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Implement claiming of revoked HTLC transactions by ChannelMonitor

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Refactor check_spend_remote_transaction in part to check_spend_remote_htlc to
avoid lock mess in block_connected. We need
remote_commitment_txn_on_chain to match remote HTLC tx
This commit is contained in:
Antoine Riard 2018-09-11 01:40:53 +00:00
parent d84c084df7
commit 3e149b1fb6
1 changed files with 97 additions and 7 deletions
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104
src/ln/channelmonitor.rs
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@ -924,8 +924,7 @@ impl ChannelMonitor {
/// Attempts to claim a remote commitment transaction's outputs using the revocation key and
/// data in remote_claimable_outpoints. Will directly claim any HTLC outputs which expire at a
/// height > height + CLTV_SHARED_CLAIM_BUFFER. In any case, will install monitoring for
/// HTLC-Success/HTLC-Timeout transactions, and claim them using the revocation key (if
/// applicable) as well.
/// HTLC-Success/HTLC-Timeout transactions.
fn check_spend_remote_transaction(&self, tx: &Transaction, height: u32) -> (Vec<Transaction>, (Sha256dHash, Vec<TxOut>)) {
// Most secp and related errors trying to create keys means we have no hope of constructing
// a spend transaction...so we return no transactions to broadcast
@ -1205,13 +1204,97 @@ impl ChannelMonitor {
txn_to_broadcast.push(spend_tx);
}
}
} else {
//TODO: For each input check if its in our remote_commitment_txn_on_chain map!
}
(txn_to_broadcast, (commitment_txid, watch_outputs))
}
/// Attempst to claim a remote HTLC-Success/HTLC-Timeout s outputs using the revocation key
fn check_spend_remote_htlc(&self, tx: &Transaction, commitment_number: u64) -> Vec<Transaction> {
let mut txn_to_broadcast = Vec::new();
let htlc_txid = tx.txid(); //TODO: This is gonna be a performance bottleneck for watchtowers!
macro_rules! ignore_error {
( $thing : expr ) => {
match $thing {
Ok(a) => a,
Err(_) => return txn_to_broadcast
}
};
}
let secret = self.get_secret(commitment_number).unwrap();
let per_commitment_key = ignore_error!(SecretKey::from_slice(&self.secp_ctx, &secret));
let revocation_pubkey = match self.key_storage {
KeyStorage::PrivMode { ref revocation_base_key, .. } => {
let per_commitment_point = PublicKey::from_secret_key(&self.secp_ctx, &per_commitment_key);
ignore_error!(chan_utils::derive_public_revocation_key(&self.secp_ctx, &per_commitment_point, &PublicKey::from_secret_key(&self.secp_ctx, &revocation_base_key)))
},
KeyStorage::SigsMode { ref revocation_base_key, .. } => {
let per_commitment_point = PublicKey::from_secret_key(&self.secp_ctx, &per_commitment_key);
ignore_error!(chan_utils::derive_public_revocation_key(&self.secp_ctx, &per_commitment_point, &revocation_base_key))
},
};
let delayed_key = match self.their_delayed_payment_base_key {
None => return txn_to_broadcast,
Some(their_delayed_payment_base_key) => ignore_error!(chan_utils::derive_public_key(&self.secp_ctx, &PublicKey::from_secret_key(&self.secp_ctx, &per_commitment_key), &their_delayed_payment_base_key)),
};
let redeemscript = chan_utils::get_revokeable_redeemscript(&revocation_pubkey, self.their_to_self_delay.unwrap(), &delayed_key);
let revokeable_p2wsh = redeemscript.to_v0_p2wsh();
let mut inputs = Vec::new();
let mut amount = 0;
if tx.output[0].script_pubkey == revokeable_p2wsh { //HTLC transactions have one txin, one txout
inputs.push(TxIn {
previous_output: BitcoinOutPoint {
txid: htlc_txid,
vout: 0,
},
script_sig: Script::new(),
sequence: 0xfffffffd,
witness: Vec::new(),
});
amount = tx.output[0].value;
}
if !inputs.is_empty() {
let outputs = vec!(TxOut {
script_pubkey: self.destination_script.clone(),
value: amount, //TODO: - fee
});
let mut spend_tx = Transaction {
version: 2,
lock_time: 0,
input: inputs,
output: outputs,
};
let sighash_parts = bip143::SighashComponents::new(&spend_tx);
let sig = match self.key_storage {
KeyStorage::PrivMode { ref revocation_base_key, .. } => {
let sighash = ignore_error!(Message::from_slice(&sighash_parts.sighash_all(&spend_tx.input[0], &redeemscript, amount)[..]));
let revocation_key = ignore_error!(chan_utils::derive_private_revocation_key(&self.secp_ctx, &per_commitment_key, &revocation_base_key));
self.secp_ctx.sign(&sighash, &revocation_key)
}
KeyStorage::SigsMode { .. } => {
unimplemented!();
}
};
spend_tx.input[0].witness.push(sig.serialize_der(&self.secp_ctx).to_vec());
spend_tx.input[0].witness[0].push(SigHashType::All as u8);
spend_tx.input[0].witness.push(vec!(1));
spend_tx.input[0].witness.push(redeemscript.into_bytes());
txn_to_broadcast.push(spend_tx);
}
txn_to_broadcast
}
fn broadcast_by_local_state(&self, local_tx: &LocalSignedTx) -> Vec<Transaction> {
let mut res = Vec::with_capacity(local_tx.htlc_outputs.len());
@ -1273,19 +1356,26 @@ impl ChannelMonitor {
fn block_connected(&self, txn_matched: &[&Transaction], height: u32, broadcaster: &BroadcasterInterface)-> Vec<(Sha256dHash, Vec<TxOut>)> {
let mut watch_outputs = Vec::new();
for tx in txn_matched {
let mut txn: Vec<Transaction> = Vec::new();
for txin in tx.input.iter() {
if self.funding_txo.is_none() || (txin.previous_output.txid == self.funding_txo.as_ref().unwrap().0.txid && txin.previous_output.vout == self.funding_txo.as_ref().unwrap().0.index as u32) {
let (mut txn, new_outputs) = self.check_spend_remote_transaction(tx, height);
let (remote_txn, new_outputs) = self.check_spend_remote_transaction(tx, height);
txn = remote_txn;
if !new_outputs.1.is_empty() {
watch_outputs.push(new_outputs);
}
if txn.is_empty() {
txn = self.check_spend_local_transaction(tx, height);
}
for tx in txn.iter() {
broadcaster.broadcast_transaction(tx);
} else {
let remote_commitment_txn_on_chain = self.remote_commitment_txn_on_chain.lock().unwrap();
for commitment_number in remote_commitment_txn_on_chain.get(&txin.previous_output.txid) {
txn = self.check_spend_remote_htlc(tx, *commitment_number);
}
}
for tx in txn.iter() {
broadcaster.broadcast_transaction(tx);
}
}
}
if let Some(ref cur_local_tx) = self.current_local_signed_commitment_tx {