chain::BestBlock { let mut ret = lightning::chain::BestBlock::new(::bitcoin::hash_types::BlockHash::from_slice(&block_hash.data[..]).unwrap(), height); - BestBlock { inner: ObjOps::heap_alloc(ret), is_owned: true } + crate::lightning::chain::BestBlock { inner: ObjOps::heap_alloc(ret), is_owned: true } } /// Returns the best block hash. #[must_use] #[no_mangle] -pub extern "C" fn BestBlock_block_hash(this_arg: &BestBlock) -> crate::c_types::ThirtyTwoBytes { +pub extern "C" fn BestBlock_block_hash(this_arg: &crate::lightning::chain::BestBlock) -> crate::c_types::ThirtyTwoBytes { let mut ret = unsafe { &*ObjOps::untweak_ptr(this_arg.inner) }.block_hash(); crate::c_types::ThirtyTwoBytes { data: ret.into_inner() } } @@ -135,14 +150,14 @@ pub extern "C" fn BestBlock_block_hash(this_arg: &BestBlock) -> crate::c_types:: /// Returns the best block height. #[must_use] #[no_mangle] -pub extern "C" fn BestBlock_height(this_arg: &BestBlock) -> u32 { +pub extern "C" fn BestBlock_height(this_arg: &crate::lightning::chain::BestBlock) -> u32 { let mut ret = unsafe { &*ObjOps::untweak_ptr(this_arg.inner) }.height(); ret } /// An error when accessing the chain via [`Access`]. -#[must_use] #[derive(Clone)] +#[must_use] #[repr(C)] pub enum AccessError { /// The requested chain is unknown. @@ -150,7 +165,9 @@ pub enum AccessError { /// The requested transaction doesn't exist or hasn't confirmed. UnknownTx, } -use lightning::chain::AccessError as nativeAccessError; +use lightning::chain::AccessError as AccessErrorImport; +pub(crate) type nativeAccessError = AccessErrorImport; + impl AccessError { #[allow(unused)] pub(crate) fn to_native(&self) -> nativeAccessError { @@ -205,7 +222,7 @@ pub struct Access { /// Returns an error if `genesis_hash` is for a different chain or if such a transaction output /// is unknown. /// - /// [`short_channel_id`]: https://github.com/lightningnetwork/lightning-rfc/blob/master/07-routing-gossip.md#definition-of-short_channel_id + /// [`short_channel_id`]: https://github.com/lightning/bolts/blob/master/07-routing-gossip.md#definition-of-short_channel_id #[must_use] pub get_utxo: extern "C" fn (this_arg: *const c_void, genesis_hash: *const [u8; 32], short_channel_id: u64) -> crate::c_types::derived::CResult_TxOutAccessErrorZ, /// Frees any resources associated with this object given its this_arg pointer. @@ -234,7 +251,7 @@ impl rustAccess for Access { // We're essentially a pointer already, or at least a set of pointers, so allow us to be used // directly as a Deref trait in higher-level structs: -impl std::ops::Deref for Access { +impl core::ops::Deref for Access { type Target = Self; fn deref(&self) -> &Self { self @@ -257,11 +274,18 @@ impl Drop for Access { /// sourcing chain data using a block-oriented API should prefer this interface over [`Confirm`]. /// Such clients fetch the entire header chain whereas clients using [`Confirm`] only fetch headers /// when needed. +/// +/// By using [`Listen::filtered_block_connected`] this interface supports clients fetching the +/// entire header chain and only blocks with matching transaction data using BIP 157 filters or +/// other similar filtering. #[repr(C)] pub struct Listen { /// An opaque pointer which is passed to your function implementations as an argument. /// This has no meaning in the LDK, and can be NULL or any other value. pub this_arg: *mut c_void, + /// Notifies the listener that a block was added at the given height, with the transaction data + /// possibly filtered. + pub filtered_block_connected: extern "C" fn (this_arg: *const c_void, header: *const [u8; 80], txdata: crate::c_types::derived::CVec_C2Tuple_usizeTransactionZZ, height: u32), /// Notifies the listener that a block was added at the given height. pub block_connected: extern "C" fn (this_arg: *const c_void, block: crate::c_types::u8slice, height: u32), /// Notifies the listener that a block was removed at the given height. @@ -276,6 +300,7 @@ unsafe impl Sync for Listen {} pub(crate) extern "C" fn Listen_clone_fields(orig: &Listen) -> Listen { Listen { this_arg: orig.this_arg, + filtered_block_connected: Clone::clone(&orig.filtered_block_connected), block_connected: Clone::clone(&orig.block_connected), block_disconnected: Clone::clone(&orig.block_disconnected), free: Clone::clone(&orig.free), @@ -284,6 +309,11 @@ pub(crate) extern "C" fn Listen_clone_fields(orig: &Listen) -> Listen { use lightning::chain::Listen as rustListen; impl rustListen for Listen { + fn filtered_block_connected(&self, mut header: &bitcoin::blockdata::block::BlockHeader, mut txdata: &lightning::chain::transaction::TransactionData, mut height: u32) { + let mut local_header = { let mut s = [0u8; 80]; s[..].copy_from_slice(&::bitcoin::consensus::encode::serialize(header)); s }; + let mut local_txdata = Vec::new(); for item in txdata.iter() { local_txdata.push( { let (mut orig_txdata_0_0, mut orig_txdata_0_1) = item; let mut local_txdata_0 = (orig_txdata_0_0, crate::c_types::Transaction::from_bitcoin(&orig_txdata_0_1)).into(); local_txdata_0 }); }; + (self.filtered_block_connected)(self.this_arg, &local_header, local_txdata.into(), height) + } fn block_connected(&self, mut block: &bitcoin::blockdata::block::Block, mut height: u32) { let mut local_block = ::bitcoin::consensus::encode::serialize(block); (self.block_connected)(self.this_arg, crate::c_types::u8slice::from_slice(&local_block), height) @@ -296,7 +326,7 @@ impl rustListen for Listen { // We're essentially a pointer already, or at least a set of pointers, so allow us to be used // directly as a Deref trait in higher-level structs: -impl std::ops::Deref for Listen { +impl core::ops::Deref for Listen { type Target = Self; fn deref(&self) -> &Self { self @@ -360,14 +390,14 @@ pub struct Confirm { /// in the event of a chain reorganization, it must not be called with a `header` that is no /// longer in the chain as of the last call to [`best_block_updated`]. /// - /// [chain order]: Confirm#Order + /// [chain order]: Confirm#order /// [`best_block_updated`]: Self::best_block_updated pub transactions_confirmed: extern "C" fn (this_arg: *const c_void, header: *const [u8; 80], txdata: crate::c_types::derived::CVec_C2Tuple_usizeTransactionZZ, height: u32), /// Processes a transaction that is no longer confirmed as result of a chain reorganization. /// /// Should be called for any transaction returned by [`get_relevant_txids`] if it has been - /// reorganized out of the best chain. Once called, the given transaction should not be returned - /// by [`get_relevant_txids`] unless it has been reconfirmed via [`transactions_confirmed`]. + /// reorganized out of the best chain. Once called, the given transaction will not be returned + /// by [`get_relevant_txids`], unless it has been reconfirmed via [`transactions_confirmed`]. /// /// [`get_relevant_txids`]: Self::get_relevant_txids /// [`transactions_confirmed`]: Self::transactions_confirmed @@ -379,9 +409,9 @@ pub struct Confirm { pub best_block_updated: extern "C" fn (this_arg: *const c_void, header: *const [u8; 80], height: u32), /// Returns transactions that should be monitored for reorganization out of the chain. /// - /// Should include any transactions passed to [`transactions_confirmed`] that have insufficient - /// confirmations to be safe from a chain reorganization. Should not include any transactions - /// passed to [`transaction_unconfirmed`] unless later reconfirmed. + /// Will include any transactions passed to [`transactions_confirmed`] that have insufficient + /// confirmations to be safe from a chain reorganization. Will not include any transactions + /// passed to [`transaction_unconfirmed`], unless later reconfirmed. /// /// May be called to determine the subset of transactions that must still be monitored for /// reorganization. Will be idempotent between calls but may change as a result of calls to the @@ -433,7 +463,7 @@ impl rustConfirm for Confirm { // We're essentially a pointer already, or at least a set of pointers, so allow us to be used // directly as a Deref trait in higher-level structs: -impl std::ops::Deref for Confirm { +impl core::ops::Deref for Confirm { type Target = Self; fn deref(&self) -> &Self { self @@ -449,112 +479,145 @@ impl Drop for Confirm { } } } -/// An error enum representing a failure to persist a channel monitor update. -#[must_use] +/// An enum representing the status of a channel monitor update persistence. #[derive(Clone)] +#[must_use] #[repr(C)] -pub enum ChannelMonitorUpdateErr { +pub enum ChannelMonitorUpdateStatus { + /// The update has been durably persisted and all copies of the relevant [`ChannelMonitor`] + /// have been updated. + /// + /// This includes performing any `fsync()` calls required to ensure the update is guaranteed to + /// be available on restart even if the application crashes. + Completed, /// Used to indicate a temporary failure (eg connection to a watchtower or remote backup of /// our state failed, but is expected to succeed at some point in the future). /// /// Such a failure will \"freeze\" a channel, preventing us from revoking old states or /// submitting new commitment transactions to the counterparty. Once the update(s) which failed - /// have been successfully applied, ChannelManager::channel_monitor_updated can be used to - /// restore the channel to an operational state. - /// - /// Note that a given ChannelManager will *never* re-generate a given ChannelMonitorUpdate. If - /// you return a TemporaryFailure you must ensure that it is written to disk safely before - /// writing out the latest ChannelManager state. - /// - /// Even when a channel has been \"frozen\" updates to the ChannelMonitor can continue to occur - /// (eg if an inbound HTLC which we forwarded was claimed upstream resulting in us attempting - /// to claim it on this channel) and those updates must be applied wherever they can be. At - /// least one such updated ChannelMonitor must be persisted otherwise PermanentFailure should - /// be returned to get things on-chain ASAP using only the in-memory copy. Obviously updates to - /// the channel which would invalidate previous ChannelMonitors are not made when a channel has - /// been \"frozen\". - /// - /// Note that even if updates made after TemporaryFailure succeed you must still call - /// channel_monitor_updated to ensure you have the latest monitor and re-enable normal channel - /// operation. - /// - /// Note that the update being processed here will not be replayed for you when you call - /// ChannelManager::channel_monitor_updated, so you must store the update itself along - /// with the persisted ChannelMonitor on your own local disk prior to returning a - /// TemporaryFailure. You may, of course, employ a journaling approach, storing only the - /// ChannelMonitorUpdate on disk without updating the monitor itself, replaying the journal at - /// reload-time. + /// have been successfully applied, a [`MonitorEvent::Completed`] can be used to restore the + /// channel to an operational state. + /// + /// Note that a given [`ChannelManager`] will *never* re-generate a [`ChannelMonitorUpdate`]. + /// If you return this error you must ensure that it is written to disk safely before writing + /// the latest [`ChannelManager`] state, or you should return [`PermanentFailure`] instead. + /// + /// Even when a channel has been \"frozen\", updates to the [`ChannelMonitor`] can continue to + /// occur (e.g. if an inbound HTLC which we forwarded was claimed upstream, resulting in us + /// attempting to claim it on this channel) and those updates must still be persisted. + /// + /// No updates to the channel will be made which could invalidate other [`ChannelMonitor`]s + /// until a [`MonitorEvent::Completed`] is provided, even if you return no error on a later + /// monitor update for the same channel. /// /// For deployments where a copy of ChannelMonitors and other local state are backed up in a /// remote location (with local copies persisted immediately), it is anticipated that all - /// updates will return TemporaryFailure until the remote copies could be updated. - TemporaryFailure, - /// Used to indicate no further channel monitor updates will be allowed (eg we've moved on to a - /// different watchtower and cannot update with all watchtowers that were previously informed - /// of this channel). + /// updates will return [`InProgress`] until the remote copies could be updated. + /// + /// [`PermanentFailure`]: ChannelMonitorUpdateStatus::PermanentFailure + /// [`InProgress`]: ChannelMonitorUpdateStatus::InProgress + /// [`ChannelManager`]: crate::ln::channelmanager::ChannelManager + InProgress, + /// Used to indicate no further channel monitor updates will be allowed (likely a disk failure + /// or a remote copy of this [`ChannelMonitor`] is no longer reachable and thus not updatable). + /// + /// When this is returned, [`ChannelManager`] will force-close the channel but *not* broadcast + /// our current commitment transaction. This avoids a dangerous case where a local disk failure + /// (e.g. the Linux-default remounting of the disk as read-only) causes [`PermanentFailure`]s + /// for all monitor updates. If we were to broadcast our latest commitment transaction and then + /// restart, we could end up reading a previous [`ChannelMonitor`] and [`ChannelManager`], + /// revoking our now-broadcasted state before seeing it confirm and losing all our funds. /// - /// At reception of this error, ChannelManager will force-close the channel and return at - /// least a final ChannelMonitorUpdate::ChannelForceClosed which must be delivered to at - /// least one ChannelMonitor copy. Revocation secret MUST NOT be released and offchain channel - /// update must be rejected. + /// Note that this is somewhat of a tradeoff - if the disk is really gone and we may have lost + /// the data permanently, we really should broadcast immediately. If the data can be recovered + /// with manual intervention, we'd rather close the channel, rejecting future updates to it, + /// and broadcast the latest state only if we have HTLCs to claim which are timing out (which + /// we do as long as blocks are connected). /// - /// This failure may also signal a failure to update the local persisted copy of one of - /// the channel monitor instance. + /// In order to broadcast the latest local commitment transaction, you'll need to call + /// [`ChannelMonitor::get_latest_holder_commitment_txn`] and broadcast the resulting + /// transactions once you've safely ensured no further channel updates can be generated by your + /// [`ChannelManager`]. /// - /// Note that even when you fail a holder commitment transaction update, you must store the - /// update to ensure you can claim from it in case of a duplicate copy of this ChannelMonitor - /// broadcasts it (e.g distributed channel-monitor deployment) + /// Note that at least one final [`ChannelMonitorUpdate`] may still be provided, which must + /// still be processed by a running [`ChannelMonitor`]. This final update will mark the + /// [`ChannelMonitor`] as finalized, ensuring no further updates (e.g. revocation of the latest + /// commitment transaction) are allowed. + /// + /// Note that even if you return a [`PermanentFailure`] due to unavailability of secondary + /// [`ChannelMonitor`] copies, you should still make an attempt to store the update where + /// possible to ensure you can claim HTLC outputs on the latest commitment transaction + /// broadcasted later. /// /// In case of distributed watchtowers deployment, the new version must be written to disk, as /// state may have been stored but rejected due to a block forcing a commitment broadcast. This /// storage is used to claim outputs of rejected state confirmed onchain by another watchtower, /// lagging behind on block processing. + /// + /// [`PermanentFailure`]: ChannelMonitorUpdateStatus::PermanentFailure + /// [`ChannelManager`]: crate::ln::channelmanager::ChannelManager PermanentFailure, } -use lightning::chain::ChannelMonitorUpdateErr as nativeChannelMonitorUpdateErr; -impl ChannelMonitorUpdateErr { +use lightning::chain::ChannelMonitorUpdateStatus as ChannelMonitorUpdateStatusImport; +pub(crate) type nativeChannelMonitorUpdateStatus = ChannelMonitorUpdateStatusImport; + +impl ChannelMonitorUpdateStatus { #[allow(unused)] - pub(crate) fn to_native(&self) -> nativeChannelMonitorUpdateErr { + pub(crate) fn to_native(&self) -> nativeChannelMonitorUpdateStatus { match self { - ChannelMonitorUpdateErr::TemporaryFailure => nativeChannelMonitorUpdateErr::TemporaryFailure, - ChannelMonitorUpdateErr::PermanentFailure => nativeChannelMonitorUpdateErr::PermanentFailure, + ChannelMonitorUpdateStatus::Completed => nativeChannelMonitorUpdateStatus::Completed, + ChannelMonitorUpdateStatus::InProgress => nativeChannelMonitorUpdateStatus::InProgress, + ChannelMonitorUpdateStatus::PermanentFailure => nativeChannelMonitorUpdateStatus::PermanentFailure, } } #[allow(unused)] - pub(crate) fn into_native(self) -> nativeChannelMonitorUpdateErr { + pub(crate) fn into_native(self) -> nativeChannelMonitorUpdateStatus { match self { - ChannelMonitorUpdateErr::TemporaryFailure => nativeChannelMonitorUpdateErr::TemporaryFailure, - ChannelMonitorUpdateErr::PermanentFailure => nativeChannelMonitorUpdateErr::PermanentFailure, + ChannelMonitorUpdateStatus::Completed => nativeChannelMonitorUpdateStatus::Completed, + ChannelMonitorUpdateStatus::InProgress => nativeChannelMonitorUpdateStatus::InProgress, + ChannelMonitorUpdateStatus::PermanentFailure => nativeChannelMonitorUpdateStatus::PermanentFailure, } } #[allow(unused)] - pub(crate) fn from_native(native: &nativeChannelMonitorUpdateErr) -> Self { + pub(crate) fn from_native(native: &nativeChannelMonitorUpdateStatus) -> Self { match native { - nativeChannelMonitorUpdateErr::TemporaryFailure => ChannelMonitorUpdateErr::TemporaryFailure, - nativeChannelMonitorUpdateErr::PermanentFailure => ChannelMonitorUpdateErr::PermanentFailure, + nativeChannelMonitorUpdateStatus::Completed => ChannelMonitorUpdateStatus::Completed, + nativeChannelMonitorUpdateStatus::InProgress => ChannelMonitorUpdateStatus::InProgress, + nativeChannelMonitorUpdateStatus::PermanentFailure => ChannelMonitorUpdateStatus::PermanentFailure, } } #[allow(unused)] - pub(crate) fn native_into(native: nativeChannelMonitorUpdateErr) -> Self { + pub(crate) fn native_into(native: nativeChannelMonitorUpdateStatus) -> Self { match native { - nativeChannelMonitorUpdateErr::TemporaryFailure => ChannelMonitorUpdateErr::TemporaryFailure, - nativeChannelMonitorUpdateErr::PermanentFailure => ChannelMonitorUpdateErr::PermanentFailure, + nativeChannelMonitorUpdateStatus::Completed => ChannelMonitorUpdateStatus::Completed, + nativeChannelMonitorUpdateStatus::InProgress => ChannelMonitorUpdateStatus::InProgress, + nativeChannelMonitorUpdateStatus::PermanentFailure => ChannelMonitorUpdateStatus::PermanentFailure, } } } -/// Creates a copy of the ChannelMonitorUpdateErr +/// Creates a copy of the ChannelMonitorUpdateStatus #[no_mangle] -pub extern "C" fn ChannelMonitorUpdateErr_clone(orig: &ChannelMonitorUpdateErr) -> ChannelMonitorUpdateErr { +pub extern "C" fn ChannelMonitorUpdateStatus_clone(orig: &ChannelMonitorUpdateStatus) -> ChannelMonitorUpdateStatus { orig.clone() } #[no_mangle] -/// Utility method to constructs a new TemporaryFailure-variant ChannelMonitorUpdateErr -pub extern "C" fn ChannelMonitorUpdateErr_temporary_failure() -> ChannelMonitorUpdateErr { - ChannelMonitorUpdateErr::TemporaryFailure} +/// Utility method to constructs a new Completed-variant ChannelMonitorUpdateStatus +pub extern "C" fn ChannelMonitorUpdateStatus_completed() -> ChannelMonitorUpdateStatus { + ChannelMonitorUpdateStatus::Completed} +#[no_mangle] +/// Utility method to constructs a new InProgress-variant ChannelMonitorUpdateStatus +pub extern "C" fn ChannelMonitorUpdateStatus_in_progress() -> ChannelMonitorUpdateStatus { + ChannelMonitorUpdateStatus::InProgress} #[no_mangle] -/// Utility method to constructs a new PermanentFailure-variant ChannelMonitorUpdateErr -pub extern "C" fn ChannelMonitorUpdateErr_permanent_failure() -> ChannelMonitorUpdateErr { - ChannelMonitorUpdateErr::PermanentFailure} +/// Utility method to constructs a new PermanentFailure-variant ChannelMonitorUpdateStatus +pub extern "C" fn ChannelMonitorUpdateStatus_permanent_failure() -> ChannelMonitorUpdateStatus { + ChannelMonitorUpdateStatus::PermanentFailure} +/// Checks if two ChannelMonitorUpdateStatuss contain equal inner contents. +/// This ignores pointers and is_owned flags and looks at the values in fields. +#[no_mangle] +pub extern "C" fn ChannelMonitorUpdateStatus_eq(a: &ChannelMonitorUpdateStatus, b: &ChannelMonitorUpdateStatus) -> bool { + if &a.to_native() == &b.to_native() { true } else { false } +} /// The `Watch` trait defines behavior for watching on-chain activity pertaining to channels as /// blocks are connected and disconnected. /// @@ -570,10 +633,10 @@ pub extern "C" fn ChannelMonitorUpdateErr_permanent_failure() -> ChannelMonitorU /// If an implementation maintains multiple instances of a channel's monitor (e.g., by storing /// backup copies), then it must ensure that updates are applied across all instances. Otherwise, it /// could result in a revoked transaction being broadcast, allowing the counterparty to claim all -/// funds in the channel. See [`ChannelMonitorUpdateErr`] for more details about how to handle +/// funds in the channel. See [`ChannelMonitorUpdateStatus`] for more details about how to handle /// multiple instances. /// -/// [`PermanentFailure`]: ChannelMonitorUpdateErr::PermanentFailure +/// [`PermanentFailure`]: ChannelMonitorUpdateStatus::PermanentFailure #[repr(C)] pub struct Watch { /// An opaque pointer which is passed to your function implementations as an argument. @@ -585,26 +648,33 @@ pub struct Watch { /// with any spends of outputs returned by [`get_outputs_to_watch`]. In practice, this means /// calling [`block_connected`] and [`block_disconnected`] on the monitor. /// - /// Note: this interface MUST error with `ChannelMonitorUpdateErr::PermanentFailure` if + /// Note: this interface MUST error with [`ChannelMonitorUpdateStatus::PermanentFailure`] if /// the given `funding_txo` has previously been registered via `watch_channel`. /// /// [`get_outputs_to_watch`]: channelmonitor::ChannelMonitor::get_outputs_to_watch /// [`block_connected`]: channelmonitor::ChannelMonitor::block_connected /// [`block_disconnected`]: channelmonitor::ChannelMonitor::block_disconnected #[must_use] - pub watch_channel: extern "C" fn (this_arg: *const c_void, funding_txo: crate::lightning::chain::transaction::OutPoint, monitor: crate::lightning::chain::channelmonitor::ChannelMonitor) -> crate::c_types::derived::CResult_NoneChannelMonitorUpdateErrZ, + pub watch_channel: extern "C" fn (this_arg: *const c_void, funding_txo: crate::lightning::chain::transaction::OutPoint, monitor: crate::lightning::chain::channelmonitor::ChannelMonitor) -> crate::lightning::chain::ChannelMonitorUpdateStatus, /// Updates a channel identified by `funding_txo` by applying `update` to its monitor. /// /// Implementations must call [`update_monitor`] with the given update. See - /// [`ChannelMonitorUpdateErr`] for invariants around returning an error. + /// [`ChannelMonitorUpdateStatus`] for invariants around returning an error. /// /// [`update_monitor`]: channelmonitor::ChannelMonitor::update_monitor #[must_use] - pub update_channel: extern "C" fn (this_arg: *const c_void, funding_txo: crate::lightning::chain::transaction::OutPoint, update: crate::lightning::chain::channelmonitor::ChannelMonitorUpdate) -> crate::c_types::derived::CResult_NoneChannelMonitorUpdateErrZ, + pub update_channel: extern "C" fn (this_arg: *const c_void, funding_txo: crate::lightning::chain::transaction::OutPoint, update: crate::lightning::chain::channelmonitor::ChannelMonitorUpdate) -> crate::lightning::chain::ChannelMonitorUpdateStatus, /// Returns any monitor events since the last call. Subsequent calls must only return new /// events. + /// + /// Note that after any block- or transaction-connection calls to a [`ChannelMonitor`], no + /// further events may be returned here until the [`ChannelMonitor`] has been fully persisted + /// to disk. + /// + /// For details on asynchronous [`ChannelMonitor`] updating and returning + /// [`MonitorEvent::Completed`] here, see [`ChannelMonitorUpdateStatus::InProgress`]. #[must_use] - pub release_pending_monitor_events: extern "C" fn (this_arg: *const c_void) -> crate::c_types::derived::CVec_MonitorEventZ, + pub release_pending_monitor_events: extern "C" fn (this_arg: *const c_void) -> crate::c_types::derived::CVec_C3Tuple_OutPointCVec_MonitorEventZPublicKeyZZ, /// Frees any resources associated with this object given its this_arg pointer. /// Does not need to free the outer struct containing function pointers and may be NULL is no resources need to be freed. pub free: Option, @@ -624,26 +694,24 @@ pub(crate) extern "C" fn Watch_clone_fields(orig: &Watch) -> Watch { use lightning::chain::Watch as rustWatch; impl rustWatch for Watch { - fn watch_channel(&self, mut funding_txo: lightning::chain::transaction::OutPoint, mut monitor: lightning::chain::channelmonitor::ChannelMonitor) -> Result<(), lightning::chain::ChannelMonitorUpdateErr> { + fn watch_channel(&self, mut funding_txo: lightning::chain::transaction::OutPoint, mut monitor: lightning::chain::channelmonitor::ChannelMonitor) -> lightning::chain::ChannelMonitorUpdateStatus { let mut ret = (self.watch_channel)(self.this_arg, crate::lightning::chain::transaction::OutPoint { inner: ObjOps::heap_alloc(funding_txo), is_owned: true }, crate::lightning::chain::channelmonitor::ChannelMonitor { inner: ObjOps::heap_alloc(monitor), is_owned: true }); - let mut local_ret = match ret.result_ok { true => Ok( { () /*(*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.result)) })*/ }), false => Err( { (*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.err)) }).into_native() })}; - local_ret + ret.into_native() } - fn update_channel(&self, mut funding_txo: lightning::chain::transaction::OutPoint, mut update: lightning::chain::channelmonitor::ChannelMonitorUpdate) -> Result<(), lightning::chain::ChannelMonitorUpdateErr> { + fn update_channel(&self, mut funding_txo: lightning::chain::transaction::OutPoint, mut update: lightning::chain::channelmonitor::ChannelMonitorUpdate) -> lightning::chain::ChannelMonitorUpdateStatus { let mut ret = (self.update_channel)(self.this_arg, crate::lightning::chain::transaction::OutPoint { inner: ObjOps::heap_alloc(funding_txo), is_owned: true }, crate::lightning::chain::channelmonitor::ChannelMonitorUpdate { inner: ObjOps::heap_alloc(update), is_owned: true }); - let mut local_ret = match ret.result_ok { true => Ok( { () /*(*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.result)) })*/ }), false => Err( { (*unsafe { Box::from_raw(<*mut _>::take_ptr(&mut ret.contents.err)) }).into_native() })}; - local_ret + ret.into_native() } - fn release_pending_monitor_events(&self) -> Vec { + fn release_pending_monitor_events(&self) -> Vec<(lightning::chain::transaction::OutPoint, Vec, Option)> { let mut ret = (self.release_pending_monitor_events)(self.this_arg); - let mut local_ret = Vec::new(); for mut item in ret.into_rust().drain(..) { local_ret.push( { item.into_native() }); }; + let mut local_ret = Vec::new(); for mut item in ret.into_rust().drain(..) { local_ret.push( { let (mut orig_ret_0_0, mut orig_ret_0_1, mut orig_ret_0_2) = item.to_rust(); let mut local_orig_ret_0_1 = Vec::new(); for mut item in orig_ret_0_1.into_rust().drain(..) { local_orig_ret_0_1.push( { item.into_native() }); }; let mut local_orig_ret_0_2 = if orig_ret_0_2.is_null() { None } else { Some( { orig_ret_0_2.into_rust() }) }; let mut local_ret_0 = (*unsafe { Box::from_raw(orig_ret_0_0.take_inner()) }, local_orig_ret_0_1, local_orig_ret_0_2); local_ret_0 }); }; local_ret } } // We're essentially a pointer already, or at least a set of pointers, so allow us to be used // directly as a Deref trait in higher-level structs: -impl std::ops::Deref for Watch { +impl core::ops::Deref for Watch { type Target = Self; fn deref(&self) -> &Self { self @@ -674,9 +742,9 @@ impl Drop for Watch { /// Note that use as part of a [`Watch`] implementation involves reentrancy. Therefore, the `Filter` /// should not block on I/O. Implementations should instead queue the newly monitored data to be /// processed later. Then, in order to block until the data has been processed, any [`Watch`] -/// invocation that has called the `Filter` must return [`TemporaryFailure`]. +/// invocation that has called the `Filter` must return [`InProgress`]. /// -/// [`TemporaryFailure`]: ChannelMonitorUpdateErr::TemporaryFailure +/// [`InProgress`]: ChannelMonitorUpdateStatus::InProgress /// [BIP 157]: https://github.com/bitcoin/bips/blob/master/bip-0157.mediawiki /// [BIP 158]: https://github.com/bitcoin/bips/blob/master/bip-0158.mediawiki #[repr(C)] @@ -689,15 +757,11 @@ pub struct Filter { pub register_tx: extern "C" fn (this_arg: *const c_void, txid: *const [u8; 32], script_pubkey: crate::c_types::u8slice), /// Registers interest in spends of a transaction output. /// - /// Optionally, when `output.block_hash` is set, should return any transaction spending the - /// output that is found in the corresponding block along with its index. - /// - /// This return value is useful for Electrum clients in order to supply in-block descendant - /// transactions which otherwise were not included. This is not necessary for other clients if - /// such descendant transactions were already included (e.g., when a BIP 157 client provides the - /// full block). - #[must_use] - pub register_output: extern "C" fn (this_arg: *const c_void, output: crate::lightning::chain::WatchedOutput) -> crate::c_types::derived::COption_C2Tuple_usizeTransactionZZ, + /// Note that this method might be called during processing of a new block. You therefore need + /// to ensure that also dependent output spents within an already connected block are correctly + /// handled, e.g., by re-scanning the block in question whenever new outputs have been + /// registered mid-processing. + pub register_output: extern "C" fn (this_arg: *const c_void, output: crate::lightning::chain::WatchedOutput), /// 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, @@ -719,16 +783,14 @@ impl rustFilter for Filter { fn register_tx(&self, mut txid: &bitcoin::hash_types::Txid, mut script_pubkey: &bitcoin::blockdata::script::Script) { (self.register_tx)(self.this_arg, txid.as_inner(), crate::c_types::u8slice::from_slice(&script_pubkey[..])) } - fn register_output(&self, mut output: lightning::chain::WatchedOutput) -> Option<(usize, bitcoin::blockdata::transaction::Transaction)> { - let mut ret = (self.register_output)(self.this_arg, crate::lightning::chain::WatchedOutput { inner: ObjOps::heap_alloc(output), is_owned: true }); - let mut local_ret = if ret.is_some() { Some( { let (mut orig_ret_0_0, mut orig_ret_0_1) = ret.take().to_rust(); let mut local_ret_0 = (orig_ret_0_0, orig_ret_0_1.into_bitcoin()); local_ret_0 }) } else { None }; - local_ret + fn register_output(&self, mut output: lightning::chain::WatchedOutput) { + (self.register_output)(self.this_arg, crate::lightning::chain::WatchedOutput { inner: ObjOps::heap_alloc(output), is_owned: true }) } } // We're essentially a pointer already, or at least a set of pointers, so allow us to be used // directly as a Deref trait in higher-level structs: -impl std::ops::Deref for Filter { +impl core::ops::Deref for Filter { type Target = Self; fn deref(&self) -> &Self { self @@ -746,13 +808,13 @@ impl Drop for Filter { } use lightning::chain::WatchedOutput as nativeWatchedOutputImport; -type nativeWatchedOutput = nativeWatchedOutputImport; +pub(crate) type nativeWatchedOutput = nativeWatchedOutputImport; /// A transaction output watched by a [`ChannelMonitor`] for spends on-chain. /// /// Used to convey to a [`Filter`] such an output with a given spending condition. Any transaction /// spending the output must be given to [`ChannelMonitor::block_connected`] either directly or via -/// the return value of [`Filter::register_output`]. +/// [`Confirm::transactions_confirmed`]. /// /// If `block_hash` is `Some`, this indicates the output was created in the corresponding block and /// may have been spent there. See [`Filter::register_output`] for details. @@ -786,7 +848,7 @@ impl Drop for WatchedOutput { pub extern "C" fn WatchedOutput_free(this_obj: WatchedOutput) { } #[allow(unused)] /// Used only if an object of this type is returned as a trait impl by a method -extern "C" fn WatchedOutput_free_void(this_ptr: *mut c_void) { +pub(crate) extern "C" fn WatchedOutput_free_void(this_ptr: *mut c_void) { unsafe { let _ = Box::from_raw(this_ptr as *mut nativeWatchedOutput); } } #[allow(unused)] @@ -801,7 +863,7 @@ impl WatchedOutput { pub(crate) fn take_inner(mut self) -> *mut nativeWatchedOutput { assert!(self.is_owned); let ret = ObjOps::untweak_ptr(self.inner); - self.inner = std::ptr::null_mut(); + self.inner = core::ptr::null_mut(); ret } } @@ -826,7 +888,7 @@ pub extern "C" fn WatchedOutput_set_block_hash(this_ptr: &mut WatchedOutput, mut #[no_mangle] pub extern "C" fn WatchedOutput_get_outpoint(this_ptr: &WatchedOutput) -> crate::lightning::chain::transaction::OutPoint { let mut inner_val = &mut this_ptr.get_native_mut_ref().outpoint; - crate::lightning::chain::transaction::OutPoint { inner: unsafe { ObjOps::nonnull_ptr_to_inner((inner_val as *const _) as *mut _) }, is_owned: false } + crate::lightning::chain::transaction::OutPoint { inner: unsafe { ObjOps::nonnull_ptr_to_inner((inner_val as *const lightning::chain::transaction::OutPoint<>) as *mut _) }, is_owned: false } } /// Outpoint identifying the transaction output. #[no_mangle] @@ -858,7 +920,7 @@ pub extern "C" fn WatchedOutput_new(mut block_hash_arg: crate::c_types::ThirtyTw impl Clone for WatchedOutput { fn clone(&self) -> Self { Self { - inner: if <*mut nativeWatchedOutput>::is_null(self.inner) { std::ptr::null_mut() } else { + inner: if <*mut nativeWatchedOutput>::is_null(self.inner) { core::ptr::null_mut() } else { ObjOps::heap_alloc(unsafe { &*ObjOps::untweak_ptr(self.inner) }.clone()) }, is_owned: true, } @@ -875,12 +937,21 @@ pub extern "C" fn WatchedOutput_clone(orig: &WatchedOutput) -> WatchedOutput { orig.clone() } /// Checks if two WatchedOutputs contain equal inner contents. +/// This ignores pointers and is_owned flags and looks at the values in fields. +/// Two objects with NULL inner values will be considered "equal" here. +#[no_mangle] +pub extern "C" fn WatchedOutput_eq(a: &WatchedOutput, b: &WatchedOutput) -> bool { + if a.inner == b.inner { return true; } + if a.inner.is_null() || b.inner.is_null() { return false; } + if a.get_native_ref() == b.get_native_ref() { true } else { false } +} +/// Checks if two WatchedOutputs contain equal inner contents. #[no_mangle] pub extern "C" fn WatchedOutput_hash(o: &WatchedOutput) -> u64 { if o.inner.is_null() { return 0; } - // Note that we'd love to use std::collections::hash_map::DefaultHasher but it's not in core + // Note that we'd love to use alloc::collections::hash_map::DefaultHasher but it's not in core #[allow(deprecated)] let mut hasher = core::hash::SipHasher::new(); - std::hash::Hash::hash(o.get_native_ref(), &mut hasher); - std::hash::Hasher::finish(&hasher) + core::hash::Hash::hash(o.get_native_ref(), &mut hasher); + core::hash::Hasher::finish(&hasher) }