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Use an explicit handle when spawning RPC calls
[ldk-sample] / src / main.rs
1 pub mod bitcoind_client;
2 mod cli;
3 mod convert;
4 mod disk;
5 mod hex_utils;
6
7 use crate::bitcoind_client::BitcoindClient;
8 use crate::disk::FilesystemLogger;
9 use bitcoin::blockdata::constants::genesis_block;
10 use bitcoin::blockdata::transaction::Transaction;
11 use bitcoin::consensus::encode;
12 use bitcoin::hashes::sha256::Hash as Sha256;
13 use bitcoin::hashes::Hash;
14 use bitcoin::network::constants::Network;
15 use bitcoin::secp256k1::Secp256k1;
16 use bitcoin::BlockHash;
17 use bitcoin_bech32::WitnessProgram;
18 use lightning::chain;
19 use lightning::chain::chaininterface::{BroadcasterInterface, ConfirmationTarget, FeeEstimator};
20 use lightning::chain::chainmonitor;
21 use lightning::chain::keysinterface::{InMemorySigner, KeysInterface, KeysManager};
22 use lightning::chain::{BestBlock, Filter, Watch};
23 use lightning::ln::channelmanager;
24 use lightning::ln::channelmanager::{
25         ChainParameters, ChannelManagerReadArgs, SimpleArcChannelManager,
26 };
27 use lightning::ln::peer_handler::{IgnoringMessageHandler, MessageHandler, SimpleArcPeerManager};
28 use lightning::ln::{PaymentHash, PaymentPreimage, PaymentSecret};
29 use lightning::routing::network_graph::NetGraphMsgHandler;
30 use lightning::util::config::UserConfig;
31 use lightning::util::events::{Event, PaymentPurpose};
32 use lightning::util::ser::ReadableArgs;
33 use lightning_background_processor::BackgroundProcessor;
34 use lightning_block_sync::init;
35 use lightning_block_sync::poll;
36 use lightning_block_sync::SpvClient;
37 use lightning_block_sync::UnboundedCache;
38 use lightning_net_tokio::SocketDescriptor;
39 use lightning_persister::FilesystemPersister;
40 use rand::{thread_rng, Rng};
41 use std::collections::hash_map::Entry;
42 use std::collections::HashMap;
43 use std::fmt;
44 use std::fs;
45 use std::fs::File;
46 use std::io;
47 use std::io::Write;
48 use std::ops::Deref;
49 use std::path::Path;
50 use std::sync::{Arc, Mutex};
51 use std::time::{Duration, SystemTime};
52
53 pub(crate) enum HTLCStatus {
54         Pending,
55         Succeeded,
56         Failed,
57 }
58
59 pub(crate) struct MillisatAmount(Option<u64>);
60
61 impl fmt::Display for MillisatAmount {
62         fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
63                 match self.0 {
64                         Some(amt) => write!(f, "{}", amt),
65                         None => write!(f, "unknown"),
66                 }
67         }
68 }
69
70 pub(crate) struct PaymentInfo {
71         preimage: Option<PaymentPreimage>,
72         secret: Option<PaymentSecret>,
73         status: HTLCStatus,
74         amt_msat: MillisatAmount,
75 }
76
77 pub(crate) type PaymentInfoStorage = Arc<Mutex<HashMap<PaymentHash, PaymentInfo>>>;
78
79 type ChainMonitor = chainmonitor::ChainMonitor<
80         InMemorySigner,
81         Arc<dyn Filter + Send + Sync>,
82         Arc<BitcoindClient>,
83         Arc<BitcoindClient>,
84         Arc<FilesystemLogger>,
85         Arc<FilesystemPersister>,
86 >;
87
88 pub(crate) type PeerManager = SimpleArcPeerManager<
89         SocketDescriptor,
90         ChainMonitor,
91         BitcoindClient,
92         BitcoindClient,
93         dyn chain::Access + Send + Sync,
94         FilesystemLogger,
95 >;
96
97 pub(crate) type ChannelManager =
98         SimpleArcChannelManager<ChainMonitor, BitcoindClient, BitcoindClient, FilesystemLogger>;
99
100 async fn handle_ldk_events(
101         channel_manager: Arc<ChannelManager>, bitcoind_client: Arc<BitcoindClient>,
102         keys_manager: Arc<KeysManager>, inbound_payments: PaymentInfoStorage,
103         outbound_payments: PaymentInfoStorage, network: Network, event: &Event,
104 ) {
105         match event {
106                 Event::FundingGenerationReady {
107                         temporary_channel_id,
108                         channel_value_satoshis,
109                         output_script,
110                         ..
111                 } => {
112                         // Construct the raw transaction with one output, that is paid the amount of the
113                         // channel.
114                         let addr = WitnessProgram::from_scriptpubkey(
115                                 &output_script[..],
116                                 match network {
117                                         Network::Bitcoin => bitcoin_bech32::constants::Network::Bitcoin,
118                                         Network::Testnet => bitcoin_bech32::constants::Network::Testnet,
119                                         Network::Regtest => bitcoin_bech32::constants::Network::Regtest,
120                                         Network::Signet => panic!("Signet unsupported"),
121                                 },
122                         )
123                         .expect("Lightning funding tx should always be to a SegWit output")
124                         .to_address();
125                         let mut outputs = vec![HashMap::with_capacity(1)];
126                         outputs[0].insert(addr, *channel_value_satoshis as f64 / 100_000_000.0);
127                         let raw_tx = bitcoind_client.create_raw_transaction(outputs).await;
128
129                         // Have your wallet put the inputs into the transaction such that the output is
130                         // satisfied.
131                         let funded_tx = bitcoind_client.fund_raw_transaction(raw_tx).await;
132
133                         // Sign the final funding transaction and broadcast it.
134                         let signed_tx = bitcoind_client.sign_raw_transaction_with_wallet(funded_tx.hex).await;
135                         assert_eq!(signed_tx.complete, true);
136                         let final_tx: Transaction =
137                                 encode::deserialize(&hex_utils::to_vec(&signed_tx.hex).unwrap()).unwrap();
138                         // Give the funding transaction back to LDK for opening the channel.
139                         if channel_manager
140                                 .funding_transaction_generated(&temporary_channel_id, final_tx)
141                                 .is_err()
142                         {
143                                 println!(
144                                         "\nERROR: Channel went away before we could fund it. The peer disconnected or refused the channel.");
145                                 print!("> ");
146                                 io::stdout().flush().unwrap();
147                         }
148                 }
149                 Event::PaymentReceived { payment_hash, purpose, amt, .. } => {
150                         let mut payments = inbound_payments.lock().unwrap();
151                         let (payment_preimage, payment_secret) = match purpose {
152                                 PaymentPurpose::InvoicePayment { payment_preimage, payment_secret, .. } => {
153                                         (*payment_preimage, Some(*payment_secret))
154                                 }
155                                 PaymentPurpose::SpontaneousPayment(preimage) => (Some(*preimage), None),
156                         };
157                         let status = match channel_manager.claim_funds(payment_preimage.unwrap()) {
158                                 true => {
159                                         println!(
160                                                 "\nEVENT: received payment from payment hash {} of {} millisatoshis",
161                                                 hex_utils::hex_str(&payment_hash.0),
162                                                 amt
163                                         );
164                                         print!("> ");
165                                         io::stdout().flush().unwrap();
166                                         HTLCStatus::Succeeded
167                                 }
168                                 _ => HTLCStatus::Failed,
169                         };
170                         match payments.entry(*payment_hash) {
171                                 Entry::Occupied(mut e) => {
172                                         let payment = e.get_mut();
173                                         payment.status = status;
174                                         payment.preimage = payment_preimage;
175                                         payment.secret = payment_secret;
176                                 }
177                                 Entry::Vacant(e) => {
178                                         e.insert(PaymentInfo {
179                                                 preimage: payment_preimage,
180                                                 secret: payment_secret,
181                                                 status,
182                                                 amt_msat: MillisatAmount(Some(*amt)),
183                                         });
184                                 }
185                         }
186                 }
187                 Event::PaymentSent { payment_preimage } => {
188                         let hashed = PaymentHash(Sha256::hash(&payment_preimage.0).into_inner());
189                         let mut payments = outbound_payments.lock().unwrap();
190                         for (payment_hash, payment) in payments.iter_mut() {
191                                 if *payment_hash == hashed {
192                                         payment.preimage = Some(*payment_preimage);
193                                         payment.status = HTLCStatus::Succeeded;
194                                         println!(
195                                                 "\nEVENT: successfully sent payment of {} millisatoshis from \
196                                                                  payment hash {:?} with preimage {:?}",
197                                                 payment.amt_msat,
198                                                 hex_utils::hex_str(&payment_hash.0),
199                                                 hex_utils::hex_str(&payment_preimage.0)
200                                         );
201                                         print!("> ");
202                                         io::stdout().flush().unwrap();
203                                 }
204                         }
205                 }
206                 Event::PaymentPathFailed {
207                         payment_hash,
208                         rejected_by_dest,
209                         network_update: _,
210                         all_paths_failed,
211                         path: _,
212                 } => {
213                         print!(
214                                 "\nEVENT: Failed to send payment{} to payment hash {:?}: ",
215                                 if *all_paths_failed { "" } else { " along MPP path" },
216                                 hex_utils::hex_str(&payment_hash.0)
217                         );
218                         if *rejected_by_dest {
219                                 println!("re-attempting the payment will not succeed");
220                         } else {
221                                 println!("payment may be retried");
222                         }
223                         print!("> ");
224                         io::stdout().flush().unwrap();
225
226                         let mut payments = outbound_payments.lock().unwrap();
227                         if payments.contains_key(&payment_hash) {
228                                 let payment = payments.get_mut(&payment_hash).unwrap();
229                                 payment.status = HTLCStatus::Failed;
230                         }
231                 }
232                 Event::PaymentForwarded { fee_earned_msat, claim_from_onchain_tx } => {
233                         let from_onchain_str = if *claim_from_onchain_tx {
234                                 "from onchain downstream claim"
235                         } else {
236                                 "from HTLC fulfill message"
237                         };
238                         if let Some(fee_earned) = fee_earned_msat {
239                                 println!(
240                                         "\nEVENT: Forwarded payment, earning {} msat {}",
241                                         fee_earned, from_onchain_str
242                                 );
243                         } else {
244                                 println!("\nEVENT: Forwarded payment, claiming onchain {}", from_onchain_str);
245                         }
246                         print!("> ");
247                         io::stdout().flush().unwrap();
248                 }
249                 Event::PendingHTLCsForwardable { time_forwardable } => {
250                         let forwarding_channel_manager = channel_manager.clone();
251                         let min = time_forwardable.as_millis() as u64;
252                         tokio::spawn(async move {
253                                 let millis_to_sleep = thread_rng().gen_range(min, min * 5) as u64;
254                                 tokio::time::sleep(Duration::from_millis(millis_to_sleep)).await;
255                                 forwarding_channel_manager.process_pending_htlc_forwards();
256                         });
257                 }
258                 Event::SpendableOutputs { outputs } => {
259                         let destination_address = bitcoind_client.get_new_address().await;
260                         let output_descriptors = &outputs.iter().map(|a| a).collect::<Vec<_>>();
261                         let tx_feerate =
262                                 bitcoind_client.get_est_sat_per_1000_weight(ConfirmationTarget::Normal);
263                         let spending_tx = keys_manager
264                                 .spend_spendable_outputs(
265                                         output_descriptors,
266                                         Vec::new(),
267                                         destination_address.script_pubkey(),
268                                         tx_feerate,
269                                         &Secp256k1::new(),
270                                 )
271                                 .unwrap();
272                         bitcoind_client.broadcast_transaction(&spending_tx);
273                 }
274                 Event::ChannelClosed { channel_id, reason } => {
275                         println!(
276                                 "\nEVENT: Channel {} closed due to: {:?}",
277                                 hex_utils::hex_str(channel_id),
278                                 reason
279                         );
280                         print!("> ");
281                         io::stdout().flush().unwrap();
282                 }
283         }
284 }
285
286 async fn start_ldk() {
287         let args = match cli::parse_startup_args() {
288                 Ok(user_args) => user_args,
289                 Err(()) => return,
290         };
291
292         // Initialize the LDK data directory if necessary.
293         let ldk_data_dir = format!("{}/.ldk", args.ldk_storage_dir_path);
294         fs::create_dir_all(ldk_data_dir.clone()).unwrap();
295
296         // Initialize our bitcoind client.
297         let bitcoind_client = match BitcoindClient::new(
298                 args.bitcoind_rpc_host.clone(),
299                 args.bitcoind_rpc_port,
300                 args.bitcoind_rpc_username.clone(),
301                 args.bitcoind_rpc_password.clone(),
302                 tokio::runtime::Handle::current(),
303         )
304         .await
305         {
306                 Ok(client) => Arc::new(client),
307                 Err(e) => {
308                         println!("Failed to connect to bitcoind client: {}", e);
309                         return;
310                 }
311         };
312
313         // Check that the bitcoind we've connected to is running the network we expect
314         let bitcoind_chain = bitcoind_client.get_blockchain_info().await.chain;
315         if bitcoind_chain
316                 != match args.network {
317                         bitcoin::Network::Bitcoin => "main",
318                         bitcoin::Network::Testnet => "test",
319                         bitcoin::Network::Regtest => "regtest",
320                         bitcoin::Network::Signet => "signet",
321                 } {
322                 println!(
323                         "Chain argument ({}) didn't match bitcoind chain ({})",
324                         args.network, bitcoind_chain
325                 );
326                 return;
327         }
328
329         // ## Setup
330         // Step 1: Initialize the FeeEstimator
331
332         // BitcoindClient implements the FeeEstimator trait, so it'll act as our fee estimator.
333         let fee_estimator = bitcoind_client.clone();
334
335         // Step 2: Initialize the Logger
336         let logger = Arc::new(FilesystemLogger::new(ldk_data_dir.clone()));
337
338         // Step 3: Initialize the BroadcasterInterface
339
340         // BitcoindClient implements the BroadcasterInterface trait, so it'll act as our transaction
341         // broadcaster.
342         let broadcaster = bitcoind_client.clone();
343
344         // Step 4: Initialize Persist
345         let persister = Arc::new(FilesystemPersister::new(ldk_data_dir.clone()));
346
347         // Step 5: Initialize the ChainMonitor
348         let chain_monitor: Arc<ChainMonitor> = Arc::new(chainmonitor::ChainMonitor::new(
349                 None,
350                 broadcaster.clone(),
351                 logger.clone(),
352                 fee_estimator.clone(),
353                 persister.clone(),
354         ));
355
356         // Step 6: Initialize the KeysManager
357
358         // The key seed that we use to derive the node privkey (that corresponds to the node pubkey) and
359         // other secret key material.
360         let keys_seed_path = format!("{}/keys_seed", ldk_data_dir.clone());
361         let keys_seed = if let Ok(seed) = fs::read(keys_seed_path.clone()) {
362                 assert_eq!(seed.len(), 32);
363                 let mut key = [0; 32];
364                 key.copy_from_slice(&seed);
365                 key
366         } else {
367                 let mut key = [0; 32];
368                 thread_rng().fill_bytes(&mut key);
369                 match File::create(keys_seed_path.clone()) {
370                         Ok(mut f) => {
371                                 f.write_all(&key).expect("Failed to write node keys seed to disk");
372                                 f.sync_all().expect("Failed to sync node keys seed to disk");
373                         }
374                         Err(e) => {
375                                 println!("ERROR: Unable to create keys seed file {}: {}", keys_seed_path, e);
376                                 return;
377                         }
378                 }
379                 key
380         };
381         let cur = SystemTime::now().duration_since(SystemTime::UNIX_EPOCH).unwrap();
382         let keys_manager = Arc::new(KeysManager::new(&keys_seed, cur.as_secs(), cur.subsec_nanos()));
383
384         // Step 7: Read ChannelMonitor state from disk
385         let mut channelmonitors = persister.read_channelmonitors(keys_manager.clone()).unwrap();
386
387         // Step 8: Initialize the ChannelManager
388         let mut user_config = UserConfig::default();
389         user_config.peer_channel_config_limits.force_announced_channel_preference = false;
390         let mut restarting_node = true;
391         let (channel_manager_blockhash, mut channel_manager) = {
392                 if let Ok(mut f) = fs::File::open(format!("{}/manager", ldk_data_dir.clone())) {
393                         let mut channel_monitor_mut_references = Vec::new();
394                         for (_, channel_monitor) in channelmonitors.iter_mut() {
395                                 channel_monitor_mut_references.push(channel_monitor);
396                         }
397                         let read_args = ChannelManagerReadArgs::new(
398                                 keys_manager.clone(),
399                                 fee_estimator.clone(),
400                                 chain_monitor.clone(),
401                                 broadcaster.clone(),
402                                 logger.clone(),
403                                 user_config,
404                                 channel_monitor_mut_references,
405                         );
406                         <(BlockHash, ChannelManager)>::read(&mut f, read_args).unwrap()
407                 } else {
408                         // We're starting a fresh node.
409                         restarting_node = false;
410                         let getinfo_resp = bitcoind_client.get_blockchain_info().await;
411
412                         let chain_params = ChainParameters {
413                                 network: args.network,
414                                 best_block: BestBlock::new(
415                                         getinfo_resp.latest_blockhash,
416                                         getinfo_resp.latest_height as u32,
417                                 ),
418                         };
419                         let fresh_channel_manager = channelmanager::ChannelManager::new(
420                                 fee_estimator.clone(),
421                                 chain_monitor.clone(),
422                                 broadcaster.clone(),
423                                 logger.clone(),
424                                 keys_manager.clone(),
425                                 user_config,
426                                 chain_params,
427                         );
428                         (getinfo_resp.latest_blockhash, fresh_channel_manager)
429                 }
430         };
431
432         // Step 9: Sync ChannelMonitors and ChannelManager to chain tip
433         let mut chain_listener_channel_monitors = Vec::new();
434         let mut cache = UnboundedCache::new();
435         let mut chain_tip: Option<poll::ValidatedBlockHeader> = None;
436         if restarting_node {
437                 let mut chain_listeners =
438                         vec![(channel_manager_blockhash, &mut channel_manager as &mut dyn chain::Listen)];
439
440                 for (blockhash, channel_monitor) in channelmonitors.drain(..) {
441                         let outpoint = channel_monitor.get_funding_txo().0;
442                         chain_listener_channel_monitors.push((
443                                 blockhash,
444                                 (channel_monitor, broadcaster.clone(), fee_estimator.clone(), logger.clone()),
445                                 outpoint,
446                         ));
447                 }
448
449                 for monitor_listener_info in chain_listener_channel_monitors.iter_mut() {
450                         chain_listeners.push((
451                                 monitor_listener_info.0,
452                                 &mut monitor_listener_info.1 as &mut dyn chain::Listen,
453                         ));
454                 }
455                 chain_tip = Some(
456                         init::synchronize_listeners(
457                                 &mut bitcoind_client.deref(),
458                                 args.network,
459                                 &mut cache,
460                                 chain_listeners,
461                         )
462                         .await
463                         .unwrap(),
464                 );
465         }
466
467         // Step 10: Give ChannelMonitors to ChainMonitor
468         for item in chain_listener_channel_monitors.drain(..) {
469                 let channel_monitor = item.1 .0;
470                 let funding_outpoint = item.2;
471                 chain_monitor.watch_channel(funding_outpoint, channel_monitor).unwrap();
472         }
473
474         // Step 11: Optional: Initialize the NetGraphMsgHandler
475         let genesis = genesis_block(args.network).header.block_hash();
476         let network_graph_path = format!("{}/network_graph", ldk_data_dir.clone());
477         let network_graph = disk::read_network(Path::new(&network_graph_path), genesis);
478         let router = Arc::new(NetGraphMsgHandler::new(
479                 network_graph,
480                 None::<Arc<dyn chain::Access + Send + Sync>>,
481                 logger.clone(),
482         ));
483         let router_persist = Arc::clone(&router);
484         tokio::spawn(async move {
485                 let mut interval = tokio::time::interval(Duration::from_secs(600));
486                 loop {
487                         interval.tick().await;
488                         if disk::persist_network(Path::new(&network_graph_path), &router_persist.network_graph)
489                                 .is_err()
490                         {
491                                 // Persistence errors here are non-fatal as we can just fetch the routing graph
492                                 // again later, but they may indicate a disk error which could be fatal elsewhere.
493                                 eprintln!(
494                                         "Warning: Failed to persist network graph, check your disk and permissions"
495                                 );
496                         }
497                 }
498         });
499
500         // Step 12: Initialize the PeerManager
501         let channel_manager: Arc<ChannelManager> = Arc::new(channel_manager);
502         let mut ephemeral_bytes = [0; 32];
503         rand::thread_rng().fill_bytes(&mut ephemeral_bytes);
504         let lightning_msg_handler =
505                 MessageHandler { chan_handler: channel_manager.clone(), route_handler: router.clone() };
506         let peer_manager: Arc<PeerManager> = Arc::new(PeerManager::new(
507                 lightning_msg_handler,
508                 keys_manager.get_node_secret(),
509                 &ephemeral_bytes,
510                 logger.clone(),
511                 Arc::new(IgnoringMessageHandler {}),
512         ));
513
514         // ## Running LDK
515         // Step 13: Initialize networking
516
517         let peer_manager_connection_handler = peer_manager.clone();
518         let listening_port = args.ldk_peer_listening_port;
519         tokio::spawn(async move {
520                 let listener = tokio::net::TcpListener::bind(format!("0.0.0.0:{}", listening_port))
521                         .await
522                         .expect("Failed to bind to listen port - is something else already listening on it?");
523                 loop {
524                         let peer_mgr = peer_manager_connection_handler.clone();
525                         let tcp_stream = listener.accept().await.unwrap().0;
526                         tokio::spawn(async move {
527                                 lightning_net_tokio::setup_inbound(
528                                         peer_mgr.clone(),
529                                         tcp_stream.into_std().unwrap(),
530                                 )
531                                 .await;
532                         });
533                 }
534         });
535
536         // Step 14: Connect and Disconnect Blocks
537         if chain_tip.is_none() {
538                 chain_tip =
539                         Some(init::validate_best_block_header(&mut bitcoind_client.deref()).await.unwrap());
540         }
541         let channel_manager_listener = channel_manager.clone();
542         let chain_monitor_listener = chain_monitor.clone();
543         let bitcoind_block_source = bitcoind_client.clone();
544         let network = args.network;
545         tokio::spawn(async move {
546                 let mut derefed = bitcoind_block_source.deref();
547                 let chain_poller = poll::ChainPoller::new(&mut derefed, network);
548                 let chain_listener = (chain_monitor_listener, channel_manager_listener);
549                 let mut spv_client =
550                         SpvClient::new(chain_tip.unwrap(), chain_poller, &mut cache, &chain_listener);
551                 loop {
552                         spv_client.poll_best_tip().await.unwrap();
553                         tokio::time::sleep(Duration::from_secs(1)).await;
554                 }
555         });
556
557         // Step 15: Handle LDK Events
558         let channel_manager_event_listener = channel_manager.clone();
559         let keys_manager_listener = keys_manager.clone();
560         // TODO: persist payment info to disk
561         let inbound_payments: PaymentInfoStorage = Arc::new(Mutex::new(HashMap::new()));
562         let outbound_payments: PaymentInfoStorage = Arc::new(Mutex::new(HashMap::new()));
563         let inbound_pmts_for_events = inbound_payments.clone();
564         let outbound_pmts_for_events = outbound_payments.clone();
565         let network = args.network;
566         let bitcoind_rpc = bitcoind_client.clone();
567         let handle = tokio::runtime::Handle::current();
568         let event_handler = move |event: &Event| {
569                 handle.block_on(handle_ldk_events(
570                         channel_manager_event_listener.clone(),
571                         bitcoind_rpc.clone(),
572                         keys_manager_listener.clone(),
573                         inbound_pmts_for_events.clone(),
574                         outbound_pmts_for_events.clone(),
575                         network,
576                         event,
577                 ));
578         };
579         // Step 16: Persist ChannelManager
580         let data_dir = ldk_data_dir.clone();
581         let persist_channel_manager_callback =
582                 move |node: &ChannelManager| FilesystemPersister::persist_manager(data_dir.clone(), &*node);
583         // Step 17: Background Processing
584         let background_processor = BackgroundProcessor::start(
585                 persist_channel_manager_callback,
586                 event_handler,
587                 chain_monitor.clone(),
588                 channel_manager.clone(),
589                 Some(router.clone()),
590                 peer_manager.clone(),
591                 logger.clone(),
592         );
593
594         // Reconnect to channel peers if possible.
595         let peer_data_path = format!("{}/channel_peer_data", ldk_data_dir.clone());
596         match disk::read_channel_peer_data(Path::new(&peer_data_path)) {
597                 Ok(mut info) => {
598                         for (pubkey, peer_addr) in info.drain() {
599                                 for chan_info in channel_manager.list_channels() {
600                                         if pubkey == chan_info.counterparty.node_id {
601                                                 let _ =
602                                                         cli::connect_peer_if_necessary(pubkey, peer_addr, peer_manager.clone())
603                                                                 .await;
604                                         }
605                                 }
606                         }
607                 }
608                 Err(e) => println!("ERROR: errored reading channel peer info from disk: {:?}", e),
609         }
610
611         // Regularly broadcast our node_announcement. This is only required (or possible) if we have
612         // some public channels, and is only useful if we have public listen address(es) to announce.
613         // In a production environment, this should occur only after the announcement of new channels
614         // to avoid churn in the global network graph.
615         let chan_manager = Arc::clone(&channel_manager);
616         let network = args.network;
617         if !args.ldk_announced_listen_addr.is_empty() {
618                 tokio::spawn(async move {
619                         let mut interval = tokio::time::interval(Duration::from_secs(60));
620                         loop {
621                                 interval.tick().await;
622                                 chan_manager.broadcast_node_announcement(
623                                         [0; 3],
624                                         args.ldk_announced_node_name,
625                                         args.ldk_announced_listen_addr.clone(),
626                                 );
627                         }
628                 });
629         }
630
631         // Start the CLI.
632         cli::poll_for_user_input(
633                 peer_manager.clone(),
634                 channel_manager.clone(),
635                 keys_manager.clone(),
636                 router.clone(),
637                 inbound_payments,
638                 outbound_payments,
639                 ldk_data_dir.clone(),
640                 logger.clone(),
641                 network,
642         )
643         .await;
644
645         // Stop the background processor.
646         background_processor.stop().unwrap();
647 }
648
649 #[tokio::main]
650 pub async fn main() {
651         start_ldk().await;
652 }
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