use crate::ln::msgs;
use crate::ln::msgs::DecodeError;
use crate::ln::script::{self, ShutdownScript};
-use crate::ln::channelmanager::{self, CounterpartyForwardingInfo, PendingHTLCStatus, HTLCSource, SentHTLCId, HTLCFailureMsg, PendingHTLCInfo, RAACommitmentOrder, BREAKDOWN_TIMEOUT, MIN_CLTV_EXPIRY_DELTA, MAX_LOCAL_BREAKDOWN_TIMEOUT};
+use crate::ln::channelmanager::{self, CounterpartyForwardingInfo, PendingHTLCStatus, HTLCSource, SentHTLCId, HTLCFailureMsg, PendingHTLCInfo, RAACommitmentOrder, BREAKDOWN_TIMEOUT, MIN_CLTV_EXPIRY_DELTA, MAX_LOCAL_BREAKDOWN_TIMEOUT, ChannelShutdownState};
use crate::ln::chan_utils::{CounterpartyCommitmentSecrets, TxCreationKeys, HTLCOutputInCommitment, htlc_success_tx_weight, htlc_timeout_tx_weight, make_funding_redeemscript, ChannelPublicKeys, CommitmentTransaction, HolderCommitmentTransaction, ChannelTransactionParameters, CounterpartyChannelTransactionParameters, MAX_HTLCS, get_commitment_transaction_number_obscure_factor, ClosingTransaction};
use crate::ln::chan_utils;
use crate::ln::onion_utils::HTLCFailReason;
use crate::util::ser::{Readable, ReadableArgs, Writeable, Writer, VecWriter};
use crate::util::logger::Logger;
use crate::util::errors::APIError;
-use crate::util::config::{UserConfig, ChannelConfig, LegacyChannelConfig, ChannelHandshakeConfig, ChannelHandshakeLimits};
+use crate::util::config::{UserConfig, ChannelConfig, LegacyChannelConfig, ChannelHandshakeConfig, ChannelHandshakeLimits, MaxDustHTLCExposure};
use crate::util::scid_utils::scid_from_parts;
use crate::io;
pub const DEFAULT_MAX_HTLCS: u16 = 50;
-pub(crate) fn commitment_tx_base_weight(opt_anchors: bool) -> u64 {
+pub(crate) fn commitment_tx_base_weight(channel_type_features: &ChannelTypeFeatures) -> u64 {
const COMMITMENT_TX_BASE_WEIGHT: u64 = 724;
const COMMITMENT_TX_BASE_ANCHOR_WEIGHT: u64 = 1124;
- if opt_anchors { COMMITMENT_TX_BASE_ANCHOR_WEIGHT } else { COMMITMENT_TX_BASE_WEIGHT }
+ if channel_type_features.supports_anchors_zero_fee_htlc_tx() { COMMITMENT_TX_BASE_ANCHOR_WEIGHT } else { COMMITMENT_TX_BASE_WEIGHT }
}
#[cfg(not(test))]
}
/// The return type of get_update_fulfill_htlc_and_commit.
-pub enum UpdateFulfillCommitFetch<'a> {
+pub enum UpdateFulfillCommitFetch {
/// Indicates the HTLC fulfill is new, and either generated an update_fulfill message, placed
/// it in the holding cell, or re-generated the update_fulfill message after the same claim was
/// previously placed in the holding cell (and has since been removed).
NewClaim {
/// The ChannelMonitorUpdate which places the new payment preimage in the channel monitor
- monitor_update: &'a ChannelMonitorUpdate,
+ monitor_update: ChannelMonitorUpdate,
/// The value of the HTLC which was claimed, in msat.
htlc_value_msat: u64,
},
}
/// The return type of `force_shutdown`
+///
+/// Contains a (counterparty_node_id, funding_txo, [`ChannelMonitorUpdate`]) tuple
+/// followed by a list of HTLCs to fail back in the form of the (source, payment hash, and this
+/// channel's counterparty_node_id and channel_id).
pub(crate) type ShutdownResult = (
Option<(PublicKey, OutPoint, ChannelMonitorUpdate)>,
Vec<(HTLCSource, PaymentHash, PublicKey, [u8; 32])>
struct PendingChannelMonitorUpdate {
update: ChannelMonitorUpdate,
- /// In some cases we need to delay letting the [`ChannelMonitorUpdate`] go until after an
- /// `Event` is processed by the user. This bool indicates the [`ChannelMonitorUpdate`] is
- /// blocked on some external event and the [`ChannelManager`] will update us when we're ready.
- ///
- /// [`ChannelManager`]: super::channelmanager::ChannelManager
- blocked: bool,
}
impl_writeable_tlv_based!(PendingChannelMonitorUpdate, {
(0, update, required),
- (2, blocked, required),
});
/// Contains everything about the channel including state, and various flags.
/// [`SignerProvider::derive_channel_signer`].
channel_keys_id: [u8; 32],
- /// When we generate [`ChannelMonitorUpdate`]s to persist, they may not be persisted immediately.
- /// If we then persist the [`channelmanager::ChannelManager`] and crash before the persistence
- /// completes we still need to be able to complete the persistence. Thus, we have to keep a
- /// copy of the [`ChannelMonitorUpdate`] here until it is complete.
- pending_monitor_updates: Vec<PendingChannelMonitorUpdate>,
+ /// If we can't release a [`ChannelMonitorUpdate`] until some external action completes, we
+ /// store it here and only release it to the `ChannelManager` once it asks for it.
+ blocked_monitor_updates: Vec<PendingChannelMonitorUpdate>,
}
impl<Signer: ChannelSigner> ChannelContext<Signer> {
- pub(crate) fn opt_anchors(&self) -> bool {
- self.channel_transaction_parameters.opt_anchors.is_some()
- }
-
/// Allowed in any state (including after shutdown)
pub fn get_update_time_counter(&self) -> u32 {
self.update_time_counter
(self.channel_state & mask) == (ChannelState::ChannelReady as u32) && !self.monitor_pending_channel_ready
}
+ /// shutdown state returns the state of the channel in its various stages of shutdown
+ pub fn shutdown_state(&self) -> ChannelShutdownState {
+ if self.channel_state & (ChannelState::ShutdownComplete as u32) != 0 {
+ return ChannelShutdownState::ShutdownComplete;
+ }
+ if self.channel_state & (ChannelState::LocalShutdownSent as u32) != 0 && self.channel_state & (ChannelState::RemoteShutdownSent as u32) == 0 {
+ return ChannelShutdownState::ShutdownInitiated;
+ }
+ if (self.channel_state & BOTH_SIDES_SHUTDOWN_MASK != 0) && !self.closing_negotiation_ready() {
+ return ChannelShutdownState::ResolvingHTLCs;
+ }
+ if (self.channel_state & BOTH_SIDES_SHUTDOWN_MASK != 0) && self.closing_negotiation_ready() {
+ return ChannelShutdownState::NegotiatingClosingFee;
+ }
+ return ChannelShutdownState::NotShuttingDown;
+ }
+
+ fn closing_negotiation_ready(&self) -> bool {
+ self.pending_inbound_htlcs.is_empty() &&
+ self.pending_outbound_htlcs.is_empty() &&
+ self.pending_update_fee.is_none() &&
+ self.channel_state &
+ (BOTH_SIDES_SHUTDOWN_MASK |
+ ChannelState::AwaitingRemoteRevoke as u32 |
+ ChannelState::PeerDisconnected as u32 |
+ ChannelState::MonitorUpdateInProgress as u32) == BOTH_SIDES_SHUTDOWN_MASK
+ }
+
/// Returns true if this channel is currently available for use. This is a superset of
/// is_usable() and considers things like the channel being temporarily disabled.
/// Allowed in any state (including after shutdown)
cmp::max(self.config.options.cltv_expiry_delta, MIN_CLTV_EXPIRY_DELTA)
}
- pub fn get_max_dust_htlc_exposure_msat(&self) -> u64 {
- self.config.options.max_dust_htlc_exposure_msat
+ pub fn get_max_dust_htlc_exposure_msat<F: Deref>(&self,
+ fee_estimator: &LowerBoundedFeeEstimator<F>) -> u64
+ where F::Target: FeeEstimator
+ {
+ match self.config.options.max_dust_htlc_exposure {
+ MaxDustHTLCExposure::FeeRateMultiplier(multiplier) => {
+ let feerate_per_kw = fee_estimator.bounded_sat_per_1000_weight(
+ ConfirmationTarget::HighPriority);
+ feerate_per_kw as u64 * multiplier
+ },
+ MaxDustHTLCExposure::FixedLimitMsat(limit) => limit,
+ }
}
/// Returns the previous [`ChannelConfig`] applied to this channel, if any.
($htlc: expr, $outbound: expr, $source: expr, $state_name: expr) => {
if $outbound == local { // "offered HTLC output"
let htlc_in_tx = get_htlc_in_commitment!($htlc, true);
- let htlc_tx_fee = if self.opt_anchors() {
+ let htlc_tx_fee = if self.get_channel_type().supports_anchors_zero_fee_htlc_tx() {
0
} else {
- feerate_per_kw as u64 * htlc_timeout_tx_weight(false) / 1000
+ feerate_per_kw as u64 * htlc_timeout_tx_weight(self.get_channel_type()) / 1000
};
if $htlc.amount_msat / 1000 >= broadcaster_dust_limit_satoshis + htlc_tx_fee {
log_trace!(logger, " ...including {} {} HTLC {} (hash {}) with value {}", if $outbound { "outbound" } else { "inbound" }, $state_name, $htlc.htlc_id, log_bytes!($htlc.payment_hash.0), $htlc.amount_msat);
}
} else {
let htlc_in_tx = get_htlc_in_commitment!($htlc, false);
- let htlc_tx_fee = if self.opt_anchors() {
+ let htlc_tx_fee = if self.get_channel_type().supports_anchors_zero_fee_htlc_tx() {
0
} else {
- feerate_per_kw as u64 * htlc_success_tx_weight(false) / 1000
+ feerate_per_kw as u64 * htlc_success_tx_weight(self.get_channel_type()) / 1000
};
if $htlc.amount_msat / 1000 >= broadcaster_dust_limit_satoshis + htlc_tx_fee {
log_trace!(logger, " ...including {} {} HTLC {} (hash {}) with value {}", if $outbound { "outbound" } else { "inbound" }, $state_name, $htlc.htlc_id, log_bytes!($htlc.payment_hash.0), $htlc.amount_msat);
broadcaster_max_commitment_tx_output.1 = cmp::max(broadcaster_max_commitment_tx_output.1, value_to_remote_msat as u64);
}
- let total_fee_sat = commit_tx_fee_sat(feerate_per_kw, included_non_dust_htlcs.len(), self.channel_transaction_parameters.opt_anchors.is_some());
- let anchors_val = if self.channel_transaction_parameters.opt_anchors.is_some() { ANCHOR_OUTPUT_VALUE_SATOSHI * 2 } else { 0 } as i64;
+ let total_fee_sat = commit_tx_fee_sat(feerate_per_kw, included_non_dust_htlcs.len(), &self.channel_transaction_parameters.channel_type_features);
+ let anchors_val = if self.channel_transaction_parameters.channel_type_features.supports_anchors_zero_fee_htlc_tx() { ANCHOR_OUTPUT_VALUE_SATOSHI * 2 } else { 0 } as i64;
let (value_to_self, value_to_remote) = if self.is_outbound() {
(value_to_self_msat / 1000 - anchors_val - total_fee_sat as i64, value_to_remote_msat / 1000)
} else {
let tx = CommitmentTransaction::new_with_auxiliary_htlc_data(commitment_number,
value_to_a as u64,
value_to_b as u64,
- self.channel_transaction_parameters.opt_anchors.is_some(),
funding_pubkey_a,
funding_pubkey_b,
keys.clone(),
on_holder_tx_holding_cell_htlcs_count: 0,
};
- let (htlc_timeout_dust_limit, htlc_success_dust_limit) = if context.opt_anchors() {
+ let (htlc_timeout_dust_limit, htlc_success_dust_limit) = if context.get_channel_type().supports_anchors_zero_fee_htlc_tx() {
(0, 0)
} else {
let dust_buffer_feerate = context.get_dust_buffer_feerate(outbound_feerate_update) as u64;
- (dust_buffer_feerate * htlc_timeout_tx_weight(false) / 1000,
- dust_buffer_feerate * htlc_success_tx_weight(false) / 1000)
+ (dust_buffer_feerate * htlc_timeout_tx_weight(context.get_channel_type()) / 1000,
+ dust_buffer_feerate * htlc_success_tx_weight(context.get_channel_type()) / 1000)
};
let counterparty_dust_limit_timeout_sat = htlc_timeout_dust_limit + context.counterparty_dust_limit_satoshis;
let holder_dust_limit_success_sat = htlc_success_dust_limit + context.holder_dust_limit_satoshis;
on_holder_tx_holding_cell_htlcs_count: 0,
};
- let (htlc_timeout_dust_limit, htlc_success_dust_limit) = if context.opt_anchors() {
+ let (htlc_timeout_dust_limit, htlc_success_dust_limit) = if context.get_channel_type().supports_anchors_zero_fee_htlc_tx() {
(0, 0)
} else {
let dust_buffer_feerate = context.get_dust_buffer_feerate(outbound_feerate_update) as u64;
- (dust_buffer_feerate * htlc_timeout_tx_weight(false) / 1000,
- dust_buffer_feerate * htlc_success_tx_weight(false) / 1000)
+ (dust_buffer_feerate * htlc_timeout_tx_weight(context.get_channel_type()) / 1000,
+ dust_buffer_feerate * htlc_success_tx_weight(context.get_channel_type()) / 1000)
};
let counterparty_dust_limit_success_sat = htlc_success_dust_limit + context.counterparty_dust_limit_satoshis;
let holder_dust_limit_timeout_sat = htlc_timeout_dust_limit + context.holder_dust_limit_satoshis;
/// Doesn't bother handling the
/// if-we-removed-it-already-but-haven't-fully-resolved-they-can-still-send-an-inbound-HTLC
/// corner case properly.
- pub fn get_available_balances(&self) -> AvailableBalances {
+ pub fn get_available_balances<F: Deref>(&self, fee_estimator: &LowerBoundedFeeEstimator<F>)
+ -> AvailableBalances
+ where F::Target: FeeEstimator
+ {
let context = &self;
// Note that we have to handle overflow due to the above case.
let inbound_stats = context.get_inbound_pending_htlc_stats(None);
// dependency.
// This complicates the computation around dust-values, up to the one-htlc-value.
let mut real_dust_limit_timeout_sat = context.holder_dust_limit_satoshis;
- if !context.opt_anchors() {
- real_dust_limit_timeout_sat += context.feerate_per_kw as u64 * htlc_timeout_tx_weight(false) / 1000;
+ if !context.get_channel_type().supports_anchors_zero_fee_htlc_tx() {
+ real_dust_limit_timeout_sat += context.feerate_per_kw as u64 * htlc_timeout_tx_weight(context.get_channel_type()) / 1000;
}
let htlc_above_dust = HTLCCandidate::new(real_dust_limit_timeout_sat * 1000, HTLCInitiator::LocalOffered);
// If the channel is inbound (i.e. counterparty pays the fee), we need to make sure
// sending a new HTLC won't reduce their balance below our reserve threshold.
let mut real_dust_limit_success_sat = context.counterparty_dust_limit_satoshis;
- if !context.opt_anchors() {
- real_dust_limit_success_sat += context.feerate_per_kw as u64 * htlc_success_tx_weight(false) / 1000;
+ if !context.get_channel_type().supports_anchors_zero_fee_htlc_tx() {
+ real_dust_limit_success_sat += context.feerate_per_kw as u64 * htlc_success_tx_weight(context.get_channel_type()) / 1000;
}
let htlc_above_dust = HTLCCandidate::new(real_dust_limit_success_sat * 1000, HTLCInitiator::LocalOffered);
// send above the dust limit (as the router can always overpay to meet the dust limit).
let mut remaining_msat_below_dust_exposure_limit = None;
let mut dust_exposure_dust_limit_msat = 0;
+ let max_dust_htlc_exposure_msat = context.get_max_dust_htlc_exposure_msat(fee_estimator);
- let (htlc_success_dust_limit, htlc_timeout_dust_limit) = if context.opt_anchors() {
+ let (htlc_success_dust_limit, htlc_timeout_dust_limit) = if context.get_channel_type().supports_anchors_zero_fee_htlc_tx() {
(context.counterparty_dust_limit_satoshis, context.holder_dust_limit_satoshis)
} else {
let dust_buffer_feerate = context.get_dust_buffer_feerate(None) as u64;
- (context.counterparty_dust_limit_satoshis + dust_buffer_feerate * htlc_success_tx_weight(false) / 1000,
- context.holder_dust_limit_satoshis + dust_buffer_feerate * htlc_timeout_tx_weight(false) / 1000)
+ (context.counterparty_dust_limit_satoshis + dust_buffer_feerate * htlc_success_tx_weight(context.get_channel_type()) / 1000,
+ context.holder_dust_limit_satoshis + dust_buffer_feerate * htlc_timeout_tx_weight(context.get_channel_type()) / 1000)
};
let on_counterparty_dust_htlc_exposure_msat = inbound_stats.on_counterparty_tx_dust_exposure_msat + outbound_stats.on_counterparty_tx_dust_exposure_msat;
- if on_counterparty_dust_htlc_exposure_msat as i64 + htlc_success_dust_limit as i64 * 1000 - 1 > context.get_max_dust_htlc_exposure_msat() as i64 {
+ if on_counterparty_dust_htlc_exposure_msat as i64 + htlc_success_dust_limit as i64 * 1000 - 1 > max_dust_htlc_exposure_msat as i64 {
remaining_msat_below_dust_exposure_limit =
- Some(context.get_max_dust_htlc_exposure_msat().saturating_sub(on_counterparty_dust_htlc_exposure_msat));
+ Some(max_dust_htlc_exposure_msat.saturating_sub(on_counterparty_dust_htlc_exposure_msat));
dust_exposure_dust_limit_msat = cmp::max(dust_exposure_dust_limit_msat, htlc_success_dust_limit * 1000);
}
let on_holder_dust_htlc_exposure_msat = inbound_stats.on_holder_tx_dust_exposure_msat + outbound_stats.on_holder_tx_dust_exposure_msat;
- if on_holder_dust_htlc_exposure_msat as i64 + htlc_timeout_dust_limit as i64 * 1000 - 1 > context.get_max_dust_htlc_exposure_msat() as i64 {
+ if on_holder_dust_htlc_exposure_msat as i64 + htlc_timeout_dust_limit as i64 * 1000 - 1 > max_dust_htlc_exposure_msat as i64 {
remaining_msat_below_dust_exposure_limit = Some(cmp::min(
remaining_msat_below_dust_exposure_limit.unwrap_or(u64::max_value()),
- context.get_max_dust_htlc_exposure_msat().saturating_sub(on_holder_dust_htlc_exposure_msat)));
+ max_dust_htlc_exposure_msat.saturating_sub(on_holder_dust_htlc_exposure_msat)));
dust_exposure_dust_limit_msat = cmp::max(dust_exposure_dust_limit_msat, htlc_timeout_dust_limit * 1000);
}
let context = &self;
assert!(context.is_outbound());
- let (htlc_success_dust_limit, htlc_timeout_dust_limit) = if context.opt_anchors() {
+ let (htlc_success_dust_limit, htlc_timeout_dust_limit) = if context.get_channel_type().supports_anchors_zero_fee_htlc_tx() {
(0, 0)
} else {
- (context.feerate_per_kw as u64 * htlc_success_tx_weight(false) / 1000,
- context.feerate_per_kw as u64 * htlc_timeout_tx_weight(false) / 1000)
+ (context.feerate_per_kw as u64 * htlc_success_tx_weight(context.get_channel_type()) / 1000,
+ context.feerate_per_kw as u64 * htlc_timeout_tx_weight(context.get_channel_type()) / 1000)
};
let real_dust_limit_success_sat = htlc_success_dust_limit + context.holder_dust_limit_satoshis;
let real_dust_limit_timeout_sat = htlc_timeout_dust_limit + context.holder_dust_limit_satoshis;
}
let num_htlcs = included_htlcs + addl_htlcs;
- let res = commit_tx_fee_msat(context.feerate_per_kw, num_htlcs, context.opt_anchors());
+ let res = commit_tx_fee_msat(context.feerate_per_kw, num_htlcs, &context.channel_type);
#[cfg(any(test, fuzzing))]
{
let mut fee = res;
if fee_spike_buffer_htlc.is_some() {
- fee = commit_tx_fee_msat(context.feerate_per_kw, num_htlcs - 1, context.opt_anchors());
+ fee = commit_tx_fee_msat(context.feerate_per_kw, num_htlcs - 1, &context.channel_type);
}
let total_pending_htlcs = context.pending_inbound_htlcs.len() + context.pending_outbound_htlcs.len()
+ context.holding_cell_htlc_updates.len();
let context = &self;
assert!(!context.is_outbound());
- let (htlc_success_dust_limit, htlc_timeout_dust_limit) = if context.opt_anchors() {
+ let (htlc_success_dust_limit, htlc_timeout_dust_limit) = if context.get_channel_type().supports_anchors_zero_fee_htlc_tx() {
(0, 0)
} else {
- (context.feerate_per_kw as u64 * htlc_success_tx_weight(false) / 1000,
- context.feerate_per_kw as u64 * htlc_timeout_tx_weight(false) / 1000)
+ (context.feerate_per_kw as u64 * htlc_success_tx_weight(context.get_channel_type()) / 1000,
+ context.feerate_per_kw as u64 * htlc_timeout_tx_weight(context.get_channel_type()) / 1000)
};
let real_dust_limit_success_sat = htlc_success_dust_limit + context.counterparty_dust_limit_satoshis;
let real_dust_limit_timeout_sat = htlc_timeout_dust_limit + context.counterparty_dust_limit_satoshis;
}
let num_htlcs = included_htlcs + addl_htlcs;
- let res = commit_tx_fee_msat(context.feerate_per_kw, num_htlcs, context.opt_anchors());
+ let res = commit_tx_fee_msat(context.feerate_per_kw, num_htlcs, &context.channel_type);
#[cfg(any(test, fuzzing))]
{
let mut fee = res;
if fee_spike_buffer_htlc.is_some() {
- fee = commit_tx_fee_msat(context.feerate_per_kw, num_htlcs - 1, context.opt_anchors());
+ fee = commit_tx_fee_msat(context.feerate_per_kw, num_htlcs - 1, &context.channel_type);
}
let total_pending_htlcs = context.pending_inbound_htlcs.len() + context.pending_outbound_htlcs.len();
let commitment_tx_info = CommitmentTxInfoCached {
// Get the fee cost in SATS of a commitment tx with a given number of HTLC outputs.
// Note that num_htlcs should not include dust HTLCs.
#[inline]
-fn commit_tx_fee_sat(feerate_per_kw: u32, num_htlcs: usize, opt_anchors: bool) -> u64 {
- feerate_per_kw as u64 * (commitment_tx_base_weight(opt_anchors) + num_htlcs as u64 * COMMITMENT_TX_WEIGHT_PER_HTLC) / 1000
+fn commit_tx_fee_sat(feerate_per_kw: u32, num_htlcs: usize, channel_type_features: &ChannelTypeFeatures) -> u64 {
+ feerate_per_kw as u64 * (commitment_tx_base_weight(channel_type_features) + num_htlcs as u64 * COMMITMENT_TX_WEIGHT_PER_HTLC) / 1000
}
// Get the fee cost in MSATS of a commitment tx with a given number of HTLC outputs.
// Note that num_htlcs should not include dust HTLCs.
-fn commit_tx_fee_msat(feerate_per_kw: u32, num_htlcs: usize, opt_anchors: bool) -> u64 {
+fn commit_tx_fee_msat(feerate_per_kw: u32, num_htlcs: usize, channel_type_features: &ChannelTypeFeatures) -> u64 {
// Note that we need to divide before multiplying to round properly,
// since the lowest denomination of bitcoin on-chain is the satoshi.
- (commitment_tx_base_weight(opt_anchors) + num_htlcs as u64 * COMMITMENT_TX_WEIGHT_PER_HTLC) * feerate_per_kw as u64 / 1000 * 1000
+ (commitment_tx_base_weight(channel_type_features) + num_htlcs as u64 * COMMITMENT_TX_WEIGHT_PER_HTLC) * feerate_per_kw as u64 / 1000 * 1000
}
// TODO: We should refactor this to be an Inbound/OutboundChannel until initial setup handshaking
}
impl<Signer: WriteableEcdsaChannelSigner> Channel<Signer> {
- fn check_remote_fee<F: Deref, L: Deref>(fee_estimator: &LowerBoundedFeeEstimator<F>,
- feerate_per_kw: u32, cur_feerate_per_kw: Option<u32>, logger: &L)
- -> Result<(), ChannelError> where F::Target: FeeEstimator, L::Target: Logger,
+ fn check_remote_fee<F: Deref, L: Deref>(
+ channel_type: &ChannelTypeFeatures, fee_estimator: &LowerBoundedFeeEstimator<F>,
+ feerate_per_kw: u32, cur_feerate_per_kw: Option<u32>, logger: &L
+ ) -> Result<(), ChannelError> where F::Target: FeeEstimator, L::Target: Logger,
{
// We only bound the fee updates on the upper side to prevent completely absurd feerates,
// always accepting up to 25 sat/vByte or 10x our fee estimator's "High Priority" fee.
// We generally don't care too much if they set the feerate to something very high, but it
- // could result in the channel being useless due to everything being dust.
- let upper_limit = cmp::max(250 * 25,
- fee_estimator.bounded_sat_per_1000_weight(ConfirmationTarget::HighPriority) as u64 * 10);
- if feerate_per_kw as u64 > upper_limit {
- return Err(ChannelError::Close(format!("Peer's feerate much too high. Actual: {}. Our expected upper limit: {}", feerate_per_kw, upper_limit)));
- }
- let lower_limit = fee_estimator.bounded_sat_per_1000_weight(ConfirmationTarget::Background);
+ // could result in the channel being useless due to everything being dust. This doesn't
+ // apply to channels supporting anchor outputs since HTLC transactions are pre-signed with a
+ // zero fee, so their fee is no longer considered to determine dust limits.
+ if !channel_type.supports_anchors_zero_fee_htlc_tx() {
+ let upper_limit = cmp::max(250 * 25,
+ fee_estimator.bounded_sat_per_1000_weight(ConfirmationTarget::HighPriority) as u64 * 10);
+ if feerate_per_kw as u64 > upper_limit {
+ return Err(ChannelError::Close(format!("Peer's feerate much too high. Actual: {}. Our expected upper limit: {}", feerate_per_kw, upper_limit)));
+ }
+ }
+
+ // We can afford to use a lower bound with anchors than previously since we can now bump
+ // fees when broadcasting our commitment. However, we must still make sure we meet the
+ // minimum mempool feerate, until package relay is deployed, such that we can ensure the
+ // commitment transaction propagates throughout node mempools on its own.
+ let lower_limit_conf_target = if channel_type.supports_anchors_zero_fee_htlc_tx() {
+ ConfirmationTarget::MempoolMinimum
+ } else {
+ ConfirmationTarget::Background
+ };
+ let lower_limit = fee_estimator.bounded_sat_per_1000_weight(lower_limit_conf_target);
// Some fee estimators round up to the next full sat/vbyte (ie 250 sats per kw), causing
// occasional issues with feerate disagreements between an initiator that wants a feerate
// of 1.1 sat/vbyte and a receiver that wants 1.1 rounded up to 2. Thus, we always add 250
}
pub fn get_update_fulfill_htlc_and_commit<L: Deref>(&mut self, htlc_id: u64, payment_preimage: PaymentPreimage, logger: &L) -> UpdateFulfillCommitFetch where L::Target: Logger {
- let release_cs_monitor = self.context.pending_monitor_updates.iter().all(|upd| !upd.blocked);
+ let release_cs_monitor = self.context.blocked_monitor_updates.is_empty();
match self.get_update_fulfill_htlc(htlc_id, payment_preimage, logger) {
UpdateFulfillFetch::NewClaim { mut monitor_update, htlc_value_msat, msg } => {
// Even if we aren't supposed to let new monitor updates with commitment state
// matter what. Sadly, to push a new monitor update which flies before others
// already queued, we have to insert it into the pending queue and update the
// update_ids of all the following monitors.
- let unblocked_update_pos = if release_cs_monitor && msg.is_some() {
+ if release_cs_monitor && msg.is_some() {
let mut additional_update = self.build_commitment_no_status_check(logger);
// build_commitment_no_status_check may bump latest_monitor_id but we want them
// to be strictly increasing by one, so decrement it here.
self.context.latest_monitor_update_id = monitor_update.update_id;
monitor_update.updates.append(&mut additional_update.updates);
- self.context.pending_monitor_updates.push(PendingChannelMonitorUpdate {
- update: monitor_update, blocked: false,
- });
- self.context.pending_monitor_updates.len() - 1
} else {
- let insert_pos = self.context.pending_monitor_updates.iter().position(|upd| upd.blocked)
- .unwrap_or(self.context.pending_monitor_updates.len());
- let new_mon_id = self.context.pending_monitor_updates.get(insert_pos)
+ let new_mon_id = self.context.blocked_monitor_updates.get(0)
.map(|upd| upd.update.update_id).unwrap_or(monitor_update.update_id);
monitor_update.update_id = new_mon_id;
- self.context.pending_monitor_updates.insert(insert_pos, PendingChannelMonitorUpdate {
- update: monitor_update, blocked: false,
- });
- for held_update in self.context.pending_monitor_updates.iter_mut().skip(insert_pos + 1) {
+ for held_update in self.context.blocked_monitor_updates.iter_mut() {
held_update.update.update_id += 1;
}
if msg.is_some() {
debug_assert!(false, "If there is a pending blocked monitor we should have MonitorUpdateInProgress set");
let update = self.build_commitment_no_status_check(logger);
- self.context.pending_monitor_updates.push(PendingChannelMonitorUpdate {
- update, blocked: true,
+ self.context.blocked_monitor_updates.push(PendingChannelMonitorUpdate {
+ update,
});
}
- insert_pos
- };
- self.monitor_updating_paused(false, msg.is_some(), false, Vec::new(), Vec::new(), Vec::new());
- UpdateFulfillCommitFetch::NewClaim {
- monitor_update: &self.context.pending_monitor_updates.get(unblocked_update_pos)
- .expect("We just pushed the monitor update").update,
- htlc_value_msat,
}
+
+ self.monitor_updating_paused(false, msg.is_some(), false, Vec::new(), Vec::new(), Vec::new());
+ UpdateFulfillCommitFetch::NewClaim { monitor_update, htlc_value_msat, }
},
UpdateFulfillFetch::DuplicateClaim {} => UpdateFulfillCommitFetch::DuplicateClaim {},
}
Ok(self.get_announcement_sigs(node_signer, genesis_block_hash, user_config, best_block.height(), logger))
}
- pub fn update_add_htlc<F, L: Deref>(&mut self, msg: &msgs::UpdateAddHTLC, mut pending_forward_status: PendingHTLCStatus, create_pending_htlc_status: F, logger: &L) -> Result<(), ChannelError>
- where F: for<'a> Fn(&'a Self, PendingHTLCStatus, u16) -> PendingHTLCStatus, L::Target: Logger {
+ pub fn update_add_htlc<F, FE: Deref, L: Deref>(
+ &mut self, msg: &msgs::UpdateAddHTLC, mut pending_forward_status: PendingHTLCStatus,
+ create_pending_htlc_status: F, fee_estimator: &LowerBoundedFeeEstimator<FE>, logger: &L
+ ) -> Result<(), ChannelError>
+ where F: for<'a> Fn(&'a Self, PendingHTLCStatus, u16) -> PendingHTLCStatus,
+ FE::Target: FeeEstimator, L::Target: Logger,
+ {
// We can't accept HTLCs sent after we've sent a shutdown.
let local_sent_shutdown = (self.context.channel_state & (ChannelState::ChannelReady as u32 | ChannelState::LocalShutdownSent as u32)) != (ChannelState::ChannelReady as u32);
if local_sent_shutdown {
}
}
- let (htlc_timeout_dust_limit, htlc_success_dust_limit) = if self.context.opt_anchors() {
+ let max_dust_htlc_exposure_msat = self.context.get_max_dust_htlc_exposure_msat(fee_estimator);
+ let (htlc_timeout_dust_limit, htlc_success_dust_limit) = if self.context.get_channel_type().supports_anchors_zero_fee_htlc_tx() {
(0, 0)
} else {
let dust_buffer_feerate = self.context.get_dust_buffer_feerate(None) as u64;
- (dust_buffer_feerate * htlc_timeout_tx_weight(false) / 1000,
- dust_buffer_feerate * htlc_success_tx_weight(false) / 1000)
+ (dust_buffer_feerate * htlc_timeout_tx_weight(self.context.get_channel_type()) / 1000,
+ dust_buffer_feerate * htlc_success_tx_weight(self.context.get_channel_type()) / 1000)
};
let exposure_dust_limit_timeout_sats = htlc_timeout_dust_limit + self.context.counterparty_dust_limit_satoshis;
if msg.amount_msat / 1000 < exposure_dust_limit_timeout_sats {
let on_counterparty_tx_dust_htlc_exposure_msat = inbound_stats.on_counterparty_tx_dust_exposure_msat + outbound_stats.on_counterparty_tx_dust_exposure_msat + msg.amount_msat;
- if on_counterparty_tx_dust_htlc_exposure_msat > self.context.get_max_dust_htlc_exposure_msat() {
+ if on_counterparty_tx_dust_htlc_exposure_msat > max_dust_htlc_exposure_msat {
log_info!(logger, "Cannot accept value that would put our exposure to dust HTLCs at {} over the limit {} on counterparty commitment tx",
- on_counterparty_tx_dust_htlc_exposure_msat, self.context.get_max_dust_htlc_exposure_msat());
+ on_counterparty_tx_dust_htlc_exposure_msat, max_dust_htlc_exposure_msat);
pending_forward_status = create_pending_htlc_status(self, pending_forward_status, 0x1000|7);
}
}
let exposure_dust_limit_success_sats = htlc_success_dust_limit + self.context.holder_dust_limit_satoshis;
if msg.amount_msat / 1000 < exposure_dust_limit_success_sats {
let on_holder_tx_dust_htlc_exposure_msat = inbound_stats.on_holder_tx_dust_exposure_msat + outbound_stats.on_holder_tx_dust_exposure_msat + msg.amount_msat;
- if on_holder_tx_dust_htlc_exposure_msat > self.context.get_max_dust_htlc_exposure_msat() {
+ if on_holder_tx_dust_htlc_exposure_msat > max_dust_htlc_exposure_msat {
log_info!(logger, "Cannot accept value that would put our exposure to dust HTLCs at {} over the limit {} on holder commitment tx",
- on_holder_tx_dust_htlc_exposure_msat, self.context.get_max_dust_htlc_exposure_msat());
+ on_holder_tx_dust_htlc_exposure_msat, max_dust_htlc_exposure_msat);
pending_forward_status = create_pending_htlc_status(self, pending_forward_status, 0x1000|7);
}
}
Ok(())
}
- pub fn commitment_signed<L: Deref>(&mut self, msg: &msgs::CommitmentSigned, logger: &L) -> Result<Option<&ChannelMonitorUpdate>, ChannelError>
+ pub fn commitment_signed<L: Deref>(&mut self, msg: &msgs::CommitmentSigned, logger: &L) -> Result<Option<ChannelMonitorUpdate>, ChannelError>
where L::Target: Logger
{
if (self.context.channel_state & (ChannelState::ChannelReady as u32)) != (ChannelState::ChannelReady as u32) {
for (idx, (htlc, mut source_opt)) in htlcs_cloned.drain(..).enumerate() {
if let Some(_) = htlc.transaction_output_index {
let htlc_tx = chan_utils::build_htlc_transaction(&commitment_txid, commitment_stats.feerate_per_kw,
- self.context.get_counterparty_selected_contest_delay().unwrap(), &htlc, self.context.opt_anchors(),
- false, &keys.broadcaster_delayed_payment_key, &keys.revocation_key);
+ self.context.get_counterparty_selected_contest_delay().unwrap(), &htlc, &self.context.channel_type,
+ &keys.broadcaster_delayed_payment_key, &keys.revocation_key);
- let htlc_redeemscript = chan_utils::get_htlc_redeemscript(&htlc, self.context.opt_anchors(), &keys);
- let htlc_sighashtype = if self.context.opt_anchors() { EcdsaSighashType::SinglePlusAnyoneCanPay } else { EcdsaSighashType::All };
+ let htlc_redeemscript = chan_utils::get_htlc_redeemscript(&htlc, &self.context.channel_type, &keys);
+ let htlc_sighashtype = if self.context.channel_type.supports_anchors_zero_fee_htlc_tx() { EcdsaSighashType::SinglePlusAnyoneCanPay } else { EcdsaSighashType::All };
let htlc_sighash = hash_to_message!(&sighash::SighashCache::new(&htlc_tx).segwit_signature_hash(0, &htlc_redeemscript, htlc.amount_msat / 1000, htlc_sighashtype).unwrap()[..]);
log_trace!(logger, "Checking HTLC tx signature {} by key {} against tx {} (sighash {}) with redeemscript {} in channel {}.",
log_bytes!(msg.htlc_signatures[idx].serialize_compact()[..]), log_bytes!(keys.countersignatory_htlc_key.serialize()),
/// Public version of the below, checking relevant preconditions first.
/// If we're not in a state where freeing the holding cell makes sense, this is a no-op and
/// returns `(None, Vec::new())`.
- pub fn maybe_free_holding_cell_htlcs<L: Deref>(&mut self, logger: &L) -> (Option<&ChannelMonitorUpdate>, Vec<(HTLCSource, PaymentHash)>) where L::Target: Logger {
+ pub fn maybe_free_holding_cell_htlcs<F: Deref, L: Deref>(
+ &mut self, fee_estimator: &LowerBoundedFeeEstimator<F>, logger: &L
+ ) -> (Option<ChannelMonitorUpdate>, Vec<(HTLCSource, PaymentHash)>)
+ where F::Target: FeeEstimator, L::Target: Logger
+ {
if self.context.channel_state >= ChannelState::ChannelReady as u32 &&
(self.context.channel_state & (ChannelState::AwaitingRemoteRevoke as u32 | ChannelState::PeerDisconnected as u32 | ChannelState::MonitorUpdateInProgress as u32)) == 0 {
- self.free_holding_cell_htlcs(logger)
+ self.free_holding_cell_htlcs(fee_estimator, logger)
} else { (None, Vec::new()) }
}
/// Frees any pending commitment updates in the holding cell, generating the relevant messages
/// for our counterparty.
- fn free_holding_cell_htlcs<L: Deref>(&mut self, logger: &L) -> (Option<&ChannelMonitorUpdate>, Vec<(HTLCSource, PaymentHash)>) where L::Target: Logger {
+ fn free_holding_cell_htlcs<F: Deref, L: Deref>(
+ &mut self, fee_estimator: &LowerBoundedFeeEstimator<F>, logger: &L
+ ) -> (Option<ChannelMonitorUpdate>, Vec<(HTLCSource, PaymentHash)>)
+ where F::Target: FeeEstimator, L::Target: Logger
+ {
assert_eq!(self.context.channel_state & ChannelState::MonitorUpdateInProgress as u32, 0);
if self.context.holding_cell_htlc_updates.len() != 0 || self.context.holding_cell_update_fee.is_some() {
log_trace!(logger, "Freeing holding cell with {} HTLC updates{} in channel {}", self.context.holding_cell_htlc_updates.len(),
skimmed_fee_msat, ..
} => {
match self.send_htlc(amount_msat, *payment_hash, cltv_expiry, source.clone(),
- onion_routing_packet.clone(), false, skimmed_fee_msat, logger)
+ onion_routing_packet.clone(), false, skimmed_fee_msat, fee_estimator, logger)
{
Ok(update_add_msg_option) => update_add_htlcs.push(update_add_msg_option.unwrap()),
Err(e) => {
return (None, htlcs_to_fail);
}
let update_fee = if let Some(feerate) = self.context.holding_cell_update_fee.take() {
- self.send_update_fee(feerate, false, logger)
+ self.send_update_fee(feerate, false, fee_estimator, logger)
} else {
None
};
/// waiting on this revoke_and_ack. The generation of this new commitment_signed may also fail,
/// generating an appropriate error *after* the channel state has been updated based on the
/// revoke_and_ack message.
- pub fn revoke_and_ack<L: Deref>(&mut self, msg: &msgs::RevokeAndACK, logger: &L) -> Result<(Vec<(HTLCSource, PaymentHash)>, Option<&ChannelMonitorUpdate>), ChannelError>
- where L::Target: Logger,
+ pub fn revoke_and_ack<F: Deref, L: Deref>(&mut self, msg: &msgs::RevokeAndACK,
+ fee_estimator: &LowerBoundedFeeEstimator<F>, logger: &L
+ ) -> Result<(Vec<(HTLCSource, PaymentHash)>, Option<ChannelMonitorUpdate>), ChannelError>
+ where F::Target: FeeEstimator, L::Target: Logger,
{
if (self.context.channel_state & (ChannelState::ChannelReady as u32)) != (ChannelState::ChannelReady as u32) {
return Err(ChannelError::Close("Got revoke/ACK message when channel was not in an operational state".to_owned()));
return Ok((Vec::new(), self.push_ret_blockable_mon_update(monitor_update)));
}
- match self.free_holding_cell_htlcs(logger) {
- (Some(_), htlcs_to_fail) => {
- let mut additional_update = self.context.pending_monitor_updates.pop().unwrap().update;
+ match self.free_holding_cell_htlcs(fee_estimator, logger) {
+ (Some(mut additional_update), htlcs_to_fail) => {
// free_holding_cell_htlcs may bump latest_monitor_id multiple times but we want them to be
// strictly increasing by one, so decrement it here.
self.context.latest_monitor_update_id = monitor_update.update_id;
/// Queues up an outbound update fee by placing it in the holding cell. You should call
/// [`Self::maybe_free_holding_cell_htlcs`] in order to actually generate and send the
/// commitment update.
- pub fn queue_update_fee<L: Deref>(&mut self, feerate_per_kw: u32, logger: &L) where L::Target: Logger {
- let msg_opt = self.send_update_fee(feerate_per_kw, true, logger);
+ pub fn queue_update_fee<F: Deref, L: Deref>(&mut self, feerate_per_kw: u32,
+ fee_estimator: &LowerBoundedFeeEstimator<F>, logger: &L)
+ where F::Target: FeeEstimator, L::Target: Logger
+ {
+ let msg_opt = self.send_update_fee(feerate_per_kw, true, fee_estimator, logger);
assert!(msg_opt.is_none(), "We forced holding cell?");
}
///
/// You MUST call [`Self::send_commitment_no_state_update`] prior to any other calls on this
/// [`Channel`] if `force_holding_cell` is false.
- fn send_update_fee<L: Deref>(&mut self, feerate_per_kw: u32, mut force_holding_cell: bool, logger: &L) -> Option<msgs::UpdateFee> where L::Target: Logger {
+ fn send_update_fee<F: Deref, L: Deref>(
+ &mut self, feerate_per_kw: u32, mut force_holding_cell: bool,
+ fee_estimator: &LowerBoundedFeeEstimator<F>, logger: &L
+ ) -> Option<msgs::UpdateFee>
+ where F::Target: FeeEstimator, L::Target: Logger
+ {
if !self.context.is_outbound() {
panic!("Cannot send fee from inbound channel");
}
let outbound_stats = self.context.get_outbound_pending_htlc_stats(Some(feerate_per_kw));
let keys = self.context.build_holder_transaction_keys(self.context.cur_holder_commitment_transaction_number);
let commitment_stats = self.context.build_commitment_transaction(self.context.cur_holder_commitment_transaction_number, &keys, true, true, logger);
- let buffer_fee_msat = commit_tx_fee_sat(feerate_per_kw, commitment_stats.num_nondust_htlcs + outbound_stats.on_holder_tx_holding_cell_htlcs_count as usize + CONCURRENT_INBOUND_HTLC_FEE_BUFFER as usize, self.context.opt_anchors()) * 1000;
+ let buffer_fee_msat = commit_tx_fee_sat(feerate_per_kw, commitment_stats.num_nondust_htlcs + outbound_stats.on_holder_tx_holding_cell_htlcs_count as usize + CONCURRENT_INBOUND_HTLC_FEE_BUFFER as usize, self.context.get_channel_type()) * 1000;
let holder_balance_msat = commitment_stats.local_balance_msat - outbound_stats.holding_cell_msat;
if holder_balance_msat < buffer_fee_msat + self.context.counterparty_selected_channel_reserve_satoshis.unwrap() * 1000 {
//TODO: auto-close after a number of failures?
// Note, we evaluate pending htlc "preemptive" trimmed-to-dust threshold at the proposed `feerate_per_kw`.
let holder_tx_dust_exposure = inbound_stats.on_holder_tx_dust_exposure_msat + outbound_stats.on_holder_tx_dust_exposure_msat;
let counterparty_tx_dust_exposure = inbound_stats.on_counterparty_tx_dust_exposure_msat + outbound_stats.on_counterparty_tx_dust_exposure_msat;
- if holder_tx_dust_exposure > self.context.get_max_dust_htlc_exposure_msat() {
+ let max_dust_htlc_exposure_msat = self.context.get_max_dust_htlc_exposure_msat(fee_estimator);
+ if holder_tx_dust_exposure > max_dust_htlc_exposure_msat {
log_debug!(logger, "Cannot afford to send new feerate at {} without infringing max dust htlc exposure", feerate_per_kw);
return None;
}
- if counterparty_tx_dust_exposure > self.context.get_max_dust_htlc_exposure_msat() {
+ if counterparty_tx_dust_exposure > max_dust_htlc_exposure_msat {
log_debug!(logger, "Cannot afford to send new feerate at {} without infringing max dust htlc exposure", feerate_per_kw);
return None;
}
{
assert_eq!(self.context.channel_state & ChannelState::MonitorUpdateInProgress as u32, ChannelState::MonitorUpdateInProgress as u32);
self.context.channel_state &= !(ChannelState::MonitorUpdateInProgress as u32);
- let mut found_blocked = false;
- self.context.pending_monitor_updates.retain(|upd| {
- if found_blocked { debug_assert!(upd.blocked, "No mons may be unblocked after a blocked one"); }
- if upd.blocked { found_blocked = true; }
- upd.blocked
- });
// If we're past (or at) the FundingSent stage on an outbound channel, try to
// (re-)broadcast the funding transaction as we may have declined to broadcast it when we
if self.context.channel_state & (ChannelState::PeerDisconnected as u32) == ChannelState::PeerDisconnected as u32 {
return Err(ChannelError::Close("Peer sent update_fee when we needed a channel_reestablish".to_owned()));
}
- Channel::<Signer>::check_remote_fee(fee_estimator, msg.feerate_per_kw, Some(self.context.feerate_per_kw), logger)?;
+ Channel::<Signer>::check_remote_fee(&self.context.channel_type, fee_estimator, msg.feerate_per_kw, Some(self.context.feerate_per_kw), logger)?;
let feerate_over_dust_buffer = msg.feerate_per_kw > self.context.get_dust_buffer_feerate(None);
self.context.pending_update_fee = Some((msg.feerate_per_kw, FeeUpdateState::RemoteAnnounced));
let outbound_stats = self.context.get_outbound_pending_htlc_stats(None);
let holder_tx_dust_exposure = inbound_stats.on_holder_tx_dust_exposure_msat + outbound_stats.on_holder_tx_dust_exposure_msat;
let counterparty_tx_dust_exposure = inbound_stats.on_counterparty_tx_dust_exposure_msat + outbound_stats.on_counterparty_tx_dust_exposure_msat;
- if holder_tx_dust_exposure > self.context.get_max_dust_htlc_exposure_msat() {
+ let max_dust_htlc_exposure_msat = self.context.get_max_dust_htlc_exposure_msat(fee_estimator);
+ if holder_tx_dust_exposure > max_dust_htlc_exposure_msat {
return Err(ChannelError::Close(format!("Peer sent update_fee with a feerate ({}) which may over-expose us to dust-in-flight on our own transactions (totaling {} msat)",
msg.feerate_per_kw, holder_tx_dust_exposure)));
}
- if counterparty_tx_dust_exposure > self.context.get_max_dust_htlc_exposure_msat() {
+ if counterparty_tx_dust_exposure > max_dust_htlc_exposure_msat {
return Err(ChannelError::Close(format!("Peer sent update_fee with a feerate ({}) which may over-expose us to dust-in-flight on our counterparty's transactions (totaling {} msat)",
msg.feerate_per_kw, counterparty_tx_dust_exposure)));
}
/// this point if we're the funder we should send the initial closing_signed, and in any case
/// shutdown should complete within a reasonable timeframe.
fn closing_negotiation_ready(&self) -> bool {
- self.context.pending_inbound_htlcs.is_empty() && self.context.pending_outbound_htlcs.is_empty() &&
- self.context.channel_state &
- (BOTH_SIDES_SHUTDOWN_MASK | ChannelState::AwaitingRemoteRevoke as u32 |
- ChannelState::PeerDisconnected as u32 | ChannelState::MonitorUpdateInProgress as u32)
- == BOTH_SIDES_SHUTDOWN_MASK &&
- self.context.pending_update_fee.is_none()
+ self.context.closing_negotiation_ready()
}
/// Checks if the closing_signed negotiation is making appropriate progress, possibly returning
pub fn shutdown<SP: Deref>(
&mut self, signer_provider: &SP, their_features: &InitFeatures, msg: &msgs::Shutdown
- ) -> Result<(Option<msgs::Shutdown>, Option<&ChannelMonitorUpdate>, Vec<(HTLCSource, PaymentHash)>), ChannelError>
+ ) -> Result<(Option<msgs::Shutdown>, Option<ChannelMonitorUpdate>, Vec<(HTLCSource, PaymentHash)>), ChannelError>
where SP::Target: SignerProvider
{
if self.context.channel_state & (ChannelState::PeerDisconnected as u32) == ChannelState::PeerDisconnected as u32 {
}],
};
self.monitor_updating_paused(false, false, false, Vec::new(), Vec::new(), Vec::new());
- if self.push_blockable_mon_update(monitor_update) {
- self.context.pending_monitor_updates.last().map(|upd| &upd.update)
- } else { None }
+ self.push_ret_blockable_mon_update(monitor_update)
} else { None };
let shutdown = if send_shutdown {
Some(msgs::Shutdown {
(self.context.channel_state & ChannelState::MonitorUpdateInProgress as u32) != 0
}
- pub fn get_latest_complete_monitor_update_id(&self) -> u64 {
- if self.context.pending_monitor_updates.is_empty() { return self.context.get_latest_monitor_update_id(); }
- self.context.pending_monitor_updates[0].update.update_id - 1
+ /// Gets the latest [`ChannelMonitorUpdate`] ID which has been released and is in-flight.
+ pub fn get_latest_unblocked_monitor_update_id(&self) -> u64 {
+ if self.context.blocked_monitor_updates.is_empty() { return self.context.get_latest_monitor_update_id(); }
+ self.context.blocked_monitor_updates[0].update.update_id - 1
}
/// Returns the next blocked monitor update, if one exists, and a bool which indicates a
/// further blocked monitor update exists after the next.
- pub fn unblock_next_blocked_monitor_update(&mut self) -> Option<(&ChannelMonitorUpdate, bool)> {
- for i in 0..self.context.pending_monitor_updates.len() {
- if self.context.pending_monitor_updates[i].blocked {
- self.context.pending_monitor_updates[i].blocked = false;
- return Some((&self.context.pending_monitor_updates[i].update,
- self.context.pending_monitor_updates.len() > i + 1));
- }
- }
- None
- }
-
- /// Pushes a new monitor update into our monitor update queue, returning whether it should be
- /// immediately given to the user for persisting or if it should be held as blocked.
- fn push_blockable_mon_update(&mut self, update: ChannelMonitorUpdate) -> bool {
- let release_monitor = self.context.pending_monitor_updates.iter().all(|upd| !upd.blocked);
- self.context.pending_monitor_updates.push(PendingChannelMonitorUpdate {
- update, blocked: !release_monitor
- });
- release_monitor
+ pub fn unblock_next_blocked_monitor_update(&mut self) -> Option<(ChannelMonitorUpdate, bool)> {
+ if self.context.blocked_monitor_updates.is_empty() { return None; }
+ Some((self.context.blocked_monitor_updates.remove(0).update,
+ !self.context.blocked_monitor_updates.is_empty()))
}
- /// Pushes a new monitor update into our monitor update queue, returning a reference to it if
- /// it should be immediately given to the user for persisting or `None` if it should be held as
- /// blocked.
+ /// Pushes a new monitor update into our monitor update queue, returning it if it should be
+ /// immediately given to the user for persisting or `None` if it should be held as blocked.
fn push_ret_blockable_mon_update(&mut self, update: ChannelMonitorUpdate)
- -> Option<&ChannelMonitorUpdate> {
- let release_monitor = self.push_blockable_mon_update(update);
- if release_monitor { self.context.pending_monitor_updates.last().map(|upd| &upd.update) } else { None }
- }
-
- pub fn no_monitor_updates_pending(&self) -> bool {
- self.context.pending_monitor_updates.is_empty()
- }
-
- pub fn complete_all_mon_updates_through(&mut self, update_id: u64) {
- self.context.pending_monitor_updates.retain(|upd| {
- if upd.update.update_id <= update_id {
- assert!(!upd.blocked, "Completed update must have flown");
- false
- } else { true }
- });
- }
-
- pub fn complete_one_mon_update(&mut self, update_id: u64) {
- self.context.pending_monitor_updates.retain(|upd| upd.update.update_id != update_id);
+ -> Option<ChannelMonitorUpdate> {
+ let release_monitor = self.context.blocked_monitor_updates.is_empty();
+ if !release_monitor {
+ self.context.blocked_monitor_updates.push(PendingChannelMonitorUpdate {
+ update,
+ });
+ None
+ } else {
+ Some(update)
+ }
}
- /// Returns an iterator over all unblocked monitor updates which have not yet completed.
- pub fn uncompleted_unblocked_mon_updates(&self) -> impl Iterator<Item=&ChannelMonitorUpdate> {
- self.context.pending_monitor_updates.iter()
- .filter_map(|upd| if upd.blocked { None } else { Some(&upd.update) })
+ pub fn blocked_monitor_updates_pending(&self) -> usize {
+ self.context.blocked_monitor_updates.len()
}
/// Returns true if the channel is awaiting the persistence of the initial ChannelMonitor.
/// commitment update.
///
/// `Err`s will only be [`ChannelError::Ignore`].
- pub fn queue_add_htlc<L: Deref>(
+ pub fn queue_add_htlc<F: Deref, L: Deref>(
&mut self, amount_msat: u64, payment_hash: PaymentHash, cltv_expiry: u32, source: HTLCSource,
- onion_routing_packet: msgs::OnionPacket, skimmed_fee_msat: Option<u64>, logger: &L
- ) -> Result<(), ChannelError> where L::Target: Logger {
+ onion_routing_packet: msgs::OnionPacket, skimmed_fee_msat: Option<u64>,
+ fee_estimator: &LowerBoundedFeeEstimator<F>, logger: &L
+ ) -> Result<(), ChannelError>
+ where F::Target: FeeEstimator, L::Target: Logger
+ {
self
.send_htlc(amount_msat, payment_hash, cltv_expiry, source, onion_routing_packet, true,
- skimmed_fee_msat, logger)
+ skimmed_fee_msat, fee_estimator, logger)
.map(|msg_opt| assert!(msg_opt.is_none(), "We forced holding cell?"))
.map_err(|err| {
if let ChannelError::Ignore(_) = err { /* fine */ }
/// on this [`Channel`] if `force_holding_cell` is false.
///
/// `Err`s will only be [`ChannelError::Ignore`].
- fn send_htlc<L: Deref>(
+ fn send_htlc<F: Deref, L: Deref>(
&mut self, amount_msat: u64, payment_hash: PaymentHash, cltv_expiry: u32, source: HTLCSource,
onion_routing_packet: msgs::OnionPacket, mut force_holding_cell: bool,
- skimmed_fee_msat: Option<u64>, logger: &L
- ) -> Result<Option<msgs::UpdateAddHTLC>, ChannelError> where L::Target: Logger {
+ skimmed_fee_msat: Option<u64>, fee_estimator: &LowerBoundedFeeEstimator<F>, logger: &L
+ ) -> Result<Option<msgs::UpdateAddHTLC>, ChannelError>
+ where F::Target: FeeEstimator, L::Target: Logger
+ {
if (self.context.channel_state & (ChannelState::ChannelReady as u32 | BOTH_SIDES_SHUTDOWN_MASK)) != (ChannelState::ChannelReady as u32) {
return Err(ChannelError::Ignore("Cannot send HTLC until channel is fully established and we haven't started shutting down".to_owned()));
}
return Err(ChannelError::Ignore("Cannot send 0-msat HTLC".to_owned()));
}
- let available_balances = self.context.get_available_balances();
+ let available_balances = self.context.get_available_balances(fee_estimator);
if amount_msat < available_balances.next_outbound_htlc_minimum_msat {
return Err(ChannelError::Ignore(format!("Cannot send less than our next-HTLC minimum - {} msat",
available_balances.next_outbound_htlc_minimum_msat)));
&& info.next_holder_htlc_id == self.context.next_holder_htlc_id
&& info.next_counterparty_htlc_id == self.context.next_counterparty_htlc_id
&& info.feerate == self.context.feerate_per_kw {
- let actual_fee = commit_tx_fee_msat(self.context.feerate_per_kw, commitment_stats.num_nondust_htlcs, self.context.opt_anchors());
+ let actual_fee = commit_tx_fee_msat(self.context.feerate_per_kw, commitment_stats.num_nondust_htlcs, self.context.get_channel_type());
assert_eq!(actual_fee, info.fee);
}
}
for (ref htlc_sig, ref htlc) in htlc_signatures.iter().zip(htlcs) {
log_trace!(logger, "Signed remote HTLC tx {} with redeemscript {} with pubkey {} -> {} in channel {}",
- encode::serialize_hex(&chan_utils::build_htlc_transaction(&counterparty_commitment_txid, commitment_stats.feerate_per_kw, self.context.get_holder_selected_contest_delay(), htlc, self.context.opt_anchors(), false, &counterparty_keys.broadcaster_delayed_payment_key, &counterparty_keys.revocation_key)),
- encode::serialize_hex(&chan_utils::get_htlc_redeemscript(&htlc, self.context.opt_anchors(), &counterparty_keys)),
+ encode::serialize_hex(&chan_utils::build_htlc_transaction(&counterparty_commitment_txid, commitment_stats.feerate_per_kw, self.context.get_holder_selected_contest_delay(), htlc, &self.context.channel_type, &counterparty_keys.broadcaster_delayed_payment_key, &counterparty_keys.revocation_key)),
+ encode::serialize_hex(&chan_utils::get_htlc_redeemscript(&htlc, &self.context.channel_type, &counterparty_keys)),
log_bytes!(counterparty_keys.broadcaster_htlc_key.serialize()),
log_bytes!(htlc_sig.serialize_compact()[..]), log_bytes!(self.context.channel_id()));
}
///
/// Shorthand for calling [`Self::send_htlc`] followed by a commitment update, see docs on
/// [`Self::send_htlc`] and [`Self::build_commitment_no_state_update`] for more info.
- pub fn send_htlc_and_commit<L: Deref>(
- &mut self, amount_msat: u64, payment_hash: PaymentHash, cltv_expiry: u32, source: HTLCSource,
- onion_routing_packet: msgs::OnionPacket, skimmed_fee_msat: Option<u64>, logger: &L
- ) -> Result<Option<&ChannelMonitorUpdate>, ChannelError> where L::Target: Logger {
+ pub fn send_htlc_and_commit<F: Deref, L: Deref>(
+ &mut self, amount_msat: u64, payment_hash: PaymentHash, cltv_expiry: u32,
+ source: HTLCSource, onion_routing_packet: msgs::OnionPacket, skimmed_fee_msat: Option<u64>,
+ fee_estimator: &LowerBoundedFeeEstimator<F>, logger: &L
+ ) -> Result<Option<ChannelMonitorUpdate>, ChannelError>
+ where F::Target: FeeEstimator, L::Target: Logger
+ {
let send_res = self.send_htlc(amount_msat, payment_hash, cltv_expiry, source,
- onion_routing_packet, false, skimmed_fee_msat, logger);
+ onion_routing_packet, false, skimmed_fee_msat, fee_estimator, logger);
if let Err(e) = &send_res { if let ChannelError::Ignore(_) = e {} else { debug_assert!(false, "Sending cannot trigger channel failure"); } }
match send_res? {
Some(_) => {
/// [`ChannelMonitorUpdate`] will be returned).
pub fn get_shutdown<SP: Deref>(&mut self, signer_provider: &SP, their_features: &InitFeatures,
target_feerate_sats_per_kw: Option<u32>, override_shutdown_script: Option<ShutdownScript>)
- -> Result<(msgs::Shutdown, Option<&ChannelMonitorUpdate>, Vec<(HTLCSource, PaymentHash)>), APIError>
+ -> Result<(msgs::Shutdown, Option<ChannelMonitorUpdate>, Vec<(HTLCSource, PaymentHash)>), APIError>
where SP::Target: SignerProvider {
for htlc in self.context.pending_outbound_htlcs.iter() {
if let OutboundHTLCState::LocalAnnounced(_) = htlc.state {
}],
};
self.monitor_updating_paused(false, false, false, Vec::new(), Vec::new(), Vec::new());
- if self.push_blockable_mon_update(monitor_update) {
- self.context.pending_monitor_updates.last().map(|upd| &upd.update)
- } else { None }
+ self.push_ret_blockable_mon_update(monitor_update)
} else { None };
let shutdown = msgs::Shutdown {
channel_id: self.context.channel_id,
let channel_type = Self::get_initial_channel_type(&config, their_features);
debug_assert!(channel_type.is_subset(&channelmanager::provided_channel_type_features(&config)));
- let feerate = fee_estimator.bounded_sat_per_1000_weight(ConfirmationTarget::Normal);
+ let commitment_conf_target = if channel_type.supports_anchors_zero_fee_htlc_tx() {
+ ConfirmationTarget::MempoolMinimum
+ } else {
+ ConfirmationTarget::Normal
+ };
+ let commitment_feerate = fee_estimator.bounded_sat_per_1000_weight(commitment_conf_target);
let value_to_self_msat = channel_value_satoshis * 1000 - push_msat;
- let commitment_tx_fee = commit_tx_fee_msat(feerate, MIN_AFFORDABLE_HTLC_COUNT, channel_type.requires_anchors_zero_fee_htlc_tx());
+ let commitment_tx_fee = commit_tx_fee_msat(commitment_feerate, MIN_AFFORDABLE_HTLC_COUNT, &channel_type);
if value_to_self_msat < commitment_tx_fee {
return Err(APIError::APIMisuseError{ err: format!("Funding amount ({}) can't even pay fee for initial commitment transaction fee of {}.", value_to_self_msat / 1000, commitment_tx_fee / 1000) });
}
short_channel_id: None,
channel_creation_height: current_chain_height,
- feerate_per_kw: feerate,
+ feerate_per_kw: commitment_feerate,
counterparty_dust_limit_satoshis: 0,
holder_dust_limit_satoshis: MIN_CHAN_DUST_LIMIT_SATOSHIS,
counterparty_max_htlc_value_in_flight_msat: 0,
is_outbound_from_holder: true,
counterparty_parameters: None,
funding_outpoint: None,
- opt_anchors: if channel_type.requires_anchors_zero_fee_htlc_tx() { Some(()) } else { None },
- opt_non_zero_fee_anchors: None
+ channel_type_features: channel_type.clone()
},
funding_transaction: None,
channel_type,
channel_keys_id,
- pending_monitor_updates: Vec::new(),
+ blocked_monitor_updates: Vec::new(),
}
})
}
// Optionally, if the user would like to negotiate the `anchors_zero_fee_htlc_tx` option, we
// set it now. If they don't understand it, we'll fall back to our default of
// `only_static_remotekey`.
- #[cfg(anchors)]
- { // Attributes are not allowed on if expressions on our current MSRV of 1.41.
- if config.channel_handshake_config.negotiate_anchors_zero_fee_htlc_tx &&
- their_features.supports_anchors_zero_fee_htlc_tx() {
- ret.set_anchors_zero_fee_htlc_tx_required();
- }
+ if config.channel_handshake_config.negotiate_anchors_zero_fee_htlc_tx &&
+ their_features.supports_anchors_zero_fee_htlc_tx() {
+ ret.set_anchors_zero_fee_htlc_tx_required();
}
ret
/// If we receive an error message, it may only be a rejection of the channel type we tried,
/// not of our ability to open any channel at all. Thus, on error, we should first call this
/// and see if we get a new `OpenChannel` message, otherwise the channel is failed.
- pub(crate) fn maybe_handle_error_without_close(&mut self, chain_hash: BlockHash) -> Result<msgs::OpenChannel, ()> {
+ pub(crate) fn maybe_handle_error_without_close<F: Deref>(
+ &mut self, chain_hash: BlockHash, fee_estimator: &LowerBoundedFeeEstimator<F>
+ ) -> Result<msgs::OpenChannel, ()>
+ where
+ F::Target: FeeEstimator
+ {
if !self.context.is_outbound() || self.context.channel_state != ChannelState::OurInitSent as u32 { return Err(()); }
if self.context.channel_type == ChannelTypeFeatures::only_static_remote_key() {
// We've exhausted our options
// whatever reason.
if self.context.channel_type.supports_anchors_zero_fee_htlc_tx() {
self.context.channel_type.clear_anchors_zero_fee_htlc_tx();
- assert!(self.context.channel_transaction_parameters.opt_non_zero_fee_anchors.is_none());
- self.context.channel_transaction_parameters.opt_anchors = None;
+ self.context.feerate_per_kw = fee_estimator.bounded_sat_per_1000_weight(ConfirmationTarget::Normal);
+ assert!(!self.context.channel_transaction_parameters.channel_type_features.supports_anchors_nonzero_fee_htlc_tx());
} else if self.context.channel_type.supports_scid_privacy() {
self.context.channel_type.clear_scid_privacy();
} else {
self.context.channel_type = ChannelTypeFeatures::only_static_remote_key();
}
+ self.context.channel_transaction_parameters.channel_type_features = self.context.channel_type.clone();
Ok(self.get_open_channel(chain_hash))
}
if channel_type != ChannelTypeFeatures::only_static_remote_key() {
return Err(ChannelError::Close("Only static_remote_key is supported for non-negotiated channel types".to_owned()));
}
- self.context.channel_type = channel_type;
+ self.context.channel_type = channel_type.clone();
+ self.context.channel_transaction_parameters.channel_type_features = channel_type;
}
let counterparty_shutdown_scriptpubkey = if their_features.supports_upfront_shutdown_script() {
}
channel_type
};
- let opt_anchors = channel_type.supports_anchors_zero_fee_htlc_tx();
let channel_keys_id = signer_provider.generate_channel_keys_id(true, msg.funding_satoshis, user_id);
let holder_signer = signer_provider.derive_channel_signer(msg.funding_satoshis, channel_keys_id);
if msg.htlc_minimum_msat >= full_channel_value_msat {
return Err(ChannelError::Close(format!("Minimum htlc value ({}) was larger than full channel value ({})", msg.htlc_minimum_msat, full_channel_value_msat)));
}
- Channel::<Signer>::check_remote_fee(fee_estimator, msg.feerate_per_kw, None, logger)?;
+ Channel::<Signer>::check_remote_fee(&channel_type, fee_estimator, msg.feerate_per_kw, None, logger)?;
let max_counterparty_selected_contest_delay = u16::min(config.channel_handshake_limits.their_to_self_delay, MAX_LOCAL_BREAKDOWN_TIMEOUT);
if msg.to_self_delay > max_counterparty_selected_contest_delay {
// check if the funder's amount for the initial commitment tx is sufficient
// for full fee payment plus a few HTLCs to ensure the channel will be useful.
let funders_amount_msat = msg.funding_satoshis * 1000 - msg.push_msat;
- let commitment_tx_fee = commit_tx_fee_msat(msg.feerate_per_kw, MIN_AFFORDABLE_HTLC_COUNT, opt_anchors) / 1000;
+ let commitment_tx_fee = commit_tx_fee_msat(msg.feerate_per_kw, MIN_AFFORDABLE_HTLC_COUNT, &channel_type) / 1000;
if funders_amount_msat / 1000 < commitment_tx_fee {
return Err(ChannelError::Close(format!("Funding amount ({} sats) can't even pay fee for initial commitment transaction fee of {} sats.", funders_amount_msat / 1000, commitment_tx_fee)));
}
pubkeys: counterparty_pubkeys,
}),
funding_outpoint: None,
- opt_anchors: if opt_anchors { Some(()) } else { None },
- opt_non_zero_fee_anchors: None
+ channel_type_features: channel_type.clone()
},
funding_transaction: None,
channel_type,
channel_keys_id,
- pending_monitor_updates: Vec::new(),
+ blocked_monitor_updates: Vec::new(),
}
};
(5, self.context.config, required),
(6, serialized_holder_htlc_max_in_flight, option),
(7, self.context.shutdown_scriptpubkey, option),
+ (8, self.context.blocked_monitor_updates, optional_vec),
(9, self.context.target_closing_feerate_sats_per_kw, option),
- (11, self.context.monitor_pending_finalized_fulfills, vec_type),
+ (11, self.context.monitor_pending_finalized_fulfills, required_vec),
(13, self.context.channel_creation_height, required),
- (15, preimages, vec_type),
+ (15, preimages, required_vec),
(17, self.context.announcement_sigs_state, required),
(19, self.context.latest_inbound_scid_alias, option),
(21, self.context.outbound_scid_alias, required),
(28, holder_max_accepted_htlcs, option),
(29, self.context.temporary_channel_id, option),
(31, channel_pending_event_emitted, option),
- (33, self.context.pending_monitor_updates, vec_type),
(35, pending_outbound_skimmed_fees, optional_vec),
(37, holding_cell_skimmed_fees, optional_vec),
});
_ => return Err(DecodeError::InvalidValue),
};
- let channel_parameters: ChannelTransactionParameters = Readable::read(reader)?;
+ let mut channel_parameters: ChannelTransactionParameters = Readable::read(reader)?;
let funding_transaction = Readable::read(reader)?;
let counterparty_cur_commitment_point = Readable::read(reader)?;
let mut temporary_channel_id: Option<[u8; 32]> = None;
let mut holder_max_accepted_htlcs: Option<u16> = None;
- let mut pending_monitor_updates = Some(Vec::new());
+ let mut blocked_monitor_updates = Some(Vec::new());
let mut pending_outbound_skimmed_fees_opt: Option<Vec<Option<u64>>> = None;
let mut holding_cell_skimmed_fees_opt: Option<Vec<Option<u64>>> = None;
(5, config, option), // Note that if none is provided we will *not* overwrite the existing one.
(6, holder_max_htlc_value_in_flight_msat, option),
(7, shutdown_scriptpubkey, option),
+ (8, blocked_monitor_updates, optional_vec),
(9, target_closing_feerate_sats_per_kw, option),
- (11, monitor_pending_finalized_fulfills, vec_type),
+ (11, monitor_pending_finalized_fulfills, optional_vec),
(13, channel_creation_height, option),
- (15, preimages_opt, vec_type),
+ (15, preimages_opt, optional_vec),
(17, announcement_sigs_state, option),
(19, latest_inbound_scid_alias, option),
(21, outbound_scid_alias, option),
(28, holder_max_accepted_htlcs, option),
(29, temporary_channel_id, option),
(31, channel_pending_event_emitted, option),
- (33, pending_monitor_updates, vec_type),
(35, pending_outbound_skimmed_fees_opt, optional_vec),
(37, holding_cell_skimmed_fees_opt, optional_vec),
});
return Err(DecodeError::UnknownRequiredFeature);
}
+ // ChannelTransactionParameters may have had an empty features set upon deserialization.
+ // To account for that, we're proactively setting/overriding the field here.
+ channel_parameters.channel_type_features = chan_features.clone();
+
let mut secp_ctx = Secp256k1::new();
secp_ctx.seeded_randomize(&entropy_source.get_secure_random_bytes());
channel_type: channel_type.unwrap(),
channel_keys_id,
- pending_monitor_updates: pending_monitor_updates.unwrap(),
+ blocked_monitor_updates: blocked_monitor_updates.unwrap(),
}
})
}
use hex;
use crate::ln::PaymentHash;
use crate::ln::channelmanager::{self, HTLCSource, PaymentId};
- #[cfg(anchors)]
use crate::ln::channel::InitFeatures;
use crate::ln::channel::{Channel, InboundHTLCOutput, OutboundV1Channel, InboundV1Channel, OutboundHTLCOutput, InboundHTLCState, OutboundHTLCState, HTLCCandidate, HTLCInitiator, commit_tx_fee_msat};
use crate::ln::channel::{MAX_FUNDING_SATOSHIS_NO_WUMBO, TOTAL_BITCOIN_SUPPLY_SATOSHIS, MIN_THEIR_CHAN_RESERVE_SATOSHIS};
// arithmetic, causing a panic with debug assertions enabled.
let fee_est = TestFeeEstimator { fee_est: 42 };
let bounded_fee_estimator = LowerBoundedFeeEstimator::new(&fee_est);
- assert!(Channel::<InMemorySigner>::check_remote_fee(&bounded_fee_estimator,
+ assert!(Channel::<InMemorySigner>::check_remote_fee(
+ &ChannelTypeFeatures::only_static_remote_key(), &bounded_fee_estimator,
u32::max_value(), None, &&test_utils::TestLogger::new()).is_err());
}
}
}
- #[cfg(not(feature = "grind_signatures"))]
+ #[cfg(all(feature = "_test_vectors", not(feature = "grind_signatures")))]
fn public_from_secret_hex(secp_ctx: &Secp256k1<bitcoin::secp256k1::All>, hex: &str) -> PublicKey {
PublicKey::from_secret_key(&secp_ctx, &SecretKey::from_slice(&hex::decode(hex).unwrap()[..]).unwrap())
}
// the dust limit check.
let htlc_candidate = HTLCCandidate::new(htlc_amount_msat, HTLCInitiator::LocalOffered);
let local_commit_tx_fee = node_a_chan.context.next_local_commit_tx_fee_msat(htlc_candidate, None);
- let local_commit_fee_0_htlcs = commit_tx_fee_msat(node_a_chan.context.feerate_per_kw, 0, node_a_chan.context.opt_anchors());
+ let local_commit_fee_0_htlcs = commit_tx_fee_msat(node_a_chan.context.feerate_per_kw, 0, node_a_chan.context.get_channel_type());
assert_eq!(local_commit_tx_fee, local_commit_fee_0_htlcs);
// Finally, make sure that when Node A calculates the remote's commitment transaction fees, all
// of the HTLCs are seen to be above the dust limit.
node_a_chan.context.channel_transaction_parameters.is_outbound_from_holder = false;
- let remote_commit_fee_3_htlcs = commit_tx_fee_msat(node_a_chan.context.feerate_per_kw, 3, node_a_chan.context.opt_anchors());
+ let remote_commit_fee_3_htlcs = commit_tx_fee_msat(node_a_chan.context.feerate_per_kw, 3, node_a_chan.context.get_channel_type());
let htlc_candidate = HTLCCandidate::new(htlc_amount_msat, HTLCInitiator::LocalOffered);
let remote_commit_tx_fee = node_a_chan.context.next_remote_commit_tx_fee_msat(htlc_candidate, None);
assert_eq!(remote_commit_tx_fee, remote_commit_fee_3_htlcs);
let config = UserConfig::default();
let mut chan = OutboundV1Channel::<EnforcingSigner>::new(&fee_est, &&keys_provider, &&keys_provider, node_id, &channelmanager::provided_init_features(&config), 10000000, 100000, 42, &config, 0, 42).unwrap();
- let commitment_tx_fee_0_htlcs = commit_tx_fee_msat(chan.context.feerate_per_kw, 0, chan.context.opt_anchors());
- let commitment_tx_fee_1_htlc = commit_tx_fee_msat(chan.context.feerate_per_kw, 1, chan.context.opt_anchors());
+ let commitment_tx_fee_0_htlcs = commit_tx_fee_msat(chan.context.feerate_per_kw, 0, chan.context.get_channel_type());
+ let commitment_tx_fee_1_htlc = commit_tx_fee_msat(chan.context.feerate_per_kw, 1, chan.context.get_channel_type());
// If HTLC_SUCCESS_TX_WEIGHT and HTLC_TIMEOUT_TX_WEIGHT were swapped: then this HTLC would be
// counted as dust when it shouldn't be.
- let htlc_amt_above_timeout = ((253 * htlc_timeout_tx_weight(chan.context.opt_anchors()) / 1000) + chan.context.holder_dust_limit_satoshis + 1) * 1000;
+ let htlc_amt_above_timeout = ((253 * htlc_timeout_tx_weight(chan.context.get_channel_type()) / 1000) + chan.context.holder_dust_limit_satoshis + 1) * 1000;
let htlc_candidate = HTLCCandidate::new(htlc_amt_above_timeout, HTLCInitiator::LocalOffered);
let commitment_tx_fee = chan.context.next_local_commit_tx_fee_msat(htlc_candidate, None);
assert_eq!(commitment_tx_fee, commitment_tx_fee_1_htlc);
// If swapped: this HTLC would be counted as non-dust when it shouldn't be.
- let dust_htlc_amt_below_success = ((253 * htlc_success_tx_weight(chan.context.opt_anchors()) / 1000) + chan.context.holder_dust_limit_satoshis - 1) * 1000;
+ let dust_htlc_amt_below_success = ((253 * htlc_success_tx_weight(chan.context.get_channel_type()) / 1000) + chan.context.holder_dust_limit_satoshis - 1) * 1000;
let htlc_candidate = HTLCCandidate::new(dust_htlc_amt_below_success, HTLCInitiator::RemoteOffered);
let commitment_tx_fee = chan.context.next_local_commit_tx_fee_msat(htlc_candidate, None);
assert_eq!(commitment_tx_fee, commitment_tx_fee_0_htlcs);
chan.context.channel_transaction_parameters.is_outbound_from_holder = false;
// If swapped: this HTLC would be counted as non-dust when it shouldn't be.
- let dust_htlc_amt_above_timeout = ((253 * htlc_timeout_tx_weight(chan.context.opt_anchors()) / 1000) + chan.context.counterparty_dust_limit_satoshis + 1) * 1000;
+ let dust_htlc_amt_above_timeout = ((253 * htlc_timeout_tx_weight(chan.context.get_channel_type()) / 1000) + chan.context.counterparty_dust_limit_satoshis + 1) * 1000;
let htlc_candidate = HTLCCandidate::new(dust_htlc_amt_above_timeout, HTLCInitiator::LocalOffered);
let commitment_tx_fee = chan.context.next_remote_commit_tx_fee_msat(htlc_candidate, None);
assert_eq!(commitment_tx_fee, commitment_tx_fee_0_htlcs);
// If swapped: this HTLC would be counted as dust when it shouldn't be.
- let htlc_amt_below_success = ((253 * htlc_success_tx_weight(chan.context.opt_anchors()) / 1000) + chan.context.counterparty_dust_limit_satoshis - 1) * 1000;
+ let htlc_amt_below_success = ((253 * htlc_success_tx_weight(chan.context.get_channel_type()) / 1000) + chan.context.counterparty_dust_limit_satoshis - 1) * 1000;
let htlc_candidate = HTLCCandidate::new(htlc_amt_below_success, HTLCInitiator::RemoteOffered);
let commitment_tx_fee = chan.context.next_remote_commit_tx_fee_msat(htlc_candidate, None);
assert_eq!(commitment_tx_fee, commitment_tx_fee_1_htlc);
macro_rules! test_commitment {
( $counterparty_sig_hex: expr, $sig_hex: expr, $tx_hex: expr, $($remain:tt)* ) => {
- chan.context.channel_transaction_parameters.opt_anchors = None;
- test_commitment_common!($counterparty_sig_hex, $sig_hex, $tx_hex, false, $($remain)*);
+ chan.context.channel_transaction_parameters.channel_type_features = ChannelTypeFeatures::only_static_remote_key();
+ test_commitment_common!($counterparty_sig_hex, $sig_hex, $tx_hex, &ChannelTypeFeatures::only_static_remote_key(), $($remain)*);
};
}
macro_rules! test_commitment_with_anchors {
( $counterparty_sig_hex: expr, $sig_hex: expr, $tx_hex: expr, $($remain:tt)* ) => {
- chan.context.channel_transaction_parameters.opt_anchors = Some(());
- test_commitment_common!($counterparty_sig_hex, $sig_hex, $tx_hex, true, $($remain)*);
+ chan.context.channel_transaction_parameters.channel_type_features = ChannelTypeFeatures::anchors_zero_htlc_fee_and_dependencies();
+ test_commitment_common!($counterparty_sig_hex, $sig_hex, $tx_hex, &ChannelTypeFeatures::anchors_zero_htlc_fee_and_dependencies(), $($remain)*);
};
}
let ref htlc = htlcs[$htlc_idx];
let htlc_tx = chan_utils::build_htlc_transaction(&unsigned_tx.txid, chan.context.feerate_per_kw,
chan.context.get_counterparty_selected_contest_delay().unwrap(),
- &htlc, $opt_anchors, false, &keys.broadcaster_delayed_payment_key, &keys.revocation_key);
+ &htlc, $opt_anchors, &keys.broadcaster_delayed_payment_key, &keys.revocation_key);
let htlc_redeemscript = chan_utils::get_htlc_redeemscript(&htlc, $opt_anchors, &keys);
- let htlc_sighashtype = if $opt_anchors { EcdsaSighashType::SinglePlusAnyoneCanPay } else { EcdsaSighashType::All };
+ let htlc_sighashtype = if $opt_anchors.supports_anchors_zero_fee_htlc_tx() { EcdsaSighashType::SinglePlusAnyoneCanPay } else { EcdsaSighashType::All };
let htlc_sighash = Message::from_slice(&sighash::SighashCache::new(&htlc_tx).segwit_signature_hash(0, &htlc_redeemscript, htlc.amount_msat / 1000, htlc_sighashtype).unwrap()[..]).unwrap();
assert!(secp_ctx.verify_ecdsa(&htlc_sighash, &remote_signature, &keys.countersignatory_htlc_key).is_ok(), "verify counterparty htlc sig");
}
let htlc_sig = htlc_sig_iter.next().unwrap();
- let num_anchors = if $opt_anchors { 2 } else { 0 };
+ let num_anchors = if $opt_anchors.supports_anchors_zero_fee_htlc_tx() { 2 } else { 0 };
assert_eq!((htlc_sig.0).0.transaction_output_index, Some($htlc_idx + num_anchors), "output index");
let signature = Signature::from_der(&hex::decode($htlc_sig_hex).unwrap()[..]).unwrap();
chan.context.value_to_self_msat = 6993000000; // 7000000000 - 7000000
chan.context.feerate_per_kw = 2185;
chan.context.holder_dust_limit_satoshis = 2001;
+ let cached_channel_type = chan.context.channel_type;
+ chan.context.channel_type = ChannelTypeFeatures::anchors_zero_htlc_fee_and_dependencies();
test_commitment_with_anchors!("3044022040f63a16148cf35c8d3d41827f5ae7f7c3746885bb64d4d1b895892a83812b3e02202fcf95c2bf02c466163b3fa3ced6a24926fbb4035095a96842ef516e86ba54c0",
"3045022100cd8479cfe1edb1e5a1d487391e0451a469c7171e51e680183f19eb4321f20e9b02204eab7d5a6384b1b08e03baa6e4d9748dfd2b5ab2bae7e39604a0d0055bbffdd5",
chan.context.value_to_self_msat = 6993000000; // 7000000000 - 7000000
chan.context.feerate_per_kw = 3702;
chan.context.holder_dust_limit_satoshis = 546;
+ chan.context.channel_type = cached_channel_type.clone();
test_commitment!("304502210092a587aeb777f869e7ff0d7898ea619ee26a3dacd1f3672b945eea600be431100220077ee9eae3528d15251f2a52b607b189820e57a6ccfac8d1af502b132ee40169",
"3045022100e5efb73c32d32da2d79702299b6317de6fb24a60476e3855926d78484dd1b3c802203557cb66a42c944ef06e00bcc4da35a5bcb2f185aab0f8e403e519e1d66aaf75",
chan.context.value_to_self_msat = 6993000000; // 7000000000 - 7000000
chan.context.feerate_per_kw = 3687;
chan.context.holder_dust_limit_satoshis = 3001;
+ chan.context.channel_type = ChannelTypeFeatures::anchors_zero_htlc_fee_and_dependencies();
test_commitment_with_anchors!("3045022100ad6c71569856b2d7ff42e838b4abe74a713426b37f22fa667a195a4c88908c6902202b37272b02a42dc6d9f4f82cab3eaf84ac882d9ed762859e1e75455c2c228377",
"3045022100c970799bcb33f43179eb43b3378a0a61991cf2923f69b36ef12548c3df0e6d500220413dc27d2e39ee583093adfcb7799be680141738babb31cc7b0669a777a31f5d",
chan.context.value_to_self_msat = 6993000000; // 7000000000 - 7000000
chan.context.feerate_per_kw = 4914;
chan.context.holder_dust_limit_satoshis = 546;
+ chan.context.channel_type = cached_channel_type.clone();
test_commitment!("3045022100b4b16d5f8cc9fc4c1aff48831e832a0d8990e133978a66e302c133550954a44d022073573ce127e2200d316f6b612803a5c0c97b8d20e1e44dbe2ac0dd2fb8c95244",
"3045022100d72638bc6308b88bb6d45861aae83e5b9ff6e10986546e13bce769c70036e2620220320be7c6d66d22f30b9fcd52af66531505b1310ca3b848c19285b38d8a1a8c19",
chan.context.value_to_self_msat = 6993000000; // 7000000000 - 7000000
chan.context.feerate_per_kw = 4894;
chan.context.holder_dust_limit_satoshis = 4001;
+ chan.context.channel_type = ChannelTypeFeatures::anchors_zero_htlc_fee_and_dependencies();
test_commitment_with_anchors!("3045022100e784a66b1588575801e237d35e510fd92a81ae3a4a2a1b90c031ad803d07b3f3022021bc5f16501f167607d63b681442da193eb0a76b4b7fd25c2ed4f8b28fd35b95",
"30450221009f16ac85d232e4eddb3fcd750a68ebf0b58e3356eaada45d3513ede7e817bf4c02207c2b043b4e5f971261975406cb955219fa56bffe5d834a833694b5abc1ce4cfd",
chan.context.value_to_self_msat = 6993000000; // 7000000000 - 7000000
chan.context.feerate_per_kw = 9651180;
chan.context.holder_dust_limit_satoshis = 546;
+ chan.context.channel_type = cached_channel_type.clone();
test_commitment!("304402200a8544eba1d216f5c5e530597665fa9bec56943c0f66d98fc3d028df52d84f7002201e45fa5c6bc3a506cc2553e7d1c0043a9811313fc39c954692c0d47cfce2bbd3",
"3045022100e11b638c05c650c2f63a421d36ef8756c5ce82f2184278643520311cdf50aa200220259565fb9c8e4a87ccaf17f27a3b9ca4f20625754a0920d9c6c239d8156a11de",
chan.context.value_to_self_msat = 6993000000; // 7000000000 - 7000000
chan.context.feerate_per_kw = 6216010;
chan.context.holder_dust_limit_satoshis = 4001;
+ chan.context.channel_type = ChannelTypeFeatures::anchors_zero_htlc_fee_and_dependencies();
test_commitment_with_anchors!("30450221008fd5dbff02e4b59020d4cd23a3c30d3e287065fda75a0a09b402980adf68ccda022001e0b8b620cd915ddff11f1de32addf23d81d51b90e6841b2cb8dcaf3faa5ecf",
"30450221009ad80792e3038fe6968d12ff23e6888a565c3ddd065037f357445f01675d63f3022018384915e5f1f4ae157e15debf4f49b61c8d9d2b073c7d6f97c4a68caa3ed4c1",
chan.context.value_to_self_msat = 6993000000; // 7000000000 - 7000000
chan.context.feerate_per_kw = 9651936;
chan.context.holder_dust_limit_satoshis = 546;
+ chan.context.channel_type = cached_channel_type;
test_commitment!("304402202ade0142008309eb376736575ad58d03e5b115499709c6db0b46e36ff394b492022037b63d78d66404d6504d4c4ac13be346f3d1802928a6d3ad95a6a944227161a2",
"304402207e8d51e0c570a5868a78414f4e0cbfaed1106b171b9581542c30718ee4eb95ba02203af84194c97adf98898c9afe2f2ed4a7f8dba05a2dfab28ac9d9c604aa49a379",
"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" }
} );
+ chan.context.channel_type = ChannelTypeFeatures::anchors_zero_htlc_fee_and_dependencies();
test_commitment_with_anchors!("3044022027b38dfb654c34032ffb70bb43022981652fce923cbbe3cbe7394e2ade8b34230220584195b78da6e25c2e8da6b4308d9db25b65b64975db9266163ef592abb7c725",
"3045022100b4014970d9d7962853f3f85196144671d7d5d87426250f0a5fdaf9a55292e92502205360910c9abb397467e19dbd63d081deb4a3240903114c98cec0a23591b79b76",
"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", {
assert!(res.is_ok());
}
- #[cfg(anchors)]
#[test]
fn test_supports_anchors_zero_htlc_tx_fee() {
// Tests that if both sides support and negotiate `anchors_zero_fee_htlc_tx`, it is the
assert_eq!(channel_b.context.channel_type, expected_channel_type);
}
- #[cfg(anchors)]
#[test]
fn test_rejects_implicit_simple_anchors() {
// Tests that if `option_anchors` is being negotiated implicitly through the intersection of
assert!(channel_b.is_err());
}
- #[cfg(anchors)]
#[test]
fn test_rejects_simple_anchors_channel_type() {
// Tests that if `option_anchors` is being negotiated through the `channel_type` feature,
let simple_anchors_raw_features = static_remote_key_required | simple_anchors_required;
let simple_anchors_init = InitFeatures::from_le_bytes(simple_anchors_raw_features.to_le_bytes().to_vec());
let simple_anchors_channel_type = ChannelTypeFeatures::from_le_bytes(simple_anchors_raw_features.to_le_bytes().to_vec());
- assert!(simple_anchors_init.requires_unknown_bits());
- assert!(simple_anchors_channel_type.requires_unknown_bits());
+ assert!(!simple_anchors_init.requires_unknown_bits());
+ assert!(!simple_anchors_channel_type.requires_unknown_bits());
// First, we'll try to open a channel between A and B where A requests a channel type for
// the original `option_anchors` feature (non zero fee htlc tx). This should be rejected by