use bitcoin::BlockHash;
use bitcoin_bech32::WitnessProgram;
use disk::{INBOUND_PAYMENTS_FNAME, OUTBOUND_PAYMENTS_FNAME};
-use lightning::chain::keysinterface::{
- EntropySource, InMemorySigner, KeysManager, SpendableOutputDescriptor,
-};
use lightning::chain::{chainmonitor, ChannelMonitorUpdateStatus};
use lightning::chain::{Filter, Watch};
+use lightning::events::bump_transaction::{BumpTransactionEventHandler, Wallet};
use lightning::events::{Event, PaymentFailureReason, PaymentPurpose};
use lightning::ln::channelmanager::{self, RecentPaymentDetails};
use lightning::ln::channelmanager::{
};
use lightning::ln::msgs::DecodeError;
use lightning::ln::peer_handler::{IgnoringMessageHandler, MessageHandler, SimpleArcPeerManager};
-use lightning::ln::{PaymentHash, PaymentPreimage, PaymentSecret};
-use lightning::onion_message::SimpleArcOnionMessenger;
+use lightning::ln::{ChannelId, PaymentHash, PaymentPreimage, PaymentSecret};
+use lightning::onion_message::{DefaultMessageRouter, SimpleArcOnionMessenger};
use lightning::routing::gossip;
use lightning::routing::gossip::{NodeId, P2PGossipSync};
use lightning::routing::router::DefaultRouter;
+use lightning::routing::scoring::ProbabilisticScoringFeeParameters;
+use lightning::sign::{EntropySource, InMemorySigner, KeysManager, SpendableOutputDescriptor};
use lightning::util::config::UserConfig;
-use lightning::util::persist::KVStorePersister;
+use lightning::util::persist::{self, KVStore, MonitorUpdatingPersister};
use lightning::util::ser::{Readable, ReadableArgs, Writeable, Writer};
use lightning::{chain, impl_writeable_tlv_based, impl_writeable_tlv_based_enum};
use lightning_background_processor::{process_events_async, GossipSync};
use lightning_block_sync::SpvClient;
use lightning_block_sync::UnboundedCache;
use lightning_net_tokio::SocketDescriptor;
-use lightning_persister::FilesystemPersister;
+use lightning_persister::fs_store::FilesystemStore;
use rand::{thread_rng, Rng};
use std::collections::hash_map::Entry;
use std::collections::HashMap;
use std::io::Write;
use std::path::Path;
use std::sync::atomic::{AtomicBool, Ordering};
-use std::sync::{Arc, Mutex};
+use std::sync::{Arc, Mutex, RwLock};
use std::time::{Duration, SystemTime};
pub(crate) const PENDING_SPENDABLE_OUTPUT_DIR: &'static str = "pending_spendable_outputs";
Arc<BitcoindClient>,
Arc<BitcoindClient>,
Arc<FilesystemLogger>,
- Arc<FilesystemPersister>,
+ Arc<
+ MonitorUpdatingPersister<
+ Arc<FilesystemStore>,
+ Arc<FilesystemLogger>,
+ Arc<KeysManager>,
+ Arc<KeysManager>,
+ >,
+ >,
>;
pub(crate) type PeerManager = SimpleArcPeerManager<
ChainMonitor,
BitcoindClient,
BitcoindClient,
- BitcoindClient,
+ Arc<BitcoindClient>,
FilesystemLogger,
>;
type OnionMessenger = SimpleArcOnionMessenger<FilesystemLogger>;
+pub(crate) type BumpTxEventHandler = BumpTransactionEventHandler<
+ Arc<BitcoindClient>,
+ Arc<Wallet<Arc<BitcoindClient>, Arc<FilesystemLogger>>>,
+ Arc<KeysManager>,
+ Arc<FilesystemLogger>,
+>;
+
async fn handle_ldk_events(
channel_manager: &Arc<ChannelManager>, bitcoind_client: &BitcoindClient,
network_graph: &NetworkGraph, keys_manager: &KeysManager,
- inbound_payments: Arc<Mutex<PaymentInfoStorage>>,
- outbound_payments: Arc<Mutex<PaymentInfoStorage>>, persister: &Arc<FilesystemPersister>,
+
bump_tx_event_handler: &BumpTxEventHandler, inbound_payments: Arc<Mutex<PaymentInfoStorage>>,
+ outbound_payments: Arc<Mutex<PaymentInfoStorage>>, persister: &Arc<FilesystemStore>,
network: Network, event: Event,
) {
match event {
via_user_channel_id: _,
claim_deadline: _,
onion_fields: _,
+ counterparty_skimmed_fee_msat: _,
} => {
println!(
"\nEVENT: received payment from payment hash {} of {} millisatoshis",
- hex_utils::hex_str(&payment_hash.0),
- amount_msat,
+ payment_hash, amount_msat,
);
print!("> ");
io::stdout().flush().unwrap();
};
channel_manager.claim_funds(payment_preimage.unwrap());
}
- Event::PaymentClaimed { payment_hash, purpose, amount_msat, receiver_node_id: _ } => {
+ Event::PaymentClaimed {
+ payment_hash,
+ purpose,
+ amount_msat,
+ receiver_node_id: _,
+ htlcs: _,
+ sender_intended_total_msat: _,
+ } => {
println!(
"\nEVENT: claimed payment from payment hash {} of {} millisatoshis",
- hex_utils::hex_str(&payment_hash.0),
- amount_msat,
+ payment_hash, amount_msat,
);
print!("> ");
io::stdout().flush().unwrap();
});
}
}
- persister.persist(INBOUND_PAYMENTS_FNAME, &*inbound).unwrap();
+ persister.write("", "", INBOUND_PAYMENTS_FNAME, &inbound.encode()).unwrap();
}
Event::PaymentSent { payment_preimage, payment_hash, fee_paid_msat, .. } => {
let mut outbound = outbound_payments.lock().unwrap();
payment.status = HTLCStatus::Succeeded;
println!(
"\nEVENT: successfully sent payment of {} millisatoshis{} from \
- payment hash {:?} with preimage {:?}",
+ payment hash {} with preimage {}",
payment.amt_msat,
if let Some(fee) = fee_paid_msat {
format!(" (fee {} msat)", fee)
} else {
"".to_string()
},
- hex_utils::hex_str(&payment_hash.0),
- hex_utils::hex_str(&payment_preimage.0)
+ payment_hash,
+ payment_preimage
);
print!("> ");
io::stdout().flush().unwrap();
}
}
- persister.persist(OUTBOUND_PAYMENTS_FNAME, &*outbound).unwrap();
+ persister.write("", "", OUTBOUND_PAYMENTS_FNAME, &outbound.encode()).unwrap();
}
- Event::OpenChannelRequest { .. } => {
- // Unreachable, we don't set manually_accept_inbound_channels
+ Event::OpenChannelRequest {
+ ref temporary_channel_id, ref counterparty_node_id, ..
+ } => {
+ let mut random_bytes = [0u8; 16];
+ random_bytes.copy_from_slice(&keys_manager.get_secure_random_bytes()[..16]);
+ let user_channel_id = u128::from_be_bytes(random_bytes);
+ let res = channel_manager.accept_inbound_channel(
+ temporary_channel_id,
+ counterparty_node_id,
+ user_channel_id,
+ );
+
+ if let Err(e) = res {
+ print!(
+ "\nEVENT: Failed to accept inbound channel ({}) from {}: {:?}",
+ temporary_channel_id,
+ hex_utils::hex_str(&counterparty_node_id.serialize()),
+ e,
+ );
+ } else {
+ print!(
+ "\nEVENT: Accepted inbound channel ({}) from {}",
+ temporary_channel_id,
+ hex_utils::hex_str(&counterparty_node_id.serialize()),
+ );
+ }
+ print!("> ");
+ io::stdout().flush().unwrap();
}
Event::PaymentPathSuccessful { .. } => {}
Event::PaymentPathFailed { .. } => {}
Event::ProbeFailed { .. } => {}
Event::PaymentFailed { payment_hash, reason, .. } => {
print!(
- "\nEVENT: Failed to send payment to payment hash {:?}: {:?}",
- hex_utils::hex_str(&payment_hash.0),
+ "\nEVENT: Failed to send payment to payment hash {}: {:?}",
+ payment_hash,
if let Some(r) = reason { r } else { PaymentFailureReason::RetriesExhausted }
);
print!("> ");
let payment = outbound.payments.get_mut(&payment_hash).unwrap();
payment.status = HTLCStatus::Failed;
}
- persister.persist(OUTBOUND_PAYMENTS_FNAME, &*outbound).unwrap();
+ persister.write("", "", OUTBOUND_PAYMENTS_FNAME, &outbound.encode()).unwrap();
}
Event::PaymentForwarded {
prev_channel_id,
let nodes = read_only_network_graph.nodes();
let channels = channel_manager.list_channels();
- let node_str = |channel_id: &Option<[u8; 32]>| match channel_id {
+ let node_str = |channel_id: &Option<ChannelId>| match channel_id {
None => String::new(),
Some(channel_id) => match channels.iter().find(|c| c.channel_id == *channel_id) {
None => String::new(),
}
},
};
- let channel_str = |channel_id: &Option<[u8; 32]>| {
+ let channel_str = |channel_id: &Option<ChannelId>| {
channel_id
- .map(|channel_id| format!(" with channel {}", hex_utils::hex_str(&channel_id)))
+ .map(|channel_id| format!(" with channel {}", channel_id))
.unwrap_or_default()
};
let from_prev_str =
forwarding_channel_manager.process_pending_htlc_forwards();
});
}
- Event::SpendableOutputs { outputs } => {
+ Event::SpendableOutputs { outputs, channel_id: _ } => {
// SpendableOutputDescriptors, of which outputs is a vec of, are critical to keep track
// of! While a `StaticOutput` descriptor is just an output to a static, well-known key,
// other descriptors are not currently ever regenerated for you by LDK. Once we return
let key = hex_utils::hex_str(&keys_manager.get_secure_random_bytes());
// Note that if the type here changes our read code needs to change as well.
let output: SpendableOutputDescriptor = output;
- persister
- .persist(&format!("{}/{}", PENDING_SPENDABLE_OUTPUT_DIR, key), &output)
- .unwrap();
+ persister.write(PENDING_SPENDABLE_OUTPUT_DIR, "", &key, &output.encode()).unwrap();
}
}
Event::ChannelPending { channel_id, counterparty_node_id, .. } => {
println!(
"\nEVENT: Channel {} with peer {} is pending awaiting funding lock-in!",
- hex_utils::hex_str(&channel_id),
+ channel_id,
hex_utils::hex_str(&counterparty_node_id.serialize()),
);
print!("> ");
} => {
println!(
"\nEVENT: Channel {} with peer {} is ready to be used!",
- hex_utils::hex_str(channel_id),
+ channel_id,
hex_utils::hex_str(&counterparty_node_id.serialize()),
);
print!("> ");
io::stdout().flush().unwrap();
}
- Event::ChannelClosed { channel_id, reason, user_channel_id: _ } => {
+ Event::ChannelClosed {
+ channel_id,
+ reason,
+ user_channel_id: _,
+ counterparty_node_id,
+ channel_capacity_sats: _,
+ } => {
println!(
- "\nEVENT: Channel {} closed due to: {:?}",
- hex_utils::hex_str(&channel_id),
+ "\nEVENT: Channel {} with counterparty {} closed due to: {:?}",
+ channel_id,
+ counterparty_node_id.map(|id| format!("{}", id)).unwrap_or("".to_owned()),
reason
);
print!("> ");
// the funding transaction either confirms, or this event is generated.
}
Event::HTLCIntercepted { .. } => {}
+ Event::BumpTransaction(event) => bump_tx_event_handler.handle_event(&event),
}
}
// broadcaster.
let broadcaster = bitcoind_client.clone();
- // Step 4: Initialize Persist
- let persister = Arc::new(FilesystemPersister::new(ldk_data_dir.clone()));
-
- // Step 5: Initialize the ChainMonitor
- let chain_monitor: Arc<ChainMonitor> = Arc::new(chainmonitor::ChainMonitor::new(
- None,
- broadcaster.clone(),
- logger.clone(),
- fee_estimator.clone(),
- persister.clone(),
- ));
-
- // Step 6: Initialize the KeysManager
+ // Step 4: Initialize the KeysManager
// The key seed that we use to derive the node privkey (that corresponds to the node pubkey) and
// other secret key material.
let cur = SystemTime::now().duration_since(SystemTime::UNIX_EPOCH).unwrap();
let keys_manager = Arc::new(KeysManager::new(&keys_seed, cur.as_secs(), cur.subsec_nanos()));
+ let bump_tx_event_handler = Arc::new(BumpTransactionEventHandler::new(
+ Arc::clone(&broadcaster),
+ Arc::new(Wallet::new(Arc::clone(&bitcoind_client), Arc::clone(&logger))),
+ Arc::clone(&keys_manager),
+ Arc::clone(&logger),
+ ));
+
+ // Step 5: Initialize Persistence
+ let fs_store = Arc::new(FilesystemStore::new(ldk_data_dir.clone().into()));
+ let persister = Arc::new(MonitorUpdatingPersister::new(
+ Arc::clone(&fs_store),
+ Arc::clone(&logger),
+ 1000,
+ Arc::clone(&keys_manager),
+ Arc::clone(&keys_manager),
+ ));
+ // Alternatively, you can use the `FilesystemStore` as a `Persist` directly, at the cost of
+ // larger `ChannelMonitor` update writes (but no deletion or cleanup):
+ //let persister = Arc::clone(&fs_store);
+
+ // Step 6: Initialize the ChainMonitor
+ let chain_monitor: Arc<ChainMonitor> = Arc::new(chainmonitor::ChainMonitor::new(
+ None,
+ Arc::clone(&broadcaster),
+ Arc::clone(&logger),
+ Arc::clone(&fee_estimator),
+ Arc::clone(&persister),
+ ));
+
// Step 7: Read ChannelMonitor state from disk
- let mut channelmonitors =
- persister.read_channelmonitors(keys_manager.clone(), keys_manager.clone()).unwrap();
+ let mut channelmonitors = persister
+ .read_all_channel_monitors_with_updates(&bitcoind_client, &bitcoind_client)
+ .unwrap();
+ // If you are using the `FilesystemStore` as a `Persist` directly, use
+ // `lightning::util::persist::read_channel_monitors` like this:
+ //read_channel_monitors(Arc::clone(&persister), Arc::clone(&keys_manager), Arc::clone(&keys_manager)).unwrap();
// Step 8: Poll for the best chain tip, which may be used by the channel manager & spv client
let polled_chain_tip = init::validate_best_block_header(bitcoind_client.as_ref())
Arc::new(disk::read_network(Path::new(&network_graph_path), args.network, logger.clone()));
let scorer_path = format!("{}/scorer", ldk_data_dir.clone());
- let scorer = Arc::new(Mutex::new(disk::read_scorer(
+ let scorer = Arc::new(RwLock::new(disk::read_scorer(
Path::new(&scorer_path),
Arc::clone(&network_graph),
Arc::clone(&logger),
)));
// Step 10: Create Router
+ let scoring_fee_params = ProbabilisticScoringFeeParameters::default();
let router = Arc::new(DefaultRouter::new(
network_graph.clone(),
logger.clone(),
keys_manager.get_secure_random_bytes(),
scorer.clone(),
+ scoring_fee_params,
));
// Step 11: Initialize the ChannelManager
let mut user_config = UserConfig::default();
user_config.channel_handshake_limits.force_announced_channel_preference = false;
+ user_config.channel_handshake_config.negotiate_anchors_zero_fee_htlc_tx = true;
+ user_config.manually_accept_inbound_channels = true;
let mut restarting_node = true;
let (channel_manager_blockhash, channel_manager) = {
if let Ok(mut f) = fs::File::open(format!("{}/manager", ldk_data_dir.clone())) {
keys_manager.clone(),
user_config,
chain_params,
+ cur.as_secs() as u32,
);
(polled_best_block_hash, fresh_channel_manager)
}
let funding_outpoint = item.2;
assert_eq!(
chain_monitor.watch_channel(funding_outpoint, channel_monitor),
- ChannelMonitorUpdateStatus::Completed
+ Ok(ChannelMonitorUpdateStatus::Completed)
);
}
Arc::clone(&keys_manager),
Arc::clone(&keys_manager),
Arc::clone(&logger),
+ Arc::new(DefaultMessageRouter {}),
+ IgnoringMessageHandler {},
IgnoringMessageHandler {},
));
let mut ephemeral_bytes = [0; 32];
chan_handler: channel_manager.clone(),
route_handler: gossip_sync.clone(),
onion_message_handler: onion_messenger.clone(),
+ custom_message_handler: IgnoringMessageHandler {},
};
let peer_manager: Arc<PeerManager> = Arc::new(PeerManager::new(
lightning_msg_handler,
current_time.try_into().unwrap(),
&ephemeral_bytes,
logger.clone(),
- IgnoringMessageHandler {},
Arc::clone(&keys_manager),
));
.into_iter()
.filter_map(|p| match p {
RecentPaymentDetails::Pending { payment_hash, .. } => Some(payment_hash),
- RecentPaymentDetails::Fulfilled { payment_hash } => payment_hash,
- RecentPaymentDetails::Abandoned { payment_hash } => Some(payment_hash),
+ RecentPaymentDetails::Fulfilled { payment_hash, .. } => payment_hash,
+ RecentPaymentDetails::Abandoned { payment_hash, .. } => Some(payment_hash),
+ RecentPaymentDetails::AwaitingInvoice { payment_id: _ } => todo!(),
})
.collect::<Vec<PaymentHash>>();
for (payment_hash, payment_info) in outbound_payments
payment_info.status = HTLCStatus::Failed;
}
}
- persister.persist(OUTBOUND_PAYMENTS_FNAME, &*outbound_payments.lock().unwrap()).unwrap();
+ fs_store
+ .write("", "", OUTBOUND_PAYMENTS_FNAME, &outbound_payments.lock().unwrap().encode())
+ .unwrap();
// Step 18: Handle LDK Events
let channel_manager_event_listener = Arc::clone(&channel_manager);
let keys_manager_event_listener = Arc::clone(&keys_manager);
let inbound_payments_event_listener = Arc::clone(&inbound_payments);
let outbound_payments_event_listener = Arc::clone(&outbound_payments);
- let persister_event_listener = Arc::clone(&persister);
+ let fs_store_event_listener = Arc::clone(&fs_store);
let network = args.network;
let event_handler = move |event: Event| {
let channel_manager_event_listener = Arc::clone(&channel_manager_event_listener);
let bitcoind_client_event_listener = Arc::clone(&bitcoind_client_event_listener);
let network_graph_event_listener = Arc::clone(&network_graph_event_listener);
let keys_manager_event_listener = Arc::clone(&keys_manager_event_listener);
+ let bump_tx_event_handler = Arc::clone(&bump_tx_event_handler);
let inbound_payments_event_listener = Arc::clone(&inbound_payments_event_listener);
let outbound_payments_event_listener = Arc::clone(&outbound_payments_event_listener);
- let persister_event_listener = Arc::clone(&persister_event_listener);
+ let fs_store_event_listener = Arc::clone(&fs_store_event_listener);
async move {
handle_ldk_events(
&channel_manager_event_listener,
&bitcoind_client_event_listener,
&network_graph_event_listener,
&keys_manager_event_listener,
+ &bump_tx_event_handler,
inbound_payments_event_listener,
outbound_payments_event_listener,
- &persister_event_listener,
+ &fs_store_event_listener,
network,
event,
)
};
// Step 19: Persist ChannelManager and NetworkGraph
- let persister = Arc::new(FilesystemPersister::new(ldk_data_dir.clone()));
+ let persister = Arc::new(FilesystemStore::new(ldk_data_dir.clone().into()));
// Step 20: Background Processing
let (bp_exit, bp_exit_check) = tokio::sync::watch::channel(());
- let background_processor = tokio::spawn(process_events_async(
+ let mut background_processor = tokio::spawn(process_events_async(
Arc::clone(&persister),
event_handler,
chain_monitor.clone(),
// Regularly reconnect to channel peers.
let connect_cm = Arc::clone(&channel_manager);
let connect_pm = Arc::clone(&peer_manager);
- let peer_data_path = format!("{}/channel_peer_data", ldk_data_dir.clone());
+ let peer_data_path = format!("{}/channel_peer_data", ldk_data_dir);
let stop_connect = Arc::clone(&stop_listen_connect);
tokio::spawn(async move {
let mut interval = tokio::time::interval(Duration::from_secs(1));
Arc::clone(&logger),
Arc::clone(&persister),
Arc::clone(&bitcoind_client),
+ Arc::clone(&channel_manager),
));
// Start the CLI.
- cli::poll_for_user_input(
- Arc::clone(&peer_manager),
- Arc::clone(&channel_manager),
- Arc::clone(&keys_manager),
- Arc::clone(&network_graph),
- Arc::clone(&onion_messenger),
- inbound_payments,
- outbound_payments,
- ldk_data_dir,
- network,
- Arc::clone(&logger),
- Arc::clone(&persister),
- )
- .await;
+ let cli_channel_manager = Arc::clone(&channel_manager);
+ let cli_persister = Arc::clone(&persister);
+ let cli_logger = Arc::clone(&logger);
+ let cli_peer_manager = Arc::clone(&peer_manager);
+ let cli_poll = tokio::task::spawn_blocking(move || {
+ cli::poll_for_user_input(
+ cli_peer_manager,
+ cli_channel_manager,
+ keys_manager,
+ network_graph,
+ onion_messenger,
+ inbound_payments,
+ outbound_payments,
+ ldk_data_dir,
+ network,
+ cli_logger,
+ cli_persister,
+ )
+ });
+
+ // Exit if either CLI polling exits or the background processor exits (which shouldn't happen
+ // unless we fail to write to the filesystem).
+ let mut bg_res = Ok(Ok(()));
+ tokio::select! {
+ _ = cli_poll => {},
+ bg_exit = &mut background_processor => {
+ bg_res = bg_exit;
+ },
+ }
// Disconnect our peers and stop accepting new connections. This ensures we don't continue
// updating our channel data after we've stopped the background processor.
stop_listen_connect.store(true, Ordering::Release);
peer_manager.disconnect_all_peers();
+ if let Err(e) = bg_res {
+ let persist_res = persister
+ .write(
+ persist::CHANNEL_MANAGER_PERSISTENCE_PRIMARY_NAMESPACE,
+ persist::CHANNEL_MANAGER_PERSISTENCE_SECONDARY_NAMESPACE,
+ persist::CHANNEL_MANAGER_PERSISTENCE_KEY,
+ &channel_manager.encode(),
+ )
+ .unwrap();
+ use lightning::util::logger::Logger;
+ lightning::log_error!(
+ &*logger,
+ "Last-ditch ChannelManager persistence result: {:?}",
+ persist_res
+ );
+ panic!(
+ "ERR: background processing stopped with result {:?}, exiting.\n\
+ Last-ditch ChannelManager persistence result {:?}",
+ e, persist_res
+ );
+ }
+
// Stop the background processor.
- bp_exit.send(()).unwrap();
- background_processor.await.unwrap().unwrap();
+ if !bp_exit.is_closed() {
+ bp_exit.send(()).unwrap();
+ background_processor.await.unwrap().unwrap();
+ }
}
#[tokio::main]
projects / ldk-sample / blobdiff