use bitcoin::secp256k1::{SecretKey,PublicKey};
use bitcoin::sighash::EcdsaSighashType;
use bitcoin::secp256k1::{SecretKey,PublicKey};
use bitcoin::sighash::EcdsaSighashType;
use crate::ln::chan_utils::{self, TxCreationKeys, HTLCOutputInCommitment};
use crate::ln::features::ChannelTypeFeatures;
use crate::ln::channel_keys::{DelayedPaymentBasepoint, HtlcBasepoint};
use crate::ln::msgs::DecodeError;
use crate::chain::chaininterface::{FeeEstimator, ConfirmationTarget, MIN_RELAY_FEE_SAT_PER_1000_WEIGHT, compute_feerate_sat_per_1000_weight, FEERATE_FLOOR_SATS_PER_KW};
use crate::ln::chan_utils::{self, TxCreationKeys, HTLCOutputInCommitment};
use crate::ln::features::ChannelTypeFeatures;
use crate::ln::channel_keys::{DelayedPaymentBasepoint, HtlcBasepoint};
use crate::ln::msgs::DecodeError;
use crate::chain::chaininterface::{FeeEstimator, ConfirmationTarget, MIN_RELAY_FEE_SAT_PER_1000_WEIGHT, compute_feerate_sat_per_1000_weight, FEERATE_FLOOR_SATS_PER_KW};
use crate::sign::ecdsa::WriteableEcdsaChannelSigner;
use crate::chain::onchaintx::{FeerateStrategy, ExternalHTLCClaim, OnchainTxHandler};
use crate::util::logger::Logger;
use crate::util::ser::{Readable, Writer, Writeable, RequiredWrapper};
use crate::io;
use crate::sign::ecdsa::WriteableEcdsaChannelSigner;
use crate::chain::onchaintx::{FeerateStrategy, ExternalHTLCClaim, OnchainTxHandler};
use crate::util::logger::Logger;
use crate::util::ser::{Readable, Writer, Writeable, RequiredWrapper};
use crate::io;
- fn get_finalized_tx<Signer: WriteableEcdsaChannelSigner>(&self, outpoint: &BitcoinOutPoint, onchain_handler: &mut OnchainTxHandler<Signer>) -> Option<Transaction> {
+ fn get_maybe_finalized_tx<Signer: WriteableEcdsaChannelSigner>(&self, outpoint: &BitcoinOutPoint, onchain_handler: &mut OnchainTxHandler<Signer>) -> Option<MaybeSignedTransaction> {
match self {
PackageSolvingData::HolderHTLCOutput(ref outp) => {
debug_assert!(!outp.channel_type_features.supports_anchors_zero_fee_htlc_tx());
match self {
PackageSolvingData::HolderHTLCOutput(ref outp) => {
debug_assert!(!outp.channel_type_features.supports_anchors_zero_fee_htlc_tx());
&self, current_height: u32, onchain_handler: &mut OnchainTxHandler<Signer>, value: u64,
destination_script: ScriptBuf, logger: &L
&self, current_height: u32, onchain_handler: &mut OnchainTxHandler<Signer>, value: u64,
destination_script: ScriptBuf, logger: &L
}
for (i, (outpoint, out)) in self.inputs.iter().enumerate() {
log_debug!(logger, "Adding claiming input for outpoint {}:{}", outpoint.txid, outpoint.vout);
}
for (i, (outpoint, out)) in self.inputs.iter().enumerate() {
log_debug!(logger, "Adding claiming input for outpoint {}:{}", outpoint.txid, outpoint.vout);
&self, onchain_handler: &mut OnchainTxHandler<Signer>, logger: &L,
&self, onchain_handler: &mut OnchainTxHandler<Signer>, logger: &L,
debug_assert!(!self.is_malleable());
if let Some((outpoint, outp)) = self.inputs.first() {
debug_assert!(!self.is_malleable());
if let Some((outpoint, outp)) = self.inputs.first() {
log_debug!(logger, "Adding claiming input for outpoint {}:{}", outpoint.txid, outpoint.vout);
log_debug!(logger, "Adding claiming input for outpoint {}:{}", outpoint.txid, outpoint.vout);
if self.feerate_previous != 0 {
let previous_feerate = self.feerate_previous.try_into().unwrap_or(u32::max_value());
match feerate_strategy {
if self.feerate_previous != 0 {
let previous_feerate = self.feerate_previous.try_into().unwrap_or(u32::max_value());
match feerate_strategy {
FeerateStrategy::HighestOfPreviousOrNew => cmp::max(previous_feerate, feerate_estimate),
FeerateStrategy::ForceBump => if feerate_estimate > previous_feerate {
feerate_estimate
FeerateStrategy::HighestOfPreviousOrNew => cmp::max(previous_feerate, feerate_estimate),
FeerateStrategy::ForceBump => if feerate_estimate > previous_feerate {
feerate_estimate
// If old feerate inferior to actual one given back by Fee Estimator, use it to compute new fee...
let (new_fee, new_feerate) = if let Some((new_fee, new_feerate)) = compute_fee_from_spent_amounts(input_amounts, predicted_weight, fee_estimator, logger) {
match feerate_strategy {
// If old feerate inferior to actual one given back by Fee Estimator, use it to compute new fee...
let (new_fee, new_feerate) = if let Some((new_fee, new_feerate)) = compute_fee_from_spent_amounts(input_amounts, predicted_weight, fee_estimator, logger) {
match feerate_strategy {
use crate::chain::package::{CounterpartyOfferedHTLCOutput, CounterpartyReceivedHTLCOutput, HolderHTLCOutput, PackageTemplate, PackageSolvingData, RevokedOutput, WEIGHT_REVOKED_OUTPUT, weight_offered_htlc, weight_received_htlc};
use crate::chain::Txid;
use crate::ln::chan_utils::HTLCOutputInCommitment;
use crate::chain::package::{CounterpartyOfferedHTLCOutput, CounterpartyReceivedHTLCOutput, HolderHTLCOutput, PackageTemplate, PackageSolvingData, RevokedOutput, WEIGHT_REVOKED_OUTPUT, weight_offered_htlc, weight_received_htlc};
use crate::chain::Txid;
use crate::ln::chan_utils::HTLCOutputInCommitment;
use crate::ln::channel_keys::{DelayedPaymentBasepoint, HtlcBasepoint};
use bitcoin::blockdata::constants::WITNESS_SCALE_FACTOR;
use crate::ln::channel_keys::{DelayedPaymentBasepoint, HtlcBasepoint};
use bitcoin::blockdata::constants::WITNESS_SCALE_FACTOR;