1 // This file is Copyright its original authors, visible in version control
4 // This file is licensed under the Apache License, Version 2.0 <LICENSE-APACHE
5 // or http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
6 // <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your option.
7 // You may not use this file except in accordance with one or both of these
10 //! Further functional tests which test blockchain reorganizations.
12 use crate::chain::channelmonitor::ANTI_REORG_DELAY;
13 use crate::chain::transaction::OutPoint;
14 use crate::chain::Confirm;
15 use crate::events::{Event, MessageSendEventsProvider, ClosureReason, HTLCDestination};
16 use crate::ln::channelmanager::ChannelManager;
17 use crate::ln::msgs::{ChannelMessageHandler, Init};
18 use crate::util::test_utils;
19 use crate::util::ser::Writeable;
20 use crate::util::string::UntrustedString;
22 use bitcoin::blockdata::block::{Block, BlockHeader};
23 use bitcoin::blockdata::script::Builder;
24 use bitcoin::blockdata::opcodes;
25 use bitcoin::secp256k1::Secp256k1;
27 use crate::prelude::*;
28 use bitcoin::hashes::Hash;
29 use bitcoin::TxMerkleNode;
31 use crate::ln::functional_test_utils::*;
33 fn do_test_onchain_htlc_reorg(local_commitment: bool, claim: bool) {
34 // Our on-chain HTLC-claim learning has a few properties worth testing:
35 // * If an upstream HTLC is claimed with a preimage (both against our own commitment
36 // transaction our counterparty's), we claim it backwards immediately.
37 // * If an upstream HTLC is claimed with a timeout, we delay ANTI_REORG_DELAY before failing
38 // it backwards to ensure our counterparty can't claim with a preimage in a reorg.
40 // Here we test both properties in any combination based on the two bools passed in as
43 // If local_commitment is set, we first broadcast a local commitment containing an offered HTLC
44 // and an HTLC-Timeout tx, otherwise we broadcast a remote commitment containing a received
45 // HTLC and a local HTLC-Timeout tx spending it.
47 // We then either allow these transactions to confirm (if !claim) or we wait until one block
48 // before they otherwise would and reorg them out, confirming an HTLC-Success tx instead.
49 let chanmon_cfgs = create_chanmon_cfgs(3);
50 let node_cfgs = create_node_cfgs(3, &chanmon_cfgs);
51 let node_chanmgrs = create_node_chanmgrs(3, &node_cfgs, &[None, None, None]);
52 let nodes = create_network(3, &node_cfgs, &node_chanmgrs);
54 create_announced_chan_between_nodes(&nodes, 0, 1);
55 let chan_2 = create_announced_chan_between_nodes(&nodes, 1, 2);
57 // Make sure all nodes are at the same starting height
58 connect_blocks(&nodes[0], 2*CHAN_CONFIRM_DEPTH + 1 - nodes[0].best_block_info().1);
59 connect_blocks(&nodes[1], 2*CHAN_CONFIRM_DEPTH + 1 - nodes[1].best_block_info().1);
60 connect_blocks(&nodes[2], 2*CHAN_CONFIRM_DEPTH + 1 - nodes[2].best_block_info().1);
62 let (our_payment_preimage, our_payment_hash, _) = route_payment(&nodes[0], &[&nodes[1], &nodes[2]], 1_000_000);
64 // Provide preimage to node 2 by claiming payment
65 nodes[2].node.claim_funds(our_payment_preimage);
66 expect_payment_claimed!(nodes[2], our_payment_hash, 1_000_000);
67 check_added_monitors!(nodes[2], 1);
68 get_htlc_update_msgs!(nodes[2], nodes[1].node.get_our_node_id());
70 let mut header = BlockHeader { version: 0x2000_0000, prev_blockhash: nodes[2].best_block_hash(), merkle_root: TxMerkleNode::all_zeros(), time: 42, bits: 42, nonce: 42 };
71 let claim_txn = if local_commitment {
72 // Broadcast node 1 commitment txn to broadcast the HTLC-Timeout
73 let node_1_commitment_txn = get_local_commitment_txn!(nodes[1], chan_2.2);
74 assert_eq!(node_1_commitment_txn.len(), 2); // 1 local commitment tx, 1 Outbound HTLC-Timeout
75 assert_eq!(node_1_commitment_txn[0].output.len(), 2); // to-self and Offered HTLC (to-remote/to-node-3 is dust)
76 check_spends!(node_1_commitment_txn[0], chan_2.3);
77 check_spends!(node_1_commitment_txn[1], node_1_commitment_txn[0]);
79 // Give node 2 node 1's transactions and get its response (claiming the HTLC instead).
80 connect_block(&nodes[2], &Block { header, txdata: node_1_commitment_txn.clone() });
81 check_added_monitors!(nodes[2], 1);
82 check_closed_broadcast!(nodes[2], true); // We should get a BroadcastChannelUpdate (and *only* a BroadcstChannelUpdate)
83 check_closed_event!(nodes[2], 1, ClosureReason::CommitmentTxConfirmed);
84 let node_2_commitment_txn = nodes[2].tx_broadcaster.txn_broadcasted.lock().unwrap().split_off(0);
85 assert_eq!(node_2_commitment_txn.len(), 1); // ChannelMonitor: 1 offered HTLC-Claim
86 check_spends!(node_2_commitment_txn[0], node_1_commitment_txn[0]);
88 // Make sure node 1's height is the same as the !local_commitment case
89 connect_blocks(&nodes[1], 1);
90 // Confirm node 1's commitment txn (and HTLC-Timeout) on node 1
91 header.prev_blockhash = nodes[1].best_block_hash();
92 connect_block(&nodes[1], &Block { header, txdata: node_1_commitment_txn.clone() });
94 // ...but return node 1's commitment tx in case claim is set and we're preparing to reorg
95 vec![node_1_commitment_txn[0].clone(), node_2_commitment_txn[0].clone()]
97 // Broadcast node 2 commitment txn
98 let mut node_2_commitment_txn = get_local_commitment_txn!(nodes[2], chan_2.2);
99 assert_eq!(node_2_commitment_txn.len(), 2); // 1 local commitment tx, 1 Received HTLC-Claim
100 assert_eq!(node_2_commitment_txn[0].output.len(), 2); // to-remote and Received HTLC (to-self is dust)
101 check_spends!(node_2_commitment_txn[0], chan_2.3);
102 check_spends!(node_2_commitment_txn[1], node_2_commitment_txn[0]);
104 // Give node 1 node 2's commitment transaction and get its response (timing the HTLC out)
105 mine_transaction(&nodes[1], &node_2_commitment_txn[0]);
106 connect_blocks(&nodes[1], TEST_FINAL_CLTV - 1); // Confirm blocks until the HTLC expires
107 let node_1_commitment_txn = nodes[1].tx_broadcaster.txn_broadcasted.lock().unwrap().clone();
108 assert_eq!(node_1_commitment_txn.len(), 1); // ChannelMonitor: 1 offered HTLC-Timeout
109 check_spends!(node_1_commitment_txn[0], node_2_commitment_txn[0]);
111 // Confirm node 1's HTLC-Timeout on node 1
112 mine_transaction(&nodes[1], &node_1_commitment_txn[0]);
113 // ...but return node 2's commitment tx (and claim) in case claim is set and we're preparing to reorg
114 vec![node_2_commitment_txn.pop().unwrap()]
116 check_added_monitors!(nodes[1], 1);
117 check_closed_broadcast!(nodes[1], true); // We should get a BroadcastChannelUpdate (and *only* a BroadcstChannelUpdate)
118 check_closed_event!(nodes[1], 1, ClosureReason::CommitmentTxConfirmed);
119 // Connect ANTI_REORG_DELAY - 2 blocks, giving us a confirmation count of ANTI_REORG_DELAY - 1.
120 connect_blocks(&nodes[1], ANTI_REORG_DELAY - 2);
121 check_added_monitors!(nodes[1], 0);
122 assert_eq!(nodes[1].node.get_and_clear_pending_events().len(), 0);
125 // Disconnect Node 1's HTLC-Timeout which was connected above
126 disconnect_blocks(&nodes[1], ANTI_REORG_DELAY - 1);
129 header: BlockHeader { version: 0x20000000, prev_blockhash: nodes[1].best_block_hash(), merkle_root: TxMerkleNode::all_zeros(), time: 42, bits: 42, nonce: 42 },
132 connect_block(&nodes[1], &block);
134 // ChannelManager only polls chain::Watch::release_pending_monitor_events when we
135 // probe it for events, so we probe non-message events here (which should just be the
136 // PaymentForwarded event).
137 expect_payment_forwarded!(nodes[1], nodes[0], nodes[2], Some(1000), true, true);
139 // Confirm the timeout tx and check that we fail the HTLC backwards
141 header: BlockHeader { version: 0x20000000, prev_blockhash: nodes[1].best_block_hash(), merkle_root: TxMerkleNode::all_zeros(), time: 42, bits: 42, nonce: 42 },
144 connect_block(&nodes[1], &block);
145 expect_pending_htlcs_forwardable_and_htlc_handling_failed!(nodes[1], vec![HTLCDestination::NextHopChannel { node_id: Some(nodes[2].node.get_our_node_id()), channel_id: chan_2.2 }]);
148 check_added_monitors!(nodes[1], 1);
149 // Which should result in an immediate claim/fail of the HTLC:
150 let htlc_updates = get_htlc_update_msgs!(nodes[1], nodes[0].node.get_our_node_id());
152 assert_eq!(htlc_updates.update_fulfill_htlcs.len(), 1);
153 nodes[0].node.handle_update_fulfill_htlc(&nodes[1].node.get_our_node_id(), &htlc_updates.update_fulfill_htlcs[0]);
155 assert_eq!(htlc_updates.update_fail_htlcs.len(), 1);
156 nodes[0].node.handle_update_fail_htlc(&nodes[1].node.get_our_node_id(), &htlc_updates.update_fail_htlcs[0]);
158 commitment_signed_dance!(nodes[0], nodes[1], htlc_updates.commitment_signed, false, true);
160 expect_payment_sent!(nodes[0], our_payment_preimage);
162 expect_payment_failed_with_update!(nodes[0], our_payment_hash, false, chan_2.0.contents.short_channel_id, true);
167 fn test_onchain_htlc_claim_reorg_local_commitment() {
168 do_test_onchain_htlc_reorg(true, true);
171 fn test_onchain_htlc_timeout_delay_local_commitment() {
172 do_test_onchain_htlc_reorg(true, false);
175 fn test_onchain_htlc_claim_reorg_remote_commitment() {
176 do_test_onchain_htlc_reorg(false, true);
179 fn test_onchain_htlc_timeout_delay_remote_commitment() {
180 do_test_onchain_htlc_reorg(false, false);
184 fn test_counterparty_revoked_reorg() {
185 // Test what happens when a revoked counterparty transaction is broadcast but then reorg'd out
186 // of the main chain. Specifically, HTLCs in the latest commitment transaction which are not
187 // included in the revoked commitment transaction should not be considered failed, and should
188 // still be claim-from-able after the reorg.
189 let chanmon_cfgs = create_chanmon_cfgs(2);
190 let node_cfgs = create_node_cfgs(2, &chanmon_cfgs);
191 let node_chanmgrs = create_node_chanmgrs(2, &node_cfgs, &[None, None]);
192 let nodes = create_network(2, &node_cfgs, &node_chanmgrs);
194 let chan = create_announced_chan_between_nodes_with_value(&nodes, 0, 1, 1_000_000, 500_000_000);
196 // Get the initial commitment transaction for broadcast, before any HTLCs are added at all.
197 let revoked_local_txn = get_local_commitment_txn!(nodes[0], chan.2);
198 assert_eq!(revoked_local_txn.len(), 1);
200 // Now add two HTLCs in each direction, one dust and one not.
201 route_payment(&nodes[0], &[&nodes[1]], 5_000_000);
202 route_payment(&nodes[0], &[&nodes[1]], 5_000);
203 let (payment_preimage_3, payment_hash_3, ..) = route_payment(&nodes[1], &[&nodes[0]], 4_000_000);
204 let payment_hash_4 = route_payment(&nodes[1], &[&nodes[0]], 4_000).1;
206 nodes[0].node.claim_funds(payment_preimage_3);
207 let _ = get_htlc_update_msgs!(nodes[0], nodes[1].node.get_our_node_id());
208 check_added_monitors!(nodes[0], 1);
209 expect_payment_claimed!(nodes[0], payment_hash_3, 4_000_000);
211 let mut unrevoked_local_txn = get_local_commitment_txn!(nodes[0], chan.2);
212 assert_eq!(unrevoked_local_txn.len(), 3); // commitment + 2 HTLC txn
213 // Sort the unrevoked transactions in reverse order, ie commitment tx, then HTLC 1 then HTLC 3
214 unrevoked_local_txn.sort_unstable_by_key(|tx| 1_000_000 - tx.output.iter().map(|outp| outp.value).sum::<u64>());
216 // Now mine A's old commitment transaction, which should close the channel, but take no action
217 // on any of the HTLCs, at least until we get six confirmations (which we won't get).
218 mine_transaction(&nodes[1], &revoked_local_txn[0]);
219 check_added_monitors!(nodes[1], 1);
220 check_closed_event!(nodes[1], 1, ClosureReason::CommitmentTxConfirmed);
221 check_closed_broadcast!(nodes[1], true);
223 // Connect up to one block before the revoked transaction would be considered final, then do a
224 // reorg that disconnects the full chain and goes up to the height at which the revoked
225 // transaction would be final.
226 let theoretical_conf_height = nodes[1].best_block_info().1 + ANTI_REORG_DELAY - 1;
227 connect_blocks(&nodes[1], ANTI_REORG_DELAY - 2);
228 assert!(nodes[1].node.get_and_clear_pending_msg_events().is_empty());
229 assert!(nodes[1].node.get_and_clear_pending_events().is_empty());
231 disconnect_all_blocks(&nodes[1]);
232 assert!(nodes[1].node.get_and_clear_pending_msg_events().is_empty());
233 assert!(nodes[1].node.get_and_clear_pending_events().is_empty());
235 connect_blocks(&nodes[1], theoretical_conf_height);
236 assert!(nodes[1].node.get_and_clear_pending_msg_events().is_empty());
237 assert!(nodes[1].node.get_and_clear_pending_events().is_empty());
239 // Now connect A's latest commitment transaction instead and resolve the HTLCs
240 mine_transaction(&nodes[1], &unrevoked_local_txn[0]);
241 assert!(nodes[1].node.get_and_clear_pending_msg_events().is_empty());
242 assert!(nodes[1].node.get_and_clear_pending_events().is_empty());
244 // Connect the HTLC claim transaction for HTLC 3
245 mine_transaction(&nodes[1], &unrevoked_local_txn[2]);
246 expect_payment_sent!(nodes[1], payment_preimage_3);
247 assert!(nodes[1].node.get_and_clear_pending_msg_events().is_empty());
249 // Connect blocks to confirm the unrevoked commitment transaction
250 connect_blocks(&nodes[1], ANTI_REORG_DELAY - 2);
251 expect_payment_failed!(nodes[1], payment_hash_4, false);
254 fn do_test_unconf_chan(reload_node: bool, reorg_after_reload: bool, use_funding_unconfirmed: bool, connect_style: ConnectStyle) {
255 // After creating a chan between nodes, we disconnect all blocks previously seen to force a
256 // channel close on nodes[0] side. We also use this to provide very basic testing of logic
257 // around freeing background events which store monitor updates during block_[dis]connected.
258 let chanmon_cfgs = create_chanmon_cfgs(2);
259 let node_cfgs = create_node_cfgs(2, &chanmon_cfgs);
260 let node_chanmgrs = create_node_chanmgrs(2, &node_cfgs, &[None, None]);
261 let persister: test_utils::TestPersister;
262 let new_chain_monitor: test_utils::TestChainMonitor;
263 let nodes_0_deserialized: ChannelManager<&test_utils::TestChainMonitor, &test_utils::TestBroadcaster, &test_utils::TestKeysInterface, &test_utils::TestKeysInterface, &test_utils::TestKeysInterface, &test_utils::TestFeeEstimator, &test_utils::TestRouter, &test_utils::TestLogger>;
264 let mut nodes = create_network(2, &node_cfgs, &node_chanmgrs);
265 *nodes[0].connect_style.borrow_mut() = connect_style;
267 let chan_conf_height = core::cmp::max(nodes[0].best_block_info().1 + 1, nodes[1].best_block_info().1 + 1);
268 let chan = create_announced_chan_between_nodes(&nodes, 0, 1);
271 let per_peer_state = nodes[0].node.per_peer_state.read().unwrap();
272 let peer_state = per_peer_state.get(&nodes[1].node.get_our_node_id()).unwrap().lock().unwrap();
273 assert_eq!(peer_state.channel_by_id.len(), 1);
274 assert_eq!(nodes[0].node.short_to_chan_info.read().unwrap().len(), 2);
277 assert_eq!(nodes[0].node.list_channels()[0].confirmations, Some(10));
278 assert_eq!(nodes[1].node.list_channels()[0].confirmations, Some(10));
280 if !reorg_after_reload {
281 if use_funding_unconfirmed {
282 let relevant_txids = nodes[0].node.get_relevant_txids();
283 assert_eq!(relevant_txids.len(), 1);
284 let block_hash_opt = relevant_txids[0].1;
285 let expected_hash = nodes[0].get_block_header(chan_conf_height).block_hash();
286 assert_eq!(block_hash_opt, Some(expected_hash));
287 let txid = relevant_txids[0].0;
288 assert_eq!(txid, chan.3.txid());
289 nodes[0].node.transaction_unconfirmed(&txid);
290 assert_eq!(nodes[0].node.list_usable_channels().len(), 0);
291 } else if connect_style == ConnectStyle::FullBlockViaListen {
292 disconnect_blocks(&nodes[0], CHAN_CONFIRM_DEPTH - 1);
293 assert_eq!(nodes[0].node.list_usable_channels().len(), 1);
294 assert_eq!(nodes[0].node.list_channels()[0].confirmations, Some(1));
295 disconnect_blocks(&nodes[0], 1);
296 assert_eq!(nodes[0].node.list_usable_channels().len(), 0);
298 disconnect_all_blocks(&nodes[0]);
299 assert_eq!(nodes[0].node.list_usable_channels().len(), 0);
302 let relevant_txids = nodes[0].node.get_relevant_txids();
303 assert_eq!(relevant_txids.len(), 0);
305 handle_announce_close_broadcast_events(&nodes, 0, 1, true, "Channel closed because of an exception: Funding transaction was un-confirmed. Locked at 6 confs, now have 0 confs.");
306 check_added_monitors!(nodes[1], 1);
308 let per_peer_state = nodes[0].node.per_peer_state.read().unwrap();
309 let peer_state = per_peer_state.get(&nodes[1].node.get_our_node_id()).unwrap().lock().unwrap();
310 assert_eq!(peer_state.channel_by_id.len(), 0);
311 assert_eq!(nodes[0].node.short_to_chan_info.read().unwrap().len(), 0);
316 // Since we currently have a background event pending, it's good to test that we survive a
317 // serialization roundtrip. Further, this tests the somewhat awkward edge-case of dropping
318 // the Channel object from the ChannelManager, but still having a monitor event pending for
319 // it when we go to deserialize, and then use the ChannelManager.
320 let nodes_0_serialized = nodes[0].node.encode();
321 let chan_0_monitor_serialized = get_monitor!(nodes[0], chan.2).encode();
323 reload_node!(nodes[0], *nodes[0].node.get_current_default_configuration(), &nodes_0_serialized, &[&chan_0_monitor_serialized], persister, new_chain_monitor, nodes_0_deserialized);
324 assert!(nodes[0].tx_broadcaster.txn_broadcasted.lock().unwrap().is_empty());
327 if reorg_after_reload {
328 if use_funding_unconfirmed {
329 let relevant_txids = nodes[0].node.get_relevant_txids();
330 assert_eq!(relevant_txids.len(), 1);
331 let block_hash_opt = relevant_txids[0].1;
332 let expected_hash = nodes[0].get_block_header(chan_conf_height).block_hash();
333 assert_eq!(block_hash_opt, Some(expected_hash));
334 let txid = relevant_txids[0].0;
335 assert_eq!(txid, chan.3.txid());
336 nodes[0].node.transaction_unconfirmed(&txid);
337 assert_eq!(nodes[0].node.list_channels().len(), 0);
338 } else if connect_style == ConnectStyle::FullBlockViaListen {
339 disconnect_blocks(&nodes[0], CHAN_CONFIRM_DEPTH - 1);
340 assert_eq!(nodes[0].node.list_channels().len(), 1);
341 assert_eq!(nodes[0].node.list_channels()[0].confirmations, Some(1));
342 disconnect_blocks(&nodes[0], 1);
343 assert_eq!(nodes[0].node.list_usable_channels().len(), 0);
345 disconnect_all_blocks(&nodes[0]);
346 assert_eq!(nodes[0].node.list_usable_channels().len(), 0);
349 let relevant_txids = nodes[0].node.get_relevant_txids();
350 assert_eq!(relevant_txids.len(), 0);
352 handle_announce_close_broadcast_events(&nodes, 0, 1, true, "Channel closed because of an exception: Funding transaction was un-confirmed. Locked at 6 confs, now have 0 confs.");
353 check_added_monitors!(nodes[1], 1);
355 let per_peer_state = nodes[0].node.per_peer_state.read().unwrap();
356 let peer_state = per_peer_state.get(&nodes[1].node.get_our_node_id()).unwrap().lock().unwrap();
357 assert_eq!(peer_state.channel_by_id.len(), 0);
358 assert_eq!(nodes[0].node.short_to_chan_info.read().unwrap().len(), 0);
361 // With expect_channel_force_closed set the TestChainMonitor will enforce that the next update
362 // is a ChannelForcClosed on the right channel with should_broadcast set.
363 *nodes[0].chain_monitor.expect_channel_force_closed.lock().unwrap() = Some((chan.2, true));
364 nodes[0].node.test_process_background_events(); // Required to free the pending background monitor update
365 check_added_monitors!(nodes[0], 1);
366 let expected_err = "Funding transaction was un-confirmed. Locked at 6 confs, now have 0 confs.";
367 check_closed_event!(nodes[1], 1, ClosureReason::CounterpartyForceClosed { peer_msg: UntrustedString(format!("Channel closed because of an exception: {}", expected_err)) });
368 check_closed_event!(nodes[0], 1, ClosureReason::ProcessingError { err: expected_err.to_owned() });
369 assert_eq!(nodes[0].tx_broadcaster.txn_broadcasted.lock().unwrap().len(), 1);
370 nodes[0].tx_broadcaster.txn_broadcasted.lock().unwrap().clear();
372 // Now check that we can create a new channel
373 if reload_node && nodes[0].node.per_peer_state.read().unwrap().len() == 0 {
374 // If we dropped the channel before reloading the node, nodes[1] was also dropped from
375 // nodes[0] storage, and hence not connected again on startup. We therefore need to
376 // reconnect to the node before attempting to create a new channel.
377 nodes[0].node.peer_connected(&nodes[1].node.get_our_node_id(), &Init { features: nodes[1].node.init_features(), remote_network_address: None }, true).unwrap();
379 create_announced_chan_between_nodes(&nodes, 0, 1);
380 send_payment(&nodes[0], &[&nodes[1]], 8000000);
384 fn test_unconf_chan() {
385 do_test_unconf_chan(true, true, false, ConnectStyle::BestBlockFirstSkippingBlocks);
386 do_test_unconf_chan(false, true, false, ConnectStyle::BestBlockFirstSkippingBlocks);
387 do_test_unconf_chan(true, false, false, ConnectStyle::BestBlockFirstSkippingBlocks);
388 do_test_unconf_chan(false, false, false, ConnectStyle::BestBlockFirstSkippingBlocks);
390 do_test_unconf_chan(true, true, false, ConnectStyle::BestBlockFirstReorgsOnlyTip);
391 do_test_unconf_chan(false, true, false, ConnectStyle::BestBlockFirstReorgsOnlyTip);
392 do_test_unconf_chan(true, false, false, ConnectStyle::BestBlockFirstReorgsOnlyTip);
393 do_test_unconf_chan(false, false, false, ConnectStyle::BestBlockFirstReorgsOnlyTip);
397 fn test_unconf_chan_via_listen() {
398 do_test_unconf_chan(true, true, false, ConnectStyle::FullBlockViaListen);
399 do_test_unconf_chan(false, true, false, ConnectStyle::FullBlockViaListen);
400 do_test_unconf_chan(true, false, false, ConnectStyle::FullBlockViaListen);
401 do_test_unconf_chan(false, false, false, ConnectStyle::FullBlockViaListen);
405 fn test_unconf_chan_via_funding_unconfirmed() {
406 do_test_unconf_chan(true, true, true, ConnectStyle::BestBlockFirstSkippingBlocks);
407 do_test_unconf_chan(false, true, true, ConnectStyle::BestBlockFirstSkippingBlocks);
408 do_test_unconf_chan(true, false, true, ConnectStyle::BestBlockFirstSkippingBlocks);
409 do_test_unconf_chan(false, false, true, ConnectStyle::BestBlockFirstSkippingBlocks);
411 do_test_unconf_chan(true, true, true, ConnectStyle::BestBlockFirstReorgsOnlyTip);
412 do_test_unconf_chan(false, true, true, ConnectStyle::BestBlockFirstReorgsOnlyTip);
413 do_test_unconf_chan(true, false, true, ConnectStyle::BestBlockFirstReorgsOnlyTip);
414 do_test_unconf_chan(false, false, true, ConnectStyle::BestBlockFirstReorgsOnlyTip);
416 do_test_unconf_chan(true, true, true, ConnectStyle::FullBlockViaListen);
417 do_test_unconf_chan(false, true, true, ConnectStyle::FullBlockViaListen);
418 do_test_unconf_chan(true, false, true, ConnectStyle::FullBlockViaListen);
419 do_test_unconf_chan(false, false, true, ConnectStyle::FullBlockViaListen);
423 fn test_set_outpoints_partial_claiming() {
424 // - remote party claim tx, new bump tx
425 // - disconnect remote claiming tx, new bump
426 // - disconnect tx, see no tx anymore
427 let chanmon_cfgs = create_chanmon_cfgs(2);
428 let node_cfgs = create_node_cfgs(2, &chanmon_cfgs);
429 let node_chanmgrs = create_node_chanmgrs(2, &node_cfgs, &[None, None]);
430 let nodes = create_network(2, &node_cfgs, &node_chanmgrs);
432 let chan = create_announced_chan_between_nodes_with_value(&nodes, 0, 1, 1000000, 59000000);
433 let (payment_preimage_1, payment_hash_1, _) = route_payment(&nodes[1], &[&nodes[0]], 3_000_000);
434 let (payment_preimage_2, payment_hash_2, _) = route_payment(&nodes[1], &[&nodes[0]], 3_000_000);
436 // Remote commitment txn with 4 outputs: to_local, to_remote, 2 outgoing HTLC
437 let remote_txn = get_local_commitment_txn!(nodes[1], chan.2);
438 assert_eq!(remote_txn.len(), 3);
439 assert_eq!(remote_txn[0].output.len(), 4);
440 assert_eq!(remote_txn[0].input.len(), 1);
441 assert_eq!(remote_txn[0].input[0].previous_output.txid, chan.3.txid());
442 check_spends!(remote_txn[1], remote_txn[0]);
443 check_spends!(remote_txn[2], remote_txn[0]);
445 // Connect blocks on node A to advance height towards TEST_FINAL_CLTV
446 // Provide node A with both preimage
447 nodes[0].node.claim_funds(payment_preimage_1);
448 expect_payment_claimed!(nodes[0], payment_hash_1, 3_000_000);
449 nodes[0].node.claim_funds(payment_preimage_2);
450 expect_payment_claimed!(nodes[0], payment_hash_2, 3_000_000);
451 check_added_monitors!(nodes[0], 2);
452 nodes[0].node.get_and_clear_pending_msg_events();
454 // Connect blocks on node A commitment transaction
455 mine_transaction(&nodes[0], &remote_txn[0]);
456 check_closed_broadcast!(nodes[0], true);
457 check_closed_event!(nodes[0], 1, ClosureReason::CommitmentTxConfirmed);
458 check_added_monitors!(nodes[0], 1);
459 // Verify node A broadcast tx claiming both HTLCs
461 let mut node_txn = nodes[0].tx_broadcaster.txn_broadcasted.lock().unwrap();
462 // ChannelMonitor: claim tx
463 assert_eq!(node_txn.len(), 1);
464 check_spends!(node_txn[0], remote_txn[0]);
465 assert_eq!(node_txn[0].input.len(), 2);
469 // Connect blocks on node B
470 connect_blocks(&nodes[1], 135);
471 check_closed_broadcast!(nodes[1], true);
472 check_closed_event!(nodes[1], 1, ClosureReason::CommitmentTxConfirmed);
473 check_added_monitors!(nodes[1], 1);
474 // Verify node B broadcast 2 HTLC-timeout txn
475 let partial_claim_tx = {
476 let node_txn = nodes[1].tx_broadcaster.txn_broadcasted.lock().unwrap();
477 assert_eq!(node_txn.len(), 3);
478 check_spends!(node_txn[1], node_txn[0]);
479 check_spends!(node_txn[2], node_txn[0]);
480 assert_eq!(node_txn[1].input.len(), 1);
481 assert_eq!(node_txn[2].input.len(), 1);
485 // Broadcast partial claim on node A, should regenerate a claiming tx with HTLC dropped
486 mine_transaction(&nodes[0], &partial_claim_tx);
488 let mut node_txn = nodes[0].tx_broadcaster.txn_broadcasted.lock().unwrap();
489 assert_eq!(node_txn.len(), 1);
490 check_spends!(node_txn[0], remote_txn[0]);
491 assert_eq!(node_txn[0].input.len(), 1); //dropped HTLC
494 nodes[0].node.get_and_clear_pending_msg_events();
496 // Disconnect last block on node A, should regenerate a claiming tx with HTLC dropped
497 disconnect_blocks(&nodes[0], 1);
499 let mut node_txn = nodes[0].tx_broadcaster.txn_broadcasted.lock().unwrap();
500 assert_eq!(node_txn.len(), 1);
501 check_spends!(node_txn[0], remote_txn[0]);
502 assert_eq!(node_txn[0].input.len(), 2); //resurrected HTLC
506 //// Disconnect one more block and then reconnect multiple no transaction should be generated
507 disconnect_blocks(&nodes[0], 1);
508 connect_blocks(&nodes[0], 15);
510 let mut node_txn = nodes[0].tx_broadcaster.txn_broadcasted.lock().unwrap();
511 assert_eq!(node_txn.len(), 0);
516 fn do_test_to_remote_after_local_detection(style: ConnectStyle) {
517 // In previous code, detection of to_remote outputs in a counterparty commitment transaction
518 // was dependent on whether a local commitment transaction had been seen on-chain previously.
519 // This resulted in some edge cases around not being able to generate a SpendableOutput event
522 // Here, we test this by first confirming one set of commitment transactions, then
523 // disconnecting them and reconnecting another. We then confirm them and check that the correct
524 // SpendableOutput event is generated.
525 let chanmon_cfgs = create_chanmon_cfgs(2);
526 let node_cfgs = create_node_cfgs(2, &chanmon_cfgs);
527 let node_chanmgrs = create_node_chanmgrs(2, &node_cfgs, &[None, None]);
528 let mut nodes = create_network(2, &node_cfgs, &node_chanmgrs);
530 *nodes[0].connect_style.borrow_mut() = style;
531 *nodes[1].connect_style.borrow_mut() = style;
533 let (_, _, chan_id, funding_tx) =
534 create_announced_chan_between_nodes_with_value(&nodes, 0, 1, 1_000_000, 100_000_000);
535 let funding_outpoint = OutPoint { txid: funding_tx.txid(), index: 0 };
536 assert_eq!(funding_outpoint.to_channel_id(), chan_id);
538 let remote_txn_a = get_local_commitment_txn!(nodes[0], chan_id);
539 let remote_txn_b = get_local_commitment_txn!(nodes[1], chan_id);
541 mine_transaction(&nodes[0], &remote_txn_a[0]);
542 mine_transaction(&nodes[1], &remote_txn_a[0]);
544 assert!(nodes[0].node.list_channels().is_empty());
545 check_closed_broadcast!(nodes[0], true);
546 check_added_monitors!(nodes[0], 1);
547 check_closed_event!(nodes[0], 1, ClosureReason::CommitmentTxConfirmed);
548 assert!(nodes[1].node.list_channels().is_empty());
549 check_closed_broadcast!(nodes[1], true);
550 check_added_monitors!(nodes[1], 1);
551 check_closed_event!(nodes[1], 1, ClosureReason::CommitmentTxConfirmed);
553 assert!(nodes[0].chain_monitor.chain_monitor.get_and_clear_pending_events().is_empty());
554 assert!(nodes[1].chain_monitor.chain_monitor.get_and_clear_pending_events().is_empty());
556 disconnect_blocks(&nodes[0], 1);
557 disconnect_blocks(&nodes[1], 1);
559 assert!(nodes[0].tx_broadcaster.txn_broadcasted.lock().unwrap().is_empty());
560 assert!(nodes[1].tx_broadcaster.txn_broadcasted.lock().unwrap().is_empty());
561 assert!(nodes[0].chain_monitor.chain_monitor.get_and_clear_pending_events().is_empty());
562 assert!(nodes[1].chain_monitor.chain_monitor.get_and_clear_pending_events().is_empty());
564 connect_blocks(&nodes[0], ANTI_REORG_DELAY - 1);
565 connect_blocks(&nodes[1], ANTI_REORG_DELAY - 1);
567 assert!(nodes[0].tx_broadcaster.txn_broadcasted.lock().unwrap().is_empty());
568 assert!(nodes[1].tx_broadcaster.txn_broadcasted.lock().unwrap().is_empty());
569 assert!(nodes[0].chain_monitor.chain_monitor.get_and_clear_pending_events().is_empty());
570 assert!(nodes[1].chain_monitor.chain_monitor.get_and_clear_pending_events().is_empty());
572 mine_transaction(&nodes[0], &remote_txn_b[0]);
573 mine_transaction(&nodes[1], &remote_txn_b[0]);
575 assert!(nodes[0].tx_broadcaster.txn_broadcasted.lock().unwrap().is_empty());
576 assert!(nodes[1].tx_broadcaster.txn_broadcasted.lock().unwrap().is_empty());
577 assert!(nodes[0].chain_monitor.chain_monitor.get_and_clear_pending_events().is_empty());
578 assert!(nodes[1].chain_monitor.chain_monitor.get_and_clear_pending_events().is_empty());
580 connect_blocks(&nodes[0], ANTI_REORG_DELAY - 1);
581 connect_blocks(&nodes[1], ANTI_REORG_DELAY - 1);
583 let mut node_a_spendable = nodes[0].chain_monitor.chain_monitor.get_and_clear_pending_events();
584 assert_eq!(node_a_spendable.len(), 1);
585 if let Event::SpendableOutputs { outputs } = node_a_spendable.pop().unwrap() {
586 assert_eq!(outputs.len(), 1);
587 let spend_tx = nodes[0].keys_manager.backing.spend_spendable_outputs(&[&outputs[0]], Vec::new(),
588 Builder::new().push_opcode(opcodes::all::OP_RETURN).into_script(), 253, &Secp256k1::new()).unwrap();
589 check_spends!(spend_tx, remote_txn_b[0]);
592 // nodes[1] is waiting for the to_self_delay to expire, which is many more than
593 // ANTI_REORG_DELAY. Instead, walk it back and confirm the original remote_txn_a commitment
594 // again and check that nodes[1] generates a similar spendable output.
595 // Technically a reorg of ANTI_REORG_DELAY violates our assumptions, so this is undefined by
596 // our API spec, but we currently handle this correctly and there's little reason we shouldn't
598 assert!(nodes[1].chain_monitor.chain_monitor.get_and_clear_pending_events().is_empty());
599 disconnect_blocks(&nodes[1], ANTI_REORG_DELAY);
600 mine_transaction(&nodes[1], &remote_txn_a[0]);
601 connect_blocks(&nodes[1], ANTI_REORG_DELAY - 1);
603 let mut node_b_spendable = nodes[1].chain_monitor.chain_monitor.get_and_clear_pending_events();
604 assert_eq!(node_b_spendable.len(), 1);
605 if let Event::SpendableOutputs { outputs } = node_b_spendable.pop().unwrap() {
606 assert_eq!(outputs.len(), 1);
607 let spend_tx = nodes[1].keys_manager.backing.spend_spendable_outputs(&[&outputs[0]], Vec::new(),
608 Builder::new().push_opcode(opcodes::all::OP_RETURN).into_script(), 253, &Secp256k1::new()).unwrap();
609 check_spends!(spend_tx, remote_txn_a[0]);
614 fn test_to_remote_after_local_detection() {
615 do_test_to_remote_after_local_detection(ConnectStyle::BestBlockFirst);
616 do_test_to_remote_after_local_detection(ConnectStyle::BestBlockFirstSkippingBlocks);
617 do_test_to_remote_after_local_detection(ConnectStyle::BestBlockFirstReorgsOnlyTip);
618 do_test_to_remote_after_local_detection(ConnectStyle::TransactionsFirst);
619 do_test_to_remote_after_local_detection(ConnectStyle::TransactionsFirstSkippingBlocks);
620 do_test_to_remote_after_local_detection(ConnectStyle::TransactionsFirstReorgsOnlyTip);
621 do_test_to_remote_after_local_detection(ConnectStyle::FullBlockViaListen);