X-Git-Url: http://git.bitcoin.ninja/index.cgi?a=blobdiff_plain;f=src%2Fln%2Fchannelmonitor.rs;h=4b6b30cd58cf8ba1c671e38a057f2cdfc55903bb;hb=28b1ae09d551b40b00477015786d812c06cc65fb;hp=6de0a63609ac6a4c8333796ad6da639f0c0760fe;hpb=3e149b1fb6624eef99b055bde772842f364abdca;p=rust-lightning diff --git a/src/ln/channelmonitor.rs b/src/ln/channelmonitor.rs index 6de0a636..4b6b30cd 100644 --- a/src/ln/channelmonitor.rs +++ b/src/ln/channelmonitor.rs @@ -1,9 +1,23 @@ +//! The logic to monitor for on-chain transactions and create the relevant claim responses lives +//! here. +//! +//! ChannelMonitor objects are generated by ChannelManager in response to relevant +//! messages/actions, and MUST be persisted to disk (and, preferably, remotely) before progress can +//! be made in responding to certain messages, see ManyChannelMonitor for more. +//! +//! Note that ChannelMonitors are an important part of the lightning trust model and a copy of the +//! latest ChannelMonitor must always be actively monitoring for chain updates (and no out-of-date +//! ChannelMonitors should do so). Thus, if you're building rust-lightning into an HSM or other +//! security-domain-separated system design, you should consider having multiple paths for +//! ChannelMonitors to get out of the HSM and onto monitoring devices. + use bitcoin::blockdata::block::BlockHeader; use bitcoin::blockdata::transaction::{TxIn,TxOut,SigHashType,Transaction}; use bitcoin::blockdata::transaction::OutPoint as BitcoinOutPoint; -use bitcoin::blockdata::script::Script; -use bitcoin::network::serialize; -use bitcoin::util::hash::Sha256dHash; +use bitcoin::blockdata::script::{Script, Builder}; +use bitcoin::blockdata::opcodes; +use bitcoin::consensus::encode::{self, Decodable, Encodable}; +use bitcoin::util::hash::{Hash160, BitcoinHash,Sha256dHash}; use bitcoin::util::bip143; use crypto::digest::Digest; @@ -12,25 +26,47 @@ use secp256k1::{Secp256k1,Message,Signature}; use secp256k1::key::{SecretKey,PublicKey}; use secp256k1; -use ln::msgs::HandleError; +use ln::msgs::DecodeError; use ln::chan_utils; use ln::chan_utils::HTLCOutputInCommitment; use chain::chaininterface::{ChainListener, ChainWatchInterface, BroadcasterInterface}; use chain::transaction::OutPoint; +use chain::keysinterface::SpendableOutputDescriptor; +use util::logger::Logger; +use util::ser::{ReadableArgs, Readable, Writer, Writeable, WriterWriteAdaptor, U48}; use util::sha2::Sha256; -use util::byte_utils; +use util::{byte_utils, events}; use std::collections::HashMap; use std::sync::{Arc,Mutex}; -use std::{hash,cmp}; +use std::{hash,cmp, mem}; +/// An error enum representing a failure to persist a channel monitor update. +#[derive(Clone)] pub enum ChannelMonitorUpdateErr { /// Used to indicate a temporary failure (eg connection to a watchtower failed, but is expected /// to succeed at some point in the future). + /// /// Such a failure will "freeze" a channel, preventing us from revoking old states or /// submitting new commitment transactions to the remote party. /// ChannelManager::test_restore_channel_monitor can be used to retry the update(s) and restore /// the channel to an operational state. + /// + /// Note that continuing to operate when no copy of the updated ChannelMonitor could be + /// persisted is unsafe - if you failed to store the update on your own local disk you should + /// instead return PermanentFailure to force closure of the channel ASAP. + /// + /// Even when a channel has been "frozen" updates to the ChannelMonitor can continue to occur + /// (eg if an inbound HTLC which we forwarded was claimed upstream resulting in us attempting + /// to claim it on this channel) and those updates must be applied wherever they can be. At + /// least one such updated ChannelMonitor must be persisted otherwise PermanentFailure should + /// be returned to get things on-chain ASAP using only the in-memory copy. Obviously updates to + /// the channel which would invalidate previous ChannelMonitors are not made when a channel has + /// been "frozen". + /// + /// Note that even if updates made after TemporaryFailure succeed you must still call + /// test_restore_channel_monitor to ensure you have the latest monitor and re-enable normal + /// channel operation. TemporaryFailure, /// Used to indicate no further channel monitor updates will be allowed (eg we've moved on to a /// different watchtower and cannot update with all watchtowers that were previously informed @@ -38,16 +74,26 @@ pub enum ChannelMonitorUpdateErr { PermanentFailure, } +/// General Err type for ChannelMonitor actions. Generally, this implies that the data provided is +/// inconsistent with the ChannelMonitor being called. eg for ChannelMonitor::insert_combine this +/// means you tried to merge two monitors for different channels or for a channel which was +/// restored from a backup and then generated new commitment updates. +/// Contains a human-readable error message. +#[derive(Debug)] +pub struct MonitorUpdateError(pub &'static str); + /// Simple trait indicating ability to track a set of ChannelMonitors and multiplex events between /// them. Generally should be implemented by keeping a local SimpleManyChannelMonitor and passing /// events to it, while also taking any add_update_monitor events and passing them to some remote /// server(s). +/// /// Note that any updates to a channel's monitor *must* be applied to each instance of the /// channel's monitor everywhere (including remote watchtowers) *before* this function returns. If /// an update occurs and a remote watchtower is left with old state, it may broadcast transactions /// which we have revoked, allowing our counterparty to claim all funds in the channel! pub trait ManyChannelMonitor: Send + Sync { /// Adds or updates a monitor for the given `funding_txo`. + /// /// Implementor must also ensure that the funding_txo outpoint is registered with any relevant /// ChainWatchInterfaces such that the provided monitor receives block_connected callbacks with /// any spends of it. @@ -56,58 +102,95 @@ pub trait ManyChannelMonitor: Send + Sync { /// A simple implementation of a ManyChannelMonitor and ChainListener. Can be used to create a /// watchtower or watch our own channels. +/// /// Note that you must provide your own key by which to refer to channels. +/// /// If you're accepting remote monitors (ie are implementing a watchtower), you must verify that /// users cannot overwrite a given channel by providing a duplicate key. ie you should probably /// index by a PublicKey which is required to sign any updates. +/// /// If you're using this for local monitoring of your own channels, you probably want to use /// `OutPoint` as the key, which will give you a ManyChannelMonitor implementation. pub struct SimpleManyChannelMonitor { + #[cfg(test)] // Used in ChannelManager tests to manipulate channels directly + pub monitors: Mutex>, + #[cfg(not(test))] monitors: Mutex>, chain_monitor: Arc, - broadcaster: Arc + broadcaster: Arc, + pending_events: Mutex>, + logger: Arc, } impl ChainListener for SimpleManyChannelMonitor { - fn block_connected(&self, _header: &BlockHeader, height: u32, txn_matched: &[&Transaction], _indexes_of_txn_matched: &[u32]) { - let monitors = self.monitors.lock().unwrap(); - for monitor in monitors.values() { - let txn_outputs = monitor.block_connected(txn_matched, height, &*self.broadcaster); - for (ref txid, ref outputs) in txn_outputs { - for (idx, output) in outputs.iter().enumerate() { - self.chain_monitor.install_watch_outpoint((txid.clone(), idx as u32), &output.script_pubkey); + fn block_connected(&self, header: &BlockHeader, height: u32, txn_matched: &[&Transaction], _indexes_of_txn_matched: &[u32]) { + let block_hash = header.bitcoin_hash(); + let mut new_events: Vec = Vec::with_capacity(0); + { + let mut monitors = self.monitors.lock().unwrap(); + for monitor in monitors.values_mut() { + let (txn_outputs, spendable_outputs) = monitor.block_connected(txn_matched, height, &block_hash, &*self.broadcaster); + if spendable_outputs.len() > 0 { + new_events.push(events::Event::SpendableOutputs { + outputs: spendable_outputs, + }); + } + for (ref txid, ref outputs) in txn_outputs { + for (idx, output) in outputs.iter().enumerate() { + self.chain_monitor.install_watch_outpoint((txid.clone(), idx as u32), &output.script_pubkey); + } } } } + let mut pending_events = self.pending_events.lock().unwrap(); + pending_events.append(&mut new_events); } fn block_disconnected(&self, _: &BlockHeader) { } } impl SimpleManyChannelMonitor { - pub fn new(chain_monitor: Arc, broadcaster: Arc) -> Arc> { + /// Creates a new object which can be used to monitor several channels given the chain + /// interface with which to register to receive notifications. + pub fn new(chain_monitor: Arc, broadcaster: Arc, logger: Arc) -> Arc> { let res = Arc::new(SimpleManyChannelMonitor { monitors: Mutex::new(HashMap::new()), chain_monitor, - broadcaster + broadcaster, + pending_events: Mutex::new(Vec::new()), + logger, }); let weak_res = Arc::downgrade(&res); res.chain_monitor.register_listener(weak_res); res } - pub fn add_update_monitor_by_key(&self, key: Key, monitor: ChannelMonitor) -> Result<(), HandleError> { + /// Adds or udpates the monitor which monitors the channel referred to by the given key. + pub fn add_update_monitor_by_key(&self, key: Key, monitor: ChannelMonitor) -> Result<(), MonitorUpdateError> { let mut monitors = self.monitors.lock().unwrap(); match monitors.get_mut(&key) { - Some(orig_monitor) => return orig_monitor.insert_combine(monitor), + Some(orig_monitor) => { + log_trace!(self, "Updating Channel Monitor for channel {}", log_funding_info!(monitor.key_storage)); + return orig_monitor.insert_combine(monitor); + }, None => {} }; - match &monitor.funding_txo { - &None => self.chain_monitor.watch_all_txn(), - &Some((ref outpoint, ref script)) => { - self.chain_monitor.install_watch_tx(&outpoint.txid, script); - self.chain_monitor.install_watch_outpoint((outpoint.txid, outpoint.index as u32), script); + match monitor.key_storage { + Storage::Local { ref funding_info, .. } => { + match funding_info { + &None => { + return Err(MonitorUpdateError("Try to update a useless monitor without funding_txo !")); + }, + &Some((ref outpoint, ref script)) => { + log_trace!(self, "Got new Channel Monitor for channel {}", log_bytes!(outpoint.to_channel_id()[..])); + self.chain_monitor.install_watch_tx(&outpoint.txid, script); + self.chain_monitor.install_watch_outpoint((outpoint.txid, outpoint.index as u32), script); + }, + } }, + Storage::Watchtower { .. } => { + self.chain_monitor.watch_all_txn(); + } } monitors.insert(key, monitor); Ok(()) @@ -123,20 +206,42 @@ impl ManyChannelMonitor for SimpleManyChannelMonitor { } } +impl events::EventsProvider for SimpleManyChannelMonitor { + fn get_and_clear_pending_events(&self) -> Vec { + let mut pending_events = self.pending_events.lock().unwrap(); + let mut ret = Vec::new(); + mem::swap(&mut ret, &mut *pending_events); + ret + } +} + /// If an HTLC expires within this many blocks, don't try to claim it in a shared transaction, /// instead claiming it in its own individual transaction. const CLTV_SHARED_CLAIM_BUFFER: u32 = 12; /// If an HTLC expires within this many blocks, force-close the channel to broadcast the /// HTLC-Success transaction. -const CLTV_CLAIM_BUFFER: u32 = 6; +/// In other words, this is an upper bound on how many blocks we think it can take us to get a +/// transaction confirmed (and we use it in a few more, equivalent, places). +pub(crate) const CLTV_CLAIM_BUFFER: u32 = 6; +/// Number of blocks by which point we expect our counterparty to have seen new blocks on the +/// network and done a full update_fail_htlc/commitment_signed dance (+ we've updated all our +/// copies of ChannelMonitors, including watchtowers). +pub(crate) const HTLC_FAIL_TIMEOUT_BLOCKS: u32 = 3; #[derive(Clone, PartialEq)] -enum KeyStorage { - PrivMode { +enum Storage { + Local { revocation_base_key: SecretKey, htlc_base_key: SecretKey, + delayed_payment_base_key: SecretKey, + payment_base_key: SecretKey, + shutdown_pubkey: PublicKey, + prev_latest_per_commitment_point: Option, + latest_per_commitment_point: Option, + funding_info: Option<(OutPoint, Script)>, + short_channel_id: Option, }, - SigsMode { + Watchtower { revocation_base_key: PublicKey, htlc_base_key: PublicKey, sigs: HashMap, @@ -159,12 +264,16 @@ struct LocalSignedTx { const SERIALIZATION_VERSION: u8 = 1; const MIN_SERIALIZATION_VERSION: u8 = 1; +/// A ChannelMonitor handles chain events (blocks connected and disconnected) and generates +/// on-chain transactions to ensure no loss of funds occurs. +/// +/// You MUST ensure that no ChannelMonitors for a given channel anywhere contain out-of-date +/// information and are actively monitoring the chain. +#[derive(Clone)] pub struct ChannelMonitor { - funding_txo: Option<(OutPoint, Script)>, commitment_transaction_number_obscure_factor: u64, - key_storage: KeyStorage, - delayed_payment_base_key: PublicKey, + key_storage: Storage, their_htlc_base_key: Option, their_delayed_payment_base_key: Option, // first is the idx of the first of the two revocation points @@ -180,7 +289,7 @@ pub struct ChannelMonitor { /// spending. Thus, in order to claim them via revocation key, we track all the remote /// commitment transactions which we find on-chain, mapping them to the commitment number which /// can be used to derive the revocation key and claim the transactions. - remote_commitment_txn_on_chain: Mutex>, + remote_commitment_txn_on_chain: HashMap)>, /// Cache used to make pruning of payment_preimages faster. /// Maps payment_hash values to commitment numbers for remote transactions for non-revoked /// remote transactions (ie should remain pretty small). @@ -194,40 +303,22 @@ pub struct ChannelMonitor { prev_local_signed_commitment_tx: Option, current_local_signed_commitment_tx: Option, + // Used just for ChannelManager to make sure it has the latest channel data during + // deserialization + current_remote_commitment_number: u64, + payment_preimages: HashMap<[u8; 32], [u8; 32]>, destination_script: Script, - secp_ctx: Secp256k1, //TODO: dedup this a bit... -} -impl Clone for ChannelMonitor { - fn clone(&self) -> Self { - ChannelMonitor { - funding_txo: self.funding_txo.clone(), - commitment_transaction_number_obscure_factor: self.commitment_transaction_number_obscure_factor.clone(), - - key_storage: self.key_storage.clone(), - delayed_payment_base_key: self.delayed_payment_base_key.clone(), - their_htlc_base_key: self.their_htlc_base_key.clone(), - their_delayed_payment_base_key: self.their_delayed_payment_base_key.clone(), - their_cur_revocation_points: self.their_cur_revocation_points.clone(), - - our_to_self_delay: self.our_to_self_delay, - their_to_self_delay: self.their_to_self_delay, - - old_secrets: self.old_secrets.clone(), - remote_claimable_outpoints: self.remote_claimable_outpoints.clone(), - remote_commitment_txn_on_chain: Mutex::new((*self.remote_commitment_txn_on_chain.lock().unwrap()).clone()), - remote_hash_commitment_number: self.remote_hash_commitment_number.clone(), - - prev_local_signed_commitment_tx: self.prev_local_signed_commitment_tx.clone(), - current_local_signed_commitment_tx: self.current_local_signed_commitment_tx.clone(), - payment_preimages: self.payment_preimages.clone(), - - destination_script: self.destination_script.clone(), - secp_ctx: self.secp_ctx.clone(), - } - } + // We simply modify last_block_hash in Channel's block_connected so that serialization is + // consistent but hopefully the users' copy handles block_connected in a consistent way. + // (we do *not*, however, update them in insert_combine to ensure any local user copies keep + // their last_block_hash from its state and not based on updated copies that didn't run through + // the full block_connected). + pub(crate) last_block_hash: Sha256dHash, + secp_ctx: Secp256k1, //TODO: dedup this a bit... + logger: Arc, } #[cfg(any(test, feature = "fuzztarget"))] @@ -235,18 +326,18 @@ impl Clone for ChannelMonitor { /// underlying object impl PartialEq for ChannelMonitor { fn eq(&self, other: &Self) -> bool { - if self.funding_txo != other.funding_txo || - self.commitment_transaction_number_obscure_factor != other.commitment_transaction_number_obscure_factor || + if self.commitment_transaction_number_obscure_factor != other.commitment_transaction_number_obscure_factor || self.key_storage != other.key_storage || - self.delayed_payment_base_key != other.delayed_payment_base_key || self.their_htlc_base_key != other.their_htlc_base_key || self.their_delayed_payment_base_key != other.their_delayed_payment_base_key || self.their_cur_revocation_points != other.their_cur_revocation_points || self.our_to_self_delay != other.our_to_self_delay || self.their_to_self_delay != other.their_to_self_delay || self.remote_claimable_outpoints != other.remote_claimable_outpoints || + self.remote_commitment_txn_on_chain != other.remote_commitment_txn_on_chain || self.remote_hash_commitment_number != other.remote_hash_commitment_number || self.prev_local_signed_commitment_tx != other.prev_local_signed_commitment_tx || + self.current_remote_commitment_number != other.current_remote_commitment_number || self.current_local_signed_commitment_tx != other.current_local_signed_commitment_tx || self.payment_preimages != other.payment_preimages || self.destination_script != other.destination_script @@ -258,24 +349,27 @@ impl PartialEq for ChannelMonitor { return false } } - let us = self.remote_commitment_txn_on_chain.lock().unwrap(); - let them = other.remote_commitment_txn_on_chain.lock().unwrap(); - *us == *them + true } } } impl ChannelMonitor { - pub fn new(revocation_base_key: &SecretKey, delayed_payment_base_key: &PublicKey, htlc_base_key: &SecretKey, our_to_self_delay: u16, destination_script: Script) -> ChannelMonitor { + pub(super) fn new(revocation_base_key: &SecretKey, delayed_payment_base_key: &SecretKey, htlc_base_key: &SecretKey, payment_base_key: &SecretKey, shutdown_pubkey: &PublicKey, our_to_self_delay: u16, destination_script: Script, logger: Arc) -> ChannelMonitor { ChannelMonitor { - funding_txo: None, commitment_transaction_number_obscure_factor: 0, - key_storage: KeyStorage::PrivMode { + key_storage: Storage::Local { revocation_base_key: revocation_base_key.clone(), htlc_base_key: htlc_base_key.clone(), + delayed_payment_base_key: delayed_payment_base_key.clone(), + payment_base_key: payment_base_key.clone(), + shutdown_pubkey: shutdown_pubkey.clone(), + prev_latest_per_commitment_point: None, + latest_per_commitment_point: None, + funding_info: None, + short_channel_id: None, }, - delayed_payment_base_key: delayed_payment_base_key.clone(), their_htlc_base_key: None, their_delayed_payment_base_key: None, their_cur_revocation_points: None, @@ -285,16 +379,19 @@ impl ChannelMonitor { old_secrets: [([0; 32], 1 << 48); 49], remote_claimable_outpoints: HashMap::new(), - remote_commitment_txn_on_chain: Mutex::new(HashMap::new()), + remote_commitment_txn_on_chain: HashMap::new(), remote_hash_commitment_number: HashMap::new(), prev_local_signed_commitment_tx: None, current_local_signed_commitment_tx: None, + current_remote_commitment_number: 1 << 48, payment_preimages: HashMap::new(), - destination_script: destination_script, + + last_block_hash: Default::default(), secp_ctx: Secp256k1::new(), + logger, } } @@ -323,42 +420,19 @@ impl ChannelMonitor { res } - /// Inserts a revocation secret into this channel monitor. Also optionally tracks the next - /// revocation point which may be required to claim HTLC outputs which we know the preimage of - /// in case the remote end force-closes using their latest state. Prunes old preimages if neither + /// Inserts a revocation secret into this channel monitor. Prunes old preimages if neither /// needed by local commitment transactions HTCLs nor by remote ones. Unless we haven't already seen remote /// commitment transaction's secret, they are de facto pruned (we can use revocation key). - pub(super) fn provide_secret(&mut self, idx: u64, secret: [u8; 32], their_next_revocation_point: Option<(u64, PublicKey)>) -> Result<(), HandleError> { + pub(super) fn provide_secret(&mut self, idx: u64, secret: [u8; 32]) -> Result<(), MonitorUpdateError> { let pos = ChannelMonitor::place_secret(idx); for i in 0..pos { let (old_secret, old_idx) = self.old_secrets[i as usize]; if ChannelMonitor::derive_secret(secret, pos, old_idx) != old_secret { - return Err(HandleError{err: "Previous secret did not match new one", action: None}) + return Err(MonitorUpdateError("Previous secret did not match new one")); } } self.old_secrets[pos as usize] = (secret, idx); - if let Some(new_revocation_point) = their_next_revocation_point { - match self.their_cur_revocation_points { - Some(old_points) => { - if old_points.0 == new_revocation_point.0 + 1 { - self.their_cur_revocation_points = Some((old_points.0, old_points.1, Some(new_revocation_point.1))); - } else if old_points.0 == new_revocation_point.0 + 2 { - if let Some(old_second_point) = old_points.2 { - self.their_cur_revocation_points = Some((old_points.0 - 1, old_second_point, Some(new_revocation_point.1))); - } else { - self.their_cur_revocation_points = Some((new_revocation_point.0, new_revocation_point.1, None)); - } - } else { - self.their_cur_revocation_points = Some((new_revocation_point.0, new_revocation_point.1, None)); - } - }, - None => { - self.their_cur_revocation_points = Some((new_revocation_point.0, new_revocation_point.1, None)); - } - } - } - if !self.payment_preimages.is_empty() { let local_signed_commitment_tx = self.current_local_signed_commitment_tx.as_ref().expect("Channel needs at least an initial commitment tx !"); let prev_local_signed_commitment_tx = self.prev_local_signed_commitment_tx.as_ref(); @@ -398,7 +472,7 @@ impl ChannelMonitor { /// The monitor watches for it to be broadcasted and then uses the HTLC information (and /// possibly future revocation/preimage information) to claim outputs where possible. /// We cache also the mapping hash:commitment number to lighten pruning of old preimages by watchtowers. - pub(super) fn provide_latest_remote_commitment_tx_info(&mut self, unsigned_commitment_tx: &Transaction, htlc_outputs: Vec, commitment_number: u64) { + pub(super) fn provide_latest_remote_commitment_tx_info(&mut self, unsigned_commitment_tx: &Transaction, htlc_outputs: Vec, commitment_number: u64, their_revocation_point: PublicKey) { // TODO: Encrypt the htlc_outputs data with the single-hash of the commitment transaction // so that a remote monitor doesn't learn anything unless there is a malicious close. // (only maybe, sadly we cant do the same for local info, as we need to be aware of @@ -407,6 +481,26 @@ impl ChannelMonitor { self.remote_hash_commitment_number.insert(htlc.payment_hash, commitment_number); } self.remote_claimable_outpoints.insert(unsigned_commitment_tx.txid(), htlc_outputs); + self.current_remote_commitment_number = commitment_number; + //TODO: Merge this into the other per-remote-transaction output storage stuff + match self.their_cur_revocation_points { + Some(old_points) => { + if old_points.0 == commitment_number + 1 { + self.their_cur_revocation_points = Some((old_points.0, old_points.1, Some(their_revocation_point))); + } else if old_points.0 == commitment_number + 2 { + if let Some(old_second_point) = old_points.2 { + self.their_cur_revocation_points = Some((old_points.0 - 1, old_second_point, Some(their_revocation_point))); + } else { + self.their_cur_revocation_points = Some((commitment_number, their_revocation_point, None)); + } + } else { + self.their_cur_revocation_points = Some((commitment_number, their_revocation_point, None)); + } + }, + None => { + self.their_cur_revocation_points = Some((commitment_number, their_revocation_point, None)); + } + } } /// Informs this monitor of the latest local (ie broadcastable) commitment transaction. The @@ -414,6 +508,8 @@ impl ChannelMonitor { /// is important that any clones of this channel monitor (including remote clones) by kept /// up-to-date as our local commitment transaction is updated. /// Panics if set_their_to_self_delay has never been called. + /// Also update Storage with latest local per_commitment_point to derive local_delayedkey in + /// case of onchain HTLC tx pub(super) fn provide_latest_local_commitment_tx_info(&mut self, signed_commitment_tx: Transaction, local_keys: chan_utils::TxCreationKeys, feerate_per_kw: u64, htlc_outputs: Vec<(HTLCOutputInCommitment, Signature, Signature)>) { assert!(self.their_to_self_delay.is_some()); self.prev_local_signed_commitment_tx = self.current_local_signed_commitment_tx.take(); @@ -427,6 +523,19 @@ impl ChannelMonitor { feerate_per_kw, htlc_outputs, }); + self.key_storage = if let Storage::Local { ref revocation_base_key, ref htlc_base_key, ref delayed_payment_base_key, ref payment_base_key, ref shutdown_pubkey, ref latest_per_commitment_point, ref mut funding_info, ref short_channel_id, .. } = self.key_storage { + Storage::Local { + revocation_base_key: *revocation_base_key, + htlc_base_key: *htlc_base_key, + delayed_payment_base_key: *delayed_payment_base_key, + payment_base_key: *payment_base_key, + shutdown_pubkey: *shutdown_pubkey, + prev_latest_per_commitment_point: *latest_per_commitment_point, + latest_per_commitment_point: Some(local_keys.per_commitment_point), + funding_info: funding_info.take(), + short_channel_id: *short_channel_id, + } + } else { unimplemented!(); }; } /// Provides a payment_hash->payment_preimage mapping. Will be automatically pruned when all @@ -435,21 +544,76 @@ impl ChannelMonitor { self.payment_preimages.insert(payment_hash.clone(), payment_preimage.clone()); } - pub fn insert_combine(&mut self, mut other: ChannelMonitor) -> Result<(), HandleError> { - if self.funding_txo.is_some() { - // We should be able to compare the entire funding_txo, but in fuzztarget its trivially - // easy to collide the funding_txo hash and have a different scriptPubKey. - if other.funding_txo.is_some() && other.funding_txo.as_ref().unwrap().0 != self.funding_txo.as_ref().unwrap().0 { - return Err(HandleError{err: "Funding transaction outputs are not identical!", action: None}); - } - } else { - self.funding_txo = other.funding_txo.take(); - } + /// Combines this ChannelMonitor with the information contained in the other ChannelMonitor. + /// After a successful call this ChannelMonitor is up-to-date and is safe to use to monitor the + /// chain for new blocks/transactions. + pub fn insert_combine(&mut self, mut other: ChannelMonitor) -> Result<(), MonitorUpdateError> { + + self.key_storage = match self.key_storage { + Storage::Local { ref revocation_base_key, ref htlc_base_key, ref delayed_payment_base_key, ref payment_base_key, ref shutdown_pubkey, ref prev_latest_per_commitment_point, ref latest_per_commitment_point, ref mut funding_info, ref mut short_channel_id, .. } => { + + macro_rules! new_storage_local { + ($funding_info: expr, $short_channel_id: expr) => { + Storage::Local { + revocation_base_key: *revocation_base_key, + htlc_base_key: *htlc_base_key, + delayed_payment_base_key: *delayed_payment_base_key, + payment_base_key: *payment_base_key, + shutdown_pubkey: *shutdown_pubkey, + prev_latest_per_commitment_point: *prev_latest_per_commitment_point, + latest_per_commitment_point: *latest_per_commitment_point, + funding_info: $funding_info, + short_channel_id: $short_channel_id, + } + } + } + + let our_funding_info = funding_info; + let our_short_channel_id = short_channel_id; + if let Storage::Local { ref mut funding_info, ref mut short_channel_id, .. } = other.key_storage { + if our_funding_info.is_some() { + // We should be able to compare the entire funding_txo, but in fuzztarget its trivially + // easy to collide the funding_txo hash and have a different scriptPubKey. + if funding_info.is_some() && our_funding_info.is_some() && funding_info.as_ref().unwrap().0 != our_funding_info.as_ref().unwrap().0 { + return Err(MonitorUpdateError("Funding transaction outputs are not identical!")); + } else { + new_storage_local!(our_funding_info.take(), our_short_channel_id.take()) + } + } else { + new_storage_local!(funding_info.take(), short_channel_id.take()) + } + } else { + return Err(MonitorUpdateError("Try to combine a Local monitor with a Watchtower one !")); + } + }, + Storage::Watchtower { .. } => { + if let Storage::Watchtower { ref revocation_base_key, ref htlc_base_key, ref mut sigs } = other.key_storage { + Storage::Watchtower { + revocation_base_key: *revocation_base_key, + htlc_base_key: *htlc_base_key, + sigs: sigs.drain().collect(), + } + } else { + return Err(MonitorUpdateError("Try to combine a Watchtower monitor with a Local one !")); + } + }, + }; let other_min_secret = other.get_min_seen_secret(); let our_min_secret = self.get_min_seen_secret(); if our_min_secret > other_min_secret { - self.provide_secret(other_min_secret, other.get_secret(other_min_secret).unwrap(), None)?; + self.provide_secret(other_min_secret, other.get_secret(other_min_secret).unwrap())?; + } + if let Some(ref local_tx) = self.current_local_signed_commitment_tx { + if let Some(ref other_local_tx) = other.current_local_signed_commitment_tx { + let our_commitment_number = 0xffffffffffff - ((((local_tx.tx.input[0].sequence as u64 & 0xffffff) << 3*8) | (local_tx.tx.lock_time as u64 & 0xffffff)) ^ self.commitment_transaction_number_obscure_factor); + let other_commitment_number = 0xffffffffffff - ((((other_local_tx.tx.input[0].sequence as u64 & 0xffffff) << 3*8) | (other_local_tx.tx.lock_time as u64 & 0xffffff)) ^ other.commitment_transaction_number_obscure_factor); + if our_commitment_number >= other_commitment_number { + self.key_storage = other.key_storage; + } + } } + // TODO: We should use current_remote_commitment_number and the commitment number out of + // local transactions to decide how to merge if our_min_secret >= other_min_secret { self.their_cur_revocation_points = other.their_cur_revocation_points; for (txid, htlcs) in other.remote_claimable_outpoints.drain() { @@ -463,6 +627,8 @@ impl ChannelMonitor { } self.payment_preimages = other.payment_preimages; } + + self.current_remote_commitment_number = cmp::min(self.current_remote_commitment_number, other.current_remote_commitment_number); Ok(()) } @@ -479,7 +645,49 @@ impl ChannelMonitor { /// It's the responsibility of the caller to register outpoint and script with passing the former /// value as key to add_update_monitor. pub(super) fn set_funding_info(&mut self, funding_info: (OutPoint, Script)) { - self.funding_txo = Some(funding_info); + self.key_storage = match self.key_storage { + Storage::Local { ref revocation_base_key, ref htlc_base_key, ref delayed_payment_base_key, ref payment_base_key, ref shutdown_pubkey, ref prev_latest_per_commitment_point, ref latest_per_commitment_point, short_channel_id, .. } => { + Storage::Local { + revocation_base_key: *revocation_base_key, + htlc_base_key: *htlc_base_key, + delayed_payment_base_key: *delayed_payment_base_key, + payment_base_key: *payment_base_key, + shutdown_pubkey: *shutdown_pubkey, + prev_latest_per_commitment_point: *prev_latest_per_commitment_point, + latest_per_commitment_point: *latest_per_commitment_point, + funding_info: Some(funding_info.clone()), + short_channel_id: short_channel_id, + } + }, + Storage::Watchtower { .. } => { + unimplemented!(); + } + }; + } + + /// Allows this monitor to get preimages from upstream ChannelMonitor (linked by ManyChannelMonitor) + /// in cas of onchain remote commitment tx resolved by a HTLC-Succes one but you may wish to + /// avoid this (or call unset_funding_info) on a monitor you wish to send to a watchtower as it + /// provides slightly better privacy. + pub(super) fn set_short_channel_id(&mut self, short_channel_id: u64) { + self.key_storage = match self.key_storage { + Storage::Local { ref revocation_base_key, ref htlc_base_key, ref delayed_payment_base_key, ref payment_base_key, ref shutdown_pubkey, ref prev_latest_per_commitment_point, ref latest_per_commitment_point, ref mut funding_info, .. } => { + Storage::Local { + revocation_base_key: *revocation_base_key, + htlc_base_key: *htlc_base_key, + delayed_payment_base_key: *delayed_payment_base_key, + payment_base_key: *payment_base_key, + shutdown_pubkey: *shutdown_pubkey, + prev_latest_per_commitment_point: *prev_latest_per_commitment_point, + latest_per_commitment_point: *latest_per_commitment_point, + funding_info: funding_info.take(), + short_channel_id: Some(short_channel_id), + } + }, + Storage::Watchtower { .. } => { + unimplemented!(); + } + }; } /// We log these base keys at channel opening to being able to rebuild redeemscript in case of leaked revoked commit tx @@ -493,424 +701,268 @@ impl ChannelMonitor { } pub(super) fn unset_funding_info(&mut self) { - self.funding_txo = None; + self.key_storage = match self.key_storage { + Storage::Local { ref revocation_base_key, ref htlc_base_key, ref delayed_payment_base_key, ref payment_base_key, ref shutdown_pubkey, ref prev_latest_per_commitment_point, ref latest_per_commitment_point, short_channel_id, .. } => { + Storage::Local { + revocation_base_key: *revocation_base_key, + htlc_base_key: *htlc_base_key, + delayed_payment_base_key: *delayed_payment_base_key, + payment_base_key: *payment_base_key, + shutdown_pubkey: *shutdown_pubkey, + prev_latest_per_commitment_point: *prev_latest_per_commitment_point, + latest_per_commitment_point: *latest_per_commitment_point, + funding_info: None, + short_channel_id: short_channel_id, + } + }, + Storage::Watchtower { .. } => { + unimplemented!(); + }, + } } + /// Gets the funding transaction outpoint of the channel this ChannelMonitor is monitoring for. pub fn get_funding_txo(&self) -> Option { - match self.funding_txo { - Some((outpoint, _)) => Some(outpoint), - None => None + match self.key_storage { + Storage::Local { ref funding_info, .. } => { + match funding_info { + &Some((outpoint, _)) => Some(outpoint), + &None => None + } + }, + Storage::Watchtower { .. } => { + return None; + } } } - /// Serializes into a vec, with various modes for the exposed pub fns - fn serialize(&self, for_local_storage: bool) -> Vec { - let mut res = Vec::new(); - res.push(SERIALIZATION_VERSION); - res.push(MIN_SERIALIZATION_VERSION); - - match &self.funding_txo { - &Some((ref outpoint, ref script)) => { - res.extend_from_slice(&outpoint.txid[..]); - res.extend_from_slice(&byte_utils::be16_to_array(outpoint.index)); - res.extend_from_slice(&byte_utils::be64_to_array(script.len() as u64)); - res.extend_from_slice(&script[..]); - }, - &None => { - // We haven't even been initialized...not sure why anyone is serializing us, but - // not much to give them. - return res; - }, + /// Gets the sets of all outpoints which this ChannelMonitor expects to hear about spends of. + /// Generally useful when deserializing as during normal operation the return values of + /// block_connected are sufficient to ensure all relevant outpoints are being monitored (note + /// that the get_funding_txo outpoint and transaction must also be monitored for!). + pub fn get_monitored_outpoints(&self) -> Vec<(Sha256dHash, u32, &Script)> { + let mut res = Vec::with_capacity(self.remote_commitment_txn_on_chain.len() * 2); + for (ref txid, &(_, ref outputs)) in self.remote_commitment_txn_on_chain.iter() { + for (idx, output) in outputs.iter().enumerate() { + res.push(((*txid).clone(), idx as u32, output)); + } } + res + } + + /// Serializes into a vec, with various modes for the exposed pub fns + fn write(&self, writer: &mut W, for_local_storage: bool) -> Result<(), ::std::io::Error> { + //TODO: We still write out all the serialization here manually instead of using the fancy + //serialization framework we have, we should migrate things over to it. + writer.write_all(&[SERIALIZATION_VERSION; 1])?; + writer.write_all(&[MIN_SERIALIZATION_VERSION; 1])?; // Set in initial Channel-object creation, so should always be set by now: - res.extend_from_slice(&byte_utils::be48_to_array(self.commitment_transaction_number_obscure_factor)); + U48(self.commitment_transaction_number_obscure_factor).write(writer)?; match self.key_storage { - KeyStorage::PrivMode { ref revocation_base_key, ref htlc_base_key } => { - res.push(0); - res.extend_from_slice(&revocation_base_key[..]); - res.extend_from_slice(&htlc_base_key[..]); + Storage::Local { ref revocation_base_key, ref htlc_base_key, ref delayed_payment_base_key, ref payment_base_key, ref shutdown_pubkey, ref prev_latest_per_commitment_point, ref latest_per_commitment_point, ref funding_info, ref short_channel_id } => { + writer.write_all(&[0; 1])?; + writer.write_all(&revocation_base_key[..])?; + writer.write_all(&htlc_base_key[..])?; + writer.write_all(&delayed_payment_base_key[..])?; + writer.write_all(&payment_base_key[..])?; + writer.write_all(&shutdown_pubkey.serialize())?; + if let Some(ref prev_latest_per_commitment_point) = *prev_latest_per_commitment_point { + writer.write_all(&[1; 1])?; + writer.write_all(&prev_latest_per_commitment_point.serialize())?; + } else { + writer.write_all(&[0; 1])?; + } + if let Some(ref latest_per_commitment_point) = *latest_per_commitment_point { + writer.write_all(&[1; 1])?; + writer.write_all(&latest_per_commitment_point.serialize())?; + } else { + writer.write_all(&[0; 1])?; + } + match funding_info { + &Some((ref outpoint, ref script)) => { + writer.write_all(&outpoint.txid[..])?; + writer.write_all(&byte_utils::be16_to_array(outpoint.index))?; + script.write(writer)?; + }, + &None => { + debug_assert!(false, "Try to serialize a useless Local monitor !"); + }, + } + match short_channel_id { + &Some(short_channel_id) => { + writer.write_all(&[1; 1])?; + writer.write_all(&byte_utils::be64_to_array(short_channel_id))?; + } + &None => { + writer.write_all(&[0; 1])?; + } + } }, - KeyStorage::SigsMode { .. } => unimplemented!(), + Storage::Watchtower { .. } => unimplemented!(), } - res.extend_from_slice(&self.delayed_payment_base_key.serialize()); - res.extend_from_slice(&self.their_htlc_base_key.as_ref().unwrap().serialize()); - res.extend_from_slice(&self.their_delayed_payment_base_key.as_ref().unwrap().serialize()); + writer.write_all(&self.their_htlc_base_key.as_ref().unwrap().serialize())?; + writer.write_all(&self.their_delayed_payment_base_key.as_ref().unwrap().serialize())?; match self.their_cur_revocation_points { Some((idx, pubkey, second_option)) => { - res.extend_from_slice(&byte_utils::be48_to_array(idx)); - res.extend_from_slice(&pubkey.serialize()); + writer.write_all(&byte_utils::be48_to_array(idx))?; + writer.write_all(&pubkey.serialize())?; match second_option { Some(second_pubkey) => { - res.extend_from_slice(&second_pubkey.serialize()); + writer.write_all(&second_pubkey.serialize())?; }, None => { - res.extend_from_slice(&[0; 33]); + writer.write_all(&[0; 33])?; }, } }, None => { - res.extend_from_slice(&byte_utils::be48_to_array(0)); + writer.write_all(&byte_utils::be48_to_array(0))?; }, } - res.extend_from_slice(&byte_utils::be16_to_array(self.our_to_self_delay)); - res.extend_from_slice(&byte_utils::be16_to_array(self.their_to_self_delay.unwrap())); + writer.write_all(&byte_utils::be16_to_array(self.our_to_self_delay))?; + writer.write_all(&byte_utils::be16_to_array(self.their_to_self_delay.unwrap()))?; for &(ref secret, ref idx) in self.old_secrets.iter() { - res.extend_from_slice(secret); - res.extend_from_slice(&byte_utils::be64_to_array(*idx)); + writer.write_all(secret)?; + writer.write_all(&byte_utils::be64_to_array(*idx))?; } macro_rules! serialize_htlc_in_commitment { ($htlc_output: expr) => { - res.push($htlc_output.offered as u8); - res.extend_from_slice(&byte_utils::be64_to_array($htlc_output.amount_msat)); - res.extend_from_slice(&byte_utils::be32_to_array($htlc_output.cltv_expiry)); - res.extend_from_slice(&$htlc_output.payment_hash); - res.extend_from_slice(&byte_utils::be32_to_array($htlc_output.transaction_output_index)); + writer.write_all(&[$htlc_output.offered as u8; 1])?; + writer.write_all(&byte_utils::be64_to_array($htlc_output.amount_msat))?; + writer.write_all(&byte_utils::be32_to_array($htlc_output.cltv_expiry))?; + writer.write_all(&$htlc_output.payment_hash)?; + writer.write_all(&byte_utils::be32_to_array($htlc_output.transaction_output_index))?; } } - res.extend_from_slice(&byte_utils::be64_to_array(self.remote_claimable_outpoints.len() as u64)); - for (txid, htlc_outputs) in self.remote_claimable_outpoints.iter() { - res.extend_from_slice(&txid[..]); - res.extend_from_slice(&byte_utils::be64_to_array(htlc_outputs.len() as u64)); + writer.write_all(&byte_utils::be64_to_array(self.remote_claimable_outpoints.len() as u64))?; + for (ref txid, ref htlc_outputs) in self.remote_claimable_outpoints.iter() { + writer.write_all(&txid[..])?; + writer.write_all(&byte_utils::be64_to_array(htlc_outputs.len() as u64))?; for htlc_output in htlc_outputs.iter() { serialize_htlc_in_commitment!(htlc_output); } } - { - let remote_commitment_txn_on_chain = self.remote_commitment_txn_on_chain.lock().unwrap(); - res.extend_from_slice(&byte_utils::be64_to_array(remote_commitment_txn_on_chain.len() as u64)); - for (txid, commitment_number) in remote_commitment_txn_on_chain.iter() { - res.extend_from_slice(&txid[..]); - res.extend_from_slice(&byte_utils::be48_to_array(*commitment_number)); + writer.write_all(&byte_utils::be64_to_array(self.remote_commitment_txn_on_chain.len() as u64))?; + for (ref txid, &(commitment_number, ref txouts)) in self.remote_commitment_txn_on_chain.iter() { + writer.write_all(&txid[..])?; + writer.write_all(&byte_utils::be48_to_array(commitment_number))?; + (txouts.len() as u64).write(writer)?; + for script in txouts.iter() { + script.write(writer)?; } } if for_local_storage { - res.extend_from_slice(&byte_utils::be64_to_array(self.remote_hash_commitment_number.len() as u64)); - for (payment_hash, commitment_number) in self.remote_hash_commitment_number.iter() { - res.extend_from_slice(payment_hash); - res.extend_from_slice(&byte_utils::be48_to_array(*commitment_number)); + writer.write_all(&byte_utils::be64_to_array(self.remote_hash_commitment_number.len() as u64))?; + for (ref payment_hash, commitment_number) in self.remote_hash_commitment_number.iter() { + writer.write_all(*payment_hash)?; + writer.write_all(&byte_utils::be48_to_array(*commitment_number))?; } } else { - res.extend_from_slice(&byte_utils::be64_to_array(0)); + writer.write_all(&byte_utils::be64_to_array(0))?; } macro_rules! serialize_local_tx { ($local_tx: expr) => { - let tx_ser = serialize::serialize(&$local_tx.tx).unwrap(); - res.extend_from_slice(&byte_utils::be64_to_array(tx_ser.len() as u64)); - res.extend_from_slice(&tx_ser); + if let Err(e) = $local_tx.tx.consensus_encode(&mut WriterWriteAdaptor(writer)) { + match e { + encode::Error::Io(e) => return Err(e), + _ => panic!("local tx must have been well-formed!"), + } + } - res.extend_from_slice(&$local_tx.revocation_key.serialize()); - res.extend_from_slice(&$local_tx.a_htlc_key.serialize()); - res.extend_from_slice(&$local_tx.b_htlc_key.serialize()); - res.extend_from_slice(&$local_tx.delayed_payment_key.serialize()); + writer.write_all(&$local_tx.revocation_key.serialize())?; + writer.write_all(&$local_tx.a_htlc_key.serialize())?; + writer.write_all(&$local_tx.b_htlc_key.serialize())?; + writer.write_all(&$local_tx.delayed_payment_key.serialize())?; - res.extend_from_slice(&byte_utils::be64_to_array($local_tx.feerate_per_kw)); - res.extend_from_slice(&byte_utils::be64_to_array($local_tx.htlc_outputs.len() as u64)); + writer.write_all(&byte_utils::be64_to_array($local_tx.feerate_per_kw))?; + writer.write_all(&byte_utils::be64_to_array($local_tx.htlc_outputs.len() as u64))?; for &(ref htlc_output, ref their_sig, ref our_sig) in $local_tx.htlc_outputs.iter() { serialize_htlc_in_commitment!(htlc_output); - res.extend_from_slice(&their_sig.serialize_compact(&self.secp_ctx)); - res.extend_from_slice(&our_sig.serialize_compact(&self.secp_ctx)); + writer.write_all(&their_sig.serialize_compact(&self.secp_ctx))?; + writer.write_all(&our_sig.serialize_compact(&self.secp_ctx))?; } } } if let Some(ref prev_local_tx) = self.prev_local_signed_commitment_tx { - res.push(1); + writer.write_all(&[1; 1])?; serialize_local_tx!(prev_local_tx); } else { - res.push(0); + writer.write_all(&[0; 1])?; } if let Some(ref cur_local_tx) = self.current_local_signed_commitment_tx { - res.push(1); + writer.write_all(&[1; 1])?; serialize_local_tx!(cur_local_tx); } else { - res.push(0); + writer.write_all(&[0; 1])?; } - res.extend_from_slice(&byte_utils::be64_to_array(self.payment_preimages.len() as u64)); - for payment_preimage in self.payment_preimages.values() { - res.extend_from_slice(payment_preimage); + if for_local_storage { + writer.write_all(&byte_utils::be48_to_array(self.current_remote_commitment_number))?; + } else { + writer.write_all(&byte_utils::be48_to_array(0))?; } - res.extend_from_slice(&byte_utils::be64_to_array(self.destination_script.len() as u64)); - res.extend_from_slice(&self.destination_script[..]); + writer.write_all(&byte_utils::be64_to_array(self.payment_preimages.len() as u64))?; + for payment_preimage in self.payment_preimages.values() { + writer.write_all(payment_preimage)?; + } - res - } + self.last_block_hash.write(writer)?; + self.destination_script.write(writer)?; - /// Encodes this monitor into a byte array, suitable for writing to disk. - pub fn serialize_for_disk(&self) -> Vec { - self.serialize(true) + Ok(()) } - /// Encodes this monitor into a byte array, suitable for sending to a remote watchtower - pub fn serialize_for_watchtower(&self) -> Vec { - self.serialize(false) + /// Writes this monitor into the given writer, suitable for writing to disk. + /// + /// Note that the deserializer is only implemented for (Sha256dHash, ChannelMonitor), which + /// tells you the last block hash which was block_connect()ed. You MUST rescan any blocks along + /// the "reorg path" (ie not just starting at the same height but starting at the highest + /// common block that appears on your best chain as well as on the chain which contains the + /// last block hash returned) upon deserializing the object! + pub fn write_for_disk(&self, writer: &mut W) -> Result<(), ::std::io::Error> { + self.write(writer, true) } - /// Attempts to decode a serialized monitor - pub fn deserialize(data: &[u8]) -> Option { - let mut read_pos = 0; - macro_rules! read_bytes { - ($byte_count: expr) => { - { - if ($byte_count as usize) > data.len() - read_pos { - return None; - } - read_pos += $byte_count as usize; - &data[read_pos - $byte_count as usize..read_pos] - } - } - } - - let secp_ctx = Secp256k1::new(); - macro_rules! unwrap_obj { - ($key: expr) => { - match $key { - Ok(res) => res, - Err(_) => return None, - } - } - } - - let _ver = read_bytes!(1)[0]; - let min_ver = read_bytes!(1)[0]; - if min_ver > SERIALIZATION_VERSION { - return None; - } - - // Technically this can fail and serialize fail a round-trip, but only for serialization of - // barely-init'd ChannelMonitors that we can't do anything with. - let outpoint = OutPoint { - txid: Sha256dHash::from(read_bytes!(32)), - index: byte_utils::slice_to_be16(read_bytes!(2)), - }; - let script_len = byte_utils::slice_to_be64(read_bytes!(8)); - let funding_txo = Some((outpoint, Script::from(read_bytes!(script_len).to_vec()))); - let commitment_transaction_number_obscure_factor = byte_utils::slice_to_be48(read_bytes!(6)); - - let key_storage = match read_bytes!(1)[0] { - 0 => { - KeyStorage::PrivMode { - revocation_base_key: unwrap_obj!(SecretKey::from_slice(&secp_ctx, read_bytes!(32))), - htlc_base_key: unwrap_obj!(SecretKey::from_slice(&secp_ctx, read_bytes!(32))), - } - }, - _ => return None, - }; - - let delayed_payment_base_key = unwrap_obj!(PublicKey::from_slice(&secp_ctx, read_bytes!(33))); - let their_htlc_base_key = Some(unwrap_obj!(PublicKey::from_slice(&secp_ctx, read_bytes!(33)))); - let their_delayed_payment_base_key = Some(unwrap_obj!(PublicKey::from_slice(&secp_ctx, read_bytes!(33)))); - - let their_cur_revocation_points = { - let first_idx = byte_utils::slice_to_be48(read_bytes!(6)); - if first_idx == 0 { - None - } else { - let first_point = unwrap_obj!(PublicKey::from_slice(&secp_ctx, read_bytes!(33))); - let second_point_slice = read_bytes!(33); - if second_point_slice[0..32] == [0; 32] && second_point_slice[32] == 0 { - Some((first_idx, first_point, None)) - } else { - Some((first_idx, first_point, Some(unwrap_obj!(PublicKey::from_slice(&secp_ctx, second_point_slice))))) - } - } - }; - - let our_to_self_delay = byte_utils::slice_to_be16(read_bytes!(2)); - let their_to_self_delay = Some(byte_utils::slice_to_be16(read_bytes!(2))); - - let mut old_secrets = [([0; 32], 1 << 48); 49]; - for &mut (ref mut secret, ref mut idx) in old_secrets.iter_mut() { - secret.copy_from_slice(read_bytes!(32)); - *idx = byte_utils::slice_to_be64(read_bytes!(8)); - } - - macro_rules! read_htlc_in_commitment { - () => { - { - let offered = match read_bytes!(1)[0] { - 0 => false, 1 => true, - _ => return None, - }; - let amount_msat = byte_utils::slice_to_be64(read_bytes!(8)); - let cltv_expiry = byte_utils::slice_to_be32(read_bytes!(4)); - let mut payment_hash = [0; 32]; - payment_hash[..].copy_from_slice(read_bytes!(32)); - let transaction_output_index = byte_utils::slice_to_be32(read_bytes!(4)); - - HTLCOutputInCommitment { - offered, amount_msat, cltv_expiry, payment_hash, transaction_output_index - } - } - } - } - - let remote_claimable_outpoints_len = byte_utils::slice_to_be64(read_bytes!(8)); - if remote_claimable_outpoints_len > data.len() as u64 / 64 { return None; } - let mut remote_claimable_outpoints = HashMap::with_capacity(remote_claimable_outpoints_len as usize); - for _ in 0..remote_claimable_outpoints_len { - let txid = Sha256dHash::from(read_bytes!(32)); - let outputs_count = byte_utils::slice_to_be64(read_bytes!(8)); - if outputs_count > data.len() as u64 / 32 { return None; } - let mut outputs = Vec::with_capacity(outputs_count as usize); - for _ in 0..outputs_count { - outputs.push(read_htlc_in_commitment!()); - } - if let Some(_) = remote_claimable_outpoints.insert(txid, outputs) { - return None; - } - } - - let remote_commitment_txn_on_chain_len = byte_utils::slice_to_be64(read_bytes!(8)); - if remote_commitment_txn_on_chain_len > data.len() as u64 / 32 { return None; } - let mut remote_commitment_txn_on_chain = HashMap::with_capacity(remote_commitment_txn_on_chain_len as usize); - for _ in 0..remote_commitment_txn_on_chain_len { - let txid = Sha256dHash::from(read_bytes!(32)); - let commitment_number = byte_utils::slice_to_be48(read_bytes!(6)); - if let Some(_) = remote_commitment_txn_on_chain.insert(txid, commitment_number) { - return None; - } - } - - let remote_hash_commitment_number_len = byte_utils::slice_to_be64(read_bytes!(8)); - if remote_hash_commitment_number_len > data.len() as u64 / 32 { return None; } - let mut remote_hash_commitment_number = HashMap::with_capacity(remote_hash_commitment_number_len as usize); - for _ in 0..remote_hash_commitment_number_len { - let mut txid = [0; 32]; - txid[..].copy_from_slice(read_bytes!(32)); - let commitment_number = byte_utils::slice_to_be48(read_bytes!(6)); - if let Some(_) = remote_hash_commitment_number.insert(txid, commitment_number) { - return None; - } - } - - macro_rules! read_local_tx { - () => { - { - let tx_len = byte_utils::slice_to_be64(read_bytes!(8)); - let tx_ser = read_bytes!(tx_len); - let tx: Transaction = unwrap_obj!(serialize::deserialize(tx_ser)); - if serialize::serialize(&tx).unwrap() != tx_ser { - // We check that the tx re-serializes to the same form to ensure there is - // no extra data, and as rust-bitcoin doesn't handle the 0-input ambiguity - // all that well. - return None; - } - - let revocation_key = unwrap_obj!(PublicKey::from_slice(&secp_ctx, read_bytes!(33))); - let a_htlc_key = unwrap_obj!(PublicKey::from_slice(&secp_ctx, read_bytes!(33))); - let b_htlc_key = unwrap_obj!(PublicKey::from_slice(&secp_ctx, read_bytes!(33))); - let delayed_payment_key = unwrap_obj!(PublicKey::from_slice(&secp_ctx, read_bytes!(33))); - let feerate_per_kw = byte_utils::slice_to_be64(read_bytes!(8)); - - let htlc_outputs_len = byte_utils::slice_to_be64(read_bytes!(8)); - if htlc_outputs_len > data.len() as u64 / 128 { return None; } - let mut htlc_outputs = Vec::with_capacity(htlc_outputs_len as usize); - for _ in 0..htlc_outputs_len { - htlc_outputs.push((read_htlc_in_commitment!(), - unwrap_obj!(Signature::from_compact(&secp_ctx, read_bytes!(64))), - unwrap_obj!(Signature::from_compact(&secp_ctx, read_bytes!(64))))); - } - - LocalSignedTx { - txid: tx.txid(), - tx, revocation_key, a_htlc_key, b_htlc_key, delayed_payment_key, feerate_per_kw, htlc_outputs - } - } - } - } - - let prev_local_signed_commitment_tx = match read_bytes!(1)[0] { - 0 => None, - 1 => { - Some(read_local_tx!()) - }, - _ => return None, - }; - - let current_local_signed_commitment_tx = match read_bytes!(1)[0] { - 0 => None, - 1 => { - Some(read_local_tx!()) - }, - _ => return None, - }; - - let payment_preimages_len = byte_utils::slice_to_be64(read_bytes!(8)); - if payment_preimages_len > data.len() as u64 / 32 { return None; } - let mut payment_preimages = HashMap::with_capacity(payment_preimages_len as usize); - let mut sha = Sha256::new(); - for _ in 0..payment_preimages_len { - let mut preimage = [0; 32]; - preimage[..].copy_from_slice(read_bytes!(32)); - sha.reset(); - sha.input(&preimage); - let mut hash = [0; 32]; - sha.result(&mut hash); - if let Some(_) = payment_preimages.insert(hash, preimage) { - return None; - } - } - - let destination_script_len = byte_utils::slice_to_be64(read_bytes!(8)); - let destination_script = Script::from(read_bytes!(destination_script_len).to_vec()); - - Some(ChannelMonitor { - funding_txo, - commitment_transaction_number_obscure_factor, - - key_storage, - delayed_payment_base_key, - their_htlc_base_key, - their_delayed_payment_base_key, - their_cur_revocation_points, - - our_to_self_delay, - their_to_self_delay, - - old_secrets, - remote_claimable_outpoints, - remote_commitment_txn_on_chain: Mutex::new(remote_commitment_txn_on_chain), - remote_hash_commitment_number, - - prev_local_signed_commitment_tx, - current_local_signed_commitment_tx, - - payment_preimages, - - destination_script, - secp_ctx, - }) + /// Encodes this monitor into the given writer, suitable for sending to a remote watchtower + /// + /// Note that the deserializer is only implemented for (Sha256dHash, ChannelMonitor), which + /// tells you the last block hash which was block_connect()ed. You MUST rescan any blocks along + /// the "reorg path" (ie not just starting at the same height but starting at the highest + /// common block that appears on your best chain as well as on the chain which contains the + /// last block hash returned) upon deserializing the object! + pub fn write_for_watchtower(&self, writer: &mut W) -> Result<(), ::std::io::Error> { + self.write(writer, false) } //TODO: Functions to serialize/deserialize (with different forms depending on which information //we want to leave out (eg funding_txo, etc). /// Can only fail if idx is < get_min_seen_secret - pub fn get_secret(&self, idx: u64) -> Result<[u8; 32], HandleError> { + pub(super) fn get_secret(&self, idx: u64) -> Option<[u8; 32]> { for i in 0..self.old_secrets.len() { if (idx & (!((1 << i) - 1))) == self.old_secrets[i].1 { - return Ok(ChannelMonitor::derive_secret(self.old_secrets[i].0, i as u8, idx)) + return Some(ChannelMonitor::derive_secret(self.old_secrets[i].0, i as u8, idx)) } } assert!(idx < self.get_min_seen_secret()); - Err(HandleError{err: "idx too low", action: None}) + None } - pub fn get_min_seen_secret(&self) -> u64 { + pub(super) fn get_min_seen_secret(&self) -> u64 { //TODO This can be optimized? let mut min = 1 << 48; for &(_, idx) in self.old_secrets.iter() { @@ -921,15 +973,26 @@ impl ChannelMonitor { min } + pub(super) fn get_cur_remote_commitment_number(&self) -> u64 { + self.current_remote_commitment_number + } + + pub(super) fn get_cur_local_commitment_number(&self) -> u64 { + if let &Some(ref local_tx) = &self.current_local_signed_commitment_tx { + 0xffff_ffff_ffff - ((((local_tx.tx.input[0].sequence as u64 & 0xffffff) << 3*8) | (local_tx.tx.lock_time as u64 & 0xffffff)) ^ self.commitment_transaction_number_obscure_factor) + } else { 0xffff_ffff_ffff } + } + /// 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. - fn check_spend_remote_transaction(&self, tx: &Transaction, height: u32) -> (Vec, (Sha256dHash, Vec)) { + fn check_spend_remote_transaction(&mut self, tx: &Transaction, height: u32) -> (Vec, (Sha256dHash, Vec), Vec) { // 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 let mut txn_to_broadcast = Vec::new(); let mut watch_outputs = Vec::new(); + let mut spendable_outputs = Vec::new(); let commitment_txid = tx.txid(); //TODO: This is gonna be a performance bottleneck for watchtowers! let per_commitment_option = self.remote_claimable_outpoints.get(&commitment_txid); @@ -938,7 +1001,7 @@ impl ChannelMonitor { ( $thing : expr ) => { match $thing { Ok(a) => a, - Err(_) => return (txn_to_broadcast, (commitment_txid, watch_outputs)) + Err(_) => return (txn_to_broadcast, (commitment_txid, watch_outputs), spendable_outputs) } }; } @@ -947,27 +1010,36 @@ impl ChannelMonitor { if commitment_number >= self.get_min_seen_secret() { let secret = self.get_secret(commitment_number).unwrap(); let per_commitment_key = ignore_error!(SecretKey::from_slice(&self.secp_ctx, &secret)); - let (revocation_pubkey, b_htlc_key) = match self.key_storage { - KeyStorage::PrivMode { ref revocation_base_key, ref htlc_base_key } => { + let (revocation_pubkey, b_htlc_key, local_payment_key) = match self.key_storage { + Storage::Local { ref revocation_base_key, ref htlc_base_key, ref payment_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))), - ignore_error!(chan_utils::derive_public_key(&self.secp_ctx, &per_commitment_point, &PublicKey::from_secret_key(&self.secp_ctx, &htlc_base_key)))) + ignore_error!(chan_utils::derive_public_key(&self.secp_ctx, &per_commitment_point, &PublicKey::from_secret_key(&self.secp_ctx, &htlc_base_key))), + Some(ignore_error!(chan_utils::derive_private_key(&self.secp_ctx, &per_commitment_point, &payment_base_key)))) }, - KeyStorage::SigsMode { ref revocation_base_key, ref htlc_base_key, .. } => { + Storage::Watchtower { ref revocation_base_key, ref htlc_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)), - ignore_error!(chan_utils::derive_public_key(&self.secp_ctx, &per_commitment_point, &htlc_base_key))) + ignore_error!(chan_utils::derive_public_key(&self.secp_ctx, &per_commitment_point, &htlc_base_key)), + None) }, }; - let delayed_key = ignore_error!(chan_utils::derive_public_key(&self.secp_ctx, &PublicKey::from_secret_key(&self.secp_ctx, &per_commitment_key), &self.delayed_payment_base_key)); + let delayed_key = ignore_error!(chan_utils::derive_public_key(&self.secp_ctx, &PublicKey::from_secret_key(&self.secp_ctx, &per_commitment_key), &self.their_delayed_payment_base_key.unwrap())); let a_htlc_key = match self.their_htlc_base_key { - None => return (txn_to_broadcast, (commitment_txid, watch_outputs)), + None => return (txn_to_broadcast, (commitment_txid, watch_outputs), spendable_outputs), Some(their_htlc_base_key) => ignore_error!(chan_utils::derive_public_key(&self.secp_ctx, &PublicKey::from_secret_key(&self.secp_ctx, &per_commitment_key), &their_htlc_base_key)), }; let revokeable_redeemscript = chan_utils::get_revokeable_redeemscript(&revocation_pubkey, self.our_to_self_delay, &delayed_key); let revokeable_p2wsh = revokeable_redeemscript.to_v0_p2wsh(); + let local_payment_p2wpkh = if let Some(payment_key) = local_payment_key { + // Note that the Network here is ignored as we immediately drop the address for the + // script_pubkey version. + let payment_hash160 = Hash160::from_data(&PublicKey::from_secret_key(&self.secp_ctx, &payment_key).serialize()); + Some(Builder::new().push_opcode(opcodes::All::OP_PUSHBYTES_0).push_slice(&payment_hash160[..]).into_script()) + } else { None }; + let mut total_value = 0; let mut values = Vec::new(); let mut inputs = Vec::new(); @@ -987,7 +1059,12 @@ impl ChannelMonitor { htlc_idxs.push(None); values.push(outp.value); total_value += outp.value; - break; // There can only be one of these + } else if Some(&outp.script_pubkey) == local_payment_p2wpkh.as_ref() { + spendable_outputs.push(SpendableOutputDescriptor::DynamicOutputP2WPKH { + outpoint: BitcoinOutPoint { txid: commitment_txid, vout: idx as u32 }, + key: local_payment_key.unwrap(), + output: outp.clone(), + }); } } @@ -995,7 +1072,7 @@ impl ChannelMonitor { ($sighash_parts: expr, $input: expr, $htlc_idx: expr, $amount: expr) => { { let (sig, redeemscript) = match self.key_storage { - KeyStorage::PrivMode { ref revocation_base_key, .. } => { + Storage::Local { ref revocation_base_key, .. } => { let redeemscript = if $htlc_idx.is_none() { revokeable_redeemscript.clone() } else { let htlc = &per_commitment_option.unwrap()[$htlc_idx.unwrap()]; chan_utils::get_htlc_redeemscript_with_explicit_keys(htlc, &a_htlc_key, &b_htlc_key, &revocation_pubkey) @@ -1004,7 +1081,7 @@ impl ChannelMonitor { 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), redeemscript) }, - KeyStorage::SigsMode { .. } => { + Storage::Watchtower { .. } => { unimplemented!(); } }; @@ -1028,7 +1105,7 @@ impl ChannelMonitor { if htlc.transaction_output_index as usize >= tx.output.len() || tx.output[htlc.transaction_output_index as usize].value != htlc.amount_msat / 1000 || tx.output[htlc.transaction_output_index as usize].script_pubkey != expected_script.to_v0_p2wsh() { - return (txn_to_broadcast, (commitment_txid, watch_outputs)); // Corrupted per_commitment_data, fuck this user + return (txn_to_broadcast, (commitment_txid, watch_outputs), spendable_outputs); // Corrupted per_commitment_data, fuck this user } let input = TxIn { previous_output: BitcoinOutPoint { @@ -1056,7 +1133,7 @@ impl ChannelMonitor { }; let sighash_parts = bip143::SighashComponents::new(&single_htlc_tx); sign_input!(sighash_parts, single_htlc_tx.input[0], Some(idx), htlc.amount_msat / 1000); - txn_to_broadcast.push(single_htlc_tx); // TODO: This is not yet tested in ChannelManager! + txn_to_broadcast.push(single_htlc_tx); } } } @@ -1064,9 +1141,9 @@ impl ChannelMonitor { if !inputs.is_empty() || !txn_to_broadcast.is_empty() { // ie we're confident this is actually ours // We're definitely a remote commitment transaction! watch_outputs.append(&mut tx.output.clone()); - self.remote_commitment_txn_on_chain.lock().unwrap().insert(commitment_txid, commitment_number); + self.remote_commitment_txn_on_chain.insert(commitment_txid, (commitment_number, tx.output.iter().map(|output| { output.script_pubkey.clone() }).collect())); } - if inputs.is_empty() { return (txn_to_broadcast, (commitment_txid, watch_outputs)); } // Nothing to be done...probably a false positive/local tx + if inputs.is_empty() { return (txn_to_broadcast, (commitment_txid, watch_outputs), spendable_outputs); } // Nothing to be done...probably a false positive/local tx let outputs = vec!(TxOut { script_pubkey: self.destination_script.clone(), @@ -1087,6 +1164,10 @@ impl ChannelMonitor { sign_input!(sighash_parts, input, htlc_idx, value); } + spendable_outputs.push(SpendableOutputDescriptor::StaticOutput { + outpoint: BitcoinOutPoint { txid: spend_tx.txid(), vout: 0 }, + output: spend_tx.output[0].clone(), + }); txn_to_broadcast.push(spend_tx); } else if let Some(per_commitment_data) = per_commitment_option { // While this isn't useful yet, there is a potential race where if a counterparty @@ -1097,7 +1178,7 @@ impl ChannelMonitor { // not being generated by the above conditional. Thus, to be safe, we go ahead and // insert it here. watch_outputs.append(&mut tx.output.clone()); - self.remote_commitment_txn_on_chain.lock().unwrap().insert(commitment_txid, commitment_number); + self.remote_commitment_txn_on_chain.insert(commitment_txid, (commitment_number, tx.output.iter().map(|output| { output.script_pubkey.clone() }).collect())); if let Some(revocation_points) = self.their_cur_revocation_points { let revocation_point_option = @@ -1107,20 +1188,38 @@ impl ChannelMonitor { } else { None }; if let Some(revocation_point) = revocation_point_option { let (revocation_pubkey, b_htlc_key) = match self.key_storage { - KeyStorage::PrivMode { ref revocation_base_key, ref htlc_base_key } => { + Storage::Local { ref revocation_base_key, ref htlc_base_key, .. } => { (ignore_error!(chan_utils::derive_public_revocation_key(&self.secp_ctx, revocation_point, &PublicKey::from_secret_key(&self.secp_ctx, &revocation_base_key))), ignore_error!(chan_utils::derive_public_key(&self.secp_ctx, revocation_point, &PublicKey::from_secret_key(&self.secp_ctx, &htlc_base_key)))) }, - KeyStorage::SigsMode { ref revocation_base_key, ref htlc_base_key, .. } => { + Storage::Watchtower { ref revocation_base_key, ref htlc_base_key, .. } => { (ignore_error!(chan_utils::derive_public_revocation_key(&self.secp_ctx, revocation_point, &revocation_base_key)), ignore_error!(chan_utils::derive_public_key(&self.secp_ctx, revocation_point, &htlc_base_key))) }, }; let a_htlc_key = match self.their_htlc_base_key { - None => return (txn_to_broadcast, (commitment_txid, watch_outputs)), + None => return (txn_to_broadcast, (commitment_txid, watch_outputs), spendable_outputs), Some(their_htlc_base_key) => ignore_error!(chan_utils::derive_public_key(&self.secp_ctx, revocation_point, &their_htlc_base_key)), }; + for (idx, outp) in tx.output.iter().enumerate() { + if outp.script_pubkey.is_v0_p2wpkh() { + match self.key_storage { + Storage::Local { ref payment_base_key, .. } => { + if let Ok(local_key) = chan_utils::derive_private_key(&self.secp_ctx, &revocation_point, &payment_base_key) { + spendable_outputs.push(SpendableOutputDescriptor::DynamicOutputP2WPKH { + outpoint: BitcoinOutPoint { txid: commitment_txid, vout: idx as u32 }, + key: local_key, + output: outp.clone(), + }); + } + }, + Storage::Watchtower { .. } => {} + } + break; // Only to_remote ouput is claimable + } + } + let mut total_value = 0; let mut values = Vec::new(); let mut inputs = Vec::new(); @@ -1129,14 +1228,14 @@ impl ChannelMonitor { ($sighash_parts: expr, $input: expr, $amount: expr, $preimage: expr) => { { let (sig, redeemscript) = match self.key_storage { - KeyStorage::PrivMode { ref htlc_base_key, .. } => { + Storage::Local { ref htlc_base_key, .. } => { let htlc = &per_commitment_option.unwrap()[$input.sequence as usize]; let redeemscript = chan_utils::get_htlc_redeemscript_with_explicit_keys(htlc, &a_htlc_key, &b_htlc_key, &revocation_pubkey); let sighash = ignore_error!(Message::from_slice(&$sighash_parts.sighash_all(&$input, &redeemscript, $amount)[..])); let htlc_key = ignore_error!(chan_utils::derive_private_key(&self.secp_ctx, revocation_point, &htlc_base_key)); (self.secp_ctx.sign(&sighash, &htlc_key), redeemscript) }, - KeyStorage::SigsMode { .. } => { + Storage::Watchtower { .. } => { unimplemented!(); } }; @@ -1175,12 +1274,16 @@ impl ChannelMonitor { }; let sighash_parts = bip143::SighashComponents::new(&single_htlc_tx); sign_input!(sighash_parts, single_htlc_tx.input[0], htlc.amount_msat / 1000, payment_preimage.to_vec()); + spendable_outputs.push(SpendableOutputDescriptor::StaticOutput { + outpoint: BitcoinOutPoint { txid: single_htlc_tx.txid(), vout: 0 }, + output: single_htlc_tx.output[0].clone(), + }); txn_to_broadcast.push(single_htlc_tx); } } } - if inputs.is_empty() { return (txn_to_broadcast, (commitment_txid, watch_outputs)); } // Nothing to be done...probably a false positive/local tx + if inputs.is_empty() { return (txn_to_broadcast, (commitment_txid, watch_outputs), spendable_outputs); } // Nothing to be done...probably a false positive/local tx let outputs = vec!(TxOut { script_pubkey: self.destination_script.clone(), @@ -1201,47 +1304,51 @@ impl ChannelMonitor { sign_input!(sighash_parts, input, value.0, value.1.to_vec()); } + spendable_outputs.push(SpendableOutputDescriptor::StaticOutput { + outpoint: BitcoinOutPoint { txid: spend_tx.txid(), vout: 0 }, + output: spend_tx.output[0].clone(), + }); txn_to_broadcast.push(spend_tx); } } } - (txn_to_broadcast, (commitment_txid, watch_outputs)) + (txn_to_broadcast, (commitment_txid, watch_outputs), spendable_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 { - let mut txn_to_broadcast = Vec::new(); - - let htlc_txid = tx.txid(); //TODO: This is gonna be a performance bottleneck for watchtowers! + fn check_spend_remote_htlc(&self, tx: &Transaction, commitment_number: u64) -> (Option, Option) { + if tx.input.len() != 1 || tx.output.len() != 1 { + return (None, None) + } macro_rules! ignore_error { ( $thing : expr ) => { match $thing { Ok(a) => a, - Err(_) => return txn_to_broadcast + Err(_) => return (None, None) } }; } - let secret = self.get_secret(commitment_number).unwrap(); + let secret = if let Some(secret) = self.get_secret(commitment_number) { secret } else { return (None, None); }; let per_commitment_key = ignore_error!(SecretKey::from_slice(&self.secp_ctx, &secret)); + let per_commitment_point = PublicKey::from_secret_key(&self.secp_ctx, &per_commitment_key); 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); + Storage::Local { ref revocation_base_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); + Storage::Watchtower { ref revocation_base_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)), + None => return (None, None), + Some(their_delayed_payment_base_key) => ignore_error!(chan_utils::derive_public_key(&self.secp_ctx, &per_commitment_point, &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 htlc_txid = tx.txid(); //TODO: This is gonna be a performance bottleneck for watchtowers! let mut inputs = Vec::new(); let mut amount = 0; @@ -1272,16 +1379,15 @@ impl ChannelMonitor { output: outputs, }; - let sighash_parts = bip143::SighashComponents::new(&spend_tx); let sig = match self.key_storage { - KeyStorage::PrivMode { ref revocation_base_key, .. } => { + Storage::Local { 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 { .. } => { + Storage::Watchtower { .. } => { unimplemented!(); } }; @@ -1290,13 +1396,43 @@ impl ChannelMonitor { 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 + let outpoint = BitcoinOutPoint { txid: spend_tx.txid(), vout: 0 }; + let output = spend_tx.output[0].clone(); + (Some(spend_tx), Some(SpendableOutputDescriptor::StaticOutput { outpoint, output })) + } else { (None, None) } } - fn broadcast_by_local_state(&self, local_tx: &LocalSignedTx) -> Vec { + fn broadcast_by_local_state(&self, local_tx: &LocalSignedTx, per_commitment_point: &Option, delayed_payment_base_key: &Option) -> (Vec, Vec) { let mut res = Vec::with_capacity(local_tx.htlc_outputs.len()); + let mut spendable_outputs = Vec::with_capacity(local_tx.htlc_outputs.len()); + + macro_rules! add_dynamic_output { + ($father_tx: expr, $vout: expr) => { + if let Some(ref per_commitment_point) = *per_commitment_point { + if let Some(ref delayed_payment_base_key) = *delayed_payment_base_key { + if let Ok(local_delayedkey) = chan_utils::derive_private_key(&self.secp_ctx, per_commitment_point, delayed_payment_base_key) { + spendable_outputs.push(SpendableOutputDescriptor::DynamicOutputP2WSH { + outpoint: BitcoinOutPoint { txid: $father_tx.txid(), vout: $vout }, + key: local_delayedkey, + witness_script: chan_utils::get_revokeable_redeemscript(&local_tx.revocation_key, self.our_to_self_delay, &local_tx.delayed_payment_key), + to_self_delay: self.our_to_self_delay, + output: $father_tx.output[$vout as usize].clone(), + }); + } + } + } + } + } + + + let redeemscript = chan_utils::get_revokeable_redeemscript(&local_tx.revocation_key, self.their_to_self_delay.unwrap(), &local_tx.delayed_payment_key); + let revokeable_p2wsh = redeemscript.to_v0_p2wsh(); + for (idx, output) in local_tx.tx.output.iter().enumerate() { + if output.script_pubkey == revokeable_p2wsh { + add_dynamic_output!(local_tx.tx, idx as u32); + break; + } + } for &(ref htlc, ref their_sig, ref our_sig) in local_tx.htlc_outputs.iter() { if htlc.offered { @@ -1312,6 +1448,7 @@ impl ChannelMonitor { htlc_timeout_tx.input[0].witness.push(Vec::new()); htlc_timeout_tx.input[0].witness.push(chan_utils::get_htlc_redeemscript_with_explicit_keys(htlc, &local_tx.a_htlc_key, &local_tx.b_htlc_key, &local_tx.revocation_key).into_bytes()); + add_dynamic_output!(htlc_timeout_tx, 0); res.push(htlc_timeout_tx); } else { if let Some(payment_preimage) = self.payment_preimages.get(&htlc.payment_hash) { @@ -1327,50 +1464,134 @@ impl ChannelMonitor { htlc_success_tx.input[0].witness.push(payment_preimage.to_vec()); htlc_success_tx.input[0].witness.push(chan_utils::get_htlc_redeemscript_with_explicit_keys(htlc, &local_tx.a_htlc_key, &local_tx.b_htlc_key, &local_tx.revocation_key).into_bytes()); + add_dynamic_output!(htlc_success_tx, 0); res.push(htlc_success_tx); } } } - res + (res, spendable_outputs) } /// Attempts to claim any claimable HTLCs in a commitment transaction which was not (yet) /// revoked using data in local_claimable_outpoints. /// Should not be used if check_spend_revoked_transaction succeeds. - fn check_spend_local_transaction(&self, tx: &Transaction, _height: u32) -> Vec { + fn check_spend_local_transaction(&self, tx: &Transaction, _height: u32) -> (Vec, Vec) { let commitment_txid = tx.txid(); if let &Some(ref local_tx) = &self.current_local_signed_commitment_tx { if local_tx.txid == commitment_txid { - return self.broadcast_by_local_state(local_tx); + match self.key_storage { + Storage::Local { ref delayed_payment_base_key, ref latest_per_commitment_point, .. } => { + return self.broadcast_by_local_state(local_tx, latest_per_commitment_point, &Some(*delayed_payment_base_key)); + }, + Storage::Watchtower { .. } => { + return self.broadcast_by_local_state(local_tx, &None, &None); + } + } } } if let &Some(ref local_tx) = &self.prev_local_signed_commitment_tx { if local_tx.txid == commitment_txid { - return self.broadcast_by_local_state(local_tx); + match self.key_storage { + Storage::Local { ref delayed_payment_base_key, ref prev_latest_per_commitment_point, .. } => { + return self.broadcast_by_local_state(local_tx, prev_latest_per_commitment_point, &Some(*delayed_payment_base_key)); + }, + Storage::Watchtower { .. } => { + return self.broadcast_by_local_state(local_tx, &None, &None); + } + } + } + } + (Vec::new(), Vec::new()) + } + + /// Generate a spendable output event when closing_transaction get registered onchain. + fn check_spend_closing_transaction(&self, tx: &Transaction) -> Option { + if tx.input[0].sequence == 0xFFFFFFFF && tx.input[0].witness.last().unwrap().len() == 71 { + match self.key_storage { + Storage::Local { ref shutdown_pubkey, .. } => { + let our_channel_close_key_hash = Hash160::from_data(&shutdown_pubkey.serialize()); + let shutdown_script = Builder::new().push_opcode(opcodes::All::OP_PUSHBYTES_0).push_slice(&our_channel_close_key_hash[..]).into_script(); + for (idx, output) in tx.output.iter().enumerate() { + if shutdown_script == output.script_pubkey { + return Some(SpendableOutputDescriptor::StaticOutput { + outpoint: BitcoinOutPoint { txid: tx.txid(), vout: idx as u32 }, + output: output.clone(), + }); + } + } + } + Storage::Watchtower { .. } => { + //TODO: we need to ensure an offline client will generate the event when it + // cames back online after only the watchtower saw the transaction + } } } - Vec::new() + None } - fn block_connected(&self, txn_matched: &[&Transaction], height: u32, broadcaster: &BroadcasterInterface)-> Vec<(Sha256dHash, Vec)> { + /// Used by ChannelManager deserialization to broadcast the latest local state if it's copy of + /// the Channel was out-of-date. + pub(super) fn get_latest_local_commitment_txn(&self) -> Vec { + if let &Some(ref local_tx) = &self.current_local_signed_commitment_tx { + let mut res = vec![local_tx.tx.clone()]; + match self.key_storage { + Storage::Local { ref delayed_payment_base_key, ref prev_latest_per_commitment_point, .. } => { + res.append(&mut self.broadcast_by_local_state(local_tx, prev_latest_per_commitment_point, &Some(*delayed_payment_base_key)).0); + }, + _ => panic!("Can only broadcast by local channelmonitor"), + }; + res + } else { + Vec::new() + } + } + + fn block_connected(&mut self, txn_matched: &[&Transaction], height: u32, block_hash: &Sha256dHash, broadcaster: &BroadcasterInterface)-> (Vec<(Sha256dHash, Vec)>, Vec) { let mut watch_outputs = Vec::new(); + let mut spendable_outputs = Vec::new(); for tx in txn_matched { - let mut txn: Vec = 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 (remote_txn, new_outputs) = self.check_spend_remote_transaction(tx, height); + if tx.input.len() == 1 { + // Assuming our keys were not leaked (in which case we're screwed no matter what), + // commitment transactions and HTLC transactions will all only ever have one input, + // which is an easy way to filter out any potential non-matching txn for lazy + // filters. + let prevout = &tx.input[0].previous_output; + let mut txn: Vec = Vec::new(); + let funding_txo = match self.key_storage { + Storage::Local { ref funding_info, .. } => { + funding_info.clone() + } + Storage::Watchtower { .. } => { + unimplemented!(); + } + }; + if funding_txo.is_none() || (prevout.txid == funding_txo.as_ref().unwrap().0.txid && prevout.vout == funding_txo.as_ref().unwrap().0.index as u32) { + let (remote_txn, new_outputs, mut spendable_output) = self.check_spend_remote_transaction(tx, height); txn = remote_txn; + spendable_outputs.append(&mut spendable_output); if !new_outputs.1.is_empty() { watch_outputs.push(new_outputs); } if txn.is_empty() { - txn = self.check_spend_local_transaction(tx, height); + let (remote_txn, mut outputs) = self.check_spend_local_transaction(tx, height); + spendable_outputs.append(&mut outputs); + txn = remote_txn; + } + if !funding_txo.is_none() && txn.is_empty() { + if let Some(spendable_output) = self.check_spend_closing_transaction(tx) { + spendable_outputs.push(spendable_output); + } } } 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); + if let Some(&(commitment_number, _)) = self.remote_commitment_txn_on_chain.get(&prevout.txid) { + let (tx, spendable_output) = self.check_spend_remote_htlc(tx, commitment_number); + if let Some(tx) = tx { + txn.push(tx); + } + if let Some(spendable_output) = spendable_output { + spendable_outputs.push(spendable_output); + } } } for tx in txn.iter() { @@ -1379,37 +1600,311 @@ impl ChannelMonitor { } } if let Some(ref cur_local_tx) = self.current_local_signed_commitment_tx { - let mut needs_broadcast = false; - for &(ref htlc, _, _) in cur_local_tx.htlc_outputs.iter() { - if htlc.cltv_expiry <= height + CLTV_CLAIM_BUFFER { - if htlc.offered || self.payment_preimages.contains_key(&htlc.payment_hash) { - needs_broadcast = true; + if self.would_broadcast_at_height(height) { + broadcaster.broadcast_transaction(&cur_local_tx.tx); + match self.key_storage { + Storage::Local { ref delayed_payment_base_key, ref latest_per_commitment_point, .. } => { + let (txs, mut outputs) = self.broadcast_by_local_state(&cur_local_tx, latest_per_commitment_point, &Some(*delayed_payment_base_key)); + spendable_outputs.append(&mut outputs); + for tx in txs { + broadcaster.broadcast_transaction(&tx); + } + }, + Storage::Watchtower { .. } => { + let (txs, mut outputs) = self.broadcast_by_local_state(&cur_local_tx, &None, &None); + spendable_outputs.append(&mut outputs); + for tx in txs { + broadcaster.broadcast_transaction(&tx); + } } } } + } + self.last_block_hash = block_hash.clone(); + (watch_outputs, spendable_outputs) + } - if needs_broadcast { - broadcaster.broadcast_transaction(&cur_local_tx.tx); - for tx in self.broadcast_by_local_state(&cur_local_tx) { - broadcaster.broadcast_transaction(&tx); + pub(super) fn would_broadcast_at_height(&self, height: u32) -> bool { + if let Some(ref cur_local_tx) = self.current_local_signed_commitment_tx { + for &(ref htlc, _, _) in cur_local_tx.htlc_outputs.iter() { + // For inbound HTLCs which we know the preimage for, we have to ensure we hit the + // chain with enough room to claim the HTLC without our counterparty being able to + // time out the HTLC first. + // For outbound HTLCs which our counterparty hasn't failed/claimed, our primary + // concern is being able to claim the corresponding inbound HTLC (on another + // channel) before it expires. In fact, we don't even really care if our + // counterparty here claims such an outbound HTLC after it expired as long as we + // can still claim the corresponding HTLC. Thus, to avoid needlessly hitting the + // chain when our counterparty is waiting for expiration to off-chain fail an HTLC + // we give ourselves a few blocks of headroom after expiration before going + // on-chain for an expired HTLC. + // Note that, to avoid a potential attack whereby a node delays claiming an HTLC + // from us until we've reached the point where we go on-chain with the + // corresponding inbound HTLC, we must ensure that outbound HTLCs go on chain at + // least CLTV_CLAIM_BUFFER blocks prior to the inbound HTLC. + // aka outbound_cltv + HTLC_FAIL_TIMEOUT_BLOCKS == height - CLTV_CLAIM_BUFFER + // inbound_cltv == height + CLTV_CLAIM_BUFFER + // outbound_cltv + HTLC_FAIL_TIMEOUT_BLOCKS + CLTV_CLAIM_BUFER <= inbound_cltv - CLTV_CLAIM_BUFFER + // HTLC_FAIL_TIMEOUT_BLOCKS + 2*CLTV_CLAIM_BUFER <= inbound_cltv - outbound_cltv + // HTLC_FAIL_TIMEOUT_BLOCKS + 2*CLTV_CLAIM_BUFER <= CLTV_EXPIRY_DELTA + if ( htlc.offered && htlc.cltv_expiry + HTLC_FAIL_TIMEOUT_BLOCKS <= height) || + (!htlc.offered && htlc.cltv_expiry <= height + CLTV_CLAIM_BUFFER && self.payment_preimages.contains_key(&htlc.payment_hash)) { + return true; } } } - watch_outputs + false } +} - pub fn would_broadcast_at_height(&self, height: u32) -> bool { - if let Some(ref cur_local_tx) = self.current_local_signed_commitment_tx { - for &(ref htlc, _, _) in cur_local_tx.htlc_outputs.iter() { - if htlc.cltv_expiry <= height + CLTV_CLAIM_BUFFER { - if htlc.offered || self.payment_preimages.contains_key(&htlc.payment_hash) { - return true; +const MAX_ALLOC_SIZE: usize = 64*1024; + +impl ReadableArgs> for (Sha256dHash, ChannelMonitor) { + fn read(reader: &mut R, logger: Arc) -> Result { + let secp_ctx = Secp256k1::new(); + macro_rules! unwrap_obj { + ($key: expr) => { + match $key { + Ok(res) => res, + Err(_) => return Err(DecodeError::InvalidValue), + } + } + } + + let _ver: u8 = Readable::read(reader)?; + let min_ver: u8 = Readable::read(reader)?; + if min_ver > SERIALIZATION_VERSION { + return Err(DecodeError::UnknownVersion); + } + + let commitment_transaction_number_obscure_factor = >::read(reader)?.0; + + let key_storage = match >::read(reader)? { + 0 => { + let revocation_base_key = Readable::read(reader)?; + let htlc_base_key = Readable::read(reader)?; + let delayed_payment_base_key = Readable::read(reader)?; + let payment_base_key = Readable::read(reader)?; + let shutdown_pubkey = Readable::read(reader)?; + let prev_latest_per_commitment_point = match >::read(reader)? { + 0 => None, + 1 => Some(Readable::read(reader)?), + _ => return Err(DecodeError::InvalidValue), + }; + let latest_per_commitment_point = match >::read(reader)? { + 0 => None, + 1 => Some(Readable::read(reader)?), + _ => return Err(DecodeError::InvalidValue), + }; + // Technically this can fail and serialize fail a round-trip, but only for serialization of + // barely-init'd ChannelMonitors that we can't do anything with. + let outpoint = OutPoint { + txid: Readable::read(reader)?, + index: Readable::read(reader)?, + }; + let funding_info = Some((outpoint, Readable::read(reader)?)); + let short_channel_id = match >::read(reader)? { + 0 => None, + 1 => Some(Readable::read(reader)?), + _ => return Err(DecodeError::InvalidValue), + }; + Storage::Local { + revocation_base_key, + htlc_base_key, + delayed_payment_base_key, + payment_base_key, + shutdown_pubkey, + prev_latest_per_commitment_point, + latest_per_commitment_point, + funding_info, + short_channel_id, + } + }, + _ => return Err(DecodeError::InvalidValue), + }; + + let their_htlc_base_key = Some(Readable::read(reader)?); + let their_delayed_payment_base_key = Some(Readable::read(reader)?); + + let their_cur_revocation_points = { + let first_idx = >::read(reader)?.0; + if first_idx == 0 { + None + } else { + let first_point = Readable::read(reader)?; + let second_point_slice: [u8; 33] = Readable::read(reader)?; + if second_point_slice[0..32] == [0; 32] && second_point_slice[32] == 0 { + Some((first_idx, first_point, None)) + } else { + Some((first_idx, first_point, Some(unwrap_obj!(PublicKey::from_slice(&secp_ctx, &second_point_slice))))) + } + } + }; + + let our_to_self_delay: u16 = Readable::read(reader)?; + let their_to_self_delay: Option = Some(Readable::read(reader)?); + + let mut old_secrets = [([0; 32], 1 << 48); 49]; + for &mut (ref mut secret, ref mut idx) in old_secrets.iter_mut() { + *secret = Readable::read(reader)?; + *idx = Readable::read(reader)?; + } + + macro_rules! read_htlc_in_commitment { + () => { + { + let offered: bool = Readable::read(reader)?; + let amount_msat: u64 = Readable::read(reader)?; + let cltv_expiry: u32 = Readable::read(reader)?; + let payment_hash: [u8; 32] = Readable::read(reader)?; + let transaction_output_index: u32 = Readable::read(reader)?; + + HTLCOutputInCommitment { + offered, amount_msat, cltv_expiry, payment_hash, transaction_output_index } } } } - false + + let remote_claimable_outpoints_len: u64 = Readable::read(reader)?; + let mut remote_claimable_outpoints = HashMap::with_capacity(cmp::min(remote_claimable_outpoints_len as usize, MAX_ALLOC_SIZE / 64)); + for _ in 0..remote_claimable_outpoints_len { + let txid: Sha256dHash = Readable::read(reader)?; + let outputs_count: u64 = Readable::read(reader)?; + let mut outputs = Vec::with_capacity(cmp::min(outputs_count as usize, MAX_ALLOC_SIZE / 32)); + for _ in 0..outputs_count { + outputs.push(read_htlc_in_commitment!()); + } + if let Some(_) = remote_claimable_outpoints.insert(txid, outputs) { + return Err(DecodeError::InvalidValue); + } + } + + let remote_commitment_txn_on_chain_len: u64 = Readable::read(reader)?; + let mut remote_commitment_txn_on_chain = HashMap::with_capacity(cmp::min(remote_commitment_txn_on_chain_len as usize, MAX_ALLOC_SIZE / 32)); + for _ in 0..remote_commitment_txn_on_chain_len { + let txid: Sha256dHash = Readable::read(reader)?; + let commitment_number = >::read(reader)?.0; + let outputs_count = >::read(reader)?; + let mut outputs = Vec::with_capacity(cmp::min(outputs_count as usize, MAX_ALLOC_SIZE / 8)); + for _ in 0..outputs_count { + outputs.push(Readable::read(reader)?); + } + if let Some(_) = remote_commitment_txn_on_chain.insert(txid, (commitment_number, outputs)) { + return Err(DecodeError::InvalidValue); + } + } + + let remote_hash_commitment_number_len: u64 = Readable::read(reader)?; + let mut remote_hash_commitment_number = HashMap::with_capacity(cmp::min(remote_hash_commitment_number_len as usize, MAX_ALLOC_SIZE / 32)); + for _ in 0..remote_hash_commitment_number_len { + let txid: [u8; 32] = Readable::read(reader)?; + let commitment_number = >::read(reader)?.0; + if let Some(_) = remote_hash_commitment_number.insert(txid, commitment_number) { + return Err(DecodeError::InvalidValue); + } + } + + macro_rules! read_local_tx { + () => { + { + let tx = match Transaction::consensus_decode(reader.by_ref()) { + Ok(tx) => tx, + Err(e) => match e { + encode::Error::Io(ioe) => return Err(DecodeError::Io(ioe)), + _ => return Err(DecodeError::InvalidValue), + }, + }; + + if tx.input.is_empty() { + // Ensure tx didn't hit the 0-input ambiguity case. + return Err(DecodeError::InvalidValue); + } + + let revocation_key = Readable::read(reader)?; + let a_htlc_key = Readable::read(reader)?; + let b_htlc_key = Readable::read(reader)?; + let delayed_payment_key = Readable::read(reader)?; + let feerate_per_kw: u64 = Readable::read(reader)?; + + let htlc_outputs_len: u64 = Readable::read(reader)?; + let mut htlc_outputs = Vec::with_capacity(cmp::min(htlc_outputs_len as usize, MAX_ALLOC_SIZE / 128)); + for _ in 0..htlc_outputs_len { + htlc_outputs.push((read_htlc_in_commitment!(), Readable::read(reader)?, Readable::read(reader)?)); + } + + LocalSignedTx { + txid: tx.txid(), + tx, revocation_key, a_htlc_key, b_htlc_key, delayed_payment_key, feerate_per_kw, htlc_outputs + } + } + } + } + + let prev_local_signed_commitment_tx = match >::read(reader)? { + 0 => None, + 1 => { + Some(read_local_tx!()) + }, + _ => return Err(DecodeError::InvalidValue), + }; + + let current_local_signed_commitment_tx = match >::read(reader)? { + 0 => None, + 1 => { + Some(read_local_tx!()) + }, + _ => return Err(DecodeError::InvalidValue), + }; + + let current_remote_commitment_number = >::read(reader)?.0; + + let payment_preimages_len: u64 = Readable::read(reader)?; + let mut payment_preimages = HashMap::with_capacity(cmp::min(payment_preimages_len as usize, MAX_ALLOC_SIZE / 32)); + let mut sha = Sha256::new(); + for _ in 0..payment_preimages_len { + let preimage: [u8; 32] = Readable::read(reader)?; + sha.reset(); + sha.input(&preimage); + let mut hash = [0; 32]; + sha.result(&mut hash); + if let Some(_) = payment_preimages.insert(hash, preimage) { + return Err(DecodeError::InvalidValue); + } + } + + let last_block_hash: Sha256dHash = Readable::read(reader)?; + let destination_script = Readable::read(reader)?; + + Ok((last_block_hash.clone(), ChannelMonitor { + commitment_transaction_number_obscure_factor, + + key_storage, + their_htlc_base_key, + their_delayed_payment_base_key, + their_cur_revocation_points, + + our_to_self_delay, + their_to_self_delay, + + old_secrets, + remote_claimable_outpoints, + remote_commitment_txn_on_chain, + remote_hash_commitment_number, + + prev_local_signed_commitment_tx, + current_local_signed_commitment_tx, + current_remote_commitment_number, + + payment_preimages, + + destination_script, + last_block_hash, + secp_ctx, + logger, + })) } + } #[cfg(test)] @@ -1421,9 +1916,11 @@ mod tests { use ln::channelmonitor::ChannelMonitor; use ln::chan_utils::{HTLCOutputInCommitment, TxCreationKeys}; use util::sha2::Sha256; + use util::test_utils::TestLogger; use secp256k1::key::{SecretKey,PublicKey}; use secp256k1::{Secp256k1, Signature}; use rand::{thread_rng,Rng}; + use std::sync::Arc; #[test] fn test_per_commitment_storage() { @@ -1431,6 +1928,7 @@ mod tests { let mut secrets: Vec<[u8; 32]> = Vec::new(); let mut monitor: ChannelMonitor; let secp_ctx = Secp256k1::new(); + let logger = Arc::new(TestLogger::new()); macro_rules! test_secrets { () => { @@ -1440,343 +1938,341 @@ mod tests { idx -= 1; } assert_eq!(monitor.get_min_seen_secret(), idx + 1); - assert!(monitor.get_secret(idx).is_err()); + assert!(monitor.get_secret(idx).is_none()); }; } - let delayed_payment_base_key = PublicKey::from_secret_key(&secp_ctx, &SecretKey::from_slice(&secp_ctx, &[42; 32]).unwrap()); - { // insert_secret correct sequence - monitor = ChannelMonitor::new(&SecretKey::from_slice(&secp_ctx, &[42; 32]).unwrap(), &delayed_payment_base_key, &SecretKey::from_slice(&secp_ctx, &[43; 32]).unwrap(), 0, Script::new()); + monitor = ChannelMonitor::new(&SecretKey::from_slice(&secp_ctx, &[42; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[43; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[44; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[44; 32]).unwrap(), &PublicKey::from_secret_key(&secp_ctx, &SecretKey::from_slice(&secp_ctx, &[45; 32]).unwrap()), 0, Script::new(), logger.clone()); secrets.clear(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("7cc854b54e3e0dcdb010d7a3fee464a9687be6e8db3be6854c475621e007a5dc").unwrap()); - monitor.provide_secret(281474976710655, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710655, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("c7518c8ae4660ed02894df8976fa1a3659c1a8b4b5bec0c4b872abeba4cb8964").unwrap()); - monitor.provide_secret(281474976710654, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710654, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("2273e227a5b7449b6e70f1fb4652864038b1cbf9cd7c043a7d6456b7fc275ad8").unwrap()); - monitor.provide_secret(281474976710653, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710653, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("27cddaa5624534cb6cb9d7da077cf2b22ab21e9b506fd4998a51d54502e99116").unwrap()); - monitor.provide_secret(281474976710652, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710652, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("c65716add7aa98ba7acb236352d665cab17345fe45b55fb879ff80e6bd0c41dd").unwrap()); - monitor.provide_secret(281474976710651, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710651, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("969660042a28f32d9be17344e09374b379962d03db1574df5a8a5a47e19ce3f2").unwrap()); - monitor.provide_secret(281474976710650, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710650, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("a5a64476122ca0925fb344bdc1854c1c0a59fc614298e50a33e331980a220f32").unwrap()); - monitor.provide_secret(281474976710649, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710649, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("05cde6323d949933f7f7b78776bcc1ea6d9b31447732e3802e1f7ac44b650e17").unwrap()); - monitor.provide_secret(281474976710648, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710648, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); } { // insert_secret #1 incorrect - monitor = ChannelMonitor::new(&SecretKey::from_slice(&secp_ctx, &[42; 32]).unwrap(), &delayed_payment_base_key, &SecretKey::from_slice(&secp_ctx, &[43; 32]).unwrap(), 0, Script::new()); + monitor = ChannelMonitor::new(&SecretKey::from_slice(&secp_ctx, &[42; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[43; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[44; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[44; 32]).unwrap(), &PublicKey::from_secret_key(&secp_ctx, &SecretKey::from_slice(&secp_ctx, &[45; 32]).unwrap()), 0, Script::new(), logger.clone()); secrets.clear(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("02a40c85b6f28da08dfdbe0926c53fab2de6d28c10301f8f7c4073d5e42e3148").unwrap()); - monitor.provide_secret(281474976710655, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710655, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("c7518c8ae4660ed02894df8976fa1a3659c1a8b4b5bec0c4b872abeba4cb8964").unwrap()); - assert_eq!(monitor.provide_secret(281474976710654, secrets.last().unwrap().clone(), None).unwrap_err().err, + assert_eq!(monitor.provide_secret(281474976710654, secrets.last().unwrap().clone()).unwrap_err().0, "Previous secret did not match new one"); } { // insert_secret #2 incorrect (#1 derived from incorrect) - monitor = ChannelMonitor::new(&SecretKey::from_slice(&secp_ctx, &[42; 32]).unwrap(), &delayed_payment_base_key, &SecretKey::from_slice(&secp_ctx, &[43; 32]).unwrap(), 0, Script::new()); + monitor = ChannelMonitor::new(&SecretKey::from_slice(&secp_ctx, &[42; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[43; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[44; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[44; 32]).unwrap(), &PublicKey::from_secret_key(&secp_ctx, &SecretKey::from_slice(&secp_ctx, &[45; 32]).unwrap()), 0, Script::new(), logger.clone()); secrets.clear(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("02a40c85b6f28da08dfdbe0926c53fab2de6d28c10301f8f7c4073d5e42e3148").unwrap()); - monitor.provide_secret(281474976710655, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710655, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("dddc3a8d14fddf2b68fa8c7fbad2748274937479dd0f8930d5ebb4ab6bd866a3").unwrap()); - monitor.provide_secret(281474976710654, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710654, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("2273e227a5b7449b6e70f1fb4652864038b1cbf9cd7c043a7d6456b7fc275ad8").unwrap()); - monitor.provide_secret(281474976710653, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710653, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("27cddaa5624534cb6cb9d7da077cf2b22ab21e9b506fd4998a51d54502e99116").unwrap()); - assert_eq!(monitor.provide_secret(281474976710652, secrets.last().unwrap().clone(), None).unwrap_err().err, + assert_eq!(monitor.provide_secret(281474976710652, secrets.last().unwrap().clone()).unwrap_err().0, "Previous secret did not match new one"); } { // insert_secret #3 incorrect - monitor = ChannelMonitor::new(&SecretKey::from_slice(&secp_ctx, &[42; 32]).unwrap(), &delayed_payment_base_key, &SecretKey::from_slice(&secp_ctx, &[43; 32]).unwrap(), 0, Script::new()); + monitor = ChannelMonitor::new(&SecretKey::from_slice(&secp_ctx, &[42; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[43; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[44; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[44; 32]).unwrap(), &PublicKey::from_secret_key(&secp_ctx, &SecretKey::from_slice(&secp_ctx, &[45; 32]).unwrap()), 0, Script::new(), logger.clone()); secrets.clear(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("7cc854b54e3e0dcdb010d7a3fee464a9687be6e8db3be6854c475621e007a5dc").unwrap()); - monitor.provide_secret(281474976710655, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710655, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("c7518c8ae4660ed02894df8976fa1a3659c1a8b4b5bec0c4b872abeba4cb8964").unwrap()); - monitor.provide_secret(281474976710654, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710654, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("c51a18b13e8527e579ec56365482c62f180b7d5760b46e9477dae59e87ed423a").unwrap()); - monitor.provide_secret(281474976710653, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710653, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("27cddaa5624534cb6cb9d7da077cf2b22ab21e9b506fd4998a51d54502e99116").unwrap()); - assert_eq!(monitor.provide_secret(281474976710652, secrets.last().unwrap().clone(), None).unwrap_err().err, + assert_eq!(monitor.provide_secret(281474976710652, secrets.last().unwrap().clone()).unwrap_err().0, "Previous secret did not match new one"); } { // insert_secret #4 incorrect (1,2,3 derived from incorrect) - monitor = ChannelMonitor::new(&SecretKey::from_slice(&secp_ctx, &[42; 32]).unwrap(), &delayed_payment_base_key, &SecretKey::from_slice(&secp_ctx, &[43; 32]).unwrap(), 0, Script::new()); + monitor = ChannelMonitor::new(&SecretKey::from_slice(&secp_ctx, &[42; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[43; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[44; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[44; 32]).unwrap(), &PublicKey::from_secret_key(&secp_ctx, &SecretKey::from_slice(&secp_ctx, &[45; 32]).unwrap()), 0, Script::new(), logger.clone()); secrets.clear(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("02a40c85b6f28da08dfdbe0926c53fab2de6d28c10301f8f7c4073d5e42e3148").unwrap()); - monitor.provide_secret(281474976710655, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710655, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("dddc3a8d14fddf2b68fa8c7fbad2748274937479dd0f8930d5ebb4ab6bd866a3").unwrap()); - monitor.provide_secret(281474976710654, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710654, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("c51a18b13e8527e579ec56365482c62f180b7d5760b46e9477dae59e87ed423a").unwrap()); - monitor.provide_secret(281474976710653, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710653, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("ba65d7b0ef55a3ba300d4e87af29868f394f8f138d78a7011669c79b37b936f4").unwrap()); - monitor.provide_secret(281474976710652, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710652, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("c65716add7aa98ba7acb236352d665cab17345fe45b55fb879ff80e6bd0c41dd").unwrap()); - monitor.provide_secret(281474976710651, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710651, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("969660042a28f32d9be17344e09374b379962d03db1574df5a8a5a47e19ce3f2").unwrap()); - monitor.provide_secret(281474976710650, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710650, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("a5a64476122ca0925fb344bdc1854c1c0a59fc614298e50a33e331980a220f32").unwrap()); - monitor.provide_secret(281474976710649, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710649, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("05cde6323d949933f7f7b78776bcc1ea6d9b31447732e3802e1f7ac44b650e17").unwrap()); - assert_eq!(monitor.provide_secret(281474976710648, secrets.last().unwrap().clone(), None).unwrap_err().err, + assert_eq!(monitor.provide_secret(281474976710648, secrets.last().unwrap().clone()).unwrap_err().0, "Previous secret did not match new one"); } { // insert_secret #5 incorrect - monitor = ChannelMonitor::new(&SecretKey::from_slice(&secp_ctx, &[42; 32]).unwrap(), &delayed_payment_base_key, &SecretKey::from_slice(&secp_ctx, &[43; 32]).unwrap(), 0, Script::new()); + monitor = ChannelMonitor::new(&SecretKey::from_slice(&secp_ctx, &[42; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[43; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[44; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[44; 32]).unwrap(), &PublicKey::from_secret_key(&secp_ctx, &SecretKey::from_slice(&secp_ctx, &[45; 32]).unwrap()), 0, Script::new(), logger.clone()); secrets.clear(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("7cc854b54e3e0dcdb010d7a3fee464a9687be6e8db3be6854c475621e007a5dc").unwrap()); - monitor.provide_secret(281474976710655, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710655, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("c7518c8ae4660ed02894df8976fa1a3659c1a8b4b5bec0c4b872abeba4cb8964").unwrap()); - monitor.provide_secret(281474976710654, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710654, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("2273e227a5b7449b6e70f1fb4652864038b1cbf9cd7c043a7d6456b7fc275ad8").unwrap()); - monitor.provide_secret(281474976710653, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710653, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("27cddaa5624534cb6cb9d7da077cf2b22ab21e9b506fd4998a51d54502e99116").unwrap()); - monitor.provide_secret(281474976710652, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710652, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("631373ad5f9ef654bb3dade742d09504c567edd24320d2fcd68e3cc47e2ff6a6").unwrap()); - monitor.provide_secret(281474976710651, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710651, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("969660042a28f32d9be17344e09374b379962d03db1574df5a8a5a47e19ce3f2").unwrap()); - assert_eq!(monitor.provide_secret(281474976710650, secrets.last().unwrap().clone(), None).unwrap_err().err, + assert_eq!(monitor.provide_secret(281474976710650, secrets.last().unwrap().clone()).unwrap_err().0, "Previous secret did not match new one"); } { // insert_secret #6 incorrect (5 derived from incorrect) - monitor = ChannelMonitor::new(&SecretKey::from_slice(&secp_ctx, &[42; 32]).unwrap(), &delayed_payment_base_key, &SecretKey::from_slice(&secp_ctx, &[43; 32]).unwrap(), 0, Script::new()); + monitor = ChannelMonitor::new(&SecretKey::from_slice(&secp_ctx, &[42; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[43; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[44; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[44; 32]).unwrap(), &PublicKey::from_secret_key(&secp_ctx, &SecretKey::from_slice(&secp_ctx, &[45; 32]).unwrap()), 0, Script::new(), logger.clone()); secrets.clear(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("7cc854b54e3e0dcdb010d7a3fee464a9687be6e8db3be6854c475621e007a5dc").unwrap()); - monitor.provide_secret(281474976710655, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710655, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("c7518c8ae4660ed02894df8976fa1a3659c1a8b4b5bec0c4b872abeba4cb8964").unwrap()); - monitor.provide_secret(281474976710654, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710654, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("2273e227a5b7449b6e70f1fb4652864038b1cbf9cd7c043a7d6456b7fc275ad8").unwrap()); - monitor.provide_secret(281474976710653, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710653, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("27cddaa5624534cb6cb9d7da077cf2b22ab21e9b506fd4998a51d54502e99116").unwrap()); - monitor.provide_secret(281474976710652, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710652, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("631373ad5f9ef654bb3dade742d09504c567edd24320d2fcd68e3cc47e2ff6a6").unwrap()); - monitor.provide_secret(281474976710651, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710651, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("b7e76a83668bde38b373970155c868a653304308f9896692f904a23731224bb1").unwrap()); - monitor.provide_secret(281474976710650, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710650, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("a5a64476122ca0925fb344bdc1854c1c0a59fc614298e50a33e331980a220f32").unwrap()); - monitor.provide_secret(281474976710649, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710649, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("05cde6323d949933f7f7b78776bcc1ea6d9b31447732e3802e1f7ac44b650e17").unwrap()); - assert_eq!(monitor.provide_secret(281474976710648, secrets.last().unwrap().clone(), None).unwrap_err().err, + assert_eq!(monitor.provide_secret(281474976710648, secrets.last().unwrap().clone()).unwrap_err().0, "Previous secret did not match new one"); } { // insert_secret #7 incorrect - monitor = ChannelMonitor::new(&SecretKey::from_slice(&secp_ctx, &[42; 32]).unwrap(), &delayed_payment_base_key, &SecretKey::from_slice(&secp_ctx, &[43; 32]).unwrap(), 0, Script::new()); + monitor = ChannelMonitor::new(&SecretKey::from_slice(&secp_ctx, &[42; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[43; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[44; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[44; 32]).unwrap(), &PublicKey::from_secret_key(&secp_ctx, &SecretKey::from_slice(&secp_ctx, &[45; 32]).unwrap()), 0, Script::new(), logger.clone()); secrets.clear(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("7cc854b54e3e0dcdb010d7a3fee464a9687be6e8db3be6854c475621e007a5dc").unwrap()); - monitor.provide_secret(281474976710655, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710655, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("c7518c8ae4660ed02894df8976fa1a3659c1a8b4b5bec0c4b872abeba4cb8964").unwrap()); - monitor.provide_secret(281474976710654, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710654, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("2273e227a5b7449b6e70f1fb4652864038b1cbf9cd7c043a7d6456b7fc275ad8").unwrap()); - monitor.provide_secret(281474976710653, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710653, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("27cddaa5624534cb6cb9d7da077cf2b22ab21e9b506fd4998a51d54502e99116").unwrap()); - monitor.provide_secret(281474976710652, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710652, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("c65716add7aa98ba7acb236352d665cab17345fe45b55fb879ff80e6bd0c41dd").unwrap()); - monitor.provide_secret(281474976710651, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710651, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("969660042a28f32d9be17344e09374b379962d03db1574df5a8a5a47e19ce3f2").unwrap()); - monitor.provide_secret(281474976710650, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710650, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("e7971de736e01da8ed58b94c2fc216cb1dca9e326f3a96e7194fe8ea8af6c0a3").unwrap()); - monitor.provide_secret(281474976710649, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710649, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("05cde6323d949933f7f7b78776bcc1ea6d9b31447732e3802e1f7ac44b650e17").unwrap()); - assert_eq!(monitor.provide_secret(281474976710648, secrets.last().unwrap().clone(), None).unwrap_err().err, + assert_eq!(monitor.provide_secret(281474976710648, secrets.last().unwrap().clone()).unwrap_err().0, "Previous secret did not match new one"); } { // insert_secret #8 incorrect - monitor = ChannelMonitor::new(&SecretKey::from_slice(&secp_ctx, &[42; 32]).unwrap(), &delayed_payment_base_key, &SecretKey::from_slice(&secp_ctx, &[43; 32]).unwrap(), 0, Script::new()); + monitor = ChannelMonitor::new(&SecretKey::from_slice(&secp_ctx, &[42; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[43; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[44; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[44; 32]).unwrap(), &PublicKey::from_secret_key(&secp_ctx, &SecretKey::from_slice(&secp_ctx, &[45; 32]).unwrap()), 0, Script::new(), logger.clone()); secrets.clear(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("7cc854b54e3e0dcdb010d7a3fee464a9687be6e8db3be6854c475621e007a5dc").unwrap()); - monitor.provide_secret(281474976710655, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710655, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("c7518c8ae4660ed02894df8976fa1a3659c1a8b4b5bec0c4b872abeba4cb8964").unwrap()); - monitor.provide_secret(281474976710654, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710654, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("2273e227a5b7449b6e70f1fb4652864038b1cbf9cd7c043a7d6456b7fc275ad8").unwrap()); - monitor.provide_secret(281474976710653, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710653, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("27cddaa5624534cb6cb9d7da077cf2b22ab21e9b506fd4998a51d54502e99116").unwrap()); - monitor.provide_secret(281474976710652, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710652, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("c65716add7aa98ba7acb236352d665cab17345fe45b55fb879ff80e6bd0c41dd").unwrap()); - monitor.provide_secret(281474976710651, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710651, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("969660042a28f32d9be17344e09374b379962d03db1574df5a8a5a47e19ce3f2").unwrap()); - monitor.provide_secret(281474976710650, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710650, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("a5a64476122ca0925fb344bdc1854c1c0a59fc614298e50a33e331980a220f32").unwrap()); - monitor.provide_secret(281474976710649, secrets.last().unwrap().clone(), None).unwrap(); + monitor.provide_secret(281474976710649, secrets.last().unwrap().clone()).unwrap(); test_secrets!(); secrets.push([0; 32]); secrets.last_mut().unwrap()[0..32].clone_from_slice(&hex::decode("a7efbc61aac46d34f77778bac22c8a20c6a46ca460addc49009bda875ec88fa4").unwrap()); - assert_eq!(monitor.provide_secret(281474976710648, secrets.last().unwrap().clone(), None).unwrap_err().err, + assert_eq!(monitor.provide_secret(281474976710648, secrets.last().unwrap().clone()).unwrap_err().0, "Previous secret did not match new one"); } } @@ -1784,12 +2280,13 @@ mod tests { #[test] fn test_prune_preimages() { let secp_ctx = Secp256k1::new(); + let logger = Arc::new(TestLogger::new()); let dummy_sig = Signature::from_der(&secp_ctx, &hex::decode("3045022100fa86fa9a36a8cd6a7bb8f06a541787d51371d067951a9461d5404de6b928782e02201c8b7c334c10aed8976a3a465be9a28abff4cb23acbf00022295b378ce1fa3cd").unwrap()[..]).unwrap(); + let dummy_key = PublicKey::from_secret_key(&secp_ctx, &SecretKey::from_slice(&secp_ctx, &[42; 32]).unwrap()); macro_rules! dummy_keys { () => { { - let dummy_key = PublicKey::from_secret_key(&secp_ctx, &SecretKey::from_slice(&secp_ctx, &[42; 32]).unwrap()); TxCreationKeys { per_commitment_point: dummy_key.clone(), revocation_key: dummy_key.clone(), @@ -1854,15 +2351,14 @@ mod tests { // Prune with one old state and a local commitment tx holding a few overlaps with the // old state. - let delayed_payment_base_key = PublicKey::from_secret_key(&secp_ctx, &SecretKey::from_slice(&secp_ctx, &[42; 32]).unwrap()); - let mut monitor = ChannelMonitor::new(&SecretKey::from_slice(&secp_ctx, &[42; 32]).unwrap(), &delayed_payment_base_key, &SecretKey::from_slice(&secp_ctx, &[43; 32]).unwrap(), 0, Script::new()); + let mut monitor = ChannelMonitor::new(&SecretKey::from_slice(&secp_ctx, &[42; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[43; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[44; 32]).unwrap(), &SecretKey::from_slice(&secp_ctx, &[44; 32]).unwrap(), &PublicKey::from_secret_key(&secp_ctx, &SecretKey::from_slice(&secp_ctx, &[45; 32]).unwrap()), 0, Script::new(), logger.clone()); monitor.set_their_to_self_delay(10); monitor.provide_latest_local_commitment_tx_info(dummy_tx.clone(), dummy_keys!(), 0, preimages_to_local_htlcs!(preimages[0..10])); - monitor.provide_latest_remote_commitment_tx_info(&dummy_tx, preimages_slice_to_htlc_outputs!(preimages[5..15]), 281474976710655); - monitor.provide_latest_remote_commitment_tx_info(&dummy_tx, preimages_slice_to_htlc_outputs!(preimages[15..20]), 281474976710654); - monitor.provide_latest_remote_commitment_tx_info(&dummy_tx, preimages_slice_to_htlc_outputs!(preimages[17..20]), 281474976710653); - monitor.provide_latest_remote_commitment_tx_info(&dummy_tx, preimages_slice_to_htlc_outputs!(preimages[18..20]), 281474976710652); + monitor.provide_latest_remote_commitment_tx_info(&dummy_tx, preimages_slice_to_htlc_outputs!(preimages[5..15]), 281474976710655, dummy_key); + monitor.provide_latest_remote_commitment_tx_info(&dummy_tx, preimages_slice_to_htlc_outputs!(preimages[15..20]), 281474976710654, dummy_key); + monitor.provide_latest_remote_commitment_tx_info(&dummy_tx, preimages_slice_to_htlc_outputs!(preimages[17..20]), 281474976710653, dummy_key); + monitor.provide_latest_remote_commitment_tx_info(&dummy_tx, preimages_slice_to_htlc_outputs!(preimages[18..20]), 281474976710652, dummy_key); for &(ref preimage, ref hash) in preimages.iter() { monitor.provide_payment_preimage(hash, preimage); } @@ -1870,14 +2366,14 @@ mod tests { // Now provide a secret, pruning preimages 10-15 let mut secret = [0; 32]; secret[0..32].clone_from_slice(&hex::decode("7cc854b54e3e0dcdb010d7a3fee464a9687be6e8db3be6854c475621e007a5dc").unwrap()); - monitor.provide_secret(281474976710655, secret.clone(), None).unwrap(); + monitor.provide_secret(281474976710655, secret.clone()).unwrap(); assert_eq!(monitor.payment_preimages.len(), 15); test_preimages_exist!(&preimages[0..10], monitor); test_preimages_exist!(&preimages[15..20], monitor); // Now provide a further secret, pruning preimages 15-17 secret[0..32].clone_from_slice(&hex::decode("c7518c8ae4660ed02894df8976fa1a3659c1a8b4b5bec0c4b872abeba4cb8964").unwrap()); - monitor.provide_secret(281474976710654, secret.clone(), None).unwrap(); + monitor.provide_secret(281474976710654, secret.clone()).unwrap(); assert_eq!(monitor.payment_preimages.len(), 13); test_preimages_exist!(&preimages[0..10], monitor); test_preimages_exist!(&preimages[17..20], monitor); @@ -1886,7 +2382,7 @@ mod tests { // previous commitment tx's preimages too monitor.provide_latest_local_commitment_tx_info(dummy_tx.clone(), dummy_keys!(), 0, preimages_to_local_htlcs!(preimages[0..5])); secret[0..32].clone_from_slice(&hex::decode("2273e227a5b7449b6e70f1fb4652864038b1cbf9cd7c043a7d6456b7fc275ad8").unwrap()); - monitor.provide_secret(281474976710653, secret.clone(), None).unwrap(); + monitor.provide_secret(281474976710653, secret.clone()).unwrap(); assert_eq!(monitor.payment_preimages.len(), 12); test_preimages_exist!(&preimages[0..10], monitor); test_preimages_exist!(&preimages[18..20], monitor); @@ -1894,7 +2390,7 @@ mod tests { // But if we do it again, we'll prune 5-10 monitor.provide_latest_local_commitment_tx_info(dummy_tx.clone(), dummy_keys!(), 0, preimages_to_local_htlcs!(preimages[0..3])); secret[0..32].clone_from_slice(&hex::decode("27cddaa5624534cb6cb9d7da077cf2b22ab21e9b506fd4998a51d54502e99116").unwrap()); - monitor.provide_secret(281474976710652, secret.clone(), None).unwrap(); + monitor.provide_secret(281474976710652, secret.clone()).unwrap(); assert_eq!(monitor.payment_preimages.len(), 5); test_preimages_exist!(&preimages[0..5], monitor); }