1 // This file is Copyright its original authors, visible in version control
4 // This file is licensed under the Apache License, Version 2.0 <LICENSE-APACHE
5 // or http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
6 // <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your option.
7 // You may not use this file except in accordance with one or both of these
10 use crate::blinded_path::BlindedPath;
11 use crate::blinded_path::message::ForwardNode;
12 use crate::blinded_path::payment::ReceiveTlvs;
14 use crate::chain::WatchedOutput;
15 use crate::chain::chaininterface;
16 use crate::chain::chaininterface::ConfirmationTarget;
18 use crate::chain::chaininterface::FEERATE_FLOOR_SATS_PER_KW;
19 use crate::chain::chainmonitor;
20 use crate::chain::channelmonitor;
21 use crate::chain::channelmonitor::MonitorEvent;
22 use crate::chain::transaction::OutPoint;
23 use crate::routing::router::{CandidateRouteHop, FirstHopCandidate, PublicHopCandidate, PrivateHopCandidate};
26 use crate::events::bump_transaction::{WalletSource, Utxo};
27 use crate::ln::types::ChannelId;
28 use crate::ln::channel_state::ChannelDetails;
29 use crate::ln::channelmanager;
31 use crate::ln::chan_utils::CommitmentTransaction;
32 use crate::ln::features::{ChannelFeatures, InitFeatures, NodeFeatures};
33 use crate::ln::{msgs, wire};
34 use crate::ln::msgs::LightningError;
35 use crate::ln::script::ShutdownScript;
36 use crate::offers::invoice::{BlindedPayInfo, UnsignedBolt12Invoice};
37 use crate::offers::invoice_request::UnsignedInvoiceRequest;
38 use crate::onion_message::messenger::{DefaultMessageRouter, Destination, MessageRouter, OnionMessagePath};
39 use crate::routing::gossip::{EffectiveCapacity, NetworkGraph, NodeId, RoutingFees};
40 use crate::routing::utxo::{UtxoLookup, UtxoLookupError, UtxoResult};
41 use crate::routing::router::{DefaultRouter, InFlightHtlcs, Path, Route, RouteParameters, RouteHintHop, Router, ScorerAccountingForInFlightHtlcs};
42 use crate::routing::scoring::{ChannelUsage, ScoreUpdate, ScoreLookUp};
43 use crate::sync::RwLock;
44 use crate::util::config::UserConfig;
45 use crate::util::test_channel_signer::{TestChannelSigner, EnforcementState};
46 use crate::util::logger::{Logger, Level, Record};
47 use crate::util::ser::{Readable, ReadableArgs, Writer, Writeable};
48 use crate::util::persist::KVStore;
50 use bitcoin::amount::Amount;
51 use bitcoin::blockdata::constants::ChainHash;
52 use bitcoin::blockdata::constants::genesis_block;
53 use bitcoin::blockdata::transaction::{Transaction, TxOut};
54 use bitcoin::blockdata::script::{Builder, Script, ScriptBuf};
55 use bitcoin::blockdata::opcodes;
56 use bitcoin::blockdata::block::Block;
57 use bitcoin::network::Network;
58 use bitcoin::hash_types::{BlockHash, Txid};
59 use bitcoin::hashes::Hash;
60 use bitcoin::sighash::{SighashCache, EcdsaSighashType};
62 use bitcoin::secp256k1::{PublicKey, Scalar, Secp256k1, SecretKey, self};
63 use bitcoin::secp256k1::ecdh::SharedSecret;
64 use bitcoin::secp256k1::ecdsa::{RecoverableSignature, Signature};
65 use bitcoin::secp256k1::schnorr;
68 use crate::prelude::*;
69 use core::cell::RefCell;
70 use core::time::Duration;
71 use crate::sync::{Mutex, Arc};
72 use core::sync::atomic::{AtomicBool, AtomicUsize, Ordering};
75 use crate::sign::{InMemorySigner, RandomBytes, Recipient, EntropySource, NodeSigner, SignerProvider};
77 #[cfg(feature = "std")]
78 use std::time::{SystemTime, UNIX_EPOCH};
79 use bitcoin::psbt::Psbt;
80 use bitcoin::Sequence;
82 pub fn pubkey(byte: u8) -> PublicKey {
83 let secp_ctx = Secp256k1::new();
84 PublicKey::from_secret_key(&secp_ctx, &privkey(byte))
87 pub fn privkey(byte: u8) -> SecretKey {
88 SecretKey::from_slice(&[byte; 32]).unwrap()
91 pub struct TestVecWriter(pub Vec<u8>);
92 impl Writer for TestVecWriter {
93 fn write_all(&mut self, buf: &[u8]) -> Result<(), io::Error> {
94 self.0.extend_from_slice(buf);
99 pub struct TestFeeEstimator {
100 pub sat_per_kw: Mutex<u32>,
102 impl chaininterface::FeeEstimator for TestFeeEstimator {
103 fn get_est_sat_per_1000_weight(&self, _confirmation_target: ConfirmationTarget) -> u32 {
104 *self.sat_per_kw.lock().unwrap()
108 pub struct TestRouter<'a> {
109 pub router: DefaultRouter<
110 Arc<NetworkGraph<&'a TestLogger>>,
113 &'a RwLock<TestScorer>,
117 //pub entropy_source: &'a RandomBytes,
118 pub network_graph: Arc<NetworkGraph<&'a TestLogger>>,
119 pub next_routes: Mutex<VecDeque<(RouteParameters, Option<Result<Route, LightningError>>)>>,
120 pub scorer: &'a RwLock<TestScorer>,
123 impl<'a> TestRouter<'a> {
125 network_graph: Arc<NetworkGraph<&'a TestLogger>>, logger: &'a TestLogger,
126 scorer: &'a RwLock<TestScorer>,
128 let entropy_source = Arc::new(RandomBytes::new([42; 32]));
130 router: DefaultRouter::new(network_graph.clone(), logger, entropy_source, scorer, ()),
132 next_routes: Mutex::new(VecDeque::new()),
137 pub fn expect_find_route(&self, query: RouteParameters, result: Result<Route, LightningError>) {
138 let mut expected_routes = self.next_routes.lock().unwrap();
139 expected_routes.push_back((query, Some(result)));
142 pub fn expect_find_route_query(&self, query: RouteParameters) {
143 let mut expected_routes = self.next_routes.lock().unwrap();
144 expected_routes.push_back((query, None));
148 impl<'a> Router for TestRouter<'a> {
150 &self, payer: &PublicKey, params: &RouteParameters, first_hops: Option<&[&ChannelDetails]>,
151 inflight_htlcs: InFlightHtlcs
152 ) -> Result<Route, msgs::LightningError> {
154 let next_route_opt = self.next_routes.lock().unwrap().pop_front();
155 if let Some((find_route_query, find_route_res)) = next_route_opt {
156 assert_eq!(find_route_query, *params);
157 if let Some(res) = find_route_res {
158 if let Ok(ref route) = res {
159 assert_eq!(route.route_params, Some(find_route_query));
160 let scorer = self.scorer.read().unwrap();
161 let scorer = ScorerAccountingForInFlightHtlcs::new(scorer, &inflight_htlcs);
162 for path in &route.paths {
163 let mut aggregate_msat = 0u64;
164 let mut prev_hop_node = payer;
165 for (idx, hop) in path.hops.iter().rev().enumerate() {
166 aggregate_msat += hop.fee_msat;
167 let usage = ChannelUsage {
168 amount_msat: aggregate_msat,
169 inflight_htlc_msat: 0,
170 effective_capacity: EffectiveCapacity::Unknown,
173 if idx == path.hops.len() - 1 {
174 if let Some(first_hops) = first_hops {
175 if let Some(idx) = first_hops.iter().position(|h| h.get_outbound_payment_scid() == Some(hop.short_channel_id)) {
176 let node_id = NodeId::from_pubkey(payer);
177 let candidate = CandidateRouteHop::FirstHop(FirstHopCandidate {
178 details: first_hops[idx],
179 payer_node_id: &node_id,
181 scorer.channel_penalty_msat(&candidate, usage, &Default::default());
186 let network_graph = self.network_graph.read_only();
187 if let Some(channel) = network_graph.channel(hop.short_channel_id) {
188 let (directed, _) = channel.as_directed_to(&NodeId::from_pubkey(&hop.pubkey)).unwrap();
189 let candidate = CandidateRouteHop::PublicHop(PublicHopCandidate {
191 short_channel_id: hop.short_channel_id,
193 scorer.channel_penalty_msat(&candidate, usage, &Default::default());
195 let target_node_id = NodeId::from_pubkey(&hop.pubkey);
196 let route_hint = RouteHintHop {
197 src_node_id: *prev_hop_node,
198 short_channel_id: hop.short_channel_id,
199 fees: RoutingFees { base_msat: 0, proportional_millionths: 0 },
200 cltv_expiry_delta: 0,
201 htlc_minimum_msat: None,
202 htlc_maximum_msat: None,
204 let candidate = CandidateRouteHop::PrivateHop(PrivateHopCandidate {
206 target_node_id: &target_node_id,
208 scorer.channel_penalty_msat(&candidate, usage, &Default::default());
210 prev_hop_node = &hop.pubkey;
216 route_res = self.router.find_route(payer, params, first_hops, inflight_htlcs);
219 route_res = self.router.find_route(payer, params, first_hops, inflight_htlcs);
222 if let Ok(route) = &route_res {
223 // Previously, `Route`s failed to round-trip through serialization due to a write/read
224 // mismatch. Thus, here we test all test-generated routes round-trip:
225 let ser = route.encode();
226 assert_eq!(Route::read(&mut &ser[..]).unwrap(), *route);
231 fn create_blinded_payment_paths<
232 T: secp256k1::Signing + secp256k1::Verification
234 &self, recipient: PublicKey, first_hops: Vec<ChannelDetails>, tlvs: ReceiveTlvs,
235 amount_msats: u64, secp_ctx: &Secp256k1<T>,
236 ) -> Result<Vec<(BlindedPayInfo, BlindedPath)>, ()> {
237 self.router.create_blinded_payment_paths(
238 recipient, first_hops, tlvs, amount_msats, secp_ctx
243 impl<'a> MessageRouter for TestRouter<'a> {
245 &self, sender: PublicKey, peers: Vec<PublicKey>, destination: Destination
246 ) -> Result<OnionMessagePath, ()> {
247 self.router.find_path(sender, peers, destination)
250 fn create_blinded_paths<
251 T: secp256k1::Signing + secp256k1::Verification
253 &self, recipient: PublicKey, peers: Vec<PublicKey>, secp_ctx: &Secp256k1<T>,
254 ) -> Result<Vec<BlindedPath>, ()> {
255 self.router.create_blinded_paths(recipient, peers, secp_ctx)
258 fn create_compact_blinded_paths<
259 T: secp256k1::Signing + secp256k1::Verification
261 &self, recipient: PublicKey, peers: Vec<ForwardNode>, secp_ctx: &Secp256k1<T>,
262 ) -> Result<Vec<BlindedPath>, ()> {
263 self.router.create_compact_blinded_paths(recipient, peers, secp_ctx)
267 impl<'a> Drop for TestRouter<'a> {
269 #[cfg(feature = "std")] {
270 if std::thread::panicking() {
274 assert!(self.next_routes.lock().unwrap().is_empty());
278 pub struct TestMessageRouter<'a> {
279 inner: DefaultMessageRouter<Arc<NetworkGraph<&'a TestLogger>>, &'a TestLogger, &'a TestKeysInterface>,
282 impl<'a> TestMessageRouter<'a> {
283 pub fn new(network_graph: Arc<NetworkGraph<&'a TestLogger>>, entropy_source: &'a TestKeysInterface) -> Self {
284 Self { inner: DefaultMessageRouter::new(network_graph, entropy_source) }
288 impl<'a> MessageRouter for TestMessageRouter<'a> {
290 &self, sender: PublicKey, peers: Vec<PublicKey>, destination: Destination
291 ) -> Result<OnionMessagePath, ()> {
292 self.inner.find_path(sender, peers, destination)
295 fn create_blinded_paths<T: secp256k1::Signing + secp256k1::Verification>(
296 &self, recipient: PublicKey, peers: Vec<PublicKey>, secp_ctx: &Secp256k1<T>,
297 ) -> Result<Vec<BlindedPath>, ()> {
298 self.inner.create_blinded_paths(recipient, peers, secp_ctx)
301 fn create_compact_blinded_paths<T: secp256k1::Signing + secp256k1::Verification>(
302 &self, recipient: PublicKey, peers: Vec<ForwardNode>, secp_ctx: &Secp256k1<T>,
303 ) -> Result<Vec<BlindedPath>, ()> {
304 self.inner.create_compact_blinded_paths(recipient, peers, secp_ctx)
308 pub struct OnlyReadsKeysInterface {}
310 impl EntropySource for OnlyReadsKeysInterface {
311 fn get_secure_random_bytes(&self) -> [u8; 32] { [0; 32] }}
313 impl SignerProvider for OnlyReadsKeysInterface {
314 type EcdsaSigner = TestChannelSigner;
316 type TaprootSigner = TestChannelSigner;
318 fn generate_channel_keys_id(&self, _inbound: bool, _channel_value_satoshis: u64, _user_channel_id: u128) -> [u8; 32] { unreachable!(); }
320 fn derive_channel_signer(&self, _channel_value_satoshis: u64, _channel_keys_id: [u8; 32]) -> Self::EcdsaSigner { unreachable!(); }
322 fn read_chan_signer(&self, mut reader: &[u8]) -> Result<Self::EcdsaSigner, msgs::DecodeError> {
323 let inner: InMemorySigner = ReadableArgs::read(&mut reader, self)?;
324 let state = Arc::new(Mutex::new(EnforcementState::new()));
326 Ok(TestChannelSigner::new_with_revoked(
333 fn get_destination_script(&self, _channel_keys_id: [u8; 32]) -> Result<ScriptBuf, ()> { Err(()) }
334 fn get_shutdown_scriptpubkey(&self) -> Result<ShutdownScript, ()> { Err(()) }
337 pub struct TestChainMonitor<'a> {
338 pub added_monitors: Mutex<Vec<(OutPoint, channelmonitor::ChannelMonitor<TestChannelSigner>)>>,
339 pub monitor_updates: Mutex<HashMap<ChannelId, Vec<channelmonitor::ChannelMonitorUpdate>>>,
340 pub latest_monitor_update_id: Mutex<HashMap<ChannelId, (OutPoint, u64, u64)>>,
341 pub chain_monitor: chainmonitor::ChainMonitor<TestChannelSigner, &'a TestChainSource, &'a dyn chaininterface::BroadcasterInterface, &'a TestFeeEstimator, &'a TestLogger, &'a dyn chainmonitor::Persist<TestChannelSigner>>,
342 pub keys_manager: &'a TestKeysInterface,
343 /// If this is set to Some(), the next update_channel call (not watch_channel) must be a
344 /// ChannelForceClosed event for the given channel_id with should_broadcast set to the given
346 pub expect_channel_force_closed: Mutex<Option<(ChannelId, bool)>>,
347 /// If this is set to Some(), the next round trip serialization check will not hold after an
348 /// update_channel call (not watch_channel) for the given channel_id.
349 pub expect_monitor_round_trip_fail: Mutex<Option<ChannelId>>,
351 impl<'a> TestChainMonitor<'a> {
352 pub fn new(chain_source: Option<&'a TestChainSource>, broadcaster: &'a dyn chaininterface::BroadcasterInterface, logger: &'a TestLogger, fee_estimator: &'a TestFeeEstimator, persister: &'a dyn chainmonitor::Persist<TestChannelSigner>, keys_manager: &'a TestKeysInterface) -> Self {
354 added_monitors: Mutex::new(Vec::new()),
355 monitor_updates: Mutex::new(new_hash_map()),
356 latest_monitor_update_id: Mutex::new(new_hash_map()),
357 chain_monitor: chainmonitor::ChainMonitor::new(chain_source, broadcaster, logger, fee_estimator, persister),
359 expect_channel_force_closed: Mutex::new(None),
360 expect_monitor_round_trip_fail: Mutex::new(None),
364 pub fn complete_sole_pending_chan_update(&self, channel_id: &ChannelId) {
365 let (outpoint, _, latest_update) = self.latest_monitor_update_id.lock().unwrap().get(channel_id).unwrap().clone();
366 self.chain_monitor.channel_monitor_updated(outpoint, latest_update).unwrap();
369 impl<'a> chain::Watch<TestChannelSigner> for TestChainMonitor<'a> {
370 fn watch_channel(&self, funding_txo: OutPoint, monitor: channelmonitor::ChannelMonitor<TestChannelSigner>) -> Result<chain::ChannelMonitorUpdateStatus, ()> {
371 // At every point where we get a monitor update, we should be able to send a useful monitor
372 // to a watchtower and disk...
373 let mut w = TestVecWriter(Vec::new());
374 monitor.write(&mut w).unwrap();
375 let new_monitor = <(BlockHash, channelmonitor::ChannelMonitor<TestChannelSigner>)>::read(
376 &mut io::Cursor::new(&w.0), (self.keys_manager, self.keys_manager)).unwrap().1;
377 assert!(new_monitor == monitor);
378 self.latest_monitor_update_id.lock().unwrap().insert(monitor.channel_id(),
379 (funding_txo, monitor.get_latest_update_id(), monitor.get_latest_update_id()));
380 self.added_monitors.lock().unwrap().push((funding_txo, monitor));
381 self.chain_monitor.watch_channel(funding_txo, new_monitor)
384 fn update_channel(&self, funding_txo: OutPoint, update: &channelmonitor::ChannelMonitorUpdate) -> chain::ChannelMonitorUpdateStatus {
385 // Every monitor update should survive roundtrip
386 let mut w = TestVecWriter(Vec::new());
387 update.write(&mut w).unwrap();
388 assert!(channelmonitor::ChannelMonitorUpdate::read(
389 &mut io::Cursor::new(&w.0)).unwrap() == *update);
390 let channel_id = update.channel_id.unwrap_or(ChannelId::v1_from_funding_outpoint(funding_txo));
392 self.monitor_updates.lock().unwrap().entry(channel_id).or_insert(Vec::new()).push(update.clone());
394 if let Some(exp) = self.expect_channel_force_closed.lock().unwrap().take() {
395 assert_eq!(channel_id, exp.0);
396 assert_eq!(update.updates.len(), 1);
397 if let channelmonitor::ChannelMonitorUpdateStep::ChannelForceClosed { should_broadcast } = update.updates[0] {
398 assert_eq!(should_broadcast, exp.1);
402 self.latest_monitor_update_id.lock().unwrap().insert(channel_id,
403 (funding_txo, update.update_id, update.update_id));
404 let update_res = self.chain_monitor.update_channel(funding_txo, update);
405 // At every point where we get a monitor update, we should be able to send a useful monitor
406 // to a watchtower and disk...
407 let monitor = self.chain_monitor.get_monitor(funding_txo).unwrap();
409 monitor.write(&mut w).unwrap();
410 let new_monitor = <(BlockHash, channelmonitor::ChannelMonitor<TestChannelSigner>)>::read(
411 &mut io::Cursor::new(&w.0), (self.keys_manager, self.keys_manager)).unwrap().1;
412 if let Some(chan_id) = self.expect_monitor_round_trip_fail.lock().unwrap().take() {
413 assert_eq!(chan_id, channel_id);
414 assert!(new_monitor != *monitor);
416 assert!(new_monitor == *monitor);
418 self.added_monitors.lock().unwrap().push((funding_txo, new_monitor));
422 fn release_pending_monitor_events(&self) -> Vec<(OutPoint, ChannelId, Vec<MonitorEvent>, Option<PublicKey>)> {
423 return self.chain_monitor.release_pending_monitor_events();
428 struct JusticeTxData {
429 justice_tx: Transaction,
431 commitment_number: u64,
435 pub(crate) struct WatchtowerPersister {
436 persister: TestPersister,
437 /// Upon a new commitment_signed, we'll get a
438 /// ChannelMonitorUpdateStep::LatestCounterpartyCommitmentTxInfo. We'll store the justice tx
439 /// amount, and commitment number so we can build the justice tx after our counterparty
441 unsigned_justice_tx_data: Mutex<HashMap<OutPoint, VecDeque<JusticeTxData>>>,
442 /// After receiving a revoke_and_ack for a commitment number, we'll form and store the justice
443 /// tx which would be used to provide a watchtower with the data it needs.
444 watchtower_state: Mutex<HashMap<OutPoint, HashMap<Txid, Transaction>>>,
445 destination_script: ScriptBuf,
449 impl WatchtowerPersister {
451 pub(crate) fn new(destination_script: ScriptBuf) -> Self {
452 WatchtowerPersister {
453 persister: TestPersister::new(),
454 unsigned_justice_tx_data: Mutex::new(new_hash_map()),
455 watchtower_state: Mutex::new(new_hash_map()),
461 pub(crate) fn justice_tx(&self, funding_txo: OutPoint, commitment_txid: &Txid)
462 -> Option<Transaction> {
463 self.watchtower_state.lock().unwrap().get(&funding_txo).unwrap().get(commitment_txid).cloned()
466 fn form_justice_data_from_commitment(&self, counterparty_commitment_tx: &CommitmentTransaction)
467 -> Option<JusticeTxData> {
468 let trusted_tx = counterparty_commitment_tx.trust();
469 let output_idx = trusted_tx.revokeable_output_index()?;
470 let built_tx = trusted_tx.built_transaction();
471 let value = built_tx.transaction.output[output_idx as usize].value;
472 let justice_tx = trusted_tx.build_to_local_justice_tx(
473 FEERATE_FLOOR_SATS_PER_KW as u64, self.destination_script.clone()).ok()?;
474 let commitment_number = counterparty_commitment_tx.commitment_number();
475 Some(JusticeTxData { justice_tx, value, commitment_number })
480 impl<Signer: sign::ecdsa::EcdsaChannelSigner> chainmonitor::Persist<Signer> for WatchtowerPersister {
481 fn persist_new_channel(&self, funding_txo: OutPoint,
482 data: &channelmonitor::ChannelMonitor<Signer>
483 ) -> chain::ChannelMonitorUpdateStatus {
484 let res = self.persister.persist_new_channel(funding_txo, data);
486 assert!(self.unsigned_justice_tx_data.lock().unwrap()
487 .insert(funding_txo, VecDeque::new()).is_none());
488 assert!(self.watchtower_state.lock().unwrap()
489 .insert(funding_txo, new_hash_map()).is_none());
491 let initial_counterparty_commitment_tx = data.initial_counterparty_commitment_tx()
492 .expect("First and only call expects Some");
493 if let Some(justice_data)
494 = self.form_justice_data_from_commitment(&initial_counterparty_commitment_tx) {
495 self.unsigned_justice_tx_data.lock().unwrap()
496 .get_mut(&funding_txo).unwrap()
497 .push_back(justice_data);
502 fn update_persisted_channel(
503 &self, funding_txo: OutPoint, update: Option<&channelmonitor::ChannelMonitorUpdate>,
504 data: &channelmonitor::ChannelMonitor<Signer>
505 ) -> chain::ChannelMonitorUpdateStatus {
506 let res = self.persister.update_persisted_channel(funding_txo, update, data);
508 if let Some(update) = update {
509 let commitment_txs = data.counterparty_commitment_txs_from_update(update);
510 let justice_datas = commitment_txs.into_iter()
511 .filter_map(|commitment_tx| self.form_justice_data_from_commitment(&commitment_tx));
512 let mut channels_justice_txs = self.unsigned_justice_tx_data.lock().unwrap();
513 let channel_state = channels_justice_txs.get_mut(&funding_txo).unwrap();
514 channel_state.extend(justice_datas);
516 while let Some(JusticeTxData { justice_tx, value, commitment_number }) = channel_state.front() {
518 let commitment_txid = justice_tx.input[input_idx].previous_output.txid;
519 match data.sign_to_local_justice_tx(justice_tx.clone(), input_idx, value.to_sat(), *commitment_number) {
520 Ok(signed_justice_tx) => {
521 let dup = self.watchtower_state.lock().unwrap()
522 .get_mut(&funding_txo).unwrap()
523 .insert(commitment_txid, signed_justice_tx);
524 assert!(dup.is_none());
525 channel_state.pop_front();
534 fn archive_persisted_channel(&self, funding_txo: OutPoint) {
535 <TestPersister as chainmonitor::Persist<TestChannelSigner>>::archive_persisted_channel(&self.persister, funding_txo);
539 pub struct TestPersister {
540 /// The queue of update statuses we'll return. If none are queued, ::Completed will always be
542 pub update_rets: Mutex<VecDeque<chain::ChannelMonitorUpdateStatus>>,
543 /// When we get an update_persisted_channel call *with* a ChannelMonitorUpdate, we insert the
544 /// [`ChannelMonitor::get_latest_update_id`] here.
546 /// [`ChannelMonitor`]: channelmonitor::ChannelMonitor
547 pub offchain_monitor_updates: Mutex<HashMap<OutPoint, HashSet<u64>>>,
548 /// When we get an update_persisted_channel call with no ChannelMonitorUpdate, we insert the
549 /// monitor's funding outpoint here.
550 pub chain_sync_monitor_persistences: Mutex<VecDeque<OutPoint>>
553 pub fn new() -> Self {
555 update_rets: Mutex::new(VecDeque::new()),
556 offchain_monitor_updates: Mutex::new(new_hash_map()),
557 chain_sync_monitor_persistences: Mutex::new(VecDeque::new())
561 /// Queue an update status to return.
562 pub fn set_update_ret(&self, next_ret: chain::ChannelMonitorUpdateStatus) {
563 self.update_rets.lock().unwrap().push_back(next_ret);
566 impl<Signer: sign::ecdsa::EcdsaChannelSigner> chainmonitor::Persist<Signer> for TestPersister {
567 fn persist_new_channel(&self, _funding_txo: OutPoint, _data: &channelmonitor::ChannelMonitor<Signer>) -> chain::ChannelMonitorUpdateStatus {
568 if let Some(update_ret) = self.update_rets.lock().unwrap().pop_front() {
571 chain::ChannelMonitorUpdateStatus::Completed
574 fn update_persisted_channel(&self, funding_txo: OutPoint, update: Option<&channelmonitor::ChannelMonitorUpdate>, _data: &channelmonitor::ChannelMonitor<Signer>) -> chain::ChannelMonitorUpdateStatus {
575 let mut ret = chain::ChannelMonitorUpdateStatus::Completed;
576 if let Some(update_ret) = self.update_rets.lock().unwrap().pop_front() {
580 if let Some(update) = update {
581 self.offchain_monitor_updates.lock().unwrap().entry(funding_txo).or_insert(new_hash_set()).insert(update.update_id);
583 self.chain_sync_monitor_persistences.lock().unwrap().push_back(funding_txo);
588 fn archive_persisted_channel(&self, funding_txo: OutPoint) {
589 // remove the channel from the offchain_monitor_updates and chain_sync_monitor_persistences.
590 self.offchain_monitor_updates.lock().unwrap().remove(&funding_txo);
591 self.chain_sync_monitor_persistences.lock().unwrap().retain(|x| x != &funding_txo);
595 pub struct TestStore {
596 persisted_bytes: Mutex<HashMap<String, HashMap<String, Vec<u8>>>>,
601 pub fn new(read_only: bool) -> Self {
602 let persisted_bytes = Mutex::new(new_hash_map());
603 Self { persisted_bytes, read_only }
607 impl KVStore for TestStore {
608 fn read(&self, primary_namespace: &str, secondary_namespace: &str, key: &str) -> io::Result<Vec<u8>> {
609 let persisted_lock = self.persisted_bytes.lock().unwrap();
610 let prefixed = if secondary_namespace.is_empty() {
611 primary_namespace.to_string()
613 format!("{}/{}", primary_namespace, secondary_namespace)
616 if let Some(outer_ref) = persisted_lock.get(&prefixed) {
617 if let Some(inner_ref) = outer_ref.get(key) {
618 let bytes = inner_ref.clone();
621 Err(io::Error::new(io::ErrorKind::NotFound, "Key not found"))
624 Err(io::Error::new(io::ErrorKind::NotFound, "Namespace not found"))
628 fn write(&self, primary_namespace: &str, secondary_namespace: &str, key: &str, buf: &[u8]) -> io::Result<()> {
630 return Err(io::Error::new(
631 io::ErrorKind::PermissionDenied,
632 "Cannot modify read-only store",
635 let mut persisted_lock = self.persisted_bytes.lock().unwrap();
637 let prefixed = if secondary_namespace.is_empty() {
638 primary_namespace.to_string()
640 format!("{}/{}", primary_namespace, secondary_namespace)
642 let outer_e = persisted_lock.entry(prefixed).or_insert(new_hash_map());
643 let mut bytes = Vec::new();
644 bytes.write_all(buf)?;
645 outer_e.insert(key.to_string(), bytes);
649 fn remove(&self, primary_namespace: &str, secondary_namespace: &str, key: &str, _lazy: bool) -> io::Result<()> {
651 return Err(io::Error::new(
652 io::ErrorKind::PermissionDenied,
653 "Cannot modify read-only store",
657 let mut persisted_lock = self.persisted_bytes.lock().unwrap();
659 let prefixed = if secondary_namespace.is_empty() {
660 primary_namespace.to_string()
662 format!("{}/{}", primary_namespace, secondary_namespace)
664 if let Some(outer_ref) = persisted_lock.get_mut(&prefixed) {
665 outer_ref.remove(&key.to_string());
671 fn list(&self, primary_namespace: &str, secondary_namespace: &str) -> io::Result<Vec<String>> {
672 let mut persisted_lock = self.persisted_bytes.lock().unwrap();
674 let prefixed = if secondary_namespace.is_empty() {
675 primary_namespace.to_string()
677 format!("{}/{}", primary_namespace, secondary_namespace)
679 match persisted_lock.entry(prefixed) {
680 hash_map::Entry::Occupied(e) => Ok(e.get().keys().cloned().collect()),
681 hash_map::Entry::Vacant(_) => Ok(Vec::new()),
686 unsafe impl Sync for TestStore {}
687 unsafe impl Send for TestStore {}
689 pub struct TestBroadcaster {
690 pub txn_broadcasted: Mutex<Vec<Transaction>>,
691 pub blocks: Arc<Mutex<Vec<(Block, u32)>>>,
694 impl TestBroadcaster {
695 pub fn new(network: Network) -> Self {
697 txn_broadcasted: Mutex::new(Vec::new()),
698 blocks: Arc::new(Mutex::new(vec![(genesis_block(network), 0)])),
702 pub fn with_blocks(blocks: Arc<Mutex<Vec<(Block, u32)>>>) -> Self {
703 Self { txn_broadcasted: Mutex::new(Vec::new()), blocks }
706 pub fn txn_broadcast(&self) -> Vec<Transaction> {
707 self.txn_broadcasted.lock().unwrap().split_off(0)
710 pub fn unique_txn_broadcast(&self) -> Vec<Transaction> {
711 let mut txn = self.txn_broadcasted.lock().unwrap().split_off(0);
712 let mut seen = new_hash_set();
713 txn.retain(|tx| seen.insert(tx.txid()));
718 impl chaininterface::BroadcasterInterface for TestBroadcaster {
719 fn broadcast_transactions(&self, txs: &[&Transaction]) {
721 let lock_time = tx.lock_time.to_consensus_u32();
722 assert!(lock_time < 1_500_000_000);
723 if tx.lock_time.is_block_height() && lock_time > self.blocks.lock().unwrap().last().unwrap().1 {
724 for inp in tx.input.iter() {
725 if inp.sequence != Sequence::MAX {
726 panic!("We should never broadcast a transaction before its locktime ({})!", tx.lock_time);
731 let owned_txs: Vec<Transaction> = txs.iter().map(|tx| (*tx).clone()).collect();
732 self.txn_broadcasted.lock().unwrap().extend(owned_txs);
736 pub struct TestChannelMessageHandler {
737 pub pending_events: Mutex<Vec<events::MessageSendEvent>>,
738 expected_recv_msgs: Mutex<Option<Vec<wire::Message<()>>>>,
739 connected_peers: Mutex<HashSet<PublicKey>>,
740 pub message_fetch_counter: AtomicUsize,
741 chain_hash: ChainHash,
744 impl TestChannelMessageHandler {
745 pub fn new(chain_hash: ChainHash) -> Self {
746 TestChannelMessageHandler {
747 pending_events: Mutex::new(Vec::new()),
748 expected_recv_msgs: Mutex::new(None),
749 connected_peers: Mutex::new(new_hash_set()),
750 message_fetch_counter: AtomicUsize::new(0),
756 pub(crate) fn expect_receive_msg(&self, ev: wire::Message<()>) {
757 let mut expected_msgs = self.expected_recv_msgs.lock().unwrap();
758 if expected_msgs.is_none() { *expected_msgs = Some(Vec::new()); }
759 expected_msgs.as_mut().unwrap().push(ev);
762 fn received_msg(&self, _ev: wire::Message<()>) {
763 let mut msgs = self.expected_recv_msgs.lock().unwrap();
764 if msgs.is_none() { return; }
765 assert!(!msgs.as_ref().unwrap().is_empty(), "Received message when we weren't expecting one");
767 assert_eq!(msgs.as_ref().unwrap()[0], _ev);
768 msgs.as_mut().unwrap().remove(0);
772 impl Drop for TestChannelMessageHandler {
774 #[cfg(feature = "std")]
776 let l = self.expected_recv_msgs.lock().unwrap();
777 if !std::thread::panicking() {
778 assert!(l.is_none() || l.as_ref().unwrap().is_empty());
784 impl msgs::ChannelMessageHandler for TestChannelMessageHandler {
785 fn handle_open_channel(&self, _their_node_id: &PublicKey, msg: &msgs::OpenChannel) {
786 self.received_msg(wire::Message::OpenChannel(msg.clone()));
788 fn handle_accept_channel(&self, _their_node_id: &PublicKey, msg: &msgs::AcceptChannel) {
789 self.received_msg(wire::Message::AcceptChannel(msg.clone()));
791 fn handle_funding_created(&self, _their_node_id: &PublicKey, msg: &msgs::FundingCreated) {
792 self.received_msg(wire::Message::FundingCreated(msg.clone()));
794 fn handle_funding_signed(&self, _their_node_id: &PublicKey, msg: &msgs::FundingSigned) {
795 self.received_msg(wire::Message::FundingSigned(msg.clone()));
797 fn handle_channel_ready(&self, _their_node_id: &PublicKey, msg: &msgs::ChannelReady) {
798 self.received_msg(wire::Message::ChannelReady(msg.clone()));
800 fn handle_shutdown(&self, _their_node_id: &PublicKey, msg: &msgs::Shutdown) {
801 self.received_msg(wire::Message::Shutdown(msg.clone()));
803 fn handle_closing_signed(&self, _their_node_id: &PublicKey, msg: &msgs::ClosingSigned) {
804 self.received_msg(wire::Message::ClosingSigned(msg.clone()));
806 fn handle_stfu(&self, _their_node_id: &PublicKey, msg: &msgs::Stfu) {
807 self.received_msg(wire::Message::Stfu(msg.clone()));
810 fn handle_splice(&self, _their_node_id: &PublicKey, msg: &msgs::Splice) {
811 self.received_msg(wire::Message::Splice(msg.clone()));
814 fn handle_splice_ack(&self, _their_node_id: &PublicKey, msg: &msgs::SpliceAck) {
815 self.received_msg(wire::Message::SpliceAck(msg.clone()));
818 fn handle_splice_locked(&self, _their_node_id: &PublicKey, msg: &msgs::SpliceLocked) {
819 self.received_msg(wire::Message::SpliceLocked(msg.clone()));
821 fn handle_update_add_htlc(&self, _their_node_id: &PublicKey, msg: &msgs::UpdateAddHTLC) {
822 self.received_msg(wire::Message::UpdateAddHTLC(msg.clone()));
824 fn handle_update_fulfill_htlc(&self, _their_node_id: &PublicKey, msg: &msgs::UpdateFulfillHTLC) {
825 self.received_msg(wire::Message::UpdateFulfillHTLC(msg.clone()));
827 fn handle_update_fail_htlc(&self, _their_node_id: &PublicKey, msg: &msgs::UpdateFailHTLC) {
828 self.received_msg(wire::Message::UpdateFailHTLC(msg.clone()));
830 fn handle_update_fail_malformed_htlc(&self, _their_node_id: &PublicKey, msg: &msgs::UpdateFailMalformedHTLC) {
831 self.received_msg(wire::Message::UpdateFailMalformedHTLC(msg.clone()));
833 fn handle_commitment_signed(&self, _their_node_id: &PublicKey, msg: &msgs::CommitmentSigned) {
834 self.received_msg(wire::Message::CommitmentSigned(msg.clone()));
836 fn handle_revoke_and_ack(&self, _their_node_id: &PublicKey, msg: &msgs::RevokeAndACK) {
837 self.received_msg(wire::Message::RevokeAndACK(msg.clone()));
839 fn handle_update_fee(&self, _their_node_id: &PublicKey, msg: &msgs::UpdateFee) {
840 self.received_msg(wire::Message::UpdateFee(msg.clone()));
842 fn handle_channel_update(&self, _their_node_id: &PublicKey, _msg: &msgs::ChannelUpdate) {
843 // Don't call `received_msg` here as `TestRoutingMessageHandler` generates these sometimes
845 fn handle_announcement_signatures(&self, _their_node_id: &PublicKey, msg: &msgs::AnnouncementSignatures) {
846 self.received_msg(wire::Message::AnnouncementSignatures(msg.clone()));
848 fn handle_channel_reestablish(&self, _their_node_id: &PublicKey, msg: &msgs::ChannelReestablish) {
849 self.received_msg(wire::Message::ChannelReestablish(msg.clone()));
851 fn peer_disconnected(&self, their_node_id: &PublicKey) {
852 assert!(self.connected_peers.lock().unwrap().remove(their_node_id));
854 fn peer_connected(&self, their_node_id: &PublicKey, _msg: &msgs::Init, _inbound: bool) -> Result<(), ()> {
855 assert!(self.connected_peers.lock().unwrap().insert(their_node_id.clone()));
856 // Don't bother with `received_msg` for Init as its auto-generated and we don't want to
857 // bother re-generating the expected Init message in all tests.
860 fn handle_error(&self, _their_node_id: &PublicKey, msg: &msgs::ErrorMessage) {
861 self.received_msg(wire::Message::Error(msg.clone()));
863 fn provided_node_features(&self) -> NodeFeatures {
864 channelmanager::provided_node_features(&UserConfig::default())
866 fn provided_init_features(&self, _their_init_features: &PublicKey) -> InitFeatures {
867 channelmanager::provided_init_features(&UserConfig::default())
870 fn get_chain_hashes(&self) -> Option<Vec<ChainHash>> {
871 Some(vec![self.chain_hash])
874 fn handle_open_channel_v2(&self, _their_node_id: &PublicKey, msg: &msgs::OpenChannelV2) {
875 self.received_msg(wire::Message::OpenChannelV2(msg.clone()));
878 fn handle_accept_channel_v2(&self, _their_node_id: &PublicKey, msg: &msgs::AcceptChannelV2) {
879 self.received_msg(wire::Message::AcceptChannelV2(msg.clone()));
882 fn handle_tx_add_input(&self, _their_node_id: &PublicKey, msg: &msgs::TxAddInput) {
883 self.received_msg(wire::Message::TxAddInput(msg.clone()));
886 fn handle_tx_add_output(&self, _their_node_id: &PublicKey, msg: &msgs::TxAddOutput) {
887 self.received_msg(wire::Message::TxAddOutput(msg.clone()));
890 fn handle_tx_remove_input(&self, _their_node_id: &PublicKey, msg: &msgs::TxRemoveInput) {
891 self.received_msg(wire::Message::TxRemoveInput(msg.clone()));
894 fn handle_tx_remove_output(&self, _their_node_id: &PublicKey, msg: &msgs::TxRemoveOutput) {
895 self.received_msg(wire::Message::TxRemoveOutput(msg.clone()));
898 fn handle_tx_complete(&self, _their_node_id: &PublicKey, msg: &msgs::TxComplete) {
899 self.received_msg(wire::Message::TxComplete(msg.clone()));
902 fn handle_tx_signatures(&self, _their_node_id: &PublicKey, msg: &msgs::TxSignatures) {
903 self.received_msg(wire::Message::TxSignatures(msg.clone()));
906 fn handle_tx_init_rbf(&self, _their_node_id: &PublicKey, msg: &msgs::TxInitRbf) {
907 self.received_msg(wire::Message::TxInitRbf(msg.clone()));
910 fn handle_tx_ack_rbf(&self, _their_node_id: &PublicKey, msg: &msgs::TxAckRbf) {
911 self.received_msg(wire::Message::TxAckRbf(msg.clone()));
914 fn handle_tx_abort(&self, _their_node_id: &PublicKey, msg: &msgs::TxAbort) {
915 self.received_msg(wire::Message::TxAbort(msg.clone()));
919 impl events::MessageSendEventsProvider for TestChannelMessageHandler {
920 fn get_and_clear_pending_msg_events(&self) -> Vec<events::MessageSendEvent> {
921 self.message_fetch_counter.fetch_add(1, Ordering::AcqRel);
922 let mut pending_events = self.pending_events.lock().unwrap();
923 let mut ret = Vec::new();
924 mem::swap(&mut ret, &mut *pending_events);
929 fn get_dummy_channel_announcement(short_chan_id: u64) -> msgs::ChannelAnnouncement {
930 use bitcoin::secp256k1::ffi::Signature as FFISignature;
931 let secp_ctx = Secp256k1::new();
932 let network = Network::Testnet;
933 let node_1_privkey = SecretKey::from_slice(&[42; 32]).unwrap();
934 let node_2_privkey = SecretKey::from_slice(&[41; 32]).unwrap();
935 let node_1_btckey = SecretKey::from_slice(&[40; 32]).unwrap();
936 let node_2_btckey = SecretKey::from_slice(&[39; 32]).unwrap();
937 let unsigned_ann = msgs::UnsignedChannelAnnouncement {
938 features: ChannelFeatures::empty(),
939 chain_hash: ChainHash::using_genesis_block(network),
940 short_channel_id: short_chan_id,
941 node_id_1: NodeId::from_pubkey(&PublicKey::from_secret_key(&secp_ctx, &node_1_privkey)),
942 node_id_2: NodeId::from_pubkey(&PublicKey::from_secret_key(&secp_ctx, &node_2_privkey)),
943 bitcoin_key_1: NodeId::from_pubkey(&PublicKey::from_secret_key(&secp_ctx, &node_1_btckey)),
944 bitcoin_key_2: NodeId::from_pubkey(&PublicKey::from_secret_key(&secp_ctx, &node_2_btckey)),
945 excess_data: Vec::new(),
949 msgs::ChannelAnnouncement {
950 node_signature_1: Signature::from(FFISignature::new()),
951 node_signature_2: Signature::from(FFISignature::new()),
952 bitcoin_signature_1: Signature::from(FFISignature::new()),
953 bitcoin_signature_2: Signature::from(FFISignature::new()),
954 contents: unsigned_ann,
959 fn get_dummy_channel_update(short_chan_id: u64) -> msgs::ChannelUpdate {
960 use bitcoin::secp256k1::ffi::Signature as FFISignature;
961 let network = Network::Testnet;
962 msgs::ChannelUpdate {
963 signature: Signature::from(unsafe { FFISignature::new() }),
964 contents: msgs::UnsignedChannelUpdate {
965 chain_hash: ChainHash::using_genesis_block(network),
966 short_channel_id: short_chan_id,
969 cltv_expiry_delta: 0,
970 htlc_minimum_msat: 0,
971 htlc_maximum_msat: msgs::MAX_VALUE_MSAT,
973 fee_proportional_millionths: 0,
979 pub struct TestRoutingMessageHandler {
980 pub chan_upds_recvd: AtomicUsize,
981 pub chan_anns_recvd: AtomicUsize,
982 pub pending_events: Mutex<Vec<events::MessageSendEvent>>,
983 pub request_full_sync: AtomicBool,
986 impl TestRoutingMessageHandler {
987 pub fn new() -> Self {
988 TestRoutingMessageHandler {
989 chan_upds_recvd: AtomicUsize::new(0),
990 chan_anns_recvd: AtomicUsize::new(0),
991 pending_events: Mutex::new(vec![]),
992 request_full_sync: AtomicBool::new(false),
996 impl msgs::RoutingMessageHandler for TestRoutingMessageHandler {
997 fn handle_node_announcement(&self, _msg: &msgs::NodeAnnouncement) -> Result<bool, msgs::LightningError> {
998 Err(msgs::LightningError { err: "".to_owned(), action: msgs::ErrorAction::IgnoreError })
1000 fn handle_channel_announcement(&self, _msg: &msgs::ChannelAnnouncement) -> Result<bool, msgs::LightningError> {
1001 self.chan_anns_recvd.fetch_add(1, Ordering::AcqRel);
1002 Err(msgs::LightningError { err: "".to_owned(), action: msgs::ErrorAction::IgnoreError })
1004 fn handle_channel_update(&self, _msg: &msgs::ChannelUpdate) -> Result<bool, msgs::LightningError> {
1005 self.chan_upds_recvd.fetch_add(1, Ordering::AcqRel);
1006 Err(msgs::LightningError { err: "".to_owned(), action: msgs::ErrorAction::IgnoreError })
1008 fn get_next_channel_announcement(&self, starting_point: u64) -> Option<(msgs::ChannelAnnouncement, Option<msgs::ChannelUpdate>, Option<msgs::ChannelUpdate>)> {
1009 let chan_upd_1 = get_dummy_channel_update(starting_point);
1010 let chan_upd_2 = get_dummy_channel_update(starting_point);
1011 let chan_ann = get_dummy_channel_announcement(starting_point);
1013 Some((chan_ann, Some(chan_upd_1), Some(chan_upd_2)))
1016 fn get_next_node_announcement(&self, _starting_point: Option<&NodeId>) -> Option<msgs::NodeAnnouncement> {
1020 fn peer_connected(&self, their_node_id: &PublicKey, init_msg: &msgs::Init, _inbound: bool) -> Result<(), ()> {
1021 if !init_msg.features.supports_gossip_queries() {
1025 #[allow(unused_mut, unused_assignments)]
1026 let mut gossip_start_time = 0;
1027 #[cfg(feature = "std")]
1029 gossip_start_time = SystemTime::now().duration_since(UNIX_EPOCH).expect("Time must be > 1970").as_secs();
1030 if self.request_full_sync.load(Ordering::Acquire) {
1031 gossip_start_time -= 60 * 60 * 24 * 7 * 2; // 2 weeks ago
1033 gossip_start_time -= 60 * 60; // an hour ago
1037 let mut pending_events = self.pending_events.lock().unwrap();
1038 pending_events.push(events::MessageSendEvent::SendGossipTimestampFilter {
1039 node_id: their_node_id.clone(),
1040 msg: msgs::GossipTimestampFilter {
1041 chain_hash: ChainHash::using_genesis_block(Network::Testnet),
1042 first_timestamp: gossip_start_time as u32,
1043 timestamp_range: u32::max_value(),
1049 fn handle_reply_channel_range(&self, _their_node_id: &PublicKey, _msg: msgs::ReplyChannelRange) -> Result<(), msgs::LightningError> {
1053 fn handle_reply_short_channel_ids_end(&self, _their_node_id: &PublicKey, _msg: msgs::ReplyShortChannelIdsEnd) -> Result<(), msgs::LightningError> {
1057 fn handle_query_channel_range(&self, _their_node_id: &PublicKey, _msg: msgs::QueryChannelRange) -> Result<(), msgs::LightningError> {
1061 fn handle_query_short_channel_ids(&self, _their_node_id: &PublicKey, _msg: msgs::QueryShortChannelIds) -> Result<(), msgs::LightningError> {
1065 fn provided_node_features(&self) -> NodeFeatures {
1066 let mut features = NodeFeatures::empty();
1067 features.set_gossip_queries_optional();
1071 fn provided_init_features(&self, _their_init_features: &PublicKey) -> InitFeatures {
1072 let mut features = InitFeatures::empty();
1073 features.set_gossip_queries_optional();
1077 fn processing_queue_high(&self) -> bool { false }
1080 impl events::MessageSendEventsProvider for TestRoutingMessageHandler {
1081 fn get_and_clear_pending_msg_events(&self) -> Vec<events::MessageSendEvent> {
1082 let mut ret = Vec::new();
1083 let mut pending_events = self.pending_events.lock().unwrap();
1084 core::mem::swap(&mut ret, &mut pending_events);
1089 pub struct TestLogger {
1091 pub(crate) id: String,
1092 pub lines: Mutex<HashMap<(&'static str, String), usize>>,
1093 pub context: Mutex<HashMap<(&'static str, Option<PublicKey>, Option<ChannelId>), usize>>,
1097 pub fn new() -> TestLogger {
1098 Self::with_id("".to_owned())
1100 pub fn with_id(id: String) -> TestLogger {
1102 level: Level::Trace,
1104 lines: Mutex::new(new_hash_map()),
1105 context: Mutex::new(new_hash_map()),
1108 pub fn enable(&mut self, level: Level) {
1111 pub fn assert_log(&self, module: &str, line: String, count: usize) {
1112 let log_entries = self.lines.lock().unwrap();
1113 assert_eq!(log_entries.get(&(module, line)), Some(&count));
1116 /// Search for the number of occurrence of the logged lines which
1117 /// 1. belongs to the specified module and
1118 /// 2. contains `line` in it.
1119 /// And asserts if the number of occurrences is the same with the given `count`
1120 pub fn assert_log_contains(&self, module: &str, line: &str, count: usize) {
1121 let log_entries = self.lines.lock().unwrap();
1122 let l: usize = log_entries.iter().filter(|&(&(ref m, ref l), _c)| {
1123 *m == module && l.contains(line)
1124 }).map(|(_, c) | { c }).sum();
1125 assert_eq!(l, count)
1128 /// Search for the number of occurrences of logged lines which
1129 /// 1. belong to the specified module and
1130 /// 2. match the given regex pattern.
1131 /// Assert that the number of occurrences equals the given `count`
1132 #[cfg(any(test, feature = "_test_utils"))]
1133 pub fn assert_log_regex(&self, module: &str, pattern: regex::Regex, count: usize) {
1134 let log_entries = self.lines.lock().unwrap();
1135 let l: usize = log_entries.iter().filter(|&(&(ref m, ref l), _c)| {
1136 *m == module && pattern.is_match(&l)
1137 }).map(|(_, c) | { c }).sum();
1138 assert_eq!(l, count)
1141 pub fn assert_log_context_contains(
1142 &self, module: &str, peer_id: Option<PublicKey>, channel_id: Option<ChannelId>, count: usize
1144 let context_entries = self.context.lock().unwrap();
1145 let l = context_entries.get(&(module, peer_id, channel_id)).unwrap();
1146 assert_eq!(*l, count)
1150 impl Logger for TestLogger {
1151 fn log(&self, record: Record) {
1152 *self.lines.lock().unwrap().entry((record.module_path, format!("{}", record.args))).or_insert(0) += 1;
1153 *self.context.lock().unwrap().entry((record.module_path, record.peer_id, record.channel_id)).or_insert(0) += 1;
1154 if record.level >= self.level {
1155 #[cfg(all(not(ldk_bench), feature = "std"))] {
1156 let pfx = format!("{} {} [{}:{}]", self.id, record.level.to_string(), record.module_path, record.line);
1157 println!("{:<55}{}", pfx, record.args);
1163 pub struct TestNodeSigner {
1164 node_secret: SecretKey,
1167 impl TestNodeSigner {
1168 pub fn new(node_secret: SecretKey) -> Self {
1169 Self { node_secret }
1173 impl NodeSigner for TestNodeSigner {
1174 fn get_inbound_payment_key_material(&self) -> crate::sign::KeyMaterial {
1178 fn get_node_id(&self, recipient: Recipient) -> Result<PublicKey, ()> {
1179 let node_secret = match recipient {
1180 Recipient::Node => Ok(&self.node_secret),
1181 Recipient::PhantomNode => Err(())
1183 Ok(PublicKey::from_secret_key(&Secp256k1::signing_only(), node_secret))
1186 fn ecdh(&self, recipient: Recipient, other_key: &PublicKey, tweak: Option<&bitcoin::secp256k1::Scalar>) -> Result<SharedSecret, ()> {
1187 let mut node_secret = match recipient {
1188 Recipient::Node => Ok(self.node_secret.clone()),
1189 Recipient::PhantomNode => Err(())
1191 if let Some(tweak) = tweak {
1192 node_secret = node_secret.mul_tweak(tweak).map_err(|_| ())?;
1194 Ok(SharedSecret::new(other_key, &node_secret))
1197 fn sign_invoice(&self, _: &[u8], _: &[bech32::u5], _: Recipient) -> Result<bitcoin::secp256k1::ecdsa::RecoverableSignature, ()> {
1201 fn sign_bolt12_invoice_request(
1202 &self, _invoice_request: &UnsignedInvoiceRequest
1203 ) -> Result<schnorr::Signature, ()> {
1207 fn sign_bolt12_invoice(
1208 &self, _invoice: &UnsignedBolt12Invoice,
1209 ) -> Result<schnorr::Signature, ()> {
1213 fn sign_gossip_message(&self, _msg: msgs::UnsignedGossipMessage) -> Result<Signature, ()> {
1218 pub struct TestKeysInterface {
1219 pub backing: sign::PhantomKeysManager,
1220 pub override_random_bytes: Mutex<Option<[u8; 32]>>,
1221 pub disable_revocation_policy_check: bool,
1222 enforcement_states: Mutex<HashMap<[u8;32], Arc<Mutex<EnforcementState>>>>,
1223 expectations: Mutex<Option<VecDeque<OnGetShutdownScriptpubkey>>>,
1224 pub unavailable_signers: Mutex<HashSet<[u8; 32]>>,
1227 impl EntropySource for TestKeysInterface {
1228 fn get_secure_random_bytes(&self) -> [u8; 32] {
1229 let override_random_bytes = self.override_random_bytes.lock().unwrap();
1230 if let Some(bytes) = &*override_random_bytes {
1233 self.backing.get_secure_random_bytes()
1237 impl NodeSigner for TestKeysInterface {
1238 fn get_node_id(&self, recipient: Recipient) -> Result<PublicKey, ()> {
1239 self.backing.get_node_id(recipient)
1242 fn ecdh(&self, recipient: Recipient, other_key: &PublicKey, tweak: Option<&Scalar>) -> Result<SharedSecret, ()> {
1243 self.backing.ecdh(recipient, other_key, tweak)
1246 fn get_inbound_payment_key_material(&self) -> sign::KeyMaterial {
1247 self.backing.get_inbound_payment_key_material()
1250 fn sign_invoice(&self, hrp_bytes: &[u8], invoice_data: &[u5], recipient: Recipient) -> Result<RecoverableSignature, ()> {
1251 self.backing.sign_invoice(hrp_bytes, invoice_data, recipient)
1254 fn sign_bolt12_invoice_request(
1255 &self, invoice_request: &UnsignedInvoiceRequest
1256 ) -> Result<schnorr::Signature, ()> {
1257 self.backing.sign_bolt12_invoice_request(invoice_request)
1260 fn sign_bolt12_invoice(
1261 &self, invoice: &UnsignedBolt12Invoice,
1262 ) -> Result<schnorr::Signature, ()> {
1263 self.backing.sign_bolt12_invoice(invoice)
1266 fn sign_gossip_message(&self, msg: msgs::UnsignedGossipMessage) -> Result<Signature, ()> {
1267 self.backing.sign_gossip_message(msg)
1271 impl SignerProvider for TestKeysInterface {
1272 type EcdsaSigner = TestChannelSigner;
1274 type TaprootSigner = TestChannelSigner;
1276 fn generate_channel_keys_id(&self, inbound: bool, channel_value_satoshis: u64, user_channel_id: u128) -> [u8; 32] {
1277 self.backing.generate_channel_keys_id(inbound, channel_value_satoshis, user_channel_id)
1280 fn derive_channel_signer(&self, channel_value_satoshis: u64, channel_keys_id: [u8; 32]) -> TestChannelSigner {
1281 let keys = self.backing.derive_channel_signer(channel_value_satoshis, channel_keys_id);
1282 let state = self.make_enforcement_state_cell(keys.commitment_seed);
1283 let signer = TestChannelSigner::new_with_revoked(keys, state, self.disable_revocation_policy_check);
1284 if self.unavailable_signers.lock().unwrap().contains(&channel_keys_id) {
1285 signer.set_available(false);
1290 fn read_chan_signer(&self, buffer: &[u8]) -> Result<Self::EcdsaSigner, msgs::DecodeError> {
1291 let mut reader = io::Cursor::new(buffer);
1293 let inner: InMemorySigner = ReadableArgs::read(&mut reader, self)?;
1294 let state = self.make_enforcement_state_cell(inner.commitment_seed);
1296 Ok(TestChannelSigner::new_with_revoked(
1299 self.disable_revocation_policy_check
1303 fn get_destination_script(&self, channel_keys_id: [u8; 32]) -> Result<ScriptBuf, ()> { self.backing.get_destination_script(channel_keys_id) }
1305 fn get_shutdown_scriptpubkey(&self) -> Result<ShutdownScript, ()> {
1306 match &mut *self.expectations.lock().unwrap() {
1307 None => self.backing.get_shutdown_scriptpubkey(),
1308 Some(expectations) => match expectations.pop_front() {
1309 None => panic!("Unexpected get_shutdown_scriptpubkey"),
1310 Some(expectation) => Ok(expectation.returns),
1316 impl TestKeysInterface {
1317 pub fn new(seed: &[u8; 32], network: Network) -> Self {
1318 let now = Duration::from_secs(genesis_block(network).header.time as u64);
1320 backing: sign::PhantomKeysManager::new(seed, now.as_secs(), now.subsec_nanos(), seed),
1321 override_random_bytes: Mutex::new(None),
1322 disable_revocation_policy_check: false,
1323 enforcement_states: Mutex::new(new_hash_map()),
1324 expectations: Mutex::new(None),
1325 unavailable_signers: Mutex::new(new_hash_set()),
1329 /// Sets an expectation that [`sign::SignerProvider::get_shutdown_scriptpubkey`] is
1331 pub fn expect(&self, expectation: OnGetShutdownScriptpubkey) -> &Self {
1332 self.expectations.lock().unwrap()
1333 .get_or_insert_with(|| VecDeque::new())
1334 .push_back(expectation);
1338 pub fn derive_channel_keys(&self, channel_value_satoshis: u64, id: &[u8; 32]) -> TestChannelSigner {
1339 self.derive_channel_signer(channel_value_satoshis, *id)
1342 fn make_enforcement_state_cell(&self, commitment_seed: [u8; 32]) -> Arc<Mutex<EnforcementState>> {
1343 let mut states = self.enforcement_states.lock().unwrap();
1344 if !states.contains_key(&commitment_seed) {
1345 let state = EnforcementState::new();
1346 states.insert(commitment_seed, Arc::new(Mutex::new(state)));
1348 let cell = states.get(&commitment_seed).unwrap();
1353 pub(crate) fn panicking() -> bool {
1354 #[cfg(feature = "std")]
1355 let panicking = ::std::thread::panicking();
1356 #[cfg(not(feature = "std"))]
1357 let panicking = false;
1361 impl Drop for TestKeysInterface {
1362 fn drop(&mut self) {
1367 if let Some(expectations) = &*self.expectations.lock().unwrap() {
1368 if !expectations.is_empty() {
1369 panic!("Unsatisfied expectations: {:?}", expectations);
1375 /// An expectation that [`sign::SignerProvider::get_shutdown_scriptpubkey`] was called and
1376 /// returns a [`ShutdownScript`].
1377 pub struct OnGetShutdownScriptpubkey {
1378 /// A shutdown script used to close a channel.
1379 pub returns: ShutdownScript,
1382 impl core::fmt::Debug for OnGetShutdownScriptpubkey {
1383 fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
1384 f.debug_struct("OnGetShutdownScriptpubkey").finish()
1388 pub struct TestChainSource {
1389 pub chain_hash: ChainHash,
1390 pub utxo_ret: Mutex<UtxoResult>,
1391 pub get_utxo_call_count: AtomicUsize,
1392 pub watched_txn: Mutex<HashSet<(Txid, ScriptBuf)>>,
1393 pub watched_outputs: Mutex<HashSet<(OutPoint, ScriptBuf)>>,
1396 impl TestChainSource {
1397 pub fn new(network: Network) -> Self {
1398 let script_pubkey = Builder::new().push_opcode(opcodes::OP_TRUE).into_script();
1400 chain_hash: ChainHash::using_genesis_block(network),
1401 utxo_ret: Mutex::new(UtxoResult::Sync(Ok(TxOut { value: Amount::MAX, script_pubkey }))),
1402 get_utxo_call_count: AtomicUsize::new(0),
1403 watched_txn: Mutex::new(new_hash_set()),
1404 watched_outputs: Mutex::new(new_hash_set()),
1407 pub fn remove_watched_txn_and_outputs(&self, outpoint: OutPoint, script_pubkey: ScriptBuf) {
1408 self.watched_outputs.lock().unwrap().remove(&(outpoint, script_pubkey.clone()));
1409 self.watched_txn.lock().unwrap().remove(&(outpoint.txid, script_pubkey));
1413 impl UtxoLookup for TestChainSource {
1414 fn get_utxo(&self, chain_hash: &ChainHash, _short_channel_id: u64) -> UtxoResult {
1415 self.get_utxo_call_count.fetch_add(1, Ordering::Relaxed);
1416 if self.chain_hash != *chain_hash {
1417 return UtxoResult::Sync(Err(UtxoLookupError::UnknownChain));
1420 self.utxo_ret.lock().unwrap().clone()
1424 impl chain::Filter for TestChainSource {
1425 fn register_tx(&self, txid: &Txid, script_pubkey: &Script) {
1426 self.watched_txn.lock().unwrap().insert((*txid, script_pubkey.into()));
1429 fn register_output(&self, output: WatchedOutput) {
1430 self.watched_outputs.lock().unwrap().insert((output.outpoint, output.script_pubkey));
1434 impl Drop for TestChainSource {
1435 fn drop(&mut self) {
1442 pub struct TestScorer {
1443 /// Stores a tuple of (scid, ChannelUsage)
1444 scorer_expectations: RefCell<Option<VecDeque<(u64, ChannelUsage)>>>,
1448 pub fn new() -> Self {
1450 scorer_expectations: RefCell::new(None),
1454 pub fn expect_usage(&self, scid: u64, expectation: ChannelUsage) {
1455 self.scorer_expectations.borrow_mut().get_or_insert_with(|| VecDeque::new()).push_back((scid, expectation));
1460 impl crate::util::ser::Writeable for TestScorer {
1461 fn write<W: crate::util::ser::Writer>(&self, _: &mut W) -> Result<(), crate::io::Error> { unreachable!(); }
1464 impl ScoreLookUp for TestScorer {
1465 type ScoreParams = ();
1466 fn channel_penalty_msat(
1467 &self, candidate: &CandidateRouteHop, usage: ChannelUsage, _score_params: &Self::ScoreParams
1469 let short_channel_id = match candidate.globally_unique_short_channel_id() {
1473 if let Some(scorer_expectations) = self.scorer_expectations.borrow_mut().as_mut() {
1474 match scorer_expectations.pop_front() {
1475 Some((scid, expectation)) => {
1476 assert_eq!(expectation, usage);
1477 assert_eq!(scid, short_channel_id);
1486 impl ScoreUpdate for TestScorer {
1487 fn payment_path_failed(&mut self, _actual_path: &Path, _actual_short_channel_id: u64, _duration_since_epoch: Duration) {}
1489 fn payment_path_successful(&mut self, _actual_path: &Path, _duration_since_epoch: Duration) {}
1491 fn probe_failed(&mut self, _actual_path: &Path, _: u64, _duration_since_epoch: Duration) {}
1493 fn probe_successful(&mut self, _actual_path: &Path, _duration_since_epoch: Duration) {}
1495 fn time_passed(&mut self, _duration_since_epoch: Duration) {}
1499 impl crate::routing::scoring::Score for TestScorer {}
1501 impl Drop for TestScorer {
1502 fn drop(&mut self) {
1503 #[cfg(feature = "std")] {
1504 if std::thread::panicking() {
1509 if let Some(scorer_expectations) = self.scorer_expectations.borrow().as_ref() {
1510 if !scorer_expectations.is_empty() {
1511 panic!("Unsatisfied scorer expectations: {:?}", scorer_expectations)
1517 pub struct TestWalletSource {
1518 secret_key: SecretKey,
1519 utxos: RefCell<Vec<Utxo>>,
1520 secp: Secp256k1<bitcoin::secp256k1::All>,
1523 impl TestWalletSource {
1524 pub fn new(secret_key: SecretKey) -> Self {
1527 utxos: RefCell::new(Vec::new()),
1528 secp: Secp256k1::new(),
1532 pub fn add_utxo(&self, outpoint: bitcoin::OutPoint, value: Amount) -> TxOut {
1533 let public_key = bitcoin::PublicKey::new(self.secret_key.public_key(&self.secp));
1534 let utxo = Utxo::new_p2pkh(outpoint, value, &public_key.pubkey_hash());
1535 self.utxos.borrow_mut().push(utxo.clone());
1539 pub fn add_custom_utxo(&self, utxo: Utxo) -> TxOut {
1540 let output = utxo.output.clone();
1541 self.utxos.borrow_mut().push(utxo);
1545 pub fn remove_utxo(&self, outpoint: bitcoin::OutPoint) {
1546 self.utxos.borrow_mut().retain(|utxo| utxo.outpoint != outpoint);
1550 impl WalletSource for TestWalletSource {
1551 fn list_confirmed_utxos(&self) -> Result<Vec<Utxo>, ()> {
1552 Ok(self.utxos.borrow().clone())
1555 fn get_change_script(&self) -> Result<ScriptBuf, ()> {
1556 let public_key = bitcoin::PublicKey::new(self.secret_key.public_key(&self.secp));
1557 Ok(ScriptBuf::new_p2pkh(&public_key.pubkey_hash()))
1560 fn sign_psbt(&self, psbt: Psbt) -> Result<Transaction, ()> {
1561 let mut tx = psbt.extract_tx_unchecked_fee_rate();
1562 let utxos = self.utxos.borrow();
1563 for i in 0..tx.input.len() {
1564 if let Some(utxo) = utxos.iter().find(|utxo| utxo.outpoint == tx.input[i].previous_output) {
1565 let sighash = SighashCache::new(&tx)
1566 .legacy_signature_hash(i, &utxo.output.script_pubkey, EcdsaSighashType::All as u32)
1568 let sig = self.secp.sign_ecdsa(&secp256k1::Message::from_digest(sighash.to_byte_array()), &self.secret_key);
1569 let bitcoin_sig = bitcoin::ecdsa::Signature { sig, hash_ty: EcdsaSighashType::All };
1570 tx.input[i].script_sig = Builder::new()
1571 .push_slice(&bitcoin_sig.serialize())
1572 .push_slice(&self.secret_key.public_key(&self.secp).serialize())