use crate::ln::onion_utils;
use crate::ln::msgs::{ChannelMessageHandler, DecodeError, LightningError, MAX_VALUE_MSAT};
use crate::ln::wire::Encode;
-use crate::chain::keysinterface::{Sign, KeysInterface, KeysManager, InMemorySigner, Recipient};
+use crate::chain::keysinterface::{Sign, KeysInterface, KeysManager, Recipient};
use crate::util::config::{UserConfig, ChannelConfig};
use crate::util::events::{EventHandler, EventsProvider, MessageSendEvent, MessageSendEventsProvider, ClosureReason, HTLCDestination};
use crate::util::{byte_utils, events};
use core::{cmp, mem};
use core::cell::RefCell;
use crate::io::Read;
-use crate::sync::{Arc, Mutex, MutexGuard, RwLock, RwLockReadGuard};
+use crate::sync::{Arc, Mutex, MutexGuard, RwLock, RwLockReadGuard, FairRwLock};
use core::sync::atomic::{AtomicUsize, Ordering};
use core::time::Duration;
use core::ops::Deref;
// Note this is only exposed in cfg(test):
pub(super) struct ChannelHolder<Signer: Sign> {
pub(super) by_id: HashMap<[u8; 32], Channel<Signer>>,
- /// SCIDs (and outbound SCID aliases) -> `counterparty_node_id`s and `channel_id`s.
- ///
- /// Outbound SCID aliases are added here once the channel is available for normal use, with
- /// SCIDs being added once the funding transaction is confirmed at the channel's required
- /// confirmation depth.
- pub(super) short_to_chan_info: HashMap<u64, (PublicKey, [u8; 32])>,
/// Map from payment hash to the payment data and any HTLCs which are to us and can be
/// failed/claimed by the user.
///
/// concrete type of the KeysManager.
///
/// (C-not exported) as Arcs don't make sense in bindings
-pub type SimpleArcChannelManager<M, T, F, L> = ChannelManager<InMemorySigner, Arc<M>, Arc<T>, Arc<KeysManager>, Arc<F>, Arc<L>>;
+pub type SimpleArcChannelManager<M, T, F, L> = ChannelManager<Arc<M>, Arc<T>, Arc<KeysManager>, Arc<F>, Arc<L>>;
/// SimpleRefChannelManager is a type alias for a ChannelManager reference, and is the reference
/// counterpart to the SimpleArcChannelManager type alias. Use this type by default when you don't
/// concrete type of the KeysManager.
///
/// (C-not exported) as Arcs don't make sense in bindings
-pub type SimpleRefChannelManager<'a, 'b, 'c, 'd, 'e, M, T, F, L> = ChannelManager<InMemorySigner, &'a M, &'b T, &'c KeysManager, &'d F, &'e L>;
+pub type SimpleRefChannelManager<'a, 'b, 'c, 'd, 'e, M, T, F, L> = ChannelManager<&'a M, &'b T, &'c KeysManager, &'d F, &'e L>;
/// Manager which keeps track of a number of channels and sends messages to the appropriate
/// channel, also tracking HTLC preimages and forwarding onion packets appropriately.
// | |
// | |__`id_to_peer`
// | |
+// | |__`short_to_chan_info`
+// | |
// | |__`per_peer_state`
// | |
// | |__`outbound_scid_aliases`
// | |
// | |__`pending_background_events`
//
-pub struct ChannelManager<Signer: Sign, M: Deref, T: Deref, K: Deref, F: Deref, L: Deref>
- where M::Target: chain::Watch<Signer>,
+pub struct ChannelManager<M: Deref, T: Deref, K: Deref, F: Deref, L: Deref>
+ where M::Target: chain::Watch<<K::Target as KeysInterface>::Signer>,
T::Target: BroadcasterInterface,
- K::Target: KeysInterface<Signer = Signer>,
+ K::Target: KeysInterface,
F::Target: FeeEstimator,
L::Target: Logger,
{
/// See `ChannelManager` struct-level documentation for lock order requirements.
#[cfg(any(test, feature = "_test_utils"))]
- pub(super) channel_state: Mutex<ChannelHolder<Signer>>,
+ pub(super) channel_state: Mutex<ChannelHolder<<K::Target as KeysInterface>::Signer>>,
#[cfg(not(any(test, feature = "_test_utils")))]
- channel_state: Mutex<ChannelHolder<Signer>>,
+ channel_state: Mutex<ChannelHolder<<K::Target as KeysInterface>::Signer>>,
/// Storage for PaymentSecrets and any requirements on future inbound payments before we will
/// expose them to users via a PaymentReceived event. HTLCs which do not meet the requirements
/// See `ChannelManager` struct-level documentation for lock order requirements.
id_to_peer: Mutex<HashMap<[u8; 32], PublicKey>>,
+ /// SCIDs (and outbound SCID aliases) -> `counterparty_node_id`s and `channel_id`s.
+ ///
+ /// Outbound SCID aliases are added here once the channel is available for normal use, with
+ /// SCIDs being added once the funding transaction is confirmed at the channel's required
+ /// confirmation depth.
+ ///
+ /// Note that while this holds `counterparty_node_id`s and `channel_id`s, no consistency
+ /// guarantees are made about the existence of a peer with the `counterparty_node_id` nor a
+ /// channel with the `channel_id` in our other maps.
+ ///
+ /// See `ChannelManager` struct-level documentation for lock order requirements.
+ #[cfg(test)]
+ pub(super) short_to_chan_info: FairRwLock<HashMap<u64, (PublicKey, [u8; 32])>>,
+ #[cfg(not(test))]
+ short_to_chan_info: FairRwLock<HashMap<u64, (PublicKey, [u8; 32])>>,
+
our_network_key: SecretKey,
our_network_pubkey: PublicKey,
}
macro_rules! update_maps_on_chan_removal {
- ($self: expr, $short_to_chan_info: expr, $channel: expr) => {
+ ($self: expr, $channel: expr) => {{
+ $self.id_to_peer.lock().unwrap().remove(&$channel.channel_id());
+ let mut short_to_chan_info = $self.short_to_chan_info.write().unwrap();
if let Some(short_id) = $channel.get_short_channel_id() {
- $short_to_chan_info.remove(&short_id);
+ short_to_chan_info.remove(&short_id);
} else {
// If the channel was never confirmed on-chain prior to its closure, remove the
// outbound SCID alias we used for it from the collision-prevention set. While we
let alias_removed = $self.outbound_scid_aliases.lock().unwrap().remove(&$channel.outbound_scid_alias());
debug_assert!(alias_removed);
}
- $self.id_to_peer.lock().unwrap().remove(&$channel.channel_id());
- $short_to_chan_info.remove(&$channel.outbound_scid_alias());
- }
+ short_to_chan_info.remove(&$channel.outbound_scid_alias());
+ }}
}
/// Returns (boolean indicating if we should remove the Channel object from memory, a mapped error)
macro_rules! convert_chan_err {
- ($self: ident, $err: expr, $short_to_chan_info: expr, $channel: expr, $channel_id: expr) => {
+ ($self: ident, $err: expr, $channel: expr, $channel_id: expr) => {
match $err {
ChannelError::Warn(msg) => {
(false, MsgHandleErrInternal::from_chan_no_close(ChannelError::Warn(msg), $channel_id.clone()))
},
ChannelError::Close(msg) => {
log_error!($self.logger, "Closing channel {} due to close-required error: {}", log_bytes!($channel_id[..]), msg);
- update_maps_on_chan_removal!($self, $short_to_chan_info, $channel);
+ update_maps_on_chan_removal!($self, $channel);
let shutdown_res = $channel.force_shutdown(true);
(true, MsgHandleErrInternal::from_finish_shutdown(msg, *$channel_id, $channel.get_user_id(),
shutdown_res, $self.get_channel_update_for_broadcast(&$channel).ok()))
match $res {
Ok(res) => res,
Err(e) => {
- let (drop, res) = convert_chan_err!($self, e, $channel_state.short_to_chan_info, $entry.get_mut(), $entry.key());
+ let (drop, res) = convert_chan_err!($self, e, $entry.get_mut(), $entry.key());
if drop {
$entry.remove_entry();
}
match $res {
Ok(res) => res,
Err(e) => {
- let (drop, res) = convert_chan_err!($self, e, $channel_state.short_to_chan_info, $entry.get_mut(), $entry.key());
+ let (drop, res) = convert_chan_err!($self, e, $entry.get_mut(), $entry.key());
if drop {
$entry.remove_entry();
}
($self: expr, $channel_state: expr, $entry: expr) => {
{
let channel = $entry.remove_entry().1;
- update_maps_on_chan_removal!($self, $channel_state.short_to_chan_info, channel);
+ update_maps_on_chan_removal!($self, channel);
channel
}
}
}
macro_rules! handle_monitor_update_res {
- ($self: ident, $err: expr, $short_to_chan_info: expr, $chan: expr, $action_type: path, $resend_raa: expr, $resend_commitment: expr, $resend_channel_ready: expr, $failed_forwards: expr, $failed_fails: expr, $failed_finalized_fulfills: expr, $chan_id: expr) => {
+ ($self: ident, $err: expr, $chan: expr, $action_type: path, $resend_raa: expr, $resend_commitment: expr, $resend_channel_ready: expr, $failed_forwards: expr, $failed_fails: expr, $failed_finalized_fulfills: expr, $chan_id: expr) => {
match $err {
ChannelMonitorUpdateStatus::PermanentFailure => {
log_error!($self.logger, "Closing channel {} due to monitor update ChannelMonitorUpdateStatus::PermanentFailure", log_bytes!($chan_id[..]));
- update_maps_on_chan_removal!($self, $short_to_chan_info, $chan);
+ update_maps_on_chan_removal!($self, $chan);
// TODO: $failed_fails is dropped here, which will cause other channels to hit the
// chain in a confused state! We need to move them into the ChannelMonitor which
// will be responsible for failing backwards once things confirm on-chain.
},
}
};
- ($self: ident, $err: expr, $channel_state: expr, $entry: expr, $action_type: path, $resend_raa: expr, $resend_commitment: expr, $resend_channel_ready: expr, $failed_forwards: expr, $failed_fails: expr, $failed_finalized_fulfills: expr) => { {
- let (res, drop) = handle_monitor_update_res!($self, $err, $channel_state.short_to_chan_info, $entry.get_mut(), $action_type, $resend_raa, $resend_commitment, $resend_channel_ready, $failed_forwards, $failed_fails, $failed_finalized_fulfills, $entry.key());
+ ($self: ident, $err: expr, $entry: expr, $action_type: path, $resend_raa: expr, $resend_commitment: expr, $resend_channel_ready: expr, $failed_forwards: expr, $failed_fails: expr, $failed_finalized_fulfills: expr) => { {
+ let (res, drop) = handle_monitor_update_res!($self, $err, $entry.get_mut(), $action_type, $resend_raa, $resend_commitment, $resend_channel_ready, $failed_forwards, $failed_fails, $failed_finalized_fulfills, $entry.key());
if drop {
$entry.remove_entry();
}
res
} };
- ($self: ident, $err: expr, $channel_state: expr, $entry: expr, $action_type: path, $chan_id: expr, COMMITMENT_UPDATE_ONLY) => { {
+ ($self: ident, $err: expr, $entry: expr, $action_type: path, $chan_id: expr, COMMITMENT_UPDATE_ONLY) => { {
debug_assert!($action_type == RAACommitmentOrder::CommitmentFirst);
- handle_monitor_update_res!($self, $err, $channel_state, $entry, $action_type, false, true, false, Vec::new(), Vec::new(), Vec::new(), $chan_id)
+ handle_monitor_update_res!($self, $err, $entry, $action_type, false, true, false, Vec::new(), Vec::new(), Vec::new(), $chan_id)
} };
- ($self: ident, $err: expr, $channel_state: expr, $entry: expr, $action_type: path, $chan_id: expr, NO_UPDATE) => {
- handle_monitor_update_res!($self, $err, $channel_state, $entry, $action_type, false, false, false, Vec::new(), Vec::new(), Vec::new(), $chan_id)
+ ($self: ident, $err: expr, $entry: expr, $action_type: path, $chan_id: expr, NO_UPDATE) => {
+ handle_monitor_update_res!($self, $err, $entry, $action_type, false, false, false, Vec::new(), Vec::new(), Vec::new(), $chan_id)
};
- ($self: ident, $err: expr, $channel_state: expr, $entry: expr, $action_type: path, $resend_channel_ready: expr, OPTIONALLY_RESEND_FUNDING_LOCKED) => {
- handle_monitor_update_res!($self, $err, $channel_state, $entry, $action_type, false, false, $resend_channel_ready, Vec::new(), Vec::new(), Vec::new())
+ ($self: ident, $err: expr, $entry: expr, $action_type: path, $resend_channel_ready: expr, OPTIONALLY_RESEND_FUNDING_LOCKED) => {
+ handle_monitor_update_res!($self, $err, $entry, $action_type, false, false, $resend_channel_ready, Vec::new(), Vec::new(), Vec::new())
};
- ($self: ident, $err: expr, $channel_state: expr, $entry: expr, $action_type: path, $resend_raa: expr, $resend_commitment: expr) => {
- handle_monitor_update_res!($self, $err, $channel_state, $entry, $action_type, $resend_raa, $resend_commitment, false, Vec::new(), Vec::new(), Vec::new())
+ ($self: ident, $err: expr, $entry: expr, $action_type: path, $resend_raa: expr, $resend_commitment: expr) => {
+ handle_monitor_update_res!($self, $err, $entry, $action_type, $resend_raa, $resend_commitment, false, Vec::new(), Vec::new(), Vec::new())
};
- ($self: ident, $err: expr, $channel_state: expr, $entry: expr, $action_type: path, $resend_raa: expr, $resend_commitment: expr, $failed_forwards: expr, $failed_fails: expr) => {
- handle_monitor_update_res!($self, $err, $channel_state, $entry, $action_type, $resend_raa, $resend_commitment, false, $failed_forwards, $failed_fails, Vec::new())
+ ($self: ident, $err: expr, $entry: expr, $action_type: path, $resend_raa: expr, $resend_commitment: expr, $failed_forwards: expr, $failed_fails: expr) => {
+ handle_monitor_update_res!($self, $err, $entry, $action_type, $resend_raa, $resend_commitment, false, $failed_forwards, $failed_fails, Vec::new())
};
}
macro_rules! send_channel_ready {
- ($short_to_chan_info: expr, $pending_msg_events: expr, $channel: expr, $channel_ready_msg: expr) => {
+ ($self: ident, $pending_msg_events: expr, $channel: expr, $channel_ready_msg: expr) => {{
$pending_msg_events.push(events::MessageSendEvent::SendChannelReady {
node_id: $channel.get_counterparty_node_id(),
msg: $channel_ready_msg,
});
// Note that we may send a `channel_ready` multiple times for a channel if we reconnect, so
// we allow collisions, but we shouldn't ever be updating the channel ID pointed to.
- let outbound_alias_insert = $short_to_chan_info.insert($channel.outbound_scid_alias(), ($channel.get_counterparty_node_id(), $channel.channel_id()));
+ let mut short_to_chan_info = $self.short_to_chan_info.write().unwrap();
+ let outbound_alias_insert = short_to_chan_info.insert($channel.outbound_scid_alias(), ($channel.get_counterparty_node_id(), $channel.channel_id()));
assert!(outbound_alias_insert.is_none() || outbound_alias_insert.unwrap() == ($channel.get_counterparty_node_id(), $channel.channel_id()),
"SCIDs should never collide - ensure you weren't behind the chain tip by a full month when creating channels");
if let Some(real_scid) = $channel.get_short_channel_id() {
- let scid_insert = $short_to_chan_info.insert(real_scid, ($channel.get_counterparty_node_id(), $channel.channel_id()));
+ let scid_insert = short_to_chan_info.insert(real_scid, ($channel.get_counterparty_node_id(), $channel.channel_id()));
assert!(scid_insert.is_none() || scid_insert.unwrap() == ($channel.get_counterparty_node_id(), $channel.channel_id()),
"SCIDs should never collide - ensure you weren't behind the chain tip by a full month when creating channels");
}
+ }}
+}
+
+macro_rules! emit_channel_ready_event {
+ ($self: expr, $channel: expr) => {
+ if $channel.should_emit_channel_ready_event() {
+ {
+ let mut pending_events = $self.pending_events.lock().unwrap();
+ pending_events.push(events::Event::ChannelReady {
+ channel_id: $channel.channel_id(),
+ user_channel_id: $channel.get_user_id(),
+ counterparty_node_id: $channel.get_counterparty_node_id(),
+ channel_type: $channel.get_channel_type().clone(),
+ });
+ }
+ $channel.set_channel_ready_event_emitted();
+ }
}
}
// Similar to the above, this implies that we're letting the channel_ready fly
// before it should be allowed to.
assert!(chanmon_update.is_none());
- send_channel_ready!($channel_state.short_to_chan_info, $channel_state.pending_msg_events, $channel_entry.get(), msg);
+ send_channel_ready!($self, $channel_state.pending_msg_events, $channel_entry.get(), msg);
}
if let Some(msg) = $announcement_sigs {
$channel_state.pending_msg_events.push(events::MessageSendEvent::SendAnnouncementSignatures {
});
}
+ emit_channel_ready_event!($self, $channel_entry.get_mut());
+
let funding_broadcastable: Option<Transaction> = $funding_broadcastable; // Force type-checking to resolve
if let Some(monitor_update) = chanmon_update {
// We only ever broadcast a funding transaction in response to a funding_signed
if $raa.is_none() {
order = RAACommitmentOrder::CommitmentFirst;
}
- break handle_monitor_update_res!($self, e, $channel_state, $channel_entry, order, $raa.is_some(), true);
+ break handle_monitor_update_res!($self, e, $channel_entry, order, $raa.is_some(), true);
}
}
}
} }
}
-impl<Signer: Sign, M: Deref, T: Deref, K: Deref, F: Deref, L: Deref> ChannelManager<Signer, M, T, K, F, L>
- where M::Target: chain::Watch<Signer>,
+impl<M: Deref, T: Deref, K: Deref, F: Deref, L: Deref> ChannelManager<M, T, K, F, L>
+ where M::Target: chain::Watch<<K::Target as KeysInterface>::Signer>,
T::Target: BroadcasterInterface,
- K::Target: KeysInterface<Signer = Signer>,
+ K::Target: KeysInterface,
F::Target: FeeEstimator,
L::Target: Logger,
{
channel_state: Mutex::new(ChannelHolder{
by_id: HashMap::new(),
- short_to_chan_info: HashMap::new(),
claimable_htlcs: HashMap::new(),
pending_msg_events: Vec::new(),
}),
pending_outbound_payments: Mutex::new(HashMap::new()),
forward_htlcs: Mutex::new(HashMap::new()),
id_to_peer: Mutex::new(HashMap::new()),
+ short_to_chan_info: FairRwLock::new(HashMap::new()),
our_network_key: keys_manager.get_node_secret(Recipient::Node).unwrap(),
our_network_pubkey: PublicKey::from_secret_key(&secp_ctx, &keys_manager.get_node_secret(Recipient::Node).unwrap()),
Ok(temporary_channel_id)
}
- fn list_channels_with_filter<Fn: FnMut(&(&[u8; 32], &Channel<Signer>)) -> bool>(&self, f: Fn) -> Vec<ChannelDetails> {
+ fn list_channels_with_filter<Fn: FnMut(&(&[u8; 32], &Channel<<K::Target as KeysInterface>::Signer>)) -> bool>(&self, f: Fn) -> Vec<ChannelDetails> {
let mut res = Vec::new();
{
let channel_state = self.channel_state.lock().unwrap();
}
/// Helper function that issues the channel close events
- fn issue_channel_close_events(&self, channel: &Channel<Signer>, closure_reason: ClosureReason) {
+ fn issue_channel_close_events(&self, channel: &Channel<<K::Target as KeysInterface>::Signer>, closure_reason: ClosureReason) {
let mut pending_events_lock = self.pending_events.lock().unwrap();
match channel.unbroadcasted_funding() {
Some(transaction) => {
if let Some(monitor_update) = monitor_update {
let update_res = self.chain_monitor.update_channel(chan_entry.get().get_funding_txo().unwrap(), monitor_update);
let (result, is_permanent) =
- handle_monitor_update_res!(self, update_res, channel_state.short_to_chan_info, chan_entry.get_mut(), RAACommitmentOrder::CommitmentFirst, chan_entry.key(), NO_UPDATE);
+ handle_monitor_update_res!(self, update_res, chan_entry.get_mut(), RAACommitmentOrder::CommitmentFirst, chan_entry.key(), NO_UPDATE);
if is_permanent {
remove_channel!(self, channel_state, chan_entry);
break result;
// short_channel_id is non-0 in any ::Forward.
if let &PendingHTLCRouting::Forward { ref short_channel_id, .. } = routing {
if let Some((err, code, chan_update)) = loop {
+ let id_option = self.short_to_chan_info.read().unwrap().get(&short_channel_id).cloned();
let mut channel_state = self.channel_state.lock().unwrap();
- let id_option = channel_state.short_to_chan_info.get(&short_channel_id).cloned();
let forwarding_id_opt = match id_option {
None => { // unknown_next_peer
// Note that this is likely a timing oracle for detecting whether an scid is a
/// [`MessageSendEvent::BroadcastChannelUpdate`] event.
///
/// May be called with channel_state already locked!
- fn get_channel_update_for_broadcast(&self, chan: &Channel<Signer>) -> Result<msgs::ChannelUpdate, LightningError> {
+ fn get_channel_update_for_broadcast(&self, chan: &Channel<<K::Target as KeysInterface>::Signer>) -> Result<msgs::ChannelUpdate, LightningError> {
if !chan.should_announce() {
return Err(LightningError {
err: "Cannot broadcast a channel_update for a private channel".to_owned(),
/// and thus MUST NOT be called unless the recipient of the resulting message has already
/// provided evidence that they know about the existence of the channel.
/// May be called with channel_state already locked!
- fn get_channel_update_for_unicast(&self, chan: &Channel<Signer>) -> Result<msgs::ChannelUpdate, LightningError> {
+ fn get_channel_update_for_unicast(&self, chan: &Channel<<K::Target as KeysInterface>::Signer>) -> Result<msgs::ChannelUpdate, LightningError> {
log_trace!(self.logger, "Attempting to generate channel update for channel {}", log_bytes!(chan.channel_id()));
let short_channel_id = match chan.get_short_channel_id().or(chan.latest_inbound_scid_alias()) {
None => return Err(LightningError{err: "Channel not yet established".to_owned(), action: msgs::ErrorAction::IgnoreError}),
self.get_channel_update_for_onion(short_channel_id, chan)
}
- fn get_channel_update_for_onion(&self, short_channel_id: u64, chan: &Channel<Signer>) -> Result<msgs::ChannelUpdate, LightningError> {
+ fn get_channel_update_for_onion(&self, short_channel_id: u64, chan: &Channel<<K::Target as KeysInterface>::Signer>) -> Result<msgs::ChannelUpdate, LightningError> {
log_trace!(self.logger, "Generating channel update for channel {}", log_bytes!(chan.channel_id()));
let were_node_one = PublicKey::from_secret_key(&self.secp_ctx, &self.our_network_key).serialize()[..] < chan.get_counterparty_node_id().serialize()[..];
let _persistence_guard = PersistenceNotifierGuard::notify_on_drop(&self.total_consistency_lock, &self.persistence_notifier);
let err: Result<(), _> = loop {
- let mut channel_lock = self.channel_state.lock().unwrap();
-
- let id = match channel_lock.short_to_chan_info.get(&path.first().unwrap().short_channel_id) {
+ let id = match self.short_to_chan_info.read().unwrap().get(&path.first().unwrap().short_channel_id) {
None => return Err(APIError::ChannelUnavailable{err: "No channel available with first hop!".to_owned()}),
Some((_cp_id, chan_id)) => chan_id.clone(),
};
+ let mut channel_lock = self.channel_state.lock().unwrap();
let channel_state = &mut *channel_lock;
if let hash_map::Entry::Occupied(mut chan) = channel_state.by_id.entry(id) {
match {
let update_err = self.chain_monitor.update_channel(chan.get().get_funding_txo().unwrap(), monitor_update);
let chan_id = chan.get().channel_id();
match (update_err,
- handle_monitor_update_res!(self, update_err, channel_state, chan,
+ handle_monitor_update_res!(self, update_err, chan,
RAACommitmentOrder::CommitmentFirst, false, true))
{
(ChannelMonitorUpdateStatus::PermanentFailure, Err(e)) => break Err(e),
/// Handles the generation of a funding transaction, optionally (for tests) with a function
/// which checks the correctness of the funding transaction given the associated channel.
- fn funding_transaction_generated_intern<FundingOutput: Fn(&Channel<Signer>, &Transaction) -> Result<OutPoint, APIError>>(
+ fn funding_transaction_generated_intern<FundingOutput: Fn(&Channel<<K::Target as KeysInterface>::Signer>, &Transaction) -> Result<OutPoint, APIError>>(
&self, temporary_channel_id: &[u8; 32], _counterparty_node_id: &PublicKey, funding_transaction: Transaction, find_funding_output: FundingOutput
) -> Result<(), APIError> {
let (chan, msg) = {
let mut channel_state_lock = self.channel_state.lock().unwrap();
let channel_state = &mut *channel_state_lock;
if short_chan_id != 0 {
- let forward_chan_id = match channel_state.short_to_chan_info.get(&short_chan_id) {
+ let forward_chan_id = match self.short_to_chan_info.read().unwrap().get(&short_chan_id) {
Some((_cp_id, chan_id)) => chan_id.clone(),
None => {
for forward_info in pending_forwards.drain(..) {
match self.chain_monitor.update_channel(chan.get().get_funding_txo().unwrap(), monitor_update) {
ChannelMonitorUpdateStatus::Completed => {},
e => {
- handle_errors.push((chan.get().get_counterparty_node_id(), handle_monitor_update_res!(self, e, channel_state, chan, RAACommitmentOrder::CommitmentFirst, false, true)));
+ handle_errors.push((chan.get().get_counterparty_node_id(), handle_monitor_update_res!(self, e, chan, RAACommitmentOrder::CommitmentFirst, false, true)));
continue;
}
}
self.process_background_events();
}
- fn update_channel_fee(&self, short_to_chan_info: &mut HashMap<u64, (PublicKey, [u8; 32])>, pending_msg_events: &mut Vec<events::MessageSendEvent>, chan_id: &[u8; 32], chan: &mut Channel<Signer>, new_feerate: u32) -> (bool, NotifyOption, Result<(), MsgHandleErrInternal>) {
+ fn update_channel_fee(&self, pending_msg_events: &mut Vec<events::MessageSendEvent>, chan_id: &[u8; 32], chan: &mut Channel<<K::Target as KeysInterface>::Signer>, new_feerate: u32) -> (bool, NotifyOption, Result<(), MsgHandleErrInternal>) {
if !chan.is_outbound() { return (true, NotifyOption::SkipPersist, Ok(())); }
// If the feerate has decreased by less than half, don't bother
if new_feerate <= chan.get_feerate() && new_feerate * 2 > chan.get_feerate() {
let res = match chan.send_update_fee_and_commit(new_feerate, &self.logger) {
Ok(res) => Ok(res),
Err(e) => {
- let (drop, res) = convert_chan_err!(self, e, short_to_chan_info, chan, chan_id);
+ let (drop, res) = convert_chan_err!(self, e, chan, chan_id);
if drop { retain_channel = false; }
Err(res)
}
Ok(())
},
e => {
- let (res, drop) = handle_monitor_update_res!(self, e, short_to_chan_info, chan, RAACommitmentOrder::CommitmentFirst, chan_id, COMMITMENT_UPDATE_ONLY);
+ let (res, drop) = handle_monitor_update_res!(self, e, chan, RAACommitmentOrder::CommitmentFirst, chan_id, COMMITMENT_UPDATE_ONLY);
if drop { retain_channel = false; }
res
}
let mut channel_state_lock = self.channel_state.lock().unwrap();
let channel_state = &mut *channel_state_lock;
let pending_msg_events = &mut channel_state.pending_msg_events;
- let short_to_chan_info = &mut channel_state.short_to_chan_info;
channel_state.by_id.retain(|chan_id, chan| {
- let (retain_channel, chan_needs_persist, err) = self.update_channel_fee(short_to_chan_info, pending_msg_events, chan_id, chan, new_feerate);
+ let (retain_channel, chan_needs_persist, err) = self.update_channel_fee(pending_msg_events, chan_id, chan, new_feerate);
if chan_needs_persist == NotifyOption::DoPersist { should_persist = NotifyOption::DoPersist; }
if err.is_err() {
handle_errors.push(err);
let mut channel_state_lock = self.channel_state.lock().unwrap();
let channel_state = &mut *channel_state_lock;
let pending_msg_events = &mut channel_state.pending_msg_events;
- let short_to_chan_info = &mut channel_state.short_to_chan_info;
channel_state.by_id.retain(|chan_id, chan| {
let counterparty_node_id = chan.get_counterparty_node_id();
- let (retain_channel, chan_needs_persist, err) = self.update_channel_fee(short_to_chan_info, pending_msg_events, chan_id, chan, new_feerate);
+ let (retain_channel, chan_needs_persist, err) = self.update_channel_fee(pending_msg_events, chan_id, chan, new_feerate);
if chan_needs_persist == NotifyOption::DoPersist { should_persist = NotifyOption::DoPersist; }
if err.is_err() {
handle_errors.push((err, counterparty_node_id));
if !retain_channel { return false; }
if let Err(e) = chan.timer_check_closing_negotiation_progress() {
- let (needs_close, err) = convert_chan_err!(self, e, short_to_chan_info, chan, chan_id);
+ let (needs_close, err) = convert_chan_err!(self, e, chan, chan_id);
handle_errors.push((Err(err), chan.get_counterparty_node_id()));
if needs_close { return false; }
}
///
/// This is for failures on the channel on which the HTLC was *received*, not failures
/// forwarding
- fn get_htlc_inbound_temp_fail_err_and_data(&self, desired_err_code: u16, chan: &Channel<Signer>) -> (u16, Vec<u8>) {
+ fn get_htlc_inbound_temp_fail_err_and_data(&self, desired_err_code: u16, chan: &Channel<<K::Target as KeysInterface>::Signer>) -> (u16, Vec<u8>) {
// We can't be sure what SCID was used when relaying inbound towards us, so we have to
// guess somewhat. If its a public channel, we figure best to just use the real SCID (as
// we're not leaking that we have a channel with the counterparty), otherwise we try to use
/// Gets an HTLC onion failure code and error data for an `UPDATE` error, given the error code
/// that we want to return and a channel.
- fn get_htlc_temp_fail_err_and_data(&self, desired_err_code: u16, scid: u64, chan: &Channel<Signer>) -> (u16, Vec<u8>) {
+ fn get_htlc_temp_fail_err_and_data(&self, desired_err_code: u16, scid: u64, chan: &Channel<<K::Target as KeysInterface>::Signer>) -> (u16, Vec<u8>) {
debug_assert_eq!(desired_err_code & 0x1000, 0x1000);
if let Ok(upd) = self.get_channel_update_for_onion(scid, chan) {
let mut enc = VecWriter(Vec::with_capacity(upd.serialized_length() + 6));
let mut channel_state_lock = self.channel_state.lock().unwrap();
let channel_state = &mut *channel_state_lock;
for htlc in sources.iter() {
- if let None = channel_state.short_to_chan_info.get(&htlc.prev_hop.short_channel_id) {
+ let chan_id = match self.short_to_chan_info.read().unwrap().get(&htlc.prev_hop.short_channel_id) {
+ Some((_cp_id, chan_id)) => chan_id.clone(),
+ None => {
+ valid_mpp = false;
+ break;
+ }
+ };
+
+ if let None = channel_state.by_id.get(&chan_id) {
valid_mpp = false;
break;
}
+
if expected_amt_msat.is_some() && expected_amt_msat != Some(htlc.total_msat) {
log_error!(self.logger, "Somehow ended up with an MPP payment with different total amounts - this should not be reachable!");
debug_assert!(false);
}
}
- fn claim_funds_from_hop(&self, channel_state_lock: &mut MutexGuard<ChannelHolder<Signer>>, prev_hop: HTLCPreviousHopData, payment_preimage: PaymentPreimage) -> ClaimFundsFromHop {
+ fn claim_funds_from_hop(&self, channel_state_lock: &mut MutexGuard<ChannelHolder<<K::Target as KeysInterface>::Signer>>, prev_hop: HTLCPreviousHopData, payment_preimage: PaymentPreimage) -> ClaimFundsFromHop {
//TODO: Delay the claimed_funds relaying just like we do outbound relay!
let channel_state = &mut **channel_state_lock;
- let chan_id = match channel_state.short_to_chan_info.get(&prev_hop.short_channel_id) {
+ let chan_id = match self.short_to_chan_info.read().unwrap().get(&prev_hop.short_channel_id) {
Some((_cp_id, chan_id)) => chan_id.clone(),
None => {
return ClaimFundsFromHop::PrevHopForceClosed
payment_preimage, e);
return ClaimFundsFromHop::MonitorUpdateFail(
chan.get().get_counterparty_node_id(),
- handle_monitor_update_res!(self, e, channel_state, chan, RAACommitmentOrder::CommitmentFirst, false, msgs.is_some()).unwrap_err(),
+ handle_monitor_update_res!(self, e, chan, RAACommitmentOrder::CommitmentFirst, false, msgs.is_some()).unwrap_err(),
Some(htlc_value_msat)
);
}
},
}
let counterparty_node_id = chan.get().get_counterparty_node_id();
- let (drop, res) = convert_chan_err!(self, e, channel_state.short_to_chan_info, chan.get_mut(), &chan_id);
+ let (drop, res) = convert_chan_err!(self, e, chan.get_mut(), &chan_id);
if drop {
chan.remove_entry();
}
}
}
- fn claim_funds_internal(&self, mut channel_state_lock: MutexGuard<ChannelHolder<Signer>>, source: HTLCSource, payment_preimage: PaymentPreimage, forwarded_htlc_value_msat: Option<u64>, from_onchain: bool, next_channel_id: [u8; 32]) {
+ fn claim_funds_internal(&self, mut channel_state_lock: MutexGuard<ChannelHolder<<K::Target as KeysInterface>::Signer>>, source: HTLCSource, payment_preimage: PaymentPreimage, forwarded_htlc_value_msat: Option<u64>, from_onchain: bool, next_channel_id: [u8; 32]) {
match source {
HTLCSource::OutboundRoute { session_priv, payment_id, path, .. } => {
mem::drop(channel_state_lock);
msg: funding_msg,
});
if let Some(msg) = channel_ready {
- send_channel_ready!(channel_state.short_to_chan_info, channel_state.pending_msg_events, chan, msg);
+ send_channel_ready!(self, channel_state.pending_msg_events, chan, msg);
}
e.insert(chan);
}
match self.chain_monitor.watch_channel(chan.get().get_funding_txo().unwrap(), monitor) {
ChannelMonitorUpdateStatus::Completed => {},
e => {
- let mut res = handle_monitor_update_res!(self, e, channel_state, chan, RAACommitmentOrder::RevokeAndACKFirst, channel_ready.is_some(), OPTIONALLY_RESEND_FUNDING_LOCKED);
+ let mut res = handle_monitor_update_res!(self, e, chan, RAACommitmentOrder::RevokeAndACKFirst, channel_ready.is_some(), OPTIONALLY_RESEND_FUNDING_LOCKED);
if let Err(MsgHandleErrInternal { ref mut shutdown_finish, .. }) = res {
// We weren't able to watch the channel to begin with, so no updates should be made on
// it. Previously, full_stack_target found an (unreachable) panic when the
},
}
if let Some(msg) = channel_ready {
- send_channel_ready!(channel_state.short_to_chan_info, channel_state.pending_msg_events, chan.get(), msg);
+ send_channel_ready!(self, channel_state.pending_msg_events, chan.get(), msg);
}
funding_tx
},
});
}
}
+
+ emit_channel_ready_event!(self, chan.get_mut());
+
Ok(())
},
hash_map::Entry::Vacant(_) => Err(MsgHandleErrInternal::send_err_msg_no_close("Failed to find corresponding channel".to_owned(), msg.channel_id))
if let Some(monitor_update) = monitor_update {
let update_res = self.chain_monitor.update_channel(chan_entry.get().get_funding_txo().unwrap(), monitor_update);
let (result, is_permanent) =
- handle_monitor_update_res!(self, update_res, channel_state.short_to_chan_info, chan_entry.get_mut(), RAACommitmentOrder::CommitmentFirst, chan_entry.key(), NO_UPDATE);
+ handle_monitor_update_res!(self, update_res, chan_entry.get_mut(), RAACommitmentOrder::CommitmentFirst, chan_entry.key(), NO_UPDATE);
if is_permanent {
remove_channel!(self, channel_state, chan_entry);
break result;
return Err(MsgHandleErrInternal::send_err_msg_no_close("Got a message for a channel from the wrong node!".to_owned(), msg.channel_id));
}
- let create_pending_htlc_status = |chan: &Channel<Signer>, pending_forward_info: PendingHTLCStatus, error_code: u16| {
+ let create_pending_htlc_status = |chan: &Channel<<K::Target as KeysInterface>::Signer>, pending_forward_info: PendingHTLCStatus, error_code: u16| {
// If the update_add is completely bogus, the call will Err and we will close,
// but if we've sent a shutdown and they haven't acknowledged it yet, we just
// want to reject the new HTLC and fail it backwards instead of forwarding.
Ok(res) => res
};
let update_res = self.chain_monitor.update_channel(chan.get().get_funding_txo().unwrap(), monitor_update);
- if let Err(e) = handle_monitor_update_res!(self, update_res, channel_state, chan, RAACommitmentOrder::RevokeAndACKFirst, true, commitment_signed.is_some()) {
+ if let Err(e) = handle_monitor_update_res!(self, update_res, chan, RAACommitmentOrder::RevokeAndACKFirst, true, commitment_signed.is_some()) {
return Err(e);
}
break Err(MsgHandleErrInternal::ignore_no_close("Existing pending monitor update prevented responses to RAA".to_owned()));
}
if update_res != ChannelMonitorUpdateStatus::Completed {
- if let Err(e) = handle_monitor_update_res!(self, update_res, channel_state, chan,
+ if let Err(e) = handle_monitor_update_res!(self, update_res, chan,
RAACommitmentOrder::CommitmentFirst, false,
raa_updates.commitment_update.is_some(), false,
raa_updates.accepted_htlcs, raa_updates.failed_htlcs,
/// Returns ShouldPersist if anything changed, otherwise either SkipPersist or an Err.
fn internal_channel_update(&self, counterparty_node_id: &PublicKey, msg: &msgs::ChannelUpdate) -> Result<NotifyOption, MsgHandleErrInternal> {
- let mut channel_state_lock = self.channel_state.lock().unwrap();
- let channel_state = &mut *channel_state_lock;
- let chan_id = match channel_state.short_to_chan_info.get(&msg.contents.short_channel_id) {
+ let chan_id = match self.short_to_chan_info.read().unwrap().get(&msg.contents.short_channel_id) {
Some((_cp_id, chan_id)) => chan_id.clone(),
None => {
// It's not a local channel
return Ok(NotifyOption::SkipPersist)
}
};
+ let mut channel_state_lock = self.channel_state.lock().unwrap();
+ let channel_state = &mut *channel_state_lock;
match channel_state.by_id.entry(chan_id) {
hash_map::Entry::Occupied(mut chan) => {
if chan.get().get_counterparty_node_id() != *counterparty_node_id {
let mut channel_state_lock = self.channel_state.lock().unwrap();
let channel_state = &mut *channel_state_lock;
let by_id = &mut channel_state.by_id;
- let short_to_chan_info = &mut channel_state.short_to_chan_info;
let pending_msg_events = &mut channel_state.pending_msg_events;
by_id.retain(|channel_id, chan| {
},
e => {
has_monitor_update = true;
- let (res, close_channel) = handle_monitor_update_res!(self, e, short_to_chan_info, chan, RAACommitmentOrder::CommitmentFirst, channel_id, COMMITMENT_UPDATE_ONLY);
+ let (res, close_channel) = handle_monitor_update_res!(self, e, chan, RAACommitmentOrder::CommitmentFirst, channel_id, COMMITMENT_UPDATE_ONLY);
handle_errors.push((chan.get_counterparty_node_id(), res));
if close_channel { return false; }
},
true
},
Err(e) => {
- let (close_channel, res) = convert_chan_err!(self, e, short_to_chan_info, chan, channel_id);
+ let (close_channel, res) = convert_chan_err!(self, e, chan, channel_id);
handle_errors.push((chan.get_counterparty_node_id(), Err(res)));
// ChannelClosed event is generated by handle_error for us
!close_channel
let mut channel_state_lock = self.channel_state.lock().unwrap();
let channel_state = &mut *channel_state_lock;
let by_id = &mut channel_state.by_id;
- let short_to_chan_info = &mut channel_state.short_to_chan_info;
let pending_msg_events = &mut channel_state.pending_msg_events;
by_id.retain(|channel_id, chan| {
log_info!(self.logger, "Broadcasting {}", log_tx!(tx));
self.tx_broadcaster.broadcast_transaction(&tx);
- update_maps_on_chan_removal!(self, short_to_chan_info, chan);
+ update_maps_on_chan_removal!(self, chan);
false
} else { true }
},
Err(e) => {
has_update = true;
- let (close_channel, res) = convert_chan_err!(self, e, short_to_chan_info, chan, channel_id);
+ let (close_channel, res) = convert_chan_err!(self, e, chan, channel_id);
handle_errors.push((chan.get_counterparty_node_id(), Err(res)));
!close_channel
}
///
/// [phantom node payments]: crate::chain::keysinterface::PhantomKeysManager
pub fn get_phantom_scid(&self) -> u64 {
- let mut channel_state = self.channel_state.lock().unwrap();
- let best_block = self.best_block.read().unwrap();
+ let best_block_height = self.best_block.read().unwrap().height();
+ let short_to_chan_info = self.short_to_chan_info.read().unwrap();
loop {
- let scid_candidate = fake_scid::Namespace::Phantom.get_fake_scid(best_block.height(), &self.genesis_hash, &self.fake_scid_rand_bytes, &self.keys_manager);
+ let scid_candidate = fake_scid::Namespace::Phantom.get_fake_scid(best_block_height, &self.genesis_hash, &self.fake_scid_rand_bytes, &self.keys_manager);
// Ensure the generated scid doesn't conflict with a real channel.
- match channel_state.short_to_chan_info.entry(scid_candidate) {
- hash_map::Entry::Occupied(_) => continue,
- hash_map::Entry::Vacant(_) => return scid_candidate
+ match short_to_chan_info.get(&scid_candidate) {
+ Some(_) => continue,
+ None => return scid_candidate
}
}
}
}
}
-impl<Signer: Sign, M: Deref, T: Deref, K: Deref, F: Deref, L: Deref> MessageSendEventsProvider for ChannelManager<Signer, M, T, K, F, L>
- where M::Target: chain::Watch<Signer>,
+impl<M: Deref, T: Deref, K: Deref, F: Deref, L: Deref> MessageSendEventsProvider for ChannelManager<M, T, K, F, L>
+ where M::Target: chain::Watch<<K::Target as KeysInterface>::Signer>,
T::Target: BroadcasterInterface,
- K::Target: KeysInterface<Signer = Signer>,
+ K::Target: KeysInterface,
F::Target: FeeEstimator,
L::Target: Logger,
{
}
}
-impl<Signer: Sign, M: Deref, T: Deref, K: Deref, F: Deref, L: Deref> EventsProvider for ChannelManager<Signer, M, T, K, F, L>
+impl<M: Deref, T: Deref, K: Deref, F: Deref, L: Deref> EventsProvider for ChannelManager<M, T, K, F, L>
where
- M::Target: chain::Watch<Signer>,
+ M::Target: chain::Watch<<K::Target as KeysInterface>::Signer>,
T::Target: BroadcasterInterface,
- K::Target: KeysInterface<Signer = Signer>,
+ K::Target: KeysInterface,
F::Target: FeeEstimator,
L::Target: Logger,
{
}
}
-impl<Signer: Sign, M: Deref, T: Deref, K: Deref, F: Deref, L: Deref> chain::Listen for ChannelManager<Signer, M, T, K, F, L>
+impl<M: Deref, T: Deref, K: Deref, F: Deref, L: Deref> chain::Listen for ChannelManager<M, T, K, F, L>
where
- M::Target: chain::Watch<Signer>,
+ M::Target: chain::Watch<<K::Target as KeysInterface>::Signer>,
T::Target: BroadcasterInterface,
- K::Target: KeysInterface<Signer = Signer>,
+ K::Target: KeysInterface,
F::Target: FeeEstimator,
L::Target: Logger,
{
}
}
-impl<Signer: Sign, M: Deref, T: Deref, K: Deref, F: Deref, L: Deref> chain::Confirm for ChannelManager<Signer, M, T, K, F, L>
+impl<M: Deref, T: Deref, K: Deref, F: Deref, L: Deref> chain::Confirm for ChannelManager<M, T, K, F, L>
where
- M::Target: chain::Watch<Signer>,
+ M::Target: chain::Watch<<K::Target as KeysInterface>::Signer>,
T::Target: BroadcasterInterface,
- K::Target: KeysInterface<Signer = Signer>,
+ K::Target: KeysInterface,
F::Target: FeeEstimator,
L::Target: Logger,
{
fn get_relevant_txids(&self) -> Vec<Txid> {
let channel_state = self.channel_state.lock().unwrap();
- let mut res = Vec::with_capacity(channel_state.short_to_chan_info.len());
+ let mut res = Vec::with_capacity(channel_state.by_id.len());
for chan in channel_state.by_id.values() {
if let Some(funding_txo) = chan.get_funding_txo() {
res.push(funding_txo.txid);
}
}
-impl<Signer: Sign, M: Deref, T: Deref, K: Deref, F: Deref, L: Deref> ChannelManager<Signer, M, T, K, F, L>
+impl<M: Deref, T: Deref, K: Deref, F: Deref, L: Deref> ChannelManager<M, T, K, F, L>
where
- M::Target: chain::Watch<Signer>,
+ M::Target: chain::Watch<<K::Target as KeysInterface>::Signer>,
T::Target: BroadcasterInterface,
- K::Target: KeysInterface<Signer = Signer>,
+ K::Target: KeysInterface,
F::Target: FeeEstimator,
L::Target: Logger,
{
/// Calls a function which handles an on-chain event (blocks dis/connected, transactions
/// un/confirmed, etc) on each channel, handling any resulting errors or messages generated by
/// the function.
- fn do_chain_event<FN: Fn(&mut Channel<Signer>) -> Result<(Option<msgs::ChannelReady>, Vec<(HTLCSource, PaymentHash)>, Option<msgs::AnnouncementSignatures>), ClosureReason>>
+ fn do_chain_event<FN: Fn(&mut Channel<<K::Target as KeysInterface>::Signer>) -> Result<(Option<msgs::ChannelReady>, Vec<(HTLCSource, PaymentHash)>, Option<msgs::AnnouncementSignatures>), ClosureReason>>
(&self, height_opt: Option<u32>, f: FN) {
// Note that we MUST NOT end up calling methods on self.chain_monitor here - we're called
// during initialization prior to the chain_monitor being fully configured in some cases.
{
let mut channel_lock = self.channel_state.lock().unwrap();
let channel_state = &mut *channel_lock;
- let short_to_chan_info = &mut channel_state.short_to_chan_info;
let pending_msg_events = &mut channel_state.pending_msg_events;
channel_state.by_id.retain(|_, channel| {
let res = f(channel);
}, HTLCDestination::NextHopChannel { node_id: Some(channel.get_counterparty_node_id()), channel_id: channel.channel_id() }));
}
if let Some(channel_ready) = channel_ready_opt {
- send_channel_ready!(short_to_chan_info, pending_msg_events, channel, channel_ready);
+ send_channel_ready!(self, pending_msg_events, channel, channel_ready);
if channel.is_usable() {
log_trace!(self.logger, "Sending channel_ready with private initial channel_update for our counterparty on channel {}", log_bytes!(channel.channel_id()));
if let Ok(msg) = self.get_channel_update_for_unicast(channel) {
log_trace!(self.logger, "Sending channel_ready WITHOUT channel_update for {}", log_bytes!(channel.channel_id()));
}
}
+
+ emit_channel_ready_event!(self, channel);
+
if let Some(announcement_sigs) = announcement_sigs {
log_trace!(self.logger, "Sending announcement_signatures for channel {}", log_bytes!(channel.channel_id()));
pending_msg_events.push(events::MessageSendEvent::SendAnnouncementSignatures {
// enforce option_scid_alias then), and if the funding tx is ever
// un-confirmed we force-close the channel, ensuring short_to_chan_info
// is always consistent.
+ let mut short_to_chan_info = self.short_to_chan_info.write().unwrap();
let scid_insert = short_to_chan_info.insert(real_scid, (channel.get_counterparty_node_id(), channel.channel_id()));
assert!(scid_insert.is_none() || scid_insert.unwrap() == (channel.get_counterparty_node_id(), channel.channel_id()),
"SCIDs should never collide - ensure you weren't behind by a full {} blocks when creating channels",
}
}
} else if let Err(reason) = res {
- update_maps_on_chan_removal!(self, short_to_chan_info, channel);
+ update_maps_on_chan_removal!(self, channel);
// It looks like our counterparty went on-chain or funding transaction was
// reorged out of the main chain. Close the channel.
failed_channels.push(channel.force_shutdown(true));
}
}
-impl<Signer: Sign, M: Deref , T: Deref , K: Deref , F: Deref , L: Deref >
- ChannelMessageHandler for ChannelManager<Signer, M, T, K, F, L>
- where M::Target: chain::Watch<Signer>,
+impl<M: Deref , T: Deref , K: Deref , F: Deref , L: Deref >
+ ChannelMessageHandler for ChannelManager<M, T, K, F, L>
+ where M::Target: chain::Watch<<K::Target as KeysInterface>::Signer>,
T::Target: BroadcasterInterface,
- K::Target: KeysInterface<Signer = Signer>,
+ K::Target: KeysInterface,
F::Target: FeeEstimator,
L::Target: Logger,
{
let mut channel_state_lock = self.channel_state.lock().unwrap();
let channel_state = &mut *channel_state_lock;
let pending_msg_events = &mut channel_state.pending_msg_events;
- let short_to_chan_info = &mut channel_state.short_to_chan_info;
log_debug!(self.logger, "Marking channels with {} disconnected and generating channel_updates. We believe we {} make future connections to this peer.",
log_pubkey!(counterparty_node_id), if no_connection_possible { "cannot" } else { "can" });
channel_state.by_id.retain(|_, chan| {
if chan.get_counterparty_node_id() == *counterparty_node_id {
chan.remove_uncommitted_htlcs_and_mark_paused(&self.logger);
if chan.is_shutdown() {
- update_maps_on_chan_removal!(self, short_to_chan_info, chan);
+ update_maps_on_chan_removal!(self, chan);
self.issue_channel_close_events(chan, ClosureReason::DisconnectedPeer);
return false;
} else {
},
);
-impl<Signer: Sign, M: Deref, T: Deref, K: Deref, F: Deref, L: Deref> Writeable for ChannelManager<Signer, M, T, K, F, L>
- where M::Target: chain::Watch<Signer>,
+impl<M: Deref, T: Deref, K: Deref, F: Deref, L: Deref> Writeable for ChannelManager<M, T, K, F, L>
+ where M::Target: chain::Watch<<K::Target as KeysInterface>::Signer>,
T::Target: BroadcasterInterface,
- K::Target: KeysInterface<Signer = Signer>,
+ K::Target: KeysInterface,
F::Target: FeeEstimator,
L::Target: Logger,
{
// Implement ReadableArgs for an Arc'd ChannelManager to make it a bit easier to work with the
// SipmleArcChannelManager type:
-impl<'a, Signer: Sign, M: Deref, T: Deref, K: Deref, F: Deref, L: Deref>
- ReadableArgs<ChannelManagerReadArgs<'a, Signer, M, T, K, F, L>> for (BlockHash, Arc<ChannelManager<Signer, M, T, K, F, L>>)
- where M::Target: chain::Watch<Signer>,
+impl<'a, M: Deref, T: Deref, K: Deref, F: Deref, L: Deref>
+ ReadableArgs<ChannelManagerReadArgs<'a, <K::Target as KeysInterface>::Signer, M, T, K, F, L>> for (BlockHash, Arc<ChannelManager<M, T, K, F, L>>)
+ where M::Target: chain::Watch<<K::Target as KeysInterface>::Signer>,
T::Target: BroadcasterInterface,
- K::Target: KeysInterface<Signer = Signer>,
+ K::Target: KeysInterface,
F::Target: FeeEstimator,
L::Target: Logger,
{
- fn read<R: io::Read>(reader: &mut R, args: ChannelManagerReadArgs<'a, Signer, M, T, K, F, L>) -> Result<Self, DecodeError> {
- let (blockhash, chan_manager) = <(BlockHash, ChannelManager<Signer, M, T, K, F, L>)>::read(reader, args)?;
+ fn read<R: io::Read>(reader: &mut R, args: ChannelManagerReadArgs<'a, <K::Target as KeysInterface>::Signer, M, T, K, F, L>) -> Result<Self, DecodeError> {
+ let (blockhash, chan_manager) = <(BlockHash, ChannelManager<M, T, K, F, L>)>::read(reader, args)?;
Ok((blockhash, Arc::new(chan_manager)))
}
}
-impl<'a, Signer: Sign, M: Deref, T: Deref, K: Deref, F: Deref, L: Deref>
- ReadableArgs<ChannelManagerReadArgs<'a, Signer, M, T, K, F, L>> for (BlockHash, ChannelManager<Signer, M, T, K, F, L>)
- where M::Target: chain::Watch<Signer>,
+impl<'a, M: Deref, T: Deref, K: Deref, F: Deref, L: Deref>
+ ReadableArgs<ChannelManagerReadArgs<'a, <K::Target as KeysInterface>::Signer, M, T, K, F, L>> for (BlockHash, ChannelManager<M, T, K, F, L>)
+ where M::Target: chain::Watch<<K::Target as KeysInterface>::Signer>,
T::Target: BroadcasterInterface,
- K::Target: KeysInterface<Signer = Signer>,
+ K::Target: KeysInterface,
F::Target: FeeEstimator,
L::Target: Logger,
{
- fn read<R: io::Read>(reader: &mut R, mut args: ChannelManagerReadArgs<'a, Signer, M, T, K, F, L>) -> Result<Self, DecodeError> {
+ fn read<R: io::Read>(reader: &mut R, mut args: ChannelManagerReadArgs<'a, <K::Target as KeysInterface>::Signer, M, T, K, F, L>) -> Result<Self, DecodeError> {
let _ver = read_ver_prefix!(reader, SERIALIZATION_VERSION);
let genesis_hash: BlockHash = Readable::read(reader)?;
let mut short_to_chan_info = HashMap::with_capacity(cmp::min(channel_count as usize, 128));
let mut channel_closures = Vec::new();
for _ in 0..channel_count {
- let mut channel: Channel<Signer> = Channel::read(reader, (&args.keys_manager, best_block_height))?;
+ let mut channel: Channel<<K::Target as KeysInterface>::Signer> = Channel::read(reader, (&args.keys_manager, best_block_height))?;
let funding_txo = channel.get_funding_txo().ok_or(DecodeError::InvalidValue)?;
funding_txo_set.insert(funding_txo.clone());
if let Some(ref mut monitor) = args.channel_monitors.get_mut(&funding_txo) {
channel_state: Mutex::new(ChannelHolder {
by_id,
- short_to_chan_info,
claimable_htlcs,
pending_msg_events: Vec::new(),
}),
forward_htlcs: Mutex::new(forward_htlcs),
outbound_scid_aliases: Mutex::new(outbound_scid_aliases),
id_to_peer: Mutex::new(id_to_peer),
+ short_to_chan_info: FairRwLock::new(short_to_chan_info),
fake_scid_rand_bytes: fake_scid_rand_bytes.unwrap(),
probing_cookie_secret: probing_cookie_secret.unwrap(),
use test::Bencher;
struct NodeHolder<'a, P: Persist<InMemorySigner>> {
- node: &'a ChannelManager<InMemorySigner,
+ node: &'a ChannelManager<
&'a ChainMonitor<InMemorySigner, &'a test_utils::TestChainSource,
&'a test_utils::TestBroadcaster, &'a test_utils::TestFeeEstimator,
&'a test_utils::TestLogger, &'a P>,
&'a test_utils::TestBroadcaster, &'a KeysManager,
- &'a test_utils::TestFeeEstimator, &'a test_utils::TestLogger>
+ &'a test_utils::TestFeeEstimator, &'a test_utils::TestLogger>,
}
#[cfg(test)]
_ => panic!(),
}
+ let events_a = node_a.get_and_clear_pending_events();
+ assert_eq!(events_a.len(), 1);
+ match events_a[0] {
+ Event::ChannelReady{ ref counterparty_node_id, .. } => {
+ assert_eq!(*counterparty_node_id, node_b.get_our_node_id());
+ },
+ _ => panic!("Unexpected event"),
+ }
+
+ let events_b = node_b.get_and_clear_pending_events();
+ assert_eq!(events_b.len(), 1);
+ match events_b[0] {
+ Event::ChannelReady{ ref counterparty_node_id, .. } => {
+ assert_eq!(*counterparty_node_id, node_a.get_our_node_id());
+ },
+ _ => panic!("Unexpected event"),
+ }
+
let dummy_graph = NetworkGraph::new(genesis_hash, &logger_a);
let mut payment_count: u64 = 0;