-fn main() {
- println!("Hello, world!");
+pub mod bitcoind_client;
+mod cli;
+mod convert;
+mod disk;
+mod hex_utils;
+
+use crate::bitcoind_client::BitcoindClient;
+use crate::disk::FilesystemLogger;
+use bitcoin::blockdata::constants::genesis_block;
+use bitcoin::blockdata::transaction::Transaction;
+use bitcoin::consensus::encode;
+use bitcoin::hashes::sha256::Hash as Sha256;
+use bitcoin::hashes::Hash;
+use bitcoin::network::constants::Network;
+use bitcoin::secp256k1::Secp256k1;
+use bitcoin::BlockHash;
+use bitcoin_bech32::WitnessProgram;
+use lightning::chain;
+use lightning::chain::chaininterface::{BroadcasterInterface, ConfirmationTarget, FeeEstimator};
+use lightning::chain::chainmonitor;
+use lightning::chain::keysinterface::{InMemorySigner, KeysInterface, KeysManager};
+use lightning::chain::Filter;
+use lightning::chain::Watch;
+use lightning::ln::channelmanager;
+use lightning::ln::channelmanager::{
+ BestBlock, ChainParameters, ChannelManagerReadArgs, SimpleArcChannelManager,
+};
+use lightning::ln::peer_handler::{MessageHandler, SimpleArcPeerManager};
+use lightning::ln::{PaymentHash, PaymentPreimage, PaymentSecret};
+use lightning::routing::network_graph::NetGraphMsgHandler;
+use lightning::util::config::UserConfig;
+use lightning::util::events::{Event, EventsProvider};
+use lightning::util::ser::ReadableArgs;
+use lightning_background_processor::BackgroundProcessor;
+use lightning_block_sync::init;
+use lightning_block_sync::poll;
+use lightning_block_sync::SpvClient;
+use lightning_block_sync::UnboundedCache;
+use lightning_net_tokio::SocketDescriptor;
+use lightning_persister::FilesystemPersister;
+use rand::{thread_rng, Rng};
+use std::collections::hash_map::Entry;
+use std::collections::HashMap;
+use std::fmt;
+use std::fs;
+use std::fs::File;
+use std::io;
+use std::io::Write;
+use std::ops::Deref;
+use std::path::Path;
+use std::sync::{Arc, Mutex};
+use std::time::{Duration, SystemTime};
+use tokio::sync::mpsc;
+use tokio::sync::mpsc::Receiver;
+
+pub(crate) enum HTLCStatus {
+ Pending,
+ Succeeded,
+ Failed,
+}
+
+pub(crate) struct MillisatAmount(Option<u64>);
+
+impl fmt::Display for MillisatAmount {
+ fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
+ match self.0 {
+ Some(amt) => write!(f, "{}", amt),
+ None => write!(f, "unknown"),
+ }
+ }
+}
+
+pub(crate) struct PaymentInfo {
+ preimage: Option<PaymentPreimage>,
+ secret: Option<PaymentSecret>,
+ status: HTLCStatus,
+ amt_msat: MillisatAmount,
+}
+
+pub(crate) type PaymentInfoStorage = Arc<Mutex<HashMap<PaymentHash, PaymentInfo>>>;
+
+type ChainMonitor = chainmonitor::ChainMonitor<
+ InMemorySigner,
+ Arc<dyn Filter + Send + Sync>,
+ Arc<BitcoindClient>,
+ Arc<BitcoindClient>,
+ Arc<FilesystemLogger>,
+ Arc<FilesystemPersister>,
+>;
+
+pub(crate) type PeerManager = SimpleArcPeerManager<
+ SocketDescriptor,
+ ChainMonitor,
+ BitcoindClient,
+ BitcoindClient,
+ dyn chain::Access + Send + Sync,
+ FilesystemLogger,
+>;
+
+pub(crate) type ChannelManager =
+ SimpleArcChannelManager<ChainMonitor, BitcoindClient, BitcoindClient, FilesystemLogger>;
+
+async fn handle_ldk_events(
+ channel_manager: Arc<ChannelManager>, chain_monitor: Arc<ChainMonitor>,
+ bitcoind_client: Arc<BitcoindClient>, keys_manager: Arc<KeysManager>,
+ inbound_payments: PaymentInfoStorage, outbound_payments: PaymentInfoStorage, network: Network,
+ mut event_receiver: Receiver<()>,
+) {
+ loop {
+ let received = event_receiver.recv();
+ if received.await.is_none() {
+ println!("LDK Event channel closed!");
+ return;
+ }
+ let loop_channel_manager = channel_manager.clone();
+ let mut events = channel_manager.get_and_clear_pending_events();
+ events.append(&mut chain_monitor.get_and_clear_pending_events());
+ for event in events {
+ match event {
+ Event::FundingGenerationReady {
+ temporary_channel_id,
+ channel_value_satoshis,
+ output_script,
+ ..
+ } => {
+ // Construct the raw transaction with one output, that is paid the amount of the
+ // channel.
+ let addr = WitnessProgram::from_scriptpubkey(
+ &output_script[..],
+ match network {
+ Network::Bitcoin => bitcoin_bech32::constants::Network::Bitcoin,
+ Network::Testnet => bitcoin_bech32::constants::Network::Testnet,
+ Network::Regtest => bitcoin_bech32::constants::Network::Regtest,
+ Network::Signet => panic!("Signet unsupported"),
+ },
+ )
+ .expect("Lightning funding tx should always be to a SegWit output")
+ .to_address();
+ let mut outputs = vec![HashMap::with_capacity(1)];
+ outputs[0].insert(addr, channel_value_satoshis as f64 / 100_000_000.0);
+ let raw_tx = bitcoind_client.create_raw_transaction(outputs).await;
+
+ // Have your wallet put the inputs into the transaction such that the output is
+ // satisfied.
+ let funded_tx = bitcoind_client.fund_raw_transaction(raw_tx).await;
+ let change_output_position = funded_tx.changepos;
+ assert!(change_output_position == 0 || change_output_position == 1);
+
+ // Sign the final funding transaction and broadcast it.
+ let signed_tx =
+ bitcoind_client.sign_raw_transaction_with_wallet(funded_tx.hex).await;
+ assert_eq!(signed_tx.complete, true);
+ let final_tx: Transaction =
+ encode::deserialize(&hex_utils::to_vec(&signed_tx.hex).unwrap()).unwrap();
+ // Give the funding transaction back to LDK for opening the channel.
+ loop_channel_manager
+ .funding_transaction_generated(&temporary_channel_id, final_tx)
+ .unwrap();
+ }
+ Event::PaymentReceived {
+ payment_hash,
+ payment_preimage,
+ payment_secret,
+ amt,
+ ..
+ } => {
+ let mut payments = inbound_payments.lock().unwrap();
+ let status = match loop_channel_manager.claim_funds(payment_preimage.unwrap()) {
+ true => {
+ println!(
+ "\nEVENT: received payment from payment hash {} of {} millisatoshis",
+ hex_utils::hex_str(&payment_hash.0),
+ amt
+ );
+ print!("> ");
+ io::stdout().flush().unwrap();
+ HTLCStatus::Succeeded
+ }
+ _ => HTLCStatus::Failed,
+ };
+ match payments.entry(payment_hash) {
+ Entry::Occupied(mut e) => {
+ let payment = e.get_mut();
+ payment.status = status;
+ payment.preimage = Some(payment_preimage.unwrap());
+ payment.secret = Some(payment_secret);
+ }
+ Entry::Vacant(e) => {
+ e.insert(PaymentInfo {
+ preimage: Some(payment_preimage.unwrap()),
+ secret: Some(payment_secret),
+ status,
+ amt_msat: MillisatAmount(Some(amt)),
+ });
+ }
+ }
+ }
+ Event::PaymentSent { payment_preimage } => {
+ let hashed = PaymentHash(Sha256::hash(&payment_preimage.0).into_inner());
+ let mut payments = outbound_payments.lock().unwrap();
+ for (payment_hash, payment) in payments.iter_mut() {
+ if *payment_hash == hashed {
+ payment.preimage = Some(payment_preimage);
+ payment.status = HTLCStatus::Succeeded;
+ println!(
+ "\nEVENT: successfully sent payment of {} millisatoshis from \
+ payment hash {:?} with preimage {:?}",
+ payment.amt_msat,
+ hex_utils::hex_str(&payment_hash.0),
+ hex_utils::hex_str(&payment_preimage.0)
+ );
+ print!("> ");
+ io::stdout().flush().unwrap();
+ }
+ }
+ }
+ Event::PaymentFailed { payment_hash, rejected_by_dest } => {
+ print!(
+ "\nEVENT: Failed to send payment to payment hash {:?}: ",
+ hex_utils::hex_str(&payment_hash.0)
+ );
+ if rejected_by_dest {
+ println!("rejected by destination node");
+ } else {
+ println!("route failed");
+ }
+ print!("> ");
+ io::stdout().flush().unwrap();
+
+ let mut payments = outbound_payments.lock().unwrap();
+ if payments.contains_key(&payment_hash) {
+ let payment = payments.get_mut(&payment_hash).unwrap();
+ payment.status = HTLCStatus::Failed;
+ }
+ }
+ Event::PendingHTLCsForwardable { time_forwardable } => {
+ let forwarding_channel_manager = loop_channel_manager.clone();
+ tokio::spawn(async move {
+ let min = time_forwardable.as_millis() as u64;
+ let millis_to_sleep = thread_rng().gen_range(min, min * 5) as u64;
+ tokio::time::sleep(Duration::from_millis(millis_to_sleep)).await;
+ forwarding_channel_manager.process_pending_htlc_forwards();
+ });
+ }
+ Event::SpendableOutputs { outputs } => {
+ let destination_address = bitcoind_client.get_new_address().await;
+ let output_descriptors = &outputs.iter().map(|a| a).collect::<Vec<_>>();
+ let tx_feerate =
+ bitcoind_client.get_est_sat_per_1000_weight(ConfirmationTarget::Normal);
+ let spending_tx = keys_manager
+ .spend_spendable_outputs(
+ output_descriptors,
+ Vec::new(),
+ destination_address.script_pubkey(),
+ tx_feerate,
+ &Secp256k1::new(),
+ )
+ .unwrap();
+ bitcoind_client.broadcast_transaction(&spending_tx);
+ }
+ }
+ }
+ tokio::time::sleep(Duration::from_secs(1)).await;
+ }
+}
+
+async fn start_ldk() {
+ let args = match cli::parse_startup_args() {
+ Ok(user_args) => user_args,
+ Err(()) => return,
+ };
+
+ // Initialize the LDK data directory if necessary.
+ let ldk_data_dir = format!("{}/.ldk", args.ldk_storage_dir_path);
+ fs::create_dir_all(ldk_data_dir.clone()).unwrap();
+
+ // Initialize our bitcoind client.
+ let bitcoind_client = match BitcoindClient::new(
+ args.bitcoind_rpc_host.clone(),
+ args.bitcoind_rpc_port,
+ args.bitcoind_rpc_username.clone(),
+ args.bitcoind_rpc_password.clone(),
+ )
+ .await
+ {
+ Ok(client) => Arc::new(client),
+ Err(e) => {
+ println!("Failed to connect to bitcoind client: {}", e);
+ return;
+ }
+ };
+
+ // Check that the bitcoind we've connected to is running the network we expect
+ let bitcoind_chain = bitcoind_client.get_blockchain_info().await.chain;
+ if bitcoind_chain
+ != match args.network {
+ bitcoin::Network::Bitcoin => "main",
+ bitcoin::Network::Testnet => "test",
+ bitcoin::Network::Regtest => "regtest",
+ bitcoin::Network::Signet => "signet",
+ } {
+ println!(
+ "Chain argument ({}) didn't match bitcoind chain ({})",
+ args.network, bitcoind_chain
+ );
+ return;
+ }
+
+ // ## Setup
+ // Step 1: Initialize the FeeEstimator
+
+ // BitcoindClient implements the FeeEstimator trait, so it'll act as our fee estimator.
+ let fee_estimator = bitcoind_client.clone();
+
+ // Step 2: Initialize the Logger
+ let logger = Arc::new(FilesystemLogger::new(ldk_data_dir.clone()));
+
+ // Step 3: Initialize the BroadcasterInterface
+
+ // BitcoindClient implements the BroadcasterInterface trait, so it'll act as our transaction
+ // 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
+
+ // The key seed that we use to derive the node privkey (that corresponds to the node pubkey) and
+ // other secret key material.
+ let keys_seed_path = format!("{}/keys_seed", ldk_data_dir.clone());
+ let keys_seed = if let Ok(seed) = fs::read(keys_seed_path.clone()) {
+ assert_eq!(seed.len(), 32);
+ let mut key = [0; 32];
+ key.copy_from_slice(&seed);
+ key
+ } else {
+ let mut key = [0; 32];
+ thread_rng().fill_bytes(&mut key);
+ match File::create(keys_seed_path.clone()) {
+ Ok(mut f) => {
+ f.write_all(&key).expect("Failed to write node keys seed to disk");
+ f.sync_all().expect("Failed to sync node keys seed to disk");
+ }
+ Err(e) => {
+ println!("ERROR: Unable to create keys seed file {}: {}", keys_seed_path, e);
+ return;
+ }
+ }
+ key
+ };
+ 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()));
+
+ // Step 7: Read ChannelMonitor state from disk
+ let mut channelmonitors = persister.read_channelmonitors(keys_manager.clone()).unwrap();
+
+ // Step 8: Initialize the ChannelManager
+ let user_config = UserConfig::default();
+ let mut restarting_node = true;
+ let (channel_manager_blockhash, mut channel_manager) = {
+ if let Ok(mut f) = fs::File::open(format!("{}/manager", ldk_data_dir.clone())) {
+ let mut channel_monitor_mut_references = Vec::new();
+ for (_, channel_monitor) in channelmonitors.iter_mut() {
+ channel_monitor_mut_references.push(channel_monitor);
+ }
+ let read_args = ChannelManagerReadArgs::new(
+ keys_manager.clone(),
+ fee_estimator.clone(),
+ chain_monitor.clone(),
+ broadcaster.clone(),
+ logger.clone(),
+ user_config,
+ channel_monitor_mut_references,
+ );
+ <(BlockHash, ChannelManager)>::read(&mut f, read_args).unwrap()
+ } else {
+ // We're starting a fresh node.
+ restarting_node = false;
+ let getinfo_resp = bitcoind_client.get_blockchain_info().await;
+
+ let chain_params = ChainParameters {
+ network: args.network,
+ best_block: BestBlock::new(
+ getinfo_resp.latest_blockhash,
+ getinfo_resp.latest_height as u32,
+ ),
+ };
+ let fresh_channel_manager = channelmanager::ChannelManager::new(
+ fee_estimator.clone(),
+ chain_monitor.clone(),
+ broadcaster.clone(),
+ logger.clone(),
+ keys_manager.clone(),
+ user_config,
+ chain_params,
+ );
+ (getinfo_resp.latest_blockhash, fresh_channel_manager)
+ }
+ };
+
+ // Step 9: Sync ChannelMonitors and ChannelManager to chain tip
+ let mut chain_listener_channel_monitors = Vec::new();
+ let mut cache = UnboundedCache::new();
+ let mut chain_tip: Option<poll::ValidatedBlockHeader> = None;
+ if restarting_node {
+ let mut chain_listeners =
+ vec![(channel_manager_blockhash, &mut channel_manager as &mut dyn chain::Listen)];
+
+ for (blockhash, channel_monitor) in channelmonitors.drain(..) {
+ let outpoint = channel_monitor.get_funding_txo().0;
+ chain_listener_channel_monitors.push((
+ blockhash,
+ (channel_monitor, broadcaster.clone(), fee_estimator.clone(), logger.clone()),
+ outpoint,
+ ));
+ }
+
+ for monitor_listener_info in chain_listener_channel_monitors.iter_mut() {
+ chain_listeners.push((
+ monitor_listener_info.0,
+ &mut monitor_listener_info.1 as &mut dyn chain::Listen,
+ ));
+ }
+ chain_tip = Some(
+ init::synchronize_listeners(
+ &mut bitcoind_client.deref(),
+ args.network,
+ &mut cache,
+ chain_listeners,
+ )
+ .await
+ .unwrap(),
+ );
+ }
+
+ // Step 10: Give ChannelMonitors to ChainMonitor
+ for item in chain_listener_channel_monitors.drain(..) {
+ let channel_monitor = item.1 .0;
+ let funding_outpoint = item.2;
+ chain_monitor.watch_channel(funding_outpoint, channel_monitor).unwrap();
+ }
+
+ // Step 11: Optional: Initialize the NetGraphMsgHandler
+ // XXX persist routing data
+ let genesis = genesis_block(args.network).header.block_hash();
+ let router = Arc::new(NetGraphMsgHandler::new(
+ genesis,
+ None::<Arc<dyn chain::Access + Send + Sync>>,
+ logger.clone(),
+ ));
+
+ // Step 12: Initialize the PeerManager
+ let channel_manager: Arc<ChannelManager> = Arc::new(channel_manager);
+ let mut ephemeral_bytes = [0; 32];
+ rand::thread_rng().fill_bytes(&mut ephemeral_bytes);
+ let lightning_msg_handler =
+ MessageHandler { chan_handler: channel_manager.clone(), route_handler: router.clone() };
+ let peer_manager: Arc<PeerManager> = Arc::new(PeerManager::new(
+ lightning_msg_handler,
+ keys_manager.get_node_secret(),
+ &ephemeral_bytes,
+ logger.clone(),
+ ));
+
+ // ## Running LDK
+ // Step 13: Initialize networking
+
+ // We poll for events in handle_ldk_events(..) rather than waiting for them over the
+ // mpsc::channel, so we can leave the event receiver as unused.
+ let (event_ntfn_sender, event_ntfn_receiver) = mpsc::channel(2);
+ let peer_manager_connection_handler = peer_manager.clone();
+ let event_notifier = event_ntfn_sender.clone();
+ let listening_port = args.ldk_peer_listening_port;
+ tokio::spawn(async move {
+ let listener = tokio::net::TcpListener::bind(format!("0.0.0.0:{}", listening_port))
+ .await
+ .expect("Failed to bind to listen port - is something else already listening on it?");
+ loop {
+ let peer_mgr = peer_manager_connection_handler.clone();
+ let notifier = event_notifier.clone();
+ let tcp_stream = listener.accept().await.unwrap().0;
+ tokio::spawn(async move {
+ lightning_net_tokio::setup_inbound(
+ peer_mgr.clone(),
+ notifier.clone(),
+ tcp_stream.into_std().unwrap(),
+ )
+ .await;
+ });
+ }
+ });
+
+ // Step 14: Connect and Disconnect Blocks
+ if chain_tip.is_none() {
+ chain_tip =
+ Some(init::validate_best_block_header(&mut bitcoind_client.deref()).await.unwrap());
+ }
+ let channel_manager_listener = channel_manager.clone();
+ let chain_monitor_listener = chain_monitor.clone();
+ let bitcoind_block_source = bitcoind_client.clone();
+ let network = args.network;
+ tokio::spawn(async move {
+ let mut derefed = bitcoind_block_source.deref();
+ let chain_poller = poll::ChainPoller::new(&mut derefed, network);
+ let chain_listener = (chain_monitor_listener, channel_manager_listener);
+ let mut spv_client =
+ SpvClient::new(chain_tip.unwrap(), chain_poller, &mut cache, &chain_listener);
+ loop {
+ spv_client.poll_best_tip().await.unwrap();
+ tokio::time::sleep(Duration::from_secs(1)).await;
+ }
+ });
+
+ // Step 15: Initialize LDK Event Handling
+ let channel_manager_event_listener = channel_manager.clone();
+ let chain_monitor_event_listener = chain_monitor.clone();
+ let keys_manager_listener = keys_manager.clone();
+ // TODO: persist payment info to disk
+ let inbound_payments: PaymentInfoStorage = Arc::new(Mutex::new(HashMap::new()));
+ let outbound_payments: PaymentInfoStorage = Arc::new(Mutex::new(HashMap::new()));
+ let inbound_pmts_for_events = inbound_payments.clone();
+ let outbound_pmts_for_events = outbound_payments.clone();
+ let network = args.network;
+ let bitcoind_rpc = bitcoind_client.clone();
+ tokio::spawn(async move {
+ handle_ldk_events(
+ channel_manager_event_listener,
+ chain_monitor_event_listener,
+ bitcoind_rpc,
+ keys_manager_listener,
+ inbound_pmts_for_events,
+ outbound_pmts_for_events,
+ network,
+ event_ntfn_receiver,
+ )
+ .await;
+ });
+
+ // Step 16 & 17: Persist ChannelManager & Background Processing
+ let data_dir = ldk_data_dir.clone();
+ let persist_channel_manager_callback =
+ move |node: &ChannelManager| FilesystemPersister::persist_manager(data_dir.clone(), &*node);
+ BackgroundProcessor::start(
+ persist_channel_manager_callback,
+ channel_manager.clone(),
+ peer_manager.clone(),
+ logger.clone(),
+ );
+
+ // Reconnect to channel peers if possible.
+ let peer_data_path = format!("{}/channel_peer_data", ldk_data_dir.clone());
+ match disk::read_channel_peer_data(Path::new(&peer_data_path)) {
+ Ok(mut info) => {
+ for (pubkey, peer_addr) in info.drain() {
+ for chan_info in channel_manager.list_channels() {
+ if pubkey == chan_info.remote_network_id {
+ let _ = cli::connect_peer_if_necessary(
+ pubkey,
+ peer_addr,
+ peer_manager.clone(),
+ event_ntfn_sender.clone(),
+ );
+ }
+ }
+ }
+ }
+ Err(e) => println!("ERROR: errored reading channel peer info from disk: {:?}", e),
+ }
+
+ // Start the CLI.
+ cli::poll_for_user_input(
+ peer_manager.clone(),
+ channel_manager.clone(),
+ keys_manager.clone(),
+ router.clone(),
+ inbound_payments,
+ outbound_payments,
+ event_ntfn_sender,
+ ldk_data_dir.clone(),
+ logger.clone(),
+ args.network,
+ )
+ .await;
+}
+
+#[tokio::main]
+pub async fn main() {
+ start_ldk().await;
}