+// This file is Copyright its original authors, visible in version control
+// history.
+//
+// This file is licensed under the Apache License, Version 2.0 <LICENSE-APACHE
+// or http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
+// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your option.
+// You may not use this file except in accordance with one or both of these
+// licenses.
+
//! Test that monitor update failures don't get our channel state out of sync.
//! One of the biggest concern with the monitor update failure handling code is that messages
//! resent after monitor updating is restored are delivered out-of-order, resulting in
//! send-side handling is correct, other peers. We consider it a failure if any action results in a
//! channel being force-closed.
-use bitcoin::BitcoinHash;
use bitcoin::blockdata::block::BlockHeader;
use bitcoin::blockdata::transaction::{Transaction, TxOut};
use bitcoin::blockdata::script::{Builder, Script};
use bitcoin::blockdata::opcodes;
use bitcoin::network::constants::Network;
-use bitcoin_hashes::Hash as TraitImport;
-use bitcoin_hashes::hash160::Hash as Hash160;
-use bitcoin_hashes::sha256::Hash as Sha256;
-use bitcoin_hashes::sha256d::Hash as Sha256d;
+use bitcoin::hashes::Hash as TraitImport;
+use bitcoin::hashes::sha256::Hash as Sha256;
+use bitcoin::hash_types::{BlockHash, WPubkeyHash};
-use lightning::chain::chaininterface;
+use lightning::chain;
+use lightning::chain::chainmonitor;
+use lightning::chain::channelmonitor;
+use lightning::chain::channelmonitor::{ChannelMonitor, ChannelMonitorUpdateErr, MonitorEvent};
use lightning::chain::transaction::OutPoint;
-use lightning::chain::chaininterface::{BroadcasterInterface,ConfirmationTarget,ChainListener,FeeEstimator,ChainWatchInterfaceUtil};
+use lightning::chain::chaininterface::{BroadcasterInterface, ConfirmationTarget, FeeEstimator};
use lightning::chain::keysinterface::{KeysInterface, InMemoryChannelKeys};
-use lightning::ln::channelmonitor;
-use lightning::ln::channelmonitor::{ChannelMonitor, ChannelMonitorUpdateErr, HTLCUpdate};
-use lightning::ln::channelmanager::{ChannelManager, PaymentHash, PaymentPreimage, ChannelManagerReadArgs};
-use lightning::ln::router::{Route, RouteHop};
+use lightning::ln::channelmanager::{ChannelManager, PaymentHash, PaymentPreimage, PaymentSecret, PaymentSendFailure, ChannelManagerReadArgs};
use lightning::ln::features::{ChannelFeatures, InitFeatures, NodeFeatures};
-use lightning::ln::msgs::{CommitmentUpdate, ChannelMessageHandler, ErrorAction, UpdateAddHTLC, Init};
+use lightning::ln::msgs::{CommitmentUpdate, ChannelMessageHandler, DecodeError, ErrorAction, UpdateAddHTLC, Init};
use lightning::util::enforcing_trait_impls::EnforcingChannelKeys;
+use lightning::util::errors::APIError;
use lightning::util::events;
use lightning::util::logger::Logger;
use lightning::util::config::UserConfig;
use lightning::util::events::{EventsProvider, MessageSendEventsProvider};
use lightning::util::ser::{Readable, ReadableArgs, Writeable, Writer};
+use lightning::util::test_utils::OnlyReadsKeysInterface;
+use lightning::routing::router::{Route, RouteHop};
+
use utils::test_logger;
+use utils::test_persister::TestPersister;
-use secp256k1::key::{PublicKey,SecretKey};
-use secp256k1::Secp256k1;
+use bitcoin::secp256k1::key::{PublicKey,SecretKey};
+use bitcoin::secp256k1::Secp256k1;
use std::mem;
use std::cmp::Ordering;
struct FuzzEstimator {}
impl FeeEstimator for FuzzEstimator {
- fn get_est_sat_per_1000_weight(&self, _: ConfirmationTarget) -> u64 {
+ fn get_est_sat_per_1000_weight(&self, _: ConfirmationTarget) -> u32 {
253
}
}
}
}
-static mut IN_RESTORE: bool = false;
-pub struct TestChannelMonitor {
- pub simple_monitor: Arc<channelmonitor::SimpleManyChannelMonitor<OutPoint, EnforcingChannelKeys, Arc<chaininterface::BroadcasterInterface>>>,
+struct TestChainMonitor {
+ pub logger: Arc<dyn Logger>,
+ pub chain_monitor: Arc<chainmonitor::ChainMonitor<EnforcingChannelKeys, Arc<dyn chain::Filter>, Arc<TestBroadcaster>, Arc<FuzzEstimator>, Arc<dyn Logger>, Arc<TestPersister>>>,
pub update_ret: Mutex<Result<(), channelmonitor::ChannelMonitorUpdateErr>>,
- pub latest_good_update: Mutex<HashMap<OutPoint, Vec<u8>>>,
- pub latest_update_good: Mutex<HashMap<OutPoint, bool>>,
- pub latest_updates_good_at_last_ser: Mutex<HashMap<OutPoint, bool>>,
+ // If we reload a node with an old copy of ChannelMonitors, the ChannelManager deserialization
+ // logic will automatically force-close our channels for us (as we don't have an up-to-date
+ // monitor implying we are not able to punish misbehaving counterparties). Because this test
+ // "fails" if we ever force-close a channel, we avoid doing so, always saving the latest
+ // fully-serialized monitor state here, as well as the corresponding update_id.
+ pub latest_monitors: Mutex<HashMap<OutPoint, (u64, Vec<u8>)>>,
pub should_update_manager: atomic::AtomicBool,
}
-impl TestChannelMonitor {
- pub fn new(chain_monitor: Arc<dyn chaininterface::ChainWatchInterface>, broadcaster: Arc<dyn chaininterface::BroadcasterInterface>, logger: Arc<dyn Logger>, feeest: Arc<dyn chaininterface::FeeEstimator>) -> Self {
+impl TestChainMonitor {
+ pub fn new(broadcaster: Arc<TestBroadcaster>, logger: Arc<dyn Logger>, feeest: Arc<FuzzEstimator>, persister: Arc<TestPersister>) -> Self {
Self {
- simple_monitor: Arc::new(channelmonitor::SimpleManyChannelMonitor::new(chain_monitor, broadcaster, logger, feeest)),
+ chain_monitor: Arc::new(chainmonitor::ChainMonitor::new(None, broadcaster, logger.clone(), feeest, persister)),
+ logger,
update_ret: Mutex::new(Ok(())),
- latest_good_update: Mutex::new(HashMap::new()),
- latest_update_good: Mutex::new(HashMap::new()),
- latest_updates_good_at_last_ser: Mutex::new(HashMap::new()),
+ latest_monitors: Mutex::new(HashMap::new()),
should_update_manager: atomic::AtomicBool::new(false),
}
}
}
-impl channelmonitor::ManyChannelMonitor<EnforcingChannelKeys> for TestChannelMonitor {
- fn add_update_monitor(&self, funding_txo: OutPoint, monitor: channelmonitor::ChannelMonitor<EnforcingChannelKeys>) -> Result<(), channelmonitor::ChannelMonitorUpdateErr> {
- let ret = self.update_ret.lock().unwrap().clone();
- if let Ok(()) = ret {
- let mut ser = VecWriter(Vec::new());
- monitor.write_for_disk(&mut ser).unwrap();
- self.latest_good_update.lock().unwrap().insert(funding_txo, ser.0);
- match self.latest_update_good.lock().unwrap().entry(funding_txo) {
- hash_map::Entry::Vacant(e) => { e.insert(true); },
- hash_map::Entry::Occupied(mut e) => {
- if !e.get() && unsafe { IN_RESTORE } {
- // Technically we can't consider an update to be "good" unless we're doing
- // it in response to a test_restore_channel_monitor as the channel may
- // still be waiting on such a call, so only set us to good if we're in the
- // middle of a restore call.
- e.insert(true);
- }
- },
- }
- self.should_update_manager.store(true, atomic::Ordering::Relaxed);
- } else {
- self.latest_update_good.lock().unwrap().insert(funding_txo, false);
+impl chain::Watch for TestChainMonitor {
+ type Keys = EnforcingChannelKeys;
+
+ fn watch_channel(&self, funding_txo: OutPoint, monitor: channelmonitor::ChannelMonitor<EnforcingChannelKeys>) -> Result<(), channelmonitor::ChannelMonitorUpdateErr> {
+ let mut ser = VecWriter(Vec::new());
+ monitor.write(&mut ser).unwrap();
+ if let Some(_) = self.latest_monitors.lock().unwrap().insert(funding_txo, (monitor.get_latest_update_id(), ser.0)) {
+ panic!("Already had monitor pre-watch_channel");
}
- assert!(self.simple_monitor.add_update_monitor(funding_txo, monitor).is_ok());
- ret
+ self.should_update_manager.store(true, atomic::Ordering::Relaxed);
+ assert!(self.chain_monitor.watch_channel(funding_txo, monitor).is_ok());
+ self.update_ret.lock().unwrap().clone()
+ }
+
+ fn update_channel(&self, funding_txo: OutPoint, update: channelmonitor::ChannelMonitorUpdate) -> Result<(), channelmonitor::ChannelMonitorUpdateErr> {
+ let mut map_lock = self.latest_monitors.lock().unwrap();
+ let mut map_entry = match map_lock.entry(funding_txo) {
+ hash_map::Entry::Occupied(entry) => entry,
+ hash_map::Entry::Vacant(_) => panic!("Didn't have monitor on update call"),
+ };
+ let mut deserialized_monitor = <(BlockHash, channelmonitor::ChannelMonitor<EnforcingChannelKeys>)>::
+ read(&mut Cursor::new(&map_entry.get().1), &OnlyReadsKeysInterface {}).unwrap().1;
+ deserialized_monitor.update_monitor(&update, &&TestBroadcaster{}, &&FuzzEstimator{}, &self.logger).unwrap();
+ let mut ser = VecWriter(Vec::new());
+ deserialized_monitor.write(&mut ser).unwrap();
+ map_entry.insert((update.update_id, ser.0));
+ self.should_update_manager.store(true, atomic::Ordering::Relaxed);
+ self.update_ret.lock().unwrap().clone()
}
- fn get_and_clear_pending_htlcs_updated(&self) -> Vec<HTLCUpdate> {
- return self.simple_monitor.get_and_clear_pending_htlcs_updated();
+ fn release_pending_monitor_events(&self) -> Vec<MonitorEvent> {
+ return self.chain_monitor.release_pending_monitor_events();
}
}
struct KeyProvider {
node_id: u8,
- session_id: atomic::AtomicU8,
- channel_id: atomic::AtomicU8,
+ rand_bytes_id: atomic::AtomicU8,
}
impl KeysInterface for KeyProvider {
type ChanKeySigner = EnforcingChannelKeys;
fn get_destination_script(&self) -> Script {
let secp_ctx = Secp256k1::signing_only();
let channel_monitor_claim_key = SecretKey::from_slice(&[0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 2, self.node_id]).unwrap();
- let our_channel_monitor_claim_key_hash = Hash160::hash(&PublicKey::from_secret_key(&secp_ctx, &channel_monitor_claim_key).serialize());
+ let our_channel_monitor_claim_key_hash = WPubkeyHash::hash(&PublicKey::from_secret_key(&secp_ctx, &channel_monitor_claim_key).serialize());
Builder::new().push_opcode(opcodes::all::OP_PUSHBYTES_0).push_slice(&our_channel_monitor_claim_key_hash[..]).into_script()
}
SecretKey::from_slice(&[0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 8, self.node_id]).unwrap(),
[0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 9, self.node_id],
channel_value_satoshis,
+ (0, 0),
))
}
- fn get_onion_rand(&self) -> (SecretKey, [u8; 32]) {
- let id = self.session_id.fetch_add(1, atomic::Ordering::Relaxed);
- (SecretKey::from_slice(&[0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, id, 10, self.node_id]).unwrap(),
- [0; 32])
+ fn get_secure_random_bytes(&self) -> [u8; 32] {
+ let id = self.rand_bytes_id.fetch_add(1, atomic::Ordering::Relaxed);
+ [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, id, 11, self.node_id]
}
- fn get_channel_id(&self) -> [u8; 32] {
- let id = self.channel_id.fetch_add(1, atomic::Ordering::Relaxed);
- [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, id, 11, self.node_id]
+ fn read_chan_signer(&self, data: &[u8]) -> Result<EnforcingChannelKeys, DecodeError> {
+ EnforcingChannelKeys::read(&mut std::io::Cursor::new(data))
+ }
+}
+
+#[inline]
+fn check_api_err(api_err: APIError) {
+ match api_err {
+ APIError::APIMisuseError { .. } => panic!("We can't misuse the API"),
+ APIError::FeeRateTooHigh { .. } => panic!("We can't send too much fee?"),
+ APIError::RouteError { .. } => panic!("Our routes should work"),
+ APIError::ChannelUnavailable { err } => {
+ // Test the error against a list of errors we can hit, and reject
+ // all others. If you hit this panic, the list of acceptable errors
+ // is probably just stale and you should add new messages here.
+ match err.as_str() {
+ "Peer for first hop currently disconnected/pending monitor update!" => {},
+ _ if err.starts_with("Cannot push more than their max accepted HTLCs ") => {},
+ _ if err.starts_with("Cannot send value that would put us over the max HTLC value in flight our peer will accept ") => {},
+ _ if err.starts_with("Cannot send value that would put our balance under counterparty-announced channel reserve value") => {},
+ _ if err.starts_with("Cannot send value that would overdraw remaining funds.") => {},
+ _ if err.starts_with("Cannot send value that would not leave enough to pay for fees.") => {},
+ _ => panic!(err),
+ }
+ },
+ APIError::MonitorUpdateFailed => {
+ // We can (obviously) temp-fail a monitor update
+ },
+ }
+}
+#[inline]
+fn check_payment_err(send_err: PaymentSendFailure) {
+ match send_err {
+ PaymentSendFailure::ParameterError(api_err) => check_api_err(api_err),
+ PaymentSendFailure::PathParameterError(per_path_results) => {
+ for res in per_path_results { if let Err(api_err) = res { check_api_err(api_err); } }
+ },
+ PaymentSendFailure::AllFailedRetrySafe(per_path_results) => {
+ for api_err in per_path_results { check_api_err(api_err); }
+ },
+ PaymentSendFailure::PartialFailure(per_path_results) => {
+ for res in per_path_results { if let Err(api_err) = res { check_api_err(api_err); } }
+ },
}
}
+type ChanMan = ChannelManager<EnforcingChannelKeys, Arc<TestChainMonitor>, Arc<TestBroadcaster>, Arc<KeyProvider>, Arc<FuzzEstimator>, Arc<dyn Logger>>;
+
+#[inline]
+fn send_payment(source: &ChanMan, dest: &ChanMan, dest_chan_id: u64, amt: u64, payment_id: &mut u8) -> bool {
+ let payment_hash = Sha256::hash(&[*payment_id; 1]);
+ *payment_id = payment_id.wrapping_add(1);
+ if let Err(err) = source.send_payment(&Route {
+ paths: vec![vec![RouteHop {
+ pubkey: dest.get_our_node_id(),
+ node_features: NodeFeatures::empty(),
+ short_channel_id: dest_chan_id,
+ channel_features: ChannelFeatures::empty(),
+ fee_msat: amt,
+ cltv_expiry_delta: 200,
+ }]],
+ }, PaymentHash(payment_hash.into_inner()), &None) {
+ check_payment_err(err);
+ false
+ } else { true }
+}
+#[inline]
+fn send_hop_payment(source: &ChanMan, middle: &ChanMan, middle_chan_id: u64, dest: &ChanMan, dest_chan_id: u64, amt: u64, payment_id: &mut u8) -> bool {
+ let payment_hash = Sha256::hash(&[*payment_id; 1]);
+ *payment_id = payment_id.wrapping_add(1);
+ if let Err(err) = source.send_payment(&Route {
+ paths: vec![vec![RouteHop {
+ pubkey: middle.get_our_node_id(),
+ node_features: NodeFeatures::empty(),
+ short_channel_id: middle_chan_id,
+ channel_features: ChannelFeatures::empty(),
+ fee_msat: 50000,
+ cltv_expiry_delta: 100,
+ },RouteHop {
+ pubkey: dest.get_our_node_id(),
+ node_features: NodeFeatures::empty(),
+ short_channel_id: dest_chan_id,
+ channel_features: ChannelFeatures::empty(),
+ fee_msat: amt,
+ cltv_expiry_delta: 200,
+ }]],
+ }, PaymentHash(payment_hash.into_inner()), &None) {
+ check_payment_err(err);
+ false
+ } else { true }
+}
+
#[inline]
-pub fn do_test(data: &[u8]) {
+pub fn do_test<Out: test_logger::Output>(data: &[u8], out: Out) {
let fee_est = Arc::new(FuzzEstimator{});
let broadcast = Arc::new(TestBroadcaster{});
macro_rules! make_node {
($node_id: expr) => { {
- let logger: Arc<dyn Logger> = Arc::new(test_logger::TestLogger::new($node_id.to_string()));
- let watch = Arc::new(ChainWatchInterfaceUtil::new(Network::Bitcoin, Arc::clone(&logger)));
- let monitor = Arc::new(TestChannelMonitor::new(watch.clone(), broadcast.clone(), logger.clone(), fee_est.clone()));
+ let logger: Arc<dyn Logger> = Arc::new(test_logger::TestLogger::new($node_id.to_string(), out.clone()));
+ let monitor = Arc::new(TestChainMonitor::new(broadcast.clone(), logger.clone(), fee_est.clone(), Arc::new(TestPersister{})));
- let keys_manager = Arc::new(KeyProvider { node_id: $node_id, session_id: atomic::AtomicU8::new(0), channel_id: atomic::AtomicU8::new(0) });
+ let keys_manager = Arc::new(KeyProvider { node_id: $node_id, rand_bytes_id: atomic::AtomicU8::new(0) });
let mut config = UserConfig::default();
config.channel_options.fee_proportional_millionths = 0;
config.channel_options.announced_channel = true;
config.peer_channel_config_limits.min_dust_limit_satoshis = 0;
- (Arc::new(ChannelManager::new(Network::Bitcoin, fee_est.clone(), monitor.clone(), broadcast.clone(), Arc::clone(&logger), keys_manager.clone(), config, 0).unwrap()),
+ (ChannelManager::new(Network::Bitcoin, fee_est.clone(), monitor.clone(), broadcast.clone(), Arc::clone(&logger), keys_manager.clone(), config, 0),
monitor)
} }
}
macro_rules! reload_node {
($ser: expr, $node_id: expr, $old_monitors: expr) => { {
- let logger: Arc<dyn Logger> = Arc::new(test_logger::TestLogger::new($node_id.to_string()));
- let watch = Arc::new(ChainWatchInterfaceUtil::new(Network::Bitcoin, Arc::clone(&logger)));
- let monitor = Arc::new(TestChannelMonitor::new(watch.clone(), broadcast.clone(), logger.clone(), fee_est.clone()));
+ let logger: Arc<dyn Logger> = Arc::new(test_logger::TestLogger::new($node_id.to_string(), out.clone()));
+ let chain_monitor = Arc::new(TestChainMonitor::new(broadcast.clone(), logger.clone(), fee_est.clone(), Arc::new(TestPersister{})));
- let keys_manager = Arc::new(KeyProvider { node_id: $node_id, session_id: atomic::AtomicU8::new(0), channel_id: atomic::AtomicU8::new(0) });
+ let keys_manager = Arc::new(KeyProvider { node_id: $node_id, rand_bytes_id: atomic::AtomicU8::new(0) });
let mut config = UserConfig::default();
config.channel_options.fee_proportional_millionths = 0;
config.channel_options.announced_channel = true;
config.peer_channel_config_limits.min_dust_limit_satoshis = 0;
let mut monitors = HashMap::new();
- let mut old_monitors = $old_monitors.latest_good_update.lock().unwrap();
- for (outpoint, monitor_ser) in old_monitors.drain() {
- monitors.insert(outpoint, <(Sha256d, ChannelMonitor<EnforcingChannelKeys>)>::read(&mut Cursor::new(&monitor_ser), Arc::clone(&logger)).expect("Failed to read monitor").1);
- monitor.latest_good_update.lock().unwrap().insert(outpoint, monitor_ser);
+ let mut old_monitors = $old_monitors.latest_monitors.lock().unwrap();
+ for (outpoint, (update_id, monitor_ser)) in old_monitors.drain() {
+ monitors.insert(outpoint, <(BlockHash, ChannelMonitor<EnforcingChannelKeys>)>::read(&mut Cursor::new(&monitor_ser), &OnlyReadsKeysInterface {}).expect("Failed to read monitor").1);
+ chain_monitor.latest_monitors.lock().unwrap().insert(outpoint, (update_id, monitor_ser));
}
let mut monitor_refs = HashMap::new();
for (outpoint, monitor) in monitors.iter_mut() {
let read_args = ChannelManagerReadArgs {
keys_manager,
fee_estimator: fee_est.clone(),
- monitor: monitor.clone(),
+ chain_monitor: chain_monitor.clone(),
tx_broadcaster: broadcast.clone(),
logger,
default_config: config,
- channel_monitors: &mut monitor_refs,
+ channel_monitors: monitor_refs,
};
- let res = (<(Sha256d, ChannelManager<EnforcingChannelKeys, Arc<TestChannelMonitor>, Arc<TestBroadcaster>>)>::read(&mut Cursor::new(&$ser.0), read_args).expect("Failed to read manager").1, monitor);
- for (_, was_good) in $old_monitors.latest_updates_good_at_last_ser.lock().unwrap().iter() {
- if !was_good {
- // If the last time we updated a monitor we didn't successfully update (and we
- // have sense updated our serialized copy of the ChannelManager) we may
- // force-close the channel on our counterparty cause we know we're missing
- // something. Thus, we just return here since we can't continue to test.
- return;
- }
- }
- res
+ (<(BlockHash, ChanMan)>::read(&mut Cursor::new(&$ser.0), read_args).expect("Failed to read manager").1, chain_monitor)
} }
}
let mut channel_txn = Vec::new();
macro_rules! make_channel {
($source: expr, $dest: expr, $chan_id: expr) => { {
- $source.create_channel($dest.get_our_node_id(), 10000000, 42, 0).unwrap();
+ $source.create_channel($dest.get_our_node_id(), 100_000, 42, 0, None).unwrap();
let open_channel = {
let events = $source.get_and_clear_pending_msg_events();
assert_eq!(events.len(), 1);
} else { panic!("Wrong event type"); }
};
- $dest.handle_open_channel(&$source.get_our_node_id(), InitFeatures::supported(), &open_channel);
+ $dest.handle_open_channel(&$source.get_our_node_id(), InitFeatures::known(), &open_channel);
let accept_channel = {
let events = $dest.get_and_clear_pending_msg_events();
assert_eq!(events.len(), 1);
} else { panic!("Wrong event type"); }
};
- $source.handle_accept_channel(&$dest.get_our_node_id(), InitFeatures::supported(), &accept_channel);
+ $source.handle_accept_channel(&$dest.get_our_node_id(), InitFeatures::known(), &accept_channel);
+ let funding_output;
{
let events = $source.get_and_clear_pending_events();
assert_eq!(events.len(), 1);
let tx = Transaction { version: $chan_id, lock_time: 0, input: Vec::new(), output: vec![TxOut {
value: *channel_value_satoshis, script_pubkey: output_script.clone(),
}]};
- let funding_output = OutPoint::new(tx.txid(), 0);
+ funding_output = OutPoint { txid: tx.txid(), index: 0 };
$source.funding_transaction_generated(&temporary_channel_id, funding_output);
channel_txn.push(tx);
} else { panic!("Wrong event type"); }
if let events::Event::FundingBroadcastSafe { .. } = events[0] {
} else { panic!("Wrong event type"); }
}
+ funding_output
} }
}
macro_rules! confirm_txn {
($node: expr) => { {
let mut header = BlockHeader { version: 0x20000000, prev_blockhash: Default::default(), merkle_root: Default::default(), time: 42, bits: 42, nonce: 42 };
- let mut txn = Vec::with_capacity(channel_txn.len());
- let mut posn = Vec::with_capacity(channel_txn.len());
- for i in 0..channel_txn.len() {
- txn.push(&channel_txn[i]);
- posn.push(i as u32 + 1);
- }
- $node.block_connected(&header, 1, &txn, &posn);
+ let txdata: Vec<_> = channel_txn.iter().enumerate().map(|(i, tx)| (i + 1, tx)).collect();
+ $node.block_connected(&header, &txdata, 1);
for i in 2..100 {
- header = BlockHeader { version: 0x20000000, prev_blockhash: header.bitcoin_hash(), merkle_root: Default::default(), time: 42, bits: 42, nonce: 42 };
- $node.block_connected(&header, i, &Vec::new(), &[0; 0]);
+ header = BlockHeader { version: 0x20000000, prev_blockhash: header.block_hash(), merkle_root: Default::default(), time: 42, bits: 42, nonce: 42 };
+ $node.block_connected(&header, &[], i);
}
} }
}
// 3 nodes is enough to hit all the possible cases, notably unknown-source-unknown-dest
// forwarding.
- let (mut node_a, mut monitor_a) = make_node!(0);
- let (mut node_b, mut monitor_b) = make_node!(1);
- let (mut node_c, mut monitor_c) = make_node!(2);
+ let (node_a, mut monitor_a) = make_node!(0);
+ let (node_b, mut monitor_b) = make_node!(1);
+ let (node_c, mut monitor_c) = make_node!(2);
let mut nodes = [node_a, node_b, node_c];
- make_channel!(nodes[0], nodes[1], 0);
- make_channel!(nodes[1], nodes[2], 1);
+ let chan_1_funding = make_channel!(nodes[0], nodes[1], 0);
+ let chan_2_funding = make_channel!(nodes[1], nodes[2], 1);
for node in nodes.iter() {
confirm_txn!(node);
let chan_a = nodes[0].list_usable_channels()[0].short_channel_id.unwrap();
let chan_b = nodes[2].list_usable_channels()[0].short_channel_id.unwrap();
- let mut payment_id = 0;
+ let mut payment_id: u8 = 0;
let mut chan_a_disconnected = false;
let mut chan_b_disconnected = false;
}
loop {
- macro_rules! send_payment {
- ($source: expr, $dest: expr) => { {
+ macro_rules! send_payment_with_secret {
+ ($source: expr, $middle: expr, $dest: expr) => { {
let payment_hash = Sha256::hash(&[payment_id; 1]);
payment_id = payment_id.wrapping_add(1);
- if let Err(_) = $source.send_payment(Route {
- hops: vec![RouteHop {
+ let payment_secret = Sha256::hash(&[payment_id; 1]);
+ payment_id = payment_id.wrapping_add(1);
+ if let Err(err) = $source.send_payment(&Route {
+ paths: vec![vec![RouteHop {
+ pubkey: $middle.0.get_our_node_id(),
+ node_features: NodeFeatures::empty(),
+ short_channel_id: $middle.1,
+ channel_features: ChannelFeatures::empty(),
+ fee_msat: 50_000,
+ cltv_expiry_delta: 100,
+ },RouteHop {
pubkey: $dest.0.get_our_node_id(),
node_features: NodeFeatures::empty(),
short_channel_id: $dest.1,
channel_features: ChannelFeatures::empty(),
- fee_msat: 5000000,
+ fee_msat: 10_000_000,
cltv_expiry_delta: 200,
- }],
- }, PaymentHash(payment_hash.into_inner())) {
- // Probably ran out of funds
- test_return!();
- }
- } };
- ($source: expr, $middle: expr, $dest: expr) => { {
- let payment_hash = Sha256::hash(&[payment_id; 1]);
- payment_id = payment_id.wrapping_add(1);
- if let Err(_) = $source.send_payment(Route {
- hops: vec![RouteHop {
+ }],vec![RouteHop {
pubkey: $middle.0.get_our_node_id(),
node_features: NodeFeatures::empty(),
short_channel_id: $middle.1,
channel_features: ChannelFeatures::empty(),
- fee_msat: 50000,
+ fee_msat: 50_000,
cltv_expiry_delta: 100,
},RouteHop {
pubkey: $dest.0.get_our_node_id(),
node_features: NodeFeatures::empty(),
short_channel_id: $dest.1,
channel_features: ChannelFeatures::empty(),
- fee_msat: 5000000,
+ fee_msat: 10_000_000,
cltv_expiry_delta: 200,
- }],
- }, PaymentHash(payment_hash.into_inner())) {
- // Probably ran out of funds
- test_return!();
+ }]],
+ }, PaymentHash(payment_hash.into_inner()), &Some(PaymentSecret(payment_secret.into_inner()))) {
+ check_payment_err(err);
}
} }
}
bc_events.clear();
new_events
} else { Vec::new() };
+ let mut had_events = false;
for event in events.iter().chain(nodes[$node].get_and_clear_pending_msg_events().iter()) {
+ had_events = true;
match event {
events::MessageSendEvent::UpdateHTLCs { ref node_id, updates: CommitmentUpdate { ref update_add_htlcs, ref update_fail_htlcs, ref update_fulfill_htlcs, ref update_fail_malformed_htlcs, ref update_fee, ref commitment_signed } } => {
for dest in nodes.iter() {
// Can be generated due to a payment forward being rejected due to a
// channel having previously failed a monitor update
},
- events::MessageSendEvent::HandleError { action: ErrorAction::IgnoreError, .. } => {
- // Can be generated at any processing step to send back an error, disconnect
- // peer or just ignore
- },
_ => panic!("Unhandled message event"),
}
}
+ had_events
} }
}
} else { Ordering::Equal }
} else { Ordering::Equal }
});
+ let had_events = !events.is_empty();
for event in events.drain(..) {
match event {
- events::Event::PaymentReceived { payment_hash, .. } => {
+ events::Event::PaymentReceived { payment_hash, payment_secret, amt } => {
if claim_set.insert(payment_hash.0) {
if $fail {
- assert!(nodes[$node].fail_htlc_backwards(&payment_hash));
+ assert!(nodes[$node].fail_htlc_backwards(&payment_hash, &payment_secret));
} else {
- assert!(nodes[$node].claim_funds(PaymentPreimage(payment_hash.0), 5_000_000));
+ assert!(nodes[$node].claim_funds(PaymentPreimage(payment_hash.0), &payment_secret, amt));
}
}
},
_ => panic!("Unhandled event"),
}
}
+ had_events
} }
}
match get_slice!(1)[0] {
+ // In general, we keep related message groups close together in binary form, allowing
+ // bit-twiddling mutations to have similar effects. This is probably overkill, but no
+ // harm in doing so.
+
0x00 => *monitor_a.update_ret.lock().unwrap() = Err(ChannelMonitorUpdateErr::TemporaryFailure),
0x01 => *monitor_b.update_ret.lock().unwrap() = Err(ChannelMonitorUpdateErr::TemporaryFailure),
0x02 => *monitor_c.update_ret.lock().unwrap() = Err(ChannelMonitorUpdateErr::TemporaryFailure),
- 0x03 => *monitor_a.update_ret.lock().unwrap() = Ok(()),
- 0x04 => *monitor_b.update_ret.lock().unwrap() = Ok(()),
- 0x05 => *monitor_c.update_ret.lock().unwrap() = Ok(()),
- 0x06 => { unsafe { IN_RESTORE = true }; nodes[0].test_restore_channel_monitor(); unsafe { IN_RESTORE = false }; },
- 0x07 => { unsafe { IN_RESTORE = true }; nodes[1].test_restore_channel_monitor(); unsafe { IN_RESTORE = false }; },
- 0x08 => { unsafe { IN_RESTORE = true }; nodes[2].test_restore_channel_monitor(); unsafe { IN_RESTORE = false }; },
- 0x09 => send_payment!(nodes[0], (&nodes[1], chan_a)),
- 0x0a => send_payment!(nodes[1], (&nodes[0], chan_a)),
- 0x0b => send_payment!(nodes[1], (&nodes[2], chan_b)),
- 0x0c => send_payment!(nodes[2], (&nodes[1], chan_b)),
- 0x0d => send_payment!(nodes[0], (&nodes[1], chan_a), (&nodes[2], chan_b)),
- 0x0e => send_payment!(nodes[2], (&nodes[1], chan_b), (&nodes[0], chan_a)),
- 0x0f => {
+ 0x04 => *monitor_a.update_ret.lock().unwrap() = Ok(()),
+ 0x05 => *monitor_b.update_ret.lock().unwrap() = Ok(()),
+ 0x06 => *monitor_c.update_ret.lock().unwrap() = Ok(()),
+
+ 0x08 => {
+ if let Some((id, _)) = monitor_a.latest_monitors.lock().unwrap().get(&chan_1_funding) {
+ nodes[0].channel_monitor_updated(&chan_1_funding, *id);
+ }
+ },
+ 0x09 => {
+ if let Some((id, _)) = monitor_b.latest_monitors.lock().unwrap().get(&chan_1_funding) {
+ nodes[1].channel_monitor_updated(&chan_1_funding, *id);
+ }
+ },
+ 0x0a => {
+ if let Some((id, _)) = monitor_b.latest_monitors.lock().unwrap().get(&chan_2_funding) {
+ nodes[1].channel_monitor_updated(&chan_2_funding, *id);
+ }
+ },
+ 0x0b => {
+ if let Some((id, _)) = monitor_c.latest_monitors.lock().unwrap().get(&chan_2_funding) {
+ nodes[2].channel_monitor_updated(&chan_2_funding, *id);
+ }
+ },
+
+ 0x0c => {
if !chan_a_disconnected {
nodes[0].peer_disconnected(&nodes[1].get_our_node_id(), false);
nodes[1].peer_disconnected(&nodes[0].get_our_node_id(), false);
drain_msg_events_on_disconnect!(0);
}
},
- 0x10 => {
+ 0x0d => {
if !chan_b_disconnected {
nodes[1].peer_disconnected(&nodes[2].get_our_node_id(), false);
nodes[2].peer_disconnected(&nodes[1].get_our_node_id(), false);
drain_msg_events_on_disconnect!(2);
}
},
- 0x11 => {
+ 0x0e => {
if chan_a_disconnected {
nodes[0].peer_connected(&nodes[1].get_our_node_id(), &Init { features: InitFeatures::empty() });
nodes[1].peer_connected(&nodes[0].get_our_node_id(), &Init { features: InitFeatures::empty() });
chan_a_disconnected = false;
}
},
- 0x12 => {
+ 0x0f => {
if chan_b_disconnected {
nodes[1].peer_connected(&nodes[2].get_our_node_id(), &Init { features: InitFeatures::empty() });
nodes[2].peer_connected(&nodes[1].get_our_node_id(), &Init { features: InitFeatures::empty() });
chan_b_disconnected = false;
}
},
- 0x13 => process_msg_events!(0, true),
- 0x14 => process_msg_events!(0, false),
- 0x15 => process_events!(0, true),
- 0x16 => process_events!(0, false),
- 0x17 => process_msg_events!(1, true),
- 0x18 => process_msg_events!(1, false),
- 0x19 => process_events!(1, true),
- 0x1a => process_events!(1, false),
- 0x1b => process_msg_events!(2, true),
- 0x1c => process_msg_events!(2, false),
- 0x1d => process_events!(2, true),
- 0x1e => process_events!(2, false),
- 0x1f => {
+
+ 0x10 => { process_msg_events!(0, true); },
+ 0x11 => { process_msg_events!(0, false); },
+ 0x12 => { process_events!(0, true); },
+ 0x13 => { process_events!(0, false); },
+ 0x14 => { process_msg_events!(1, true); },
+ 0x15 => { process_msg_events!(1, false); },
+ 0x16 => { process_events!(1, true); },
+ 0x17 => { process_events!(1, false); },
+ 0x18 => { process_msg_events!(2, true); },
+ 0x19 => { process_msg_events!(2, false); },
+ 0x1a => { process_events!(2, true); },
+ 0x1b => { process_events!(2, false); },
+
+ 0x1c => {
if !chan_a_disconnected {
nodes[1].peer_disconnected(&nodes[0].get_our_node_id(), false);
chan_a_disconnected = true;
drain_msg_events_on_disconnect!(0);
}
let (new_node_a, new_monitor_a) = reload_node!(node_a_ser, 0, monitor_a);
- node_a = Arc::new(new_node_a);
- nodes[0] = node_a.clone();
+ nodes[0] = new_node_a;
monitor_a = new_monitor_a;
},
- 0x20 => {
+ 0x1d => {
if !chan_a_disconnected {
nodes[0].peer_disconnected(&nodes[1].get_our_node_id(), false);
chan_a_disconnected = true;
bc_events.clear();
}
let (new_node_b, new_monitor_b) = reload_node!(node_b_ser, 1, monitor_b);
- node_b = Arc::new(new_node_b);
- nodes[1] = node_b.clone();
+ nodes[1] = new_node_b;
monitor_b = new_monitor_b;
},
- 0x21 => {
+ 0x1e => {
if !chan_b_disconnected {
nodes[1].peer_disconnected(&nodes[2].get_our_node_id(), false);
chan_b_disconnected = true;
drain_msg_events_on_disconnect!(2);
}
let (new_node_c, new_monitor_c) = reload_node!(node_c_ser, 2, monitor_c);
- node_c = Arc::new(new_node_c);
- nodes[2] = node_c.clone();
+ nodes[2] = new_node_c;
monitor_c = new_monitor_c;
},
+
+ // 1/10th the channel size:
+ 0x20 => { send_payment(&nodes[0], &nodes[1], chan_a, 10_000_000, &mut payment_id); },
+ 0x21 => { send_payment(&nodes[1], &nodes[0], chan_a, 10_000_000, &mut payment_id); },
+ 0x22 => { send_payment(&nodes[1], &nodes[2], chan_b, 10_000_000, &mut payment_id); },
+ 0x23 => { send_payment(&nodes[2], &nodes[1], chan_b, 10_000_000, &mut payment_id); },
+ 0x24 => { send_hop_payment(&nodes[0], &nodes[1], chan_a, &nodes[2], chan_b, 10_000_000, &mut payment_id); },
+ 0x25 => { send_hop_payment(&nodes[2], &nodes[1], chan_b, &nodes[0], chan_a, 10_000_000, &mut payment_id); },
+
+ 0x26 => { send_payment_with_secret!(nodes[0], (&nodes[1], chan_a), (&nodes[2], chan_b)); },
+ 0x27 => { send_payment_with_secret!(nodes[2], (&nodes[1], chan_b), (&nodes[0], chan_a)); },
+
+ 0x28 => { send_payment(&nodes[0], &nodes[1], chan_a, 1_000_000, &mut payment_id); },
+ 0x29 => { send_payment(&nodes[1], &nodes[0], chan_a, 1_000_000, &mut payment_id); },
+ 0x2a => { send_payment(&nodes[1], &nodes[2], chan_b, 1_000_000, &mut payment_id); },
+ 0x2b => { send_payment(&nodes[2], &nodes[1], chan_b, 1_000_000, &mut payment_id); },
+ 0x2c => { send_hop_payment(&nodes[0], &nodes[1], chan_a, &nodes[2], chan_b, 1_000_000, &mut payment_id); },
+ 0x2d => { send_hop_payment(&nodes[2], &nodes[1], chan_b, &nodes[0], chan_a, 1_000_000, &mut payment_id); },
+
+ 0x30 => { send_payment(&nodes[0], &nodes[1], chan_a, 100_000, &mut payment_id); },
+ 0x31 => { send_payment(&nodes[1], &nodes[0], chan_a, 100_000, &mut payment_id); },
+ 0x32 => { send_payment(&nodes[1], &nodes[2], chan_b, 100_000, &mut payment_id); },
+ 0x33 => { send_payment(&nodes[2], &nodes[1], chan_b, 100_000, &mut payment_id); },
+ 0x34 => { send_hop_payment(&nodes[0], &nodes[1], chan_a, &nodes[2], chan_b, 100_000, &mut payment_id); },
+ 0x35 => { send_hop_payment(&nodes[2], &nodes[1], chan_b, &nodes[0], chan_a, 100_000, &mut payment_id); },
+
+ 0x38 => { send_payment(&nodes[0], &nodes[1], chan_a, 10_000, &mut payment_id); },
+ 0x39 => { send_payment(&nodes[1], &nodes[0], chan_a, 10_000, &mut payment_id); },
+ 0x3a => { send_payment(&nodes[1], &nodes[2], chan_b, 10_000, &mut payment_id); },
+ 0x3b => { send_payment(&nodes[2], &nodes[1], chan_b, 10_000, &mut payment_id); },
+ 0x3c => { send_hop_payment(&nodes[0], &nodes[1], chan_a, &nodes[2], chan_b, 10_000, &mut payment_id); },
+ 0x3d => { send_hop_payment(&nodes[2], &nodes[1], chan_b, &nodes[0], chan_a, 10_000, &mut payment_id); },
+
+ 0x40 => { send_payment(&nodes[0], &nodes[1], chan_a, 1_000, &mut payment_id); },
+ 0x41 => { send_payment(&nodes[1], &nodes[0], chan_a, 1_000, &mut payment_id); },
+ 0x42 => { send_payment(&nodes[1], &nodes[2], chan_b, 1_000, &mut payment_id); },
+ 0x43 => { send_payment(&nodes[2], &nodes[1], chan_b, 1_000, &mut payment_id); },
+ 0x44 => { send_hop_payment(&nodes[0], &nodes[1], chan_a, &nodes[2], chan_b, 1_000, &mut payment_id); },
+ 0x45 => { send_hop_payment(&nodes[2], &nodes[1], chan_b, &nodes[0], chan_a, 1_000, &mut payment_id); },
+
+ 0x48 => { send_payment(&nodes[0], &nodes[1], chan_a, 100, &mut payment_id); },
+ 0x49 => { send_payment(&nodes[1], &nodes[0], chan_a, 100, &mut payment_id); },
+ 0x4a => { send_payment(&nodes[1], &nodes[2], chan_b, 100, &mut payment_id); },
+ 0x4b => { send_payment(&nodes[2], &nodes[1], chan_b, 100, &mut payment_id); },
+ 0x4c => { send_hop_payment(&nodes[0], &nodes[1], chan_a, &nodes[2], chan_b, 100, &mut payment_id); },
+ 0x4d => { send_hop_payment(&nodes[2], &nodes[1], chan_b, &nodes[0], chan_a, 100, &mut payment_id); },
+
+ 0x50 => { send_payment(&nodes[0], &nodes[1], chan_a, 10, &mut payment_id); },
+ 0x51 => { send_payment(&nodes[1], &nodes[0], chan_a, 10, &mut payment_id); },
+ 0x52 => { send_payment(&nodes[1], &nodes[2], chan_b, 10, &mut payment_id); },
+ 0x53 => { send_payment(&nodes[2], &nodes[1], chan_b, 10, &mut payment_id); },
+ 0x54 => { send_hop_payment(&nodes[0], &nodes[1], chan_a, &nodes[2], chan_b, 10, &mut payment_id); },
+ 0x55 => { send_hop_payment(&nodes[2], &nodes[1], chan_b, &nodes[0], chan_a, 10, &mut payment_id); },
+
+ 0x58 => { send_payment(&nodes[0], &nodes[1], chan_a, 1, &mut payment_id); },
+ 0x59 => { send_payment(&nodes[1], &nodes[0], chan_a, 1, &mut payment_id); },
+ 0x5a => { send_payment(&nodes[1], &nodes[2], chan_b, 1, &mut payment_id); },
+ 0x5b => { send_payment(&nodes[2], &nodes[1], chan_b, 1, &mut payment_id); },
+ 0x5c => { send_hop_payment(&nodes[0], &nodes[1], chan_a, &nodes[2], chan_b, 1, &mut payment_id); },
+ 0x5d => { send_hop_payment(&nodes[2], &nodes[1], chan_b, &nodes[0], chan_a, 1, &mut payment_id); },
+
+ 0xff => {
+ // Test that no channel is in a stuck state where neither party can send funds even
+ // after we resolve all pending events.
+ // First make sure there are no pending monitor updates, resetting the error state
+ // and calling channel_monitor_updated for each monitor.
+ *monitor_a.update_ret.lock().unwrap() = Ok(());
+ *monitor_b.update_ret.lock().unwrap() = Ok(());
+ *monitor_c.update_ret.lock().unwrap() = Ok(());
+
+ if let Some((id, _)) = monitor_a.latest_monitors.lock().unwrap().get(&chan_1_funding) {
+ nodes[0].channel_monitor_updated(&chan_1_funding, *id);
+ }
+ if let Some((id, _)) = monitor_b.latest_monitors.lock().unwrap().get(&chan_1_funding) {
+ nodes[1].channel_monitor_updated(&chan_1_funding, *id);
+ }
+ if let Some((id, _)) = monitor_b.latest_monitors.lock().unwrap().get(&chan_2_funding) {
+ nodes[1].channel_monitor_updated(&chan_2_funding, *id);
+ }
+ if let Some((id, _)) = monitor_c.latest_monitors.lock().unwrap().get(&chan_2_funding) {
+ nodes[2].channel_monitor_updated(&chan_2_funding, *id);
+ }
+
+ // Next, make sure peers are all connected to each other
+ if chan_a_disconnected {
+ nodes[0].peer_connected(&nodes[1].get_our_node_id(), &Init { features: InitFeatures::empty() });
+ nodes[1].peer_connected(&nodes[0].get_our_node_id(), &Init { features: InitFeatures::empty() });
+ chan_a_disconnected = false;
+ }
+ if chan_b_disconnected {
+ nodes[1].peer_connected(&nodes[2].get_our_node_id(), &Init { features: InitFeatures::empty() });
+ nodes[2].peer_connected(&nodes[1].get_our_node_id(), &Init { features: InitFeatures::empty() });
+ chan_b_disconnected = false;
+ }
+
+ for i in 0..std::usize::MAX {
+ if i == 100 { panic!("It may take may iterations to settle the state, but it should not take forever"); }
+ // Then, make sure any current forwards make their way to their destination
+ if process_msg_events!(0, false) { continue; }
+ if process_msg_events!(1, false) { continue; }
+ if process_msg_events!(2, false) { continue; }
+ // ...making sure any pending PendingHTLCsForwardable events are handled and
+ // payments claimed.
+ if process_events!(0, false) { continue; }
+ if process_events!(1, false) { continue; }
+ if process_events!(2, false) { continue; }
+ break;
+ }
+
+ // Finally, make sure that at least one end of each channel can make a substantial payment.
+ assert!(
+ send_payment(&nodes[0], &nodes[1], chan_a, 10_000_000, &mut payment_id) ||
+ send_payment(&nodes[1], &nodes[0], chan_a, 10_000_000, &mut payment_id));
+ assert!(
+ send_payment(&nodes[1], &nodes[2], chan_b, 10_000_000, &mut payment_id) ||
+ send_payment(&nodes[2], &nodes[1], chan_b, 10_000_000, &mut payment_id));
+ },
_ => test_return!(),
}
- if monitor_a.should_update_manager.load(atomic::Ordering::Relaxed) {
- node_a_ser.0.clear();
- nodes[0].write(&mut node_a_ser).unwrap();
- monitor_a.should_update_manager.store(false, atomic::Ordering::Relaxed);
- *monitor_a.latest_updates_good_at_last_ser.lock().unwrap() = monitor_a.latest_update_good.lock().unwrap().clone();
- }
- if monitor_b.should_update_manager.load(atomic::Ordering::Relaxed) {
- node_b_ser.0.clear();
- nodes[1].write(&mut node_b_ser).unwrap();
- monitor_b.should_update_manager.store(false, atomic::Ordering::Relaxed);
- *monitor_b.latest_updates_good_at_last_ser.lock().unwrap() = monitor_b.latest_update_good.lock().unwrap().clone();
- }
- if monitor_c.should_update_manager.load(atomic::Ordering::Relaxed) {
- node_c_ser.0.clear();
- nodes[2].write(&mut node_c_ser).unwrap();
- monitor_c.should_update_manager.store(false, atomic::Ordering::Relaxed);
- *monitor_c.latest_updates_good_at_last_ser.lock().unwrap() = monitor_c.latest_update_good.lock().unwrap().clone();
- }
+ node_a_ser.0.clear();
+ nodes[0].write(&mut node_a_ser).unwrap();
+ monitor_a.should_update_manager.store(false, atomic::Ordering::Relaxed);
+ node_b_ser.0.clear();
+ nodes[1].write(&mut node_b_ser).unwrap();
+ monitor_b.should_update_manager.store(false, atomic::Ordering::Relaxed);
+ node_c_ser.0.clear();
+ nodes[2].write(&mut node_c_ser).unwrap();
+ monitor_c.should_update_manager.store(false, atomic::Ordering::Relaxed);
}
}
+pub fn chanmon_consistency_test<Out: test_logger::Output>(data: &[u8], out: Out) {
+ do_test(data, out);
+}
+
#[no_mangle]
pub extern "C" fn chanmon_consistency_run(data: *const u8, datalen: usize) {
- do_test(unsafe { std::slice::from_raw_parts(data, datalen) });
+ do_test(unsafe { std::slice::from_raw_parts(data, datalen) }, test_logger::DevNull{});
}