from fixtures import * # noqa: F401,F403 from fixtures import TEST_NETWORK from pyln.client import RpcError, Millisatoshi from utils import ( only_one, wait_for, sync_blockheight, first_channel_id, calc_lease_fee, check_coin_moves ) from pyln.testing.utils import FUNDAMOUNT from pathlib import Path from pprint import pprint import pytest import re import unittest def find_next_feerate(node, peer): chan = only_one(node.rpc.listpeerchannels(peer.info['id'])['channels']) return chan['next_feerate'] @unittest.skipIf(TEST_NETWORK != 'regtest', 'elementsd doesnt yet support PSBT features we need') @pytest.mark.openchannel('v2') def test_queryrates(node_factory, bitcoind): opts = {'dev-no-reconnect': None, 'experimental-anchors': None} l1, l2 = node_factory.get_nodes(2, opts=opts) amount = 10 ** 6 l1.fundwallet(amount * 10) l2.fundwallet(amount * 10) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) with pytest.raises(RpcError, match=r'not advertising liquidity'): l1.rpc.dev_queryrates(l2.info['id'], amount, amount * 10) l2.rpc.call('funderupdate', {'policy': 'match', 'policy_mod': 100, 'per_channel_max_msat': '1btc', 'fuzz_percent': 0, 'lease_fee_base_msat': '2sat', 'funding_weight': 1000, 'lease_fee_basis': 140, 'channel_fee_max_base_msat': '3sat', 'channel_fee_max_proportional_thousandths': 101}) result = l1.rpc.dev_queryrates(l2.info['id'], amount, amount) assert result['our_funding_msat'] == Millisatoshi(amount * 1000) assert result['their_funding_msat'] == Millisatoshi(amount * 1000) assert result['funding_weight'] == 1000 assert result['lease_fee_base_msat'] == Millisatoshi(2000) assert result['lease_fee_basis'] == 140 assert result['channel_fee_max_base_msat'] == Millisatoshi(3000) assert result['channel_fee_max_proportional_thousandths'] == 101 @unittest.skipIf(TEST_NETWORK != 'regtest', 'elementsd doesnt yet support PSBT features we need') @pytest.mark.openchannel('v1') # Mixed v1 + v2, v2 manually turned on def test_multifunding_v2_best_effort(node_factory, bitcoind): ''' Check that best_effort flag works. ''' disconnects = ["-WIRE_INIT", "-WIRE_ACCEPT_CHANNEL", "-WIRE_FUNDING_SIGNED"] l1 = node_factory.get_node(options={'experimental-dual-fund': None}, allow_warning=True, may_reconnect=True) l2 = node_factory.get_node(options={'experimental-dual-fund': None}, allow_warning=True, may_reconnect=True) l3 = node_factory.get_node(disconnect=disconnects) l4 = node_factory.get_node() l1.fundwallet(2000000) destinations = [{"id": '{}@localhost:{}'.format(l2.info['id'], l2.port), "amount": 50000}, {"id": '{}@localhost:{}'.format(l3.info['id'], l3.port), "amount": 50000}, {"id": '{}@localhost:{}'.format(l4.info['id'], l4.port), "amount": 50000}] for i, d in enumerate(disconnects): failed_sign = d == "-WIRE_FUNDING_SIGNED" # Should succeed due to best-effort flag. min_channels = 1 if failed_sign else 2 l1.rpc.multifundchannel(destinations, minchannels=min_channels) bitcoind.generate_block(6, wait_for_mempool=1) # l3 should fail to have channels; l2 also fails on last attempt node_list = [l1, l4] if failed_sign else [l1, l2, l4] for node in node_list: node.daemon.wait_for_log(r'to CHANNELD_NORMAL') # There should be working channels to l2 and l4 for every run # but the last working_chans = [l4] if failed_sign else [l2, l4] for ldest in working_chans: inv = ldest.rpc.invoice(5000, 'i{}'.format(i), 'i{}'.format(i))['bolt11'] l1.rpc.pay(inv) # Function to find the SCID of the channel that is # currently open. # Cannot use LightningNode.get_channel_scid since # it assumes the *first* channel found is the one # wanted, but in our case we close channels and # open again, so multiple channels may remain # listed. def get_funded_channel_scid(n1, n2): channels = n1.rpc.listpeerchannels(n2.info['id'])['channels'] assert channels and len(channels) != 0 for c in channels: state = c['state'] if state in ('DUALOPEND_AWAITING_LOCKIN', 'CHANNELD_AWAITING_LOCKIN', 'CHANNELD_NORMAL'): return c['short_channel_id'] assert False # Now close channels to l2 and l4, for the next run. if not failed_sign: l1.rpc.close(get_funded_channel_scid(l1, l2)) l1.rpc.close(get_funded_channel_scid(l1, l4)) for node in node_list: node.daemon.wait_for_log(r'to CLOSINGD_COMPLETE') # With 2 down, it will fail to fund channel l2.stop() l3.stop() with pytest.raises(RpcError, match=r'(Connection refused|Bad file descriptor)'): l1.rpc.multifundchannel(destinations, minchannels=2) # This works though. l1.rpc.multifundchannel(destinations, minchannels=1) @unittest.skipIf(TEST_NETWORK != 'regtest', 'elementsd doesnt yet support PSBT features we need') @pytest.mark.openchannel('v2') def test_v2_open_sigs_reconnect_2(node_factory, bitcoind): """ We test reconnect where L2 drops after sending their tx-sigs """ disconnects_2 = ['+WIRE_TX_SIGNATURES'] l1, l2 = node_factory.get_nodes(2, opts=[{'may_reconnect': True}, {'disconnect': disconnects_2, 'may_reconnect': True}]) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) amount = 2**24 chan_amount = 100000 bitcoind.rpc.sendtoaddress(l1.rpc.newaddr()['bech32'], amount / 10**8 + 0.01) bitcoind.generate_block(1) # Wait for it to arrive. wait_for(lambda: len(l1.rpc.listfunds()['outputs']) > 0) # Fund the channel, should disconnect after getting l2's sigs with pytest.raises(RpcError): l1.rpc.fundchannel(l2.info['id'], chan_amount) # peer reconnects, and we resend our sigs l1.daemon.wait_for_log('Peer has reconnected, state DUALOPEND_OPEN_COMMITTED') l1.daemon.wait_for_log('peer_out WIRE_TX_SIGNATURES') l1.daemon.wait_for_log('Broadcasting funding tx') l2.daemon.wait_for_log('Broadcasting funding tx') txid = l2.rpc.listpeerchannels(l1.info['id'])['channels'][0]['funding_txid'] bitcoind.generate_block(6, wait_for_mempool=txid) # Make sure we're ok. l1.daemon.wait_for_log(r'to CHANNELD_NORMAL') l2.daemon.wait_for_log(r'to CHANNELD_NORMAL') @unittest.skipIf(TEST_NETWORK != 'regtest', 'elementsd doesnt yet support PSBT features we need') @pytest.mark.openchannel('v2') def test_v2_open_sigs_reconnect_1(node_factory, bitcoind): """ We test reconnect where L2 drops while sending tx-sigs. Absolutely pure voodoo (the fundchannel command succeeds anyway after a reconnect) """ disconnects_2 = ['-WIRE_TX_SIGNATURES'] l1, l2 = node_factory.get_nodes(2, opts=[{'may_reconnect': True}, {'disconnect': disconnects_2, 'may_reconnect': True}]) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) amount = 2**24 chan_amount = 100000 bitcoind.rpc.sendtoaddress(l1.rpc.newaddr()['bech32'], amount / 10**8 + 0.01) bitcoind.generate_block(1) # Wait for it to arrive. wait_for(lambda: len(l1.rpc.listfunds()['outputs']) > 0) # Fund the channel, should disconnect after sending l2 sigs l1.rpc.fundchannel(l2.info['id'], chan_amount) # peer reconnects, and we resend our sigs l1.daemon.wait_for_logs(['peer_in WIRE_CHANNEL_REESTABLISH', 'peer_out WIRE_COMMITMENT_SIGNED', # Incredible that this works imo 'Unable to send our sigs, our psbt isn\'t signed', 'No channel open attempt/command!']) l2.daemon.wait_for_logs(['peer_in WIRE_CHANNEL_REESTABLISH', 'peer_out WIRE_COMMITMENT_SIGNED', 'peer_out WIRE_TX_SIGNATURES']) l1.daemon.wait_for_log('Broadcasting funding tx') l2.daemon.wait_for_log('Broadcasting funding tx') txid = l2.rpc.listpeerchannels(l1.info['id'])['channels'][0]['funding_txid'] bitcoind.generate_block(6, wait_for_mempool=txid) # Make sure we're ok. l1.daemon.wait_for_log(r'to CHANNELD_NORMAL') l2.daemon.wait_for_log(r'to CHANNELD_NORMAL') @unittest.skipIf(TEST_NETWORK != 'regtest', 'elementsd doesnt yet support PSBT features we need') @pytest.mark.openchannel('v2') def test_v2_open_sigs_out_of_order(node_factory, bitcoind): """ Test what happens if the tx-sigs get sent "before" commitment signed """ disconnects = ['$WIRE_COMMITMENT_SIGNED'] l1, l2 = node_factory.get_nodes(2, opts=[{}, {'disconnect': disconnects}]) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) amount = 2**24 chan_amount = 100000 bitcoind.rpc.sendtoaddress(l1.rpc.newaddr()['bech32'], amount / 10**8 + 0.01) bitcoind.generate_block(1) # Wait for it to arrive. wait_for(lambda: len(l1.rpc.listfunds()['outputs']) > 0) # Fund the channel, should error because L2 doesn't see our commitment-signed # so they think we've sent things out of order with pytest.raises(RpcError, match='tx_signatures sent before commitment sigs'): l1.rpc.fundchannel(l2.info['id'], chan_amount) # L1 should remove the in-progress channel wait_for(lambda: l1.rpc.listpeerchannels()['channels'] == []) # L2 should fail it to chain l2.daemon.wait_for_logs([r'to AWAITING_UNILATERAL', # We can't broadcast this, we don't have sigs for funding 'sendrawtx exit 25']) @pytest.mark.openchannel('v2') def test_v2_fail_second(node_factory, bitcoind): """ Open a channel succeeds; opening a second channel failure should not drop the connection """ l1, l2 = node_factory.line_graph(2, wait_for_announce=True) # Should have one channel between them. only_one(l1.rpc.listpeerchannels(l2.info['id'])['channels']) amount = 2**24 - 1 l1.fundwallet(amount + 10000000) # make sure we can generate PSBTs. addr = l1.rpc.newaddr()['bech32'] bitcoind.rpc.sendtoaddress(addr, (amount + 1000000) / 10**8) bitcoind.generate_block(1) wait_for(lambda: len(l1.rpc.listfunds()["outputs"]) != 0) # Some random (valid) psbt psbt = l1.rpc.fundpsbt(amount, '253perkw', 250, reserve=0)['psbt'] start = l1.rpc.openchannel_init(l2.info['id'], amount, psbt) # They will both see a pair of channels assert len(l1.rpc.listpeerchannels(l2.info['id'])['channels']) == 2 assert len(l2.rpc.listpeerchannels(l1.info['id'])['channels']) == 2 # We can abort a channel l1.rpc.openchannel_abort(start['channel_id']) # We should have deleted the 'in-progress' channel info only_one(l1.rpc.listpeerchannels(l2.info['id'])['channels']) only_one(l2.rpc.listpeerchannels(l1.info['id'])['channels']) # check that tx-abort was sent l1.daemon.wait_for_log(r'peer_out WIRE_TX_ABORT') l2.daemon.wait_for_log(r'peer_out WIRE_TX_ABORT') # Should be able to reattempt without reconnecting assert l1.rpc.getpeer(l2.info['id'])['connected'] start = l1.rpc.openchannel_init(l2.info['id'], amount, psbt) assert len(l1.rpc.listpeerchannels(l2.info['id'])['channels']) == 2 @unittest.skipIf(TEST_NETWORK != 'regtest', 'elementsd doesnt yet support PSBT features we need') @pytest.mark.openchannel('v2') def test_v2_open_sigs_restart_while_dead(node_factory, bitcoind): # Same thing as above, except the transaction mines # while we're asleep disconnects_1 = ['-WIRE_TX_SIGNATURES'] disconnects_2 = ['+WIRE_TX_SIGNATURES'] l1, l2 = node_factory.get_nodes(2, opts=[{'disconnect': disconnects_1, 'may_reconnect': True, 'may_fail': True}, {'disconnect': disconnects_2, 'may_reconnect': True, 'may_fail': True}]) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) amount = 2**24 chan_amount = 100000 bitcoind.rpc.sendtoaddress(l1.rpc.newaddr()['bech32'], amount / 10**8 + 0.01) bitcoind.generate_block(1) # Wait for it to arrive. wait_for(lambda: len(l1.rpc.listfunds()['outputs']) > 0) # Make a channel happen, with multiple disconnects! with pytest.raises(RpcError): l1.rpc.fundchannel(l2.info['id'], chan_amount) l1.daemon.wait_for_log('Broadcasting funding tx') l1.daemon.wait_for_log('sendrawtx exit 0') l2.daemon.wait_for_log('Broadcasting funding tx') l2.daemon.wait_for_log('sendrawtx exit 0') l1.stop() l2.stop() bitcoind.generate_block(6) l1.restart() l2.restart() # Make sure we're ok. l2.daemon.wait_for_log(r'to CHANNELD_NORMAL') l1.daemon.wait_for_log(r'to CHANNELD_NORMAL') @unittest.skipIf(TEST_NETWORK != 'regtest', 'elementsd doesnt yet support PSBT features we need') @pytest.mark.openchannel('v2') def test_v2_rbf_single(node_factory, bitcoind, chainparams): l1, l2 = node_factory.get_nodes(2) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) amount = 2**24 chan_amount = 100000 bitcoind.rpc.sendtoaddress(l1.rpc.newaddr()['bech32'], amount / 10**8 + 0.01) bitcoind.generate_block(1) # Wait for it to arrive. wait_for(lambda: len(l1.rpc.listfunds()['outputs']) > 0) res = l1.rpc.fundchannel(l2.info['id'], chan_amount) chan_id = res['channel_id'] vins = bitcoind.rpc.decoderawtransaction(res['tx'])['vin'] assert(only_one(vins)) prev_utxos = ["{}:{}".format(vins[0]['txid'], vins[0]['vout'])] # Check that we're waiting for lockin l1.daemon.wait_for_log(' to DUALOPEND_AWAITING_LOCKIN') next_feerate = find_next_feerate(l1, l2) # Check that feerate info is correct info_1 = only_one(l1.rpc.listpeerchannels(l2.info['id'])['channels']) assert info_1['initial_feerate'] == info_1['last_feerate'] rate = int(info_1['last_feerate'][:-5]) assert int(info_1['next_feerate'][:-5]) == rate * 65 // 64 # Initiate an RBF startweight = 42 + 172 # base weight, funding output initpsbt = l1.rpc.utxopsbt(chan_amount, next_feerate, startweight, prev_utxos, reservedok=True, min_witness_weight=110, excess_as_change=True) # Do the bump bump = l1.rpc.openchannel_bump(chan_id, chan_amount, initpsbt['psbt']) update = l1.rpc.openchannel_update(chan_id, bump['psbt']) assert update['commitments_secured'] # Check that feerate info has incremented info_2 = only_one(l1.rpc.listpeerchannels(l2.info['id'])['channels']) assert info_1['initial_feerate'] == info_2['initial_feerate'] assert info_1['next_feerate'] == info_2['last_feerate'] rate = int(info_2['last_feerate'][:-5]) assert int(info_2['next_feerate'][:-5]) == rate * 65 // 64 # Sign our inputs, and continue signed_psbt = l1.rpc.signpsbt(update['psbt'])['signed_psbt'] # Fails because we didn't put enough feerate in. with pytest.raises(RpcError, match=r'insufficient fee'): l1.rpc.openchannel_signed(chan_id, signed_psbt) # Do it again, with a higher feerate info_2 = only_one(l1.rpc.listpeerchannels(l2.info['id'])['channels']) assert info_1['initial_feerate'] == info_2['initial_feerate'] assert info_1['next_feerate'] == info_2['last_feerate'] rate = int(info_2['last_feerate'][:-5]) assert int(info_2['next_feerate'][:-5]) == rate * 65 // 64 # We 4x the feerate to beat the min-relay fee next_rate = '{}perkw'.format(rate * 65 // 64 * 4) # Gotta unreserve the psbt and re-reserve with higher feerate l1.rpc.unreserveinputs(initpsbt['psbt']) initpsbt = l1.rpc.utxopsbt(chan_amount, next_rate, startweight, prev_utxos, reservedok=True, min_witness_weight=110, excess_as_change=True) # Do the bump+sign bump = l1.rpc.openchannel_bump(chan_id, chan_amount, initpsbt['psbt'], funding_feerate=next_rate) update = l1.rpc.openchannel_update(chan_id, bump['psbt']) assert update['commitments_secured'] signed_psbt = l1.rpc.signpsbt(update['psbt'])['signed_psbt'] l1.rpc.openchannel_signed(chan_id, signed_psbt) bitcoind.generate_block(1) sync_blockheight(bitcoind, [l1]) l1.daemon.wait_for_log(' to CHANNELD_NORMAL') # Check that feerate info is gone info_1 = only_one(l1.rpc.listpeerchannels(l2.info['id'])['channels']) assert 'initial_feerate' not in info_1 assert 'last_feerate' not in info_1 assert 'next_feerate' not in info_1 # Shut l2 down, force close the channel. l2.stop() resp = l1.rpc.close(l2.info['id'], unilateraltimeout=1) assert resp['type'] == 'unilateral' l1.daemon.wait_for_log(' to CHANNELD_SHUTTING_DOWN') l1.daemon.wait_for_log('sendrawtx exit 0') @unittest.skipIf(TEST_NETWORK != 'regtest', 'elementsd doesnt yet support PSBT features we need') @pytest.mark.openchannel('v2') def test_v2_rbf_abort_retry(node_factory, bitcoind, chainparams): l1, l2 = node_factory.get_nodes(2, opts={'allow_warning': True}) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) amount = 2**24 chan_amount = 100000 bitcoind.rpc.sendmany("", {l1.rpc.newaddr()['bech32']: amount / 10**8 + 0.01, l2.rpc.newaddr()['bech32']: amount / 10**8 + 0.01}) bitcoind.generate_block(1) # Wait for it to arrive. wait_for(lambda: len(l1.rpc.listfunds()['outputs']) > 0) wait_for(lambda: len(l2.rpc.listfunds()['outputs']) > 0) l1_utxos = ['{}:{}'.format(utxo['txid'], utxo['output']) for utxo in l1.rpc.listfunds()['outputs']] # setup l2 to dual-fund! l2.rpc.call('funderupdate', {'policy': 'match', 'policy_mod': 100, 'leases_only': False}) res = l1.rpc.fundchannel(l2.info['id'], chan_amount) chan_id = res['channel_id'] vins = bitcoind.rpc.decoderawtransaction(res['tx'])['vin'] prev_utxos = ["{}:{}".format(vin['txid'], vin['vout']) for vin in vins if "{}:{}".format(vin['txid'], vin['vout']) in l1_utxos] # Check that we're waiting for lockin l1.daemon.wait_for_log(' to DUALOPEND_AWAITING_LOCKIN') # Check that feerate info is correct info_1 = only_one(l1.rpc.listpeerchannels(l2.info['id'])['channels']) next_rate = "{}perkw".format(info_1['next_feerate'][:-5]) # Initiate an RBF startweight = 42 + 172 # base weight, funding output initpsbt = l1.rpc.utxopsbt(chan_amount, next_rate, startweight, prev_utxos, reservedok=True, min_witness_weight=110, excess_as_change=True) # Do the bump bump = l1.rpc.openchannel_bump(chan_id, chan_amount, initpsbt['psbt']) # We abort the channel mid-way throught the RBF l1.rpc.openchannel_abort(chan_id) with pytest.raises(RpcError): l1.rpc.openchannel_update(chan_id, bump['psbt']) # - initiate a channel open eclair -> cln # - wait for the transaction to be published # - eclair initiates rbf, and cancels it by sending tx_abort before exchanging commit_sig # - at that point everything looks good, cln echoes the tx_abort and stays connected # - eclair initiates another RBF attempt and sends tx_init_rbf: for some unknown reason, cln answers with channel_reestablish (??) followed by an error saying "Bad reestablish message: WIRE_TX_INIT_RBF" # attempt to initiate an RBF again info_1 = only_one(l1.rpc.listpeerchannels(l2.info['id'])['channels']) next_rate = "{}perkw".format(int(info_1['next_feerate'][:-5]) * 2) # Gotta unreserve the psbt and re-reserve with higher feerate l1.rpc.unreserveinputs(initpsbt['psbt']) initpsbt = l1.rpc.utxopsbt(chan_amount, next_rate, startweight, prev_utxos, reservedok=True, min_witness_weight=110, excess_as_change=True) # Do the bump+sign bump = l1.rpc.openchannel_bump(chan_id, chan_amount, initpsbt['psbt'], funding_feerate=next_rate) update = l1.rpc.openchannel_update(chan_id, bump['psbt']) signed_psbt = l1.rpc.signpsbt(update['psbt'])['signed_psbt'] l1.rpc.openchannel_signed(chan_id, signed_psbt) bitcoind.generate_block(1) sync_blockheight(bitcoind, [l1]) l1.daemon.wait_for_log(' to CHANNELD_NORMAL') assert not l1.daemon.is_in_log('WIRE_CHANNEL_REESTABLISH') assert not l2.daemon.is_in_log('WIRE_CHANNEL_REESTABLISH') @unittest.skipIf(TEST_NETWORK != 'regtest', 'elementsd doesnt yet support PSBT features we need') @pytest.mark.openchannel('v2') def test_v2_rbf_abort_channel_opens(node_factory, bitcoind, chainparams): l1, l2 = node_factory.get_nodes(2, opts={'wumbo': None, 'allow_warning': True}) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) amount = 2**24 chan_amount = 100000 bitcoind.rpc.sendmany("", {l1.rpc.newaddr()['bech32']: amount / 10**8 + 0.01, l2.rpc.newaddr()['bech32']: amount / 10**8 + 0.01}) bitcoind.generate_block(1) # Wait for it to arrive. wait_for(lambda: len(l1.rpc.listfunds()['outputs']) > 0) wait_for(lambda: len(l2.rpc.listfunds()['outputs']) > 0) l1_utxos = ['{}:{}'.format(utxo['txid'], utxo['output']) for utxo in l1.rpc.listfunds()['outputs']] # setup l2 to dual-fund! l2.rpc.call('funderupdate', {'policy': 'match', 'policy_mod': 100, 'leases_only': False}) res = l1.rpc.fundchannel(l2.info['id'], chan_amount) chan_id = res['channel_id'] vins = bitcoind.rpc.decoderawtransaction(res['tx'])['vin'] prev_utxos = ["{}:{}".format(vin['txid'], vin['vout']) for vin in vins if "{}:{}".format(vin['txid'], vin['vout']) in l1_utxos] # Check that we're waiting for lockin l1.daemon.wait_for_log(' to DUALOPEND_AWAITING_LOCKIN') # Check that feerate info is correct info_1 = only_one(l1.rpc.listpeerchannels(l2.info['id'])['channels']) next_rate = "{}perkw".format(info_1['next_feerate'][:-5]) # Initiate an RBF startweight = 42 + 172 # base weight, funding output initpsbt = l1.rpc.utxopsbt(chan_amount, next_rate, startweight, prev_utxos, reservedok=True, min_witness_weight=110, excess_as_change=True) # Do the bump bump = l1.rpc.openchannel_bump(chan_id, chan_amount, initpsbt['psbt']) # We abort the channel mid-way throught the RBF l1.rpc.openchannel_abort(chan_id) with pytest.raises(RpcError): l1.rpc.openchannel_update(chan_id, bump['psbt']) # When the original open tx is mined, we should still arrive at # NORMAL channel ops bitcoind.generate_block(1) sync_blockheight(bitcoind, [l1]) l1.daemon.wait_for_log(' to CHANNELD_NORMAL') @unittest.skipIf(TEST_NETWORK != 'regtest', 'elementsd doesnt yet support PSBT features we need') @pytest.mark.openchannel('v2') def test_v2_rbf_liquidity_ad(node_factory, bitcoind, chainparams): opts = {'funder-policy': 'match', 'funder-policy-mod': 100, 'lease-fee-base-sat': '100sat', 'lease-fee-basis': 100, 'experimental-anchors': None, 'may_reconnect': True} l1, l2 = node_factory.get_nodes(2, opts=opts) # what happens when we RBF? feerate = 2000 amount = 500000 l1.fundwallet(20000000) l2.fundwallet(20000000) # l1 leases a channel from l2 l1.rpc.connect(l2.info['id'], 'localhost', l2.port) rates = l1.rpc.dev_queryrates(l2.info['id'], amount, amount) chan_id = l1.rpc.fundchannel(l2.info['id'], amount, request_amt=amount, feerate='{}perkw'.format(feerate), compact_lease=rates['compact_lease'])['channel_id'] vins = [x for x in l1.rpc.listfunds()['outputs'] if x['reserved']] assert only_one(vins) prev_utxos = ["{}:{}".format(vins[0]['txid'], vins[0]['output'])] # Check that we're waiting for lockin l1.daemon.wait_for_log(' to DUALOPEND_AWAITING_LOCKIN') est_fees = calc_lease_fee(amount, feerate, rates) # This should be the accepter's amount fundings = only_one(l1.rpc.listpeerchannels()['channels'])['funding'] assert Millisatoshi(amount * 1000) == fundings['remote_funds_msat'] assert Millisatoshi(est_fees + amount * 1000) == fundings['local_funds_msat'] assert Millisatoshi(est_fees) == fundings['fee_paid_msat'] assert 'fee_rcvd_msat' not in fundings # rbf the lease with a higher amount rate = int(find_next_feerate(l1, l2)[:-5]) # We 4x the feerate to beat the min-relay fee next_feerate = '{}perkw'.format(rate * 4) # Restart the node between open + rbf; works as expected l1.restart() # Initiate an RBF startweight = 42 + 172 # base weight, funding output initpsbt = l1.rpc.utxopsbt(amount, next_feerate, startweight, prev_utxos, reservedok=True, min_witness_weight=110, excess_as_change=True)['psbt'] # reconnect after restart l1.rpc.connect(l2.info['id'], 'localhost', l2.port) # do the bump bump = l1.rpc.openchannel_bump(chan_id, amount, initpsbt, funding_feerate=next_feerate) update = l1.rpc.openchannel_update(chan_id, bump['psbt']) assert update['commitments_secured'] # Sign our inputs, and continue signed_psbt = l1.rpc.signpsbt(update['psbt'])['signed_psbt'] l1.rpc.openchannel_signed(chan_id, signed_psbt) # There's data in the datastore now (l2 only) assert l1.rpc.listdatastore() == {'datastore': []} only_one(l2.rpc.listdatastore("funder/{}".format(chan_id))['datastore']) # what happens when the channel opens? bitcoind.generate_block(6) l1.daemon.wait_for_log('to CHANNELD_NORMAL') # Datastore should be cleaned up! assert l1.rpc.listdatastore() == {'datastore': []} wait_for(lambda: l2.rpc.listdatastore() == {'datastore': []}) # This should be the accepter's amount fundings = only_one(l1.rpc.listpeerchannels()['channels'])['funding'] # The is still there! assert Millisatoshi(amount * 1000) == Millisatoshi(fundings['remote_funds_msat']) wait_for(lambda: [c['active'] for c in l1.rpc.listchannels(l1.get_channel_scid(l2))['channels']] == [True, True]) # send some payments, mine a block or two inv = l2.rpc.invoice(10**4, '1', 'no_1') l1.rpc.pay(inv['bolt11']) # l2 attempts to close a channel that it leased, should succeed # (channel isnt leased) l2.rpc.close(l1.get_channel_scid(l2)) l1.daemon.wait_for_log('State changed from CLOSINGD_SIGEXCHANGE to CLOSINGD_COMPLETE') @unittest.skipIf(TEST_NETWORK != 'regtest', 'elementsd doesnt yet support PSBT features we need') @pytest.mark.openchannel('v2') def test_v2_rbf_multi(node_factory, bitcoind, chainparams): l1, l2 = node_factory.get_nodes(2, opts={'may_reconnect': True, 'dev-no-reconnect': None, 'allow_warning': True}) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) amount = 2**24 chan_amount = 100000 bitcoind.rpc.sendtoaddress(l1.rpc.newaddr()['bech32'], amount / 10**8 + 0.01) bitcoind.generate_block(1) # Wait for it to arrive. wait_for(lambda: len(l1.rpc.listfunds()['outputs']) > 0) res = l1.rpc.fundchannel(l2.info['id'], chan_amount) chan_id = res['channel_id'] vins = bitcoind.rpc.decoderawtransaction(res['tx'])['vin'] assert(only_one(vins)) prev_utxos = ["{}:{}".format(vins[0]['txid'], vins[0]['vout'])] # Check that we're waiting for lockin l1.daemon.wait_for_log(' to DUALOPEND_AWAITING_LOCKIN') # Attempt to do abort, should fail since we've # already gotten an inflight with pytest.raises(RpcError): l1.rpc.openchannel_abort(chan_id) rate = int(find_next_feerate(l1, l2)[:-5]) # We 4x the feerate to beat the min-relay fee next_feerate = '{}perkw'.format(rate * 4) # Initiate an RBF startweight = 42 + 172 # base weight, funding output initpsbt = l1.rpc.utxopsbt(chan_amount, next_feerate, startweight, prev_utxos, reservedok=True, min_witness_weight=110, excess_as_change=True) # Do the bump bump = l1.rpc.openchannel_bump(chan_id, chan_amount, initpsbt['psbt'], funding_feerate=next_feerate) # Abort this open attempt! We will re-try aborted = l1.rpc.openchannel_abort(chan_id) assert not aborted['channel_canceled'] # We no longer disconnect on aborts, because magic! assert only_one(l1.rpc.listpeers()['peers'])['connected'] # Do the bump, again, same feerate bump = l1.rpc.openchannel_bump(chan_id, chan_amount, initpsbt['psbt'], funding_feerate=next_feerate) update = l1.rpc.openchannel_update(chan_id, bump['psbt']) assert update['commitments_secured'] # Sign our inputs, and continue signed_psbt = l1.rpc.signpsbt(update['psbt'])['signed_psbt'] l1.rpc.openchannel_signed(chan_id, signed_psbt) # We 2x the feerate to beat the min-relay fee rate = int(find_next_feerate(l1, l2)[:-5]) next_feerate = '{}perkw'.format(rate * 2) # Initiate another RBF, double the channel amount this time startweight = 42 + 172 # base weight, funding output initpsbt = l1.rpc.utxopsbt(chan_amount * 2, next_feerate, startweight, prev_utxos, reservedok=True, min_witness_weight=110, excess_as_change=True) # Do the bump bump = l1.rpc.openchannel_bump(chan_id, chan_amount * 2, initpsbt['psbt'], funding_feerate=next_feerate) update = l1.rpc.openchannel_update(chan_id, bump['psbt']) assert update['commitments_secured'] # Sign our inputs, and continue signed_psbt = l1.rpc.signpsbt(update['psbt'])['signed_psbt'] l1.rpc.openchannel_signed(chan_id, signed_psbt) bitcoind.generate_block(1) sync_blockheight(bitcoind, [l1]) l1.daemon.wait_for_log(' to CHANNELD_NORMAL') @unittest.skipIf(TEST_NETWORK != 'regtest', 'elementsd doesnt yet support PSBT features we need') @pytest.mark.openchannel('v2') def test_rbf_reconnect_init(node_factory, bitcoind, chainparams): disconnects = ['-WIRE_TX_INIT_RBF', '+WIRE_TX_INIT_RBF'] l1, l2 = node_factory.get_nodes(2, opts=[{'disconnect': disconnects, 'may_reconnect': True}, {'may_reconnect': True}]) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) amount = 2**24 chan_amount = 100000 bitcoind.rpc.sendtoaddress(l1.rpc.newaddr()['bech32'], amount / 10**8 + 0.01) bitcoind.generate_block(1) # Wait for it to arrive. wait_for(lambda: len(l1.rpc.listfunds()['outputs']) > 0) res = l1.rpc.fundchannel(l2.info['id'], chan_amount) chan_id = res['channel_id'] vins = bitcoind.rpc.decoderawtransaction(res['tx'])['vin'] assert(only_one(vins)) prev_utxos = ["{}:{}".format(vins[0]['txid'], vins[0]['vout'])] # Check that we're waiting for lockin l1.daemon.wait_for_log(' to DUALOPEND_AWAITING_LOCKIN') next_feerate = find_next_feerate(l1, l2) # Initiate an RBF startweight = 42 + 172 # base weight, funding output initpsbt = l1.rpc.utxopsbt(chan_amount, next_feerate, startweight, prev_utxos, reservedok=True, min_witness_weight=110, excess_as_change=True) # Do the bump!? for d in disconnects: l1.rpc.connect(l2.info['id'], 'localhost', l2.port) with pytest.raises(RpcError): l1.rpc.openchannel_bump(chan_id, chan_amount, initpsbt['psbt']) assert l1.rpc.getpeer(l2.info['id']) is not None # This should succeed l1.rpc.connect(l2.info['id'], 'localhost', l2.port) l1.rpc.openchannel_bump(chan_id, chan_amount, initpsbt['psbt']) @unittest.skipIf(TEST_NETWORK != 'regtest', 'elementsd doesnt yet support PSBT features we need') @pytest.mark.openchannel('v2') def test_rbf_reconnect_ack(node_factory, bitcoind, chainparams): disconnects = ['-WIRE_TX_ACK_RBF', '+WIRE_TX_ACK_RBF'] l1, l2 = node_factory.get_nodes(2, opts=[{'may_reconnect': True}, {'disconnect': disconnects, 'may_reconnect': True}]) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) amount = 2**24 chan_amount = 100000 bitcoind.rpc.sendtoaddress(l1.rpc.newaddr()['bech32'], amount / 10**8 + 0.01) bitcoind.generate_block(1) # Wait for it to arrive. wait_for(lambda: len(l1.rpc.listfunds()['outputs']) > 0) res = l1.rpc.fundchannel(l2.info['id'], chan_amount) chan_id = res['channel_id'] vins = bitcoind.rpc.decoderawtransaction(res['tx'])['vin'] assert(only_one(vins)) prev_utxos = ["{}:{}".format(vins[0]['txid'], vins[0]['vout'])] # Check that we're waiting for lockin l1.daemon.wait_for_log(' to DUALOPEND_AWAITING_LOCKIN') next_feerate = find_next_feerate(l1, l2) # Initiate an RBF startweight = 42 + 172 # base weight, funding output initpsbt = l1.rpc.utxopsbt(chan_amount, next_feerate, startweight, prev_utxos, reservedok=True, min_witness_weight=110, excess_as_change=True) # Do the bump!? for d in disconnects: l1.rpc.connect(l2.info['id'], 'localhost', l2.port) with pytest.raises(RpcError): l1.rpc.openchannel_bump(chan_id, chan_amount, initpsbt['psbt']) assert l1.rpc.getpeer(l2.info['id']) is not None # This should succeed l1.rpc.connect(l2.info['id'], 'localhost', l2.port) l1.rpc.openchannel_bump(chan_id, chan_amount, initpsbt['psbt']) @unittest.skipIf(TEST_NETWORK != 'regtest', 'elementsd doesnt yet support PSBT features we need') @pytest.mark.openchannel('v2') def test_rbf_reconnect_tx_construct(node_factory, bitcoind, chainparams): disconnects = ['=WIRE_TX_ADD_INPUT', # Initial funding succeeds '-WIRE_TX_ADD_INPUT', '+WIRE_TX_ADD_INPUT', '-WIRE_TX_ADD_OUTPUT', '+WIRE_TX_ADD_OUTPUT', '-WIRE_TX_COMPLETE', '+WIRE_TX_COMPLETE', '-WIRE_COMMITMENT_SIGNED', '+WIRE_COMMITMENT_SIGNED'] l1, l2 = node_factory.get_nodes(2, opts=[{'disconnect': disconnects, 'may_reconnect': True, 'dev-no-reconnect': None}, {'may_reconnect': True, 'dev-no-reconnect': None, 'allow_broken_log': True}]) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) amount = 2**24 chan_amount = 100000 bitcoind.rpc.sendtoaddress(l1.rpc.newaddr()['bech32'], amount / 10**8 + 0.01) bitcoind.generate_block(1) # Wait for it to arrive. wait_for(lambda: len(l1.rpc.listfunds()['outputs']) > 0) res = l1.rpc.fundchannel(l2.info['id'], chan_amount) chan_id = res['channel_id'] vins = bitcoind.rpc.decoderawtransaction(res['tx'])['vin'] assert(only_one(vins)) prev_utxos = ["{}:{}".format(vins[0]['txid'], vins[0]['vout'])] # Check that we're waiting for lockin l1.daemon.wait_for_log(' to DUALOPEND_AWAITING_LOCKIN') # rbf the lease with a higher amount rate = int(find_next_feerate(l1, l2)[:-5]) # We 4x the feerate to beat the min-relay fee next_feerate = '{}perkw'.format(rate * 4) # Initiate an RBF startweight = 42 + 172 # base weight, funding output initpsbt = l1.rpc.utxopsbt(chan_amount, next_feerate, startweight, prev_utxos, reservedok=True, min_witness_weight=110, excess_as_change=True) # Run through TX_ADD wires for d in disconnects[1:-4]: l1.rpc.connect(l2.info['id'], 'localhost', l2.port) with pytest.raises(RpcError): l1.rpc.openchannel_bump(chan_id, chan_amount, initpsbt['psbt']) wait_for(lambda: l1.rpc.getpeer(l2.info['id'])['connected'] is False) # The first TX_COMPLETE breaks l1.rpc.connect(l2.info['id'], 'localhost', l2.port) bump = l1.rpc.openchannel_bump(chan_id, chan_amount, initpsbt['psbt']) with pytest.raises(RpcError): update = l1.rpc.openchannel_update(chan_id, bump['psbt']) wait_for(lambda: l1.rpc.getpeer(l2.info['id'])['connected'] is False) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) # l1 should remember, l2 has forgotten # l2 should send tx-abort, to reset l2.daemon.wait_for_log(r'tx-abort: Sent next_funding_txid .* doesn\'t match ours .*') l1.daemon.wait_for_log(r'Cleaned up incomplete inflight') # abort doesn't cause a disconnect assert l1.rpc.getpeer(l2.info['id'])['connected'] # The next TX_COMPLETE break (both remember) + they break on the # COMMITMENT_SIGNED during the reconnect bump = l1.rpc.openchannel_bump(chan_id, chan_amount, initpsbt['psbt']) with pytest.raises(RpcError): update = l1.rpc.openchannel_update(chan_id, bump['psbt']) wait_for(lambda: l1.rpc.getpeer(l2.info['id'])['connected'] is False) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) l2.daemon.wait_for_logs([r'Got dualopend reestablish', r'No commitment, not sending our sigs']) l1.daemon.wait_for_logs([r'Got dualopend reestablish', r'No commitment, not sending our sigs', r'dev_disconnect: -WIRE_COMMITMENT_SIGNED', 'peer_disconnect_done']) assert not l1.rpc.getpeer(l2.info['id'])['connected'] l1.rpc.connect(l2.info['id'], 'localhost', l2.port) # COMMITMENT_SIGNED disconnects *during* the reconnect # We can't bump because the last negotiation is in the wrong state with pytest.raises(RpcError, match=r'Funding sigs for this channel not secured'): l1.rpc.openchannel_bump(chan_id, chan_amount, initpsbt['psbt']) # l2 reconnects, but doesn't have l1's commitment l2.daemon.wait_for_logs([r'Got dualopend reestablish', r'No commitment, not sending our sigs', # This is a BROKEN log, it's expected! r'dualopend daemon died before signed PSBT returned']) # We don't have the commtiments yet, there's no scratch_txid inflights = only_one(l1.rpc.listpeerchannels()['channels'])['inflight'] assert len(inflights) == 2 assert 'scratch_txid' not in inflights[1] # After reconnecting, we have a scratch txid! l1.rpc.connect(l2.info['id'], 'localhost', l2.port) wait_for(lambda: 'scratch_txid' in only_one(l1.rpc.listpeerchannels()['channels'])['inflight'][1]) # We can call update again! It should short-circuit this time :) update = l1.rpc.openchannel_update(chan_id, bump['psbt']) assert update['commitments_secured'] signed_psbt = l1.rpc.signpsbt(update['psbt'])['signed_psbt'] l1.rpc.openchannel_signed(chan_id, signed_psbt) l2.daemon.wait_for_log('Broadcasting funding tx') txid = l2.rpc.listpeerchannels(l1.info['id'])['channels'][0]['funding_txid'] bitcoind.generate_block(6, wait_for_mempool=txid) # Make sure we're ok. l1.daemon.wait_for_log(r'to CHANNELD_NORMAL') l2.daemon.wait_for_log(r'to CHANNELD_NORMAL') @unittest.skipIf(TEST_NETWORK != 'regtest', 'elementsd doesnt yet support PSBT features we need') @pytest.mark.openchannel('v2') def test_rbf_reconnect_tx_sigs(node_factory, bitcoind, chainparams): disconnects = ['=WIRE_TX_SIGNATURES', # Initial funding succeeds '-WIRE_TX_SIGNATURES', # When we send tx-sigs, RBF '=WIRE_TX_SIGNATURES', # When we reconnect '+WIRE_TX_SIGNATURES'] # When we RBF again l2_disconnects = ['=WIRE_TX_SIGNATURES', # Initial funding succeeds '-WIRE_TX_SIGNATURES', # Don't send L2 tx-sigs on RBF '=WIRE_TX_SIGNATURES', # When we reconnect '-WIRE_TX_SIGNATURES'] # Don't send when we RBF again l1, l2 = node_factory.get_nodes(2, opts=[{'disconnect': disconnects, 'may_reconnect': True}, {'disconnect': l2_disconnects, 'may_reconnect': True, # "dualopend daemon died before signed PSBT returned" # happens occassionally 'allow_broken_log': True}]) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) amount = 2**24 chan_amount = 100000 bitcoind.rpc.sendtoaddress(l1.rpc.newaddr()['bech32'], amount / 10**8 + 0.01) bitcoind.generate_block(1) # Wait for it to arrive. wait_for(lambda: len(l1.rpc.listfunds()['outputs']) > 0) res = l1.rpc.fundchannel(l2.info['id'], chan_amount) chan_id = res['channel_id'] vins = bitcoind.rpc.decoderawtransaction(res['tx'])['vin'] assert(only_one(vins)) prev_utxos = ["{}:{}".format(vins[0]['txid'], vins[0]['vout'])] # Check that we're waiting for lockin l1.daemon.wait_for_log('Broadcasting funding tx') l1.daemon.wait_for_log(' to DUALOPEND_AWAITING_LOCKIN') l2.daemon.wait_for_log('Broadcasting funding tx') rate = int(find_next_feerate(l1, l2)[:-5]) # We 4x the feerate to beat the min-relay fee next_feerate = '{}perkw'.format(rate * 4) # Initiate an RBF startweight = 42 + 172 # base weight, funding output initpsbt = l1.rpc.utxopsbt(chan_amount, next_feerate, startweight, prev_utxos, reservedok=True, min_witness_weight=110, excess_as_change=True) bump = l1.rpc.openchannel_bump(chan_id, chan_amount, initpsbt['psbt'], funding_feerate=next_feerate) update = l1.rpc.openchannel_update(chan_id, bump['psbt']) # Sign our inputs, and continue signed_psbt = l1.rpc.signpsbt(update['psbt'])['signed_psbt'] # First time we error when we send our sigs with pytest.raises(RpcError): l1.rpc.openchannel_signed(chan_id, signed_psbt) # Absolute chaos ensues as these guys disconnect/reconnect # when sending tx-sigs. By the end, both should have # broadcast a funding tx. l1.rpc.connect(l2.info['id'], 'localhost', l2.port) l1.daemon.wait_for_log('Broadcasting funding tx') l2.daemon.wait_for_log('Broadcasting funding tx') # mine a block bitcoind.generate_block(6, wait_for_mempool=1) sync_blockheight(bitcoind, [l1]) l1.daemon.wait_for_log(' to CHANNELD_NORMAL') # Check that they have matching funding txid l1_funding_txid = only_one(l1.rpc.listpeerchannels()['channels'])['funding_txid'] l2_funding_txid = only_one(l2.rpc.listpeerchannels()['channels'])['funding_txid'] assert l1_funding_txid == l2_funding_txid @unittest.skipIf(TEST_NETWORK != 'regtest', 'elementsd doesnt yet support PSBT features we need') @pytest.mark.openchannel('v2') def test_rbf_to_chain_before_commit(node_factory, bitcoind, chainparams): disconnects = ['=WIRE_TX_ADD_INPUT', # Initial funding succeeds '=WIRE_COMMITMENT_SIGNED', '-WIRE_COMMITMENT_SIGNED'] l1, l2 = node_factory.get_nodes(2, opts=[{'disconnect': disconnects, 'may_reconnect': True, 'dev-no-reconnect': None}, {'may_reconnect': True, 'dev-no-reconnect': None, 'allow_broken_log': True}]) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) amount = 2**24 chan_amount = 100000 bitcoind.rpc.sendtoaddress(l1.rpc.newaddr()['bech32'], amount / 10**8 + 0.01) bitcoind.generate_block(1) # Wait for it to arrive. wait_for(lambda: len(l1.rpc.listfunds()['outputs']) > 0) res = l1.rpc.fundchannel(l2.info['id'], chan_amount) chan_id = res['channel_id'] vins = bitcoind.rpc.decoderawtransaction(res['tx'])['vin'] assert(only_one(vins)) prev_utxos = ["{}:{}".format(vins[0]['txid'], vins[0]['vout'])] # Check that we're waiting for lockin l1.daemon.wait_for_log(' to DUALOPEND_AWAITING_LOCKIN') # rbf the lease with a higher amount rate = int(find_next_feerate(l1, l2)[:-5]) # We 4x the feerate to beat the min-relay fee next_feerate = '{}perkw'.format(rate * 4) # Initiate an RBF startweight = 42 + 172 # base weight, funding output initpsbt = l1.rpc.utxopsbt(chan_amount, next_feerate, startweight, prev_utxos, reservedok=True, min_witness_weight=110, excess_as_change=True) # Peers try RBF, break on initial COMMITMENT_SIGNED bump = l1.rpc.openchannel_bump(chan_id, chan_amount, initpsbt['psbt']) with pytest.raises(RpcError): l1.rpc.openchannel_update(chan_id, bump['psbt']) wait_for(lambda: l1.rpc.getpeer(l2.info['id'])['connected'] is False) # We don't have the commtiments yet, there's no scratch_txid inflights = only_one(l1.rpc.listpeerchannels()['channels'])['inflight'] assert len(inflights) == 2 assert 'scratch_txid' not in inflights[1] # Close the channel! l1.rpc.close(chan_id, 1) l1.daemon.wait_for_logs(['Broadcasting txid {}'.format(inflights[0]['scratch_txid']), 'sendrawtx exit 0']) wait_for(lambda: inflights[0]['scratch_txid'] in bitcoind.rpc.getrawmempool()) assert inflights[0]['funding_txid'] in bitcoind.rpc.getrawmempool() assert inflights[1]['funding_txid'] not in bitcoind.rpc.getrawmempool() @unittest.skipIf(TEST_NETWORK != 'regtest', 'elementsd doesnt yet support PSBT features we need') @pytest.mark.openchannel('v2') def test_rbf_no_overlap(node_factory, bitcoind, chainparams): l1, l2 = node_factory.get_nodes(2, opts={'allow_warning': True}) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) amount = 2**24 chan_amount = 100000 bitcoind.rpc.sendtoaddress(l1.rpc.newaddr()['bech32'], amount / 10**8 + 0.01) bitcoind.rpc.sendtoaddress(l1.rpc.newaddr()['bech32'], amount / 10**8 + 0.01) bitcoind.generate_block(1) # Wait for it to arrive. wait_for(lambda: len(l1.rpc.listfunds()['outputs']) > 0) res = l1.rpc.fundchannel(l2.info['id'], chan_amount) chan_id = res['channel_id'] # Check that we're waiting for lockin l1.daemon.wait_for_log(' to DUALOPEND_AWAITING_LOCKIN') next_feerate = find_next_feerate(l1, l2) # Initiate an RBF (this grabs the non-reserved utxo, which isnt the # one we started with) startweight = 42 + 172 # base weight, funding output initpsbt = l1.rpc.fundpsbt(chan_amount, next_feerate, startweight, min_witness_weight=110, excess_as_change=True) # Do the bump bump = l1.rpc.openchannel_bump(chan_id, chan_amount, initpsbt['psbt']) with pytest.raises(RpcError, match='No overlapping input present.'): l1.rpc.openchannel_update(chan_id, bump['psbt']) @unittest.skipIf(TEST_NETWORK != 'regtest', 'elementsd doesnt yet support PSBT features we need') @pytest.mark.openchannel('v2') def test_rbf_fails_to_broadcast(node_factory, bitcoind, chainparams): l1, l2 = node_factory.get_nodes(2, opts={'allow_warning': True, 'may_reconnect': True}) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) amount = 2**24 chan_amount = 100000 bitcoind.rpc.sendtoaddress(l1.rpc.newaddr()['bech32'], amount / 10**8 + 0.01) bitcoind.generate_block(1) # Wait for it to arrive. wait_for(lambda: len(l1.rpc.listfunds()['outputs']) > 0) # Really low feerate means that the bump wont work the first time res = l1.rpc.fundchannel(l2.info['id'], chan_amount, feerate='253perkw') chan_id = res['channel_id'] vins = bitcoind.rpc.decoderawtransaction(res['tx'])['vin'] assert(only_one(vins)) prev_utxos = ["{}:{}".format(vins[0]['txid'], vins[0]['vout'])] # Check that we're waiting for lockin l1.daemon.wait_for_log(' to DUALOPEND_AWAITING_LOCKIN') inflights = only_one(l1.rpc.listpeerchannels()['channels'])['inflight'] assert inflights[-1]['funding_txid'] in bitcoind.rpc.getrawmempool() def run_retry(): startweight = 42 + 173 rate = int(find_next_feerate(l1, l2)[:-5]) # We 2x the feerate to beat the min-relay fee next_feerate = '{}perkw'.format(rate * 2) initpsbt = l1.rpc.utxopsbt(chan_amount, next_feerate, startweight, prev_utxos, reservedok=True, min_witness_weight=110, excess_as_change=True) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) bump = l1.rpc.openchannel_bump(chan_id, chan_amount, initpsbt['psbt'], funding_feerate=next_feerate) # We should be able to call this with while an open is progress # but not yet committed l1.rpc.dev_sign_last_tx(l2.info['id']) update = l1.rpc.openchannel_update(chan_id, bump['psbt']) assert update['commitments_secured'] return l1.rpc.signpsbt(update['psbt'])['signed_psbt'] signed_psbt = run_retry() l1.rpc.openchannel_signed(chan_id, signed_psbt) inflights = only_one(l1.rpc.listpeerchannels()['channels'])['inflight'] assert inflights[-1]['funding_txid'] in bitcoind.rpc.getrawmempool() # Restart and listpeers, used to crash l1.restart() l1.rpc.listpeers() # We've restarted. Let's RBF signed_psbt = run_retry() l1.rpc.openchannel_signed(chan_id, signed_psbt) inflights = only_one(l1.rpc.listpeerchannels()['channels'])['inflight'] assert len(inflights) == 3 assert inflights[-1]['funding_txid'] in bitcoind.rpc.getrawmempool() l1.restart() # Are inflights the same post restart prev_inflights = inflights inflights = only_one(l1.rpc.listpeerchannels()['channels'])['inflight'] assert prev_inflights == inflights assert inflights[-1]['funding_txid'] in bitcoind.rpc.getrawmempool() # Produce a signature for every inflight last_txs = l1.rpc.dev_sign_last_tx(l2.info['id']) assert len(last_txs['inflights']) == len(inflights) for last_tx, inflight in zip(last_txs['inflights'], inflights): assert last_tx['funding_txid'] == inflight['funding_txid'] assert last_txs['tx'] @unittest.skipIf(TEST_NETWORK != 'regtest', 'elementsd doesnt yet support PSBT features we need') @pytest.mark.openchannel('v2') def test_rbf_broadcast_close_inflights(node_factory, bitcoind, chainparams): """ Close a channel before it's mined, and the most recent transaction hasn't made it to the mempool. Should publish all the commitment transactions that we have. """ l1, l2 = node_factory.get_nodes(2, opts={'allow_warning': True}) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) amount = 2**24 chan_amount = 100000 bitcoind.rpc.sendtoaddress(l1.rpc.newaddr()['bech32'], amount / 10**8 + 0.01) bitcoind.generate_block(1) # Wait for it to arrive. wait_for(lambda: len(l1.rpc.listfunds()['outputs']) > 0) res = l1.rpc.fundchannel(l2.info['id'], chan_amount, feerate='7500perkw') chan_id = res['channel_id'] vins = bitcoind.rpc.decoderawtransaction(res['tx'])['vin'] assert(only_one(vins)) prev_utxos = ["{}:{}".format(vins[0]['txid'], vins[0]['vout'])] # Check that we're waiting for lockin l1.daemon.wait_for_log(' to DUALOPEND_AWAITING_LOCKIN') inflights = only_one(l1.rpc.listpeerchannels()['channels'])['inflight'] assert inflights[-1]['funding_txid'] in bitcoind.rpc.getrawmempool() # Make it such that l1 and l2 cannot broadcast transactions # (mimics failing to reach the miner with replacement) def censoring_sendrawtx(r): return {'id': r['id'], 'result': {}} l1.daemon.rpcproxy.mock_rpc('sendrawtransaction', censoring_sendrawtx) l2.daemon.rpcproxy.mock_rpc('sendrawtransaction', censoring_sendrawtx) def run_retry(): startweight = 42 + 173 next_feerate = find_next_feerate(l1, l2) initpsbt = l1.rpc.utxopsbt(chan_amount, next_feerate, startweight, prev_utxos, reservedok=True, min_witness_weight=110, excess_as_change=True) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) bump = l1.rpc.openchannel_bump(chan_id, chan_amount, initpsbt['psbt']) update = l1.rpc.openchannel_update(chan_id, bump['psbt']) assert update['commitments_secured'] return l1.rpc.signpsbt(update['psbt'])['signed_psbt'] signed_psbt = run_retry() l1.rpc.openchannel_signed(chan_id, signed_psbt) inflights = only_one(l1.rpc.listpeerchannels()['channels'])['inflight'] assert inflights[-1]['funding_txid'] not in bitcoind.rpc.getrawmempool() cmtmt_txid = only_one(l1.rpc.listpeerchannels()['channels'])['scratch_txid'] assert cmtmt_txid == inflights[-1]['scratch_txid'] # l2 goes offline l2.stop() # l1 drops to chain. l1.daemon.rpcproxy.mock_rpc('sendrawtransaction', None) l1.rpc.close(chan_id, 1) l1.daemon.wait_for_logs(['Broadcasting txid {}'.format(inflights[0]['scratch_txid']), 'Broadcasting txid {}'.format(inflights[1]['scratch_txid']), 'sendrawtx exit 0', 'sendrawtx exit 25']) assert inflights[0]['scratch_txid'] in bitcoind.rpc.getrawmempool() assert inflights[1]['scratch_txid'] not in bitcoind.rpc.getrawmempool() @unittest.skipIf(TEST_NETWORK != 'regtest', 'elementsd doesnt yet support PSBT features we need') @pytest.mark.openchannel('v2') def test_rbf_non_last_mined(node_factory, bitcoind, chainparams): """ What happens if a 'non-tip' RBF transaction is mined? """ l1, l2 = node_factory.get_nodes(2, opts={'allow_warning': True, 'may_reconnect': True}) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) amount = 2**24 chan_amount = 100000 bitcoind.rpc.sendtoaddress(l1.rpc.newaddr()['bech32'], amount / 10**8 + 0.01) bitcoind.generate_block(1) # Wait for it to arrive. wait_for(lambda: len(l1.rpc.listfunds()['outputs']) > 0) res = l1.rpc.fundchannel(l2.info['id'], chan_amount, feerate='7500perkw') chan_id = res['channel_id'] vins = bitcoind.rpc.decoderawtransaction(res['tx'])['vin'] assert(only_one(vins)) prev_utxos = ["{}:{}".format(vins[0]['txid'], vins[0]['vout'])] # Check that we're waiting for lockin l1.daemon.wait_for_log(' to DUALOPEND_AWAITING_LOCKIN') inflights = only_one(l1.rpc.listpeerchannels()['channels'])['inflight'] assert inflights[-1]['funding_txid'] in bitcoind.rpc.getrawmempool() def run_retry(): startweight = 42 + 173 rate = int(find_next_feerate(l1, l2)[:-5]) # We 2x the feerate to beat the min-relay fee next_feerate = '{}perkw'.format(rate * 2) initpsbt = l1.rpc.utxopsbt(chan_amount, next_feerate, startweight, prev_utxos, reservedok=True, min_witness_weight=110, excess_as_change=True) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) bump = l1.rpc.openchannel_bump(chan_id, chan_amount, initpsbt['psbt']) update = l1.rpc.openchannel_update(chan_id, bump['psbt']) assert update['commitments_secured'] return l1.rpc.signpsbt(update['psbt'])['signed_psbt'] # Make a second inflight signed_psbt = run_retry() l1.rpc.openchannel_signed(chan_id, signed_psbt) # Make it such that l1 and l2 cannot broadcast transactions # (mimics failing to reach the miner with replacement) def censoring_sendrawtx(r): return {'id': r['id'], 'result': {}} l1.daemon.rpcproxy.mock_rpc('sendrawtransaction', censoring_sendrawtx) l2.daemon.rpcproxy.mock_rpc('sendrawtransaction', censoring_sendrawtx) # Make a 3rd inflight that won't make it into the mempool signed_psbt = run_retry() l1.rpc.openchannel_signed(chan_id, signed_psbt) l1.daemon.rpcproxy.mock_rpc('sendrawtransaction', None) l2.daemon.rpcproxy.mock_rpc('sendrawtransaction', None) # We fetch out our inflights list inflights = only_one(l1.rpc.listpeerchannels()['channels'])['inflight'] # l2 goes offline l2.stop() # The funding transaction gets mined (should be the 2nd inflight) bitcoind.generate_block(6, wait_for_mempool=1) # l2 comes back up l2.start() # everybody's got the right things now l1.daemon.wait_for_log(r'to CHANNELD_NORMAL') l2.daemon.wait_for_log(r'to CHANNELD_NORMAL') channel = only_one(l1.rpc.listpeerchannels()['channels']) assert channel['funding_txid'] == inflights[1]['funding_txid'] assert channel['scratch_txid'] == inflights[1]['scratch_txid'] # We delete inflights when the channel is in normal ops assert 'inflights' not in channel # l2 stops, again l2.stop() # l1 drops to chain. l1.rpc.close(chan_id, 1) l1.daemon.wait_for_log('Broadcasting txid {}'.format(channel['scratch_txid'])) # The funding transaction gets mined (should be the 2nd inflight) bitcoind.generate_block(1, wait_for_mempool=1) l1.daemon.wait_for_log(r'to ONCHAIN') @unittest.skipIf(TEST_NETWORK != 'regtest', 'elementsd doesnt yet support PSBT features we need') @pytest.mark.openchannel('v2') def test_funder_options(node_factory, bitcoind): l1, l2, l3 = node_factory.get_nodes(3) l1.fundwallet(10**7) # Check the default options funder_opts = l1.rpc.call('funderupdate') assert funder_opts['policy'] == 'fixed' assert funder_opts['policy_mod'] == 0 assert funder_opts['min_their_funding_msat'] == Millisatoshi('10000000msat') assert funder_opts['max_their_funding_msat'] == Millisatoshi('4294967295000msat') assert funder_opts['per_channel_min_msat'] == Millisatoshi('10000000msat') assert funder_opts['per_channel_max_msat'] == Millisatoshi('4294967295000msat') assert funder_opts['reserve_tank_msat'] == Millisatoshi('0msat') assert funder_opts['fuzz_percent'] == 0 assert funder_opts['fund_probability'] == 100 assert funder_opts['leases_only'] # l2 funds a chanenl with us. We don't contribute l2.rpc.connect(l1.info['id'], 'localhost', l1.port) l2.fundchannel(l1, 10**6) chan_info = only_one(l2.rpc.listpeerchannels(l1.info['id'])['channels']) # l1 contributed nothing assert chan_info['funding']['remote_funds_msat'] == Millisatoshi('0msat') assert chan_info['funding']['local_funds_msat'] != Millisatoshi('0msat') # Change all the options funder_opts = l1.rpc.call('funderupdate', {'policy': 'available', 'policy_mod': 100, 'min_their_funding_msat': '100000msat', 'max_their_funding_msat': '2000000000msat', 'per_channel_min_msat': '8000000msat', 'per_channel_max_msat': '10000000000msat', 'reserve_tank_msat': '3000000msat', 'fund_probability': 99, 'fuzz_percent': 0, 'leases_only': False}) assert funder_opts['policy'] == 'available' assert funder_opts['policy_mod'] == 100 assert funder_opts['min_their_funding_msat'] == Millisatoshi('100000msat') assert funder_opts['max_their_funding_msat'] == Millisatoshi('2000000000msat') assert funder_opts['per_channel_min_msat'] == Millisatoshi('8000000msat') assert funder_opts['per_channel_max_msat'] == Millisatoshi('10000000000msat') assert funder_opts['reserve_tank_msat'] == Millisatoshi('3000000msat') assert funder_opts['fuzz_percent'] == 0 assert funder_opts['fund_probability'] == 99 # Set the fund probability back up to 100. funder_opts = l1.rpc.call('funderupdate', {'fund_probability': 100}) l3.rpc.connect(l1.info['id'], 'localhost', l1.port) l3.fundchannel(l1, 10**6) chan_info = only_one(l3.rpc.listpeerchannels(l1.info['id'])['channels']) log = l1.daemon.wait_for_log(r'Policy available \(100%\) returned funding amount of') match = re.search(r'Policy available \(100%\) returned funding amount of (\d*sat)', log) assert match and len(match.groups()) == 1 # l1 contributed all its funds! assert chan_info['funding']['remote_funds_msat'] == Millisatoshi(match.groups()[0]) assert chan_info['funding']['local_funds_msat'] == Millisatoshi('1000000000msat') @unittest.skipIf(TEST_NETWORK != 'regtest', 'elementsd doesnt yet support PSBT features we need') def test_funder_contribution_limits(node_factory, bitcoind): opts = {'experimental-dual-fund': None, 'feerates': (5000, 5000, 5000, 5000)} l1, l2, l3 = node_factory.get_nodes(3, opts=opts) # We do a lot of these, so do them all then mine all at once. addr, txid = l1.fundwallet(10**8, mine_block=False) l1msgs = ['Owning output .* txid {} CONFIRMED'.format(txid)] # Give l2 lots of utxos l2msgs = [] for amt in (10**3, # this one is too small to add 10**5, 10**4, 10**4, 10**4, 10**4, 10**4): addr, txid = l2.fundwallet(amt, mine_block=False) l2msgs.append('Owning output .* txid {} CONFIRMED'.format(txid)) # Give l3 lots of utxos l3msgs = [] for amt in (10**3, # this one is too small to add 10**4, 10**4, 10**4, 10**4, 10**4, 10**4, 10**4, 10**4, 10**4, 10**4, 10**4): addr, txid = l3.fundwallet(amt, mine_block=False) l3msgs.append('Owning output .* txid {} CONFIRMED'.format(txid)) bitcoind.generate_block(1) l1.daemon.wait_for_logs(l1msgs) l2.daemon.wait_for_logs(l2msgs) l3.daemon.wait_for_logs(l3msgs) # Contribute 100% of available funds to l2, all 6 utxos (smallest utxo # 10**3 is left out) l2.rpc.call('funderupdate', {'policy': 'available', 'policy_mod': 100, 'min_their_funding_msat': '1000msat', 'per_channel_min_msat': '1000000msat', 'fund_probability': 100, 'fuzz_percent': 0, 'leases_only': False}) # Set our contribution to 50k sat, should only use 6 of 12 available utxos l3.rpc.call('funderupdate', {'policy': 'fixed', 'policy_mod': '50000sat', 'min_their_funding_msat': '1000msat', 'per_channel_min_msat': '1000sat', 'per_channel_max_msat': '500000sat', 'fund_probability': 100, 'fuzz_percent': 0, 'leases_only': False}) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) l1.fundchannel(l2, 10**7) assert l2.daemon.is_in_log('Policy .* returned funding amount of 141780sat') assert l2.daemon.is_in_log(r'calling `signpsbt` .* 6 inputs') l1.rpc.connect(l3.info['id'], 'localhost', l3.port) l1.fundchannel(l3, 10**7) assert l3.daemon.is_in_log('Policy .* returned funding amount of 50000sat') assert l3.daemon.is_in_log(r'calling `signpsbt` .* 6 inputs') @pytest.mark.openchannel('v2') def test_inflight_dbload(node_factory, bitcoind): """Bad db field access breaks Postgresql on startup with opening leases""" disconnects = ["@WIRE_COMMITMENT_SIGNED"] opts = [{'experimental-dual-fund': None, 'dev-no-reconnect': None, 'may_reconnect': True, 'disconnect': disconnects, 'experimental-anchors': None}, {'experimental-dual-fund': None, 'dev-no-reconnect': None, 'may_reconnect': True, 'funder-policy': 'match', 'funder-policy-mod': 100, 'lease-fee-base-sat': '100sat', 'lease-fee-basis': 100, 'experimental-anchors': None}] l1, l2 = node_factory.get_nodes(2, opts=opts) feerate = 2000 amount = 500000 l1.fundwallet(20000000) l2.fundwallet(20000000) # l1 leases a channel from l2 l1.rpc.connect(l2.info['id'], 'localhost', l2.port) rates = l1.rpc.dev_queryrates(l2.info['id'], amount, amount) l1.rpc.fundchannel(l2.info['id'], amount, request_amt=amount, feerate='{}perkw'.format(feerate), compact_lease=rates['compact_lease']) l1.daemon.wait_for_log(r'dev_disconnect: @WIRE_COMMITMENT_SIGNED') l1.restart() def test_zeroconf_mindepth(bitcoind, node_factory): """Check that funder/fundee can customize mindepth. Zeroconf will use this to set the mindepth to 0, which coupled with an artificial depth=0 event that will result in an immediate `channel_ready` being sent. """ plugin_path = Path(__file__).parent / "plugins" / "zeroconf-selective.py" l1, l2 = node_factory.get_nodes(2, opts=[ {}, { 'plugin': str(plugin_path), 'zeroconf-allow': '0266e4598d1d3c415f572a8488830b60f7e744ed9235eb0b1ba93283b315c03518', 'zeroconf-mindepth': '2', }, ]) # Try to open a mindepth=6 channel l1.fundwallet(10**6) l1.connect(l2) assert (int(l1.rpc.listpeers()['peers'][0]['features'], 16) >> 50) & 0x02 != 0 # Now start the negotiation, l1 should have negotiated zeroconf, # and use their own mindepth=6, while l2 uses mindepth=2 from the # plugin l1.rpc.fundchannel(l2.info['id'], 'all', mindepth=6) assert l1.db.query('SELECT minimum_depth FROM channels') == [{'minimum_depth': 6}] assert l2.db.query('SELECT minimum_depth FROM channels') == [{'minimum_depth': 2}] bitcoind.generate_block(2, wait_for_mempool=1) # Confirm on the l2 side. l2.daemon.wait_for_log(r'peer_out WIRE_CHANNEL_READY') # l1 should not be sending channel_ready yet, it is # configured to wait for 6 confirmations. assert not l1.daemon.is_in_log(r'peer_out WIRE_CHANNEL_READY') bitcoind.generate_block(4) # Confirm on the l2 side. l1.daemon.wait_for_log(r'peer_out WIRE_CHANNEL_READY') wait_for(lambda: only_one(l1.rpc.listpeerchannels()['channels'])['state'] == "CHANNELD_NORMAL") wait_for(lambda: only_one(l2.rpc.listpeerchannels()['channels'])['state'] == "CHANNELD_NORMAL") def test_zeroconf_open(bitcoind, node_factory): """Let's open a zeroconf channel Just test that both parties opting in results in a channel that is immediately usable. """ plugin_path = Path(__file__).parent / "plugins" / "zeroconf-selective.py" # Without l0->l1, l2 doesn't add a routehint since l1 looks like a deadend l0, l1, l2 = node_factory.get_nodes(3, opts=[ {}, {}, { 'plugin': str(plugin_path), 'zeroconf-allow': '022d223620a359a47ff7f7ac447c85c46c923da53389221a0054c11c1e3ca31d59' }, ]) node_factory.join_nodes([l0, l1], wait_for_announce=True) # Try to open a mindepth=0 channel l1.fundwallet(10**6) l1.connect(l2) assert (int(l1.rpc.listpeers()['peers'][0]['features'], 16) >> 50) & 0x02 != 0 # Now start the negotiation, l1 should have negotiated zeroconf, # and use their own mindepth=6, while l2 uses mindepth=2 from the # plugin ret = l1.rpc.fundchannel(l2.info['id'], 'all', mindepth=0) assert ret['channel_type'] == {'bits': [12, 50], 'names': ['static_remotekey/even', 'zeroconf/even']} assert only_one(l1.rpc.listpeerchannels(l2.info['id'])['channels'])['channel_type'] == {'bits': [12, 50], 'names': ['static_remotekey/even', 'zeroconf/even']} assert l1.db.query('SELECT minimum_depth FROM channels WHERE minimum_depth != 1') == [{'minimum_depth': 0}] assert l2.db.query('SELECT minimum_depth FROM channels') == [{'minimum_depth': 0}] l1.daemon.wait_for_logs([ r'peer_in WIRE_CHANNEL_READY', r'Peer told us that they\'ll use alias=[0-9x]+ for this channel', ]) l2.daemon.wait_for_logs([ r'peer_in WIRE_CHANNEL_READY', r'Peer told us that they\'ll use alias=[0-9x]+ for this channel', ]) wait_for(lambda: [c['state'] for c in l1.rpc.listpeerchannels()['channels']] == ['CHANNELD_NORMAL'] * 2) wait_for(lambda: only_one(l2.rpc.listpeerchannels()['channels'])['state'] == 'CHANNELD_NORMAL') wait_for(lambda: l2.rpc.listincoming()['incoming'] != []) # Make sure l2 sees l0->l1 wait_for(lambda: l2.rpc.listchannels() != {'channels': []}) inv = l2.rpc.invoice(10**8, 'lbl', 'desc')['bolt11'] details = l1.rpc.decodepay(inv) pprint(details) assert('routes' in details and len(details['routes']) == 1) hop = details['routes'][0][0] # First (and only) hop of hint 0 l1alias = only_one(l1.rpc.listpeerchannels(l2.info['id'])['channels'])['alias']['local'] assert(hop['pubkey'] == l1.info['id']) # l1 is the entrypoint assert(hop['short_channel_id'] == l1alias) # Alias has to make sense to entrypoint l1.rpc.pay(inv) # Ensure lightningd knows about the balance change before # attempting the other way around. l2.daemon.wait_for_log(r'Balance [0-9]+msat -> [0-9]+msat') # Inverse payments should work too pprint(l2.rpc.listpeers()) inv = l1.rpc.invoice(10**5, 'lbl', 'desc')['bolt11'] l2.rpc.pay(inv) def test_zeroconf_public(bitcoind, node_factory, chainparams): """Test that we transition correctly from zeroconf to public The differences being that a public channel MUST use the public scid. l1 and l2 open a zeroconf channel, then l3 learns about it after 6 confirmations. """ plugin_path = Path(__file__).parent / "plugins" / "zeroconf-selective.py" coin_mvt_plugin = Path(__file__).parent / "plugins" / "coin_movements.py" l1, l2, l3 = node_factory.get_nodes(3, opts=[ {'plugin': str(coin_mvt_plugin)}, { 'plugin': str(plugin_path), 'zeroconf-allow': '0266e4598d1d3c415f572a8488830b60f7e744ed9235eb0b1ba93283b315c03518' }, {} ]) # Advances blockheight to 102 l1.fundwallet(10**6) push_msat = 20000 * 1000 l1.connect(l2) l1.rpc.fundchannel(l2.info['id'], 'all', mindepth=0, push_msat=push_msat) # Wait for the update to be signed (might not be the most reliable # signal) l1.daemon.wait_for_log(r'Got WIRE_HSMD_CUPDATE_SIG_REQ') l2.daemon.wait_for_log(r'Got WIRE_HSMD_CUPDATE_SIG_REQ') l1chan = only_one(l1.rpc.listpeerchannels()['channels']) l2chan = only_one(l2.rpc.listpeerchannels()['channels']) channel_id = l1chan['channel_id'] # We have no confirmation yet, so no `short_channel_id` assert('short_channel_id' not in l1chan) assert('short_channel_id' not in l2chan) # Channel is "proposed" chan_val = 993888000 if chainparams['elements'] else 996363000 l1_mvts = [ {'type': 'chain_mvt', 'credit_msat': chan_val, 'debit_msat': 0, 'tags': ['channel_proposed', 'opener']}, {'type': 'channel_mvt', 'credit_msat': 0, 'debit_msat': 20000000, 'tags': ['pushed'], 'fees_msat': '0msat'}, ] check_coin_moves(l1, l1chan['channel_id'], l1_mvts, chainparams) # Check that the channel_open event has blockheight of zero for n in [l1, l2]: evs = n.rpc.bkpr_listaccountevents(channel_id)['events'] open_ev = only_one([e for e in evs if e['tag'] == 'channel_proposed']) assert open_ev['blockheight'] == 0 # Call inspect, should have pending event in it tx = only_one(n.rpc.bkpr_inspect(channel_id)['txs']) assert 'blockheight' not in tx assert only_one(tx['outputs'])['output_tag'] == 'channel_proposed' # Now add 1 confirmation, we should get a `short_channel_id` (block 103) bitcoind.generate_block(1) l1.daemon.wait_for_log(r'Funding tx [a-f0-9]{64} depth 1 of 0') l2.daemon.wait_for_log(r'Funding tx [a-f0-9]{64} depth 1 of 0') l1chan = only_one(l1.rpc.listpeerchannels()['channels']) l2chan = only_one(l2.rpc.listpeerchannels()['channels']) assert('short_channel_id' in l1chan) assert('short_channel_id' in l2chan) # We also now have an 'open' event, the push event isn't re-recorded l1_mvts += [ {'type': 'chain_mvt', 'credit_msat': chan_val, 'debit_msat': 0, 'tags': ['channel_open', 'opener']}, ] check_coin_moves(l1, channel_id, l1_mvts, chainparams) # Check that there is a channel_open event w/ real blockheight for n in [l1, l2]: evs = n.rpc.bkpr_listaccountevents(channel_id)['events'] # Still has the channel-proposed event only_one([e for e in evs if e['tag'] == 'channel_proposed']) open_ev = only_one([e for e in evs if e['tag'] == 'channel_open']) assert open_ev['blockheight'] == 103 # Call inspect, should have open event in it tx = only_one(n.rpc.bkpr_inspect(channel_id)['txs']) assert tx['blockheight'] == 103 assert only_one(tx['outputs'])['output_tag'] == 'channel_open' # Now make it public, we should be switching over to the real # scid. bitcoind.generate_block(5) # Wait for l3 to learn about the channel, it'll have checked the # funding outpoint, scripts, etc. l3.connect(l1) wait_for(lambda: len(l3.rpc.listchannels()['channels']) == 2) # Close the zerconf channel, check that we mark it as onchain_resolved ok l1.rpc.close(l2.info['id']) bitcoind.generate_block(1, wait_for_mempool=1) # Channel should be marked resolved for n in [l1, l2]: wait_for(lambda: only_one([x for x in n.rpc.bkpr_listbalances()['accounts'] if x['account'] == channel_id])['account_resolved']) def test_zeroconf_forward(node_factory, bitcoind): """Ensure that we can use zeroconf channels in forwards. Test that we add routehints using the zeroconf channel, and then ensure that l2 uses the alias from the routehint to forward the payment. Then do the inverse by sending from l3 to l1, first hop being the zeroconf channel """ plugin_path = Path(__file__).parent / "plugins" / "zeroconf-selective.py" opts = [ {}, {}, { 'plugin': str(plugin_path), 'zeroconf-allow': '022d223620a359a47ff7f7ac447c85c46c923da53389221a0054c11c1e3ca31d59' } ] l1, l2, l3 = node_factory.get_nodes(3, opts=opts) l1.connect(l2) l1.fundchannel(l2, 10**6) bitcoind.generate_block(6) l2.connect(l3) l2.fundwallet(10**7) l2.rpc.fundchannel(l3.info['id'], 10**6, mindepth=0) wait_for(lambda: l3.rpc.listincoming()['incoming'] != []) # Make sure (esp in non-dev-mode) blockheights agree so we don't WIRE_EXPIRY_TOO_SOON... sync_blockheight(bitcoind, [l1, l2, l3]) inv = l3.rpc.invoice(42 * 10**6, 'inv1', 'desc')['bolt11'] l1.rpc.pay(inv) # And now try the other way around: zeroconf channel first # followed by a public one. # Make sure it l3 sees l1->l2 wait_for(lambda: len(l3.rpc.listchannels(source=l1.info['id'])['channels']) == 1) # Make sure all htlcs completely settled! wait_for(lambda: (p['htlcs'] == [] for p in l2.rpc.listpeerchannels()['channels'])) inv = l1.rpc.invoice(42, 'back1', 'desc')['bolt11'] l3.rpc.pay(inv) @pytest.mark.openchannel('v1') def test_buy_liquidity_ad_no_v2(node_factory, bitcoind): """ Test that you can't actually request amt for a node that doesn' support v2 opens """ l1, l2, = node_factory.get_nodes(2) amount = 500000 feerate = 2000 l1.fundwallet(amount * 100) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) # l1 leases a channel from l2 with pytest.raises(RpcError, match=r"Tried to buy a liquidity ad but we[(][?][)] don't have experimental-dual-fund enabled"): l1.rpc.fundchannel(l2.info['id'], amount, request_amt=amount, feerate='{}perkw'.format(feerate), compact_lease='029a002d000000004b2003e8') @pytest.mark.openchannel('v2') def test_v2_replay_bookkeeping(node_factory, bitcoind): """ Test that your bookkeeping for a liquidity ad is good even if we replay the opening and locking tx! """ opts = [{'funder-policy': 'match', 'funder-policy-mod': 100, 'lease-fee-base-sat': '100sat', 'lease-fee-basis': 100, 'rescan': 10, 'funding-confirms': 6, 'may_reconnect': True, 'experimental-anchors': None}, {'funder-policy': 'match', 'funder-policy-mod': 100, 'lease-fee-base-sat': '100sat', 'lease-fee-basis': 100, 'may_reconnect': True, 'experimental-anchors': None}] l1, l2, = node_factory.get_nodes(2, opts=opts) amount = 500000 feerate = 2000 l1.fundwallet(amount * 100) l2.fundwallet(amount * 100) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) rates = l1.rpc.dev_queryrates(l2.info['id'], amount, amount) # l1 leases a channel from l2 l1.rpc.fundchannel(l2.info['id'], amount, request_amt=amount, feerate='{}perkw'.format(feerate), compact_lease=rates['compact_lease']) # add the funding transaction bitcoind.generate_block(4, wait_for_mempool=1) l1.restart() bitcoind.generate_block(2) l1.daemon.wait_for_log('to CHANNELD_NORMAL') chan_id = first_channel_id(l1, l2) ev_tags = [e['tag'] for e in l1.rpc.bkpr_listaccountevents(chan_id)['events']] assert 'lease_fee' in ev_tags # This should work ok l1.rpc.bkpr_listbalances() bitcoind.generate_block(2) sync_blockheight(bitcoind, [l1]) l1.restart() chan_id = first_channel_id(l1, l2) ev_tags = [e['tag'] for e in l1.rpc.bkpr_listaccountevents(chan_id)['events']] assert 'lease_fee' in ev_tags l1.rpc.close(l2.info['id'], 1) bitcoind.generate_block(6, wait_for_mempool=1) l1.daemon.wait_for_log(' to ONCHAIN') l2.daemon.wait_for_log(' to ONCHAIN') # This should not crash l1.rpc.bkpr_listbalances() @pytest.mark.openchannel('v2') def test_buy_liquidity_ad_check_bookkeeping(node_factory, bitcoind): """ Test that your bookkeeping for a liquidity ad is good.""" opts = [{'funder-policy': 'match', 'funder-policy-mod': 100, 'lease-fee-base-sat': '100sat', 'lease-fee-basis': 100, 'rescan': 10, 'disable-plugin': 'bookkeeper', 'funding-confirms': 6, 'may_reconnect': True, 'experimental-anchors': None}, {'funder-policy': 'match', 'funder-policy-mod': 100, 'lease-fee-base-sat': '100sat', 'lease-fee-basis': 100, 'may_reconnect': True, 'experimental-anchors': None}] l1, l2, = node_factory.get_nodes(2, opts=opts) amount = 500000 feerate = 2000 l1.fundwallet(amount * 100) l2.fundwallet(amount * 100) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) rates = l1.rpc.dev_queryrates(l2.info['id'], amount, amount) # l1 leases a channel from l2 l1.rpc.fundchannel(l2.info['id'], amount, request_amt=amount, feerate='{}perkw'.format(feerate), compact_lease=rates['compact_lease']) # add the funding transaction bitcoind.generate_block(4, wait_for_mempool=1) l1.stop() del l1.daemon.opts['disable-plugin'] l1.start() bitcoind.generate_block(2) l1.daemon.wait_for_log('to CHANNELD_NORMAL') chan_id = first_channel_id(l1, l2) ev_tags = [e['tag'] for e in l1.rpc.bkpr_listaccountevents(chan_id)['events']] assert 'lease_fee' in ev_tags # This should work ok l1.rpc.bkpr_listbalances() l1.rpc.close(l2.info['id'], 1) bitcoind.generate_block(6, wait_for_mempool=1) l1.daemon.wait_for_log(' to ONCHAIN') l2.daemon.wait_for_log(' to ONCHAIN') # This should not crash l1.rpc.bkpr_listbalances() def test_scid_alias_private(node_factory, bitcoind): """Test that we don't allow use of real scid for scid_alias-type channels""" l1, l2, l3 = node_factory.line_graph(3, fundchannel=False, opts=[{}, {}, {'log-level': 'io'}]) l2.fundwallet(5000000) l2.rpc.fundchannel(l3.info['id'], 'all', announce=False) bitcoind.generate_block(1, wait_for_mempool=1) wait_for(lambda: only_one(l2.rpc.listpeerchannels(l3.info['id'])['channels'])['state'] == 'CHANNELD_NORMAL') chan = only_one(l2.rpc.listpeerchannels(l3.info['id'])['channels']) assert chan['private'] is True scid23 = chan['short_channel_id'] alias23 = chan['alias']['local'] # Create l1<->l2 channel, make sure l3 sees it so it will routehint via # l2 (otherwise it sees it as a deadend!) l1.fundwallet(5000000) l1.rpc.fundchannel(l2.info['id'], 'all') bitcoind.generate_block(6, wait_for_mempool=1) wait_for(lambda: len(l3.rpc.listchannels(source=l1.info['id'])['channels']) == 1) chan = only_one(l1.rpc.listpeerchannels(l2.info['id'])['channels']) assert chan['private'] is False scid12 = chan['short_channel_id'] # Make sure it sees both sides of private channel in gossmap! wait_for(lambda: 'remote' in only_one(l3.rpc.listpeerchannels(l2.info['id'])['channels'])['updates']) # BOLT #2: # - if `channel_type` has `option_scid_alias` set: # - MUST NOT use the real `short_channel_id` in BOLT 11 `r` fields. inv = l3.rpc.invoice(10, 'test_scid_alias_private', 'desc') assert only_one(only_one(l1.rpc.decode(inv['bolt11'])['routes']))['short_channel_id'] == alias23 # BOLT #2: # - if `channel_type` has `option_scid_alias` set: # - MUST NOT allow incoming HTLCs to this channel using the real `short_channel_id` route = [{'amount_msat': 11, 'id': l2.info['id'], 'delay': 12, 'channel': scid12}, {'amount_msat': 10, 'id': l3.info['id'], 'delay': 6, 'channel': scid23}] l1.rpc.sendpay(route, inv['payment_hash'], payment_secret=inv['payment_secret']) with pytest.raises(RpcError) as err: l1.rpc.waitsendpay(inv['payment_hash']) # PERM|10 WIRE_UNKNOWN_NEXT_PEER = 0x4000 | 10 assert err.value.error['data']['failcode'] == WIRE_UNKNOWN_NEXT_PEER assert err.value.error['data']['erring_node'] == l2.info['id'] assert err.value.error['data']['erring_channel'] == scid23 # BOLT #2 # - MUST always recognize the `alias` as a `short_channel_id` for incoming HTLCs to this channel. route[1]['channel'] = alias23 l1.rpc.sendpay(route, inv['payment_hash'], payment_secret=inv['payment_secret']) l1.rpc.waitsendpay(inv['payment_hash']) def test_zeroconf_multichan_forward(node_factory): """The freedom to choose the forward channel bytes us when it is 0conf Reported by Breez, we crashed when logging in `forward_htlc` when the replacement channel was a zeroconf channel. l2 -> l3 is a double channel with the zeroconf channel having a higher spendable msat, which should cause it to be chosen instead. """ node_id = '022d223620a359a47ff7f7ac447c85c46c923da53389221a0054c11c1e3ca31d59' plugin_path = Path(__file__).parent / "plugins" / "zeroconf-selective.py" l1, l2, l3 = node_factory.line_graph(3, opts=[ {}, {}, { 'plugin': str(plugin_path), 'zeroconf-allow': node_id, } ], fundamount=10**6, wait_for_announce=True) # Just making sure the allowlisted node_id matches. assert l2.info['id'] == node_id # Now create a channel that is twice as large as the real channel, # and don't announce it. l2.fundwallet(10**7) zeroconf_cid = l2.rpc.fundchannel(l3.info['id'], 2 * 10**6, mindepth=0)['channel_id'] l2.daemon.wait_for_log(r'peer_in WIRE_CHANNEL_READY') l3.daemon.wait_for_log(r'peer_in WIRE_CHANNEL_READY') inv = l3.rpc.invoice(amount_msat=10000, label='lbl1', description='desc')['bolt11'] l1.rpc.pay(inv) for c in l2.rpc.listpeerchannels(l3.info['id'])['channels']: if c['channel_id'] == zeroconf_cid: zeroconf_scid = c['alias']['local'] else: normal_scid = c['short_channel_id'] assert l2.daemon.is_in_log(r'Chose a better channel than {}: {}' .format(normal_scid, zeroconf_scid)) def test_zeroreserve(node_factory, bitcoind): """Ensure we can set the reserves. 3 nodes: - l1 enforces zeroreserve - l2 enforces default reserve - l3 enforces sub-dust reserves """ plugin_path = Path(__file__).parent / "plugins" / "zeroreserve.py" opts = [ { 'plugin': str(plugin_path), 'reserve': '0sat', 'dev-allowdustreserve': True, }, { 'dev-allowdustreserve': True, }, { 'plugin': str(plugin_path), 'reserve': '123sat', 'dev-allowdustreserve': True, } ] l1, l2, l3 = node_factory.get_nodes(3, opts=opts) l1.fundwallet(10**7) l2.fundwallet(10**7) l3.fundwallet(10**7) l1.connect(l2) l2.connect(l3) l3.connect(l1) l1.rpc.fundchannel(l2.info['id'], 10**6, reserve='0sat') l2.rpc.fundchannel(l3.info['id'], 10**6) l3.rpc.fundchannel(l1.info['id'], 10**6, reserve='321sat') bitcoind.generate_block(1, wait_for_mempool=3) wait_for(lambda: l1.channel_state(l2) == 'CHANNELD_NORMAL') wait_for(lambda: l2.channel_state(l3) == 'CHANNELD_NORMAL') wait_for(lambda: l3.channel_state(l1) == 'CHANNELD_NORMAL') # Now make sure we all agree on each others reserves l1c1 = l1.rpc.listpeerchannels(l2.info['id'])['channels'][0] l2c1 = l2.rpc.listpeerchannels(l1.info['id'])['channels'][0] l2c2 = l2.rpc.listpeerchannels(l3.info['id'])['channels'][0] l3c2 = l3.rpc.listpeerchannels(l2.info['id'])['channels'][0] l3c3 = l3.rpc.listpeerchannels(l1.info['id'])['channels'][0] l1c3 = l1.rpc.listpeerchannels(l3.info['id'])['channels'][0] # l1 imposed a 0sat reserve on l2, while l2 imposed the default 1% reserve on l1 assert l1c1['their_reserve_msat'] == l2c1['our_reserve_msat'] == Millisatoshi('0sat') assert l1c1['our_reserve_msat'] == l2c1['their_reserve_msat'] == Millisatoshi('10000sat') # l2 imposed the default 1% on l3, while l3 imposed a custom 123sat fee on l2 assert l2c2['their_reserve_msat'] == l3c2['our_reserve_msat'] == Millisatoshi('10000sat') assert l2c2['our_reserve_msat'] == l3c2['their_reserve_msat'] == Millisatoshi('123sat') # l3 imposed a custom 321sat fee on l1, while l1 imposed a custom 0sat fee on l3 assert l3c3['their_reserve_msat'] == l1c3['our_reserve_msat'] == Millisatoshi('321sat') assert l3c3['our_reserve_msat'] == l1c3['their_reserve_msat'] == Millisatoshi('0sat') # Now do some drain tests on c1, as that should be drainable # completely by l2 being the fundee l1.rpc.keysend(l2.info['id'], 10 * 7) # Something above dust for sure l2.drain(l1) # Remember that this is the reserve l1 imposed on l2, so l2 can drain completely l2c1 = l2.rpc.listpeerchannels(l1.info['id'])['channels'][0] # And despite us briefly being above dust (with a to_us output), # closing should result in the output being trimmed again since we # dropped below dust again. c = l2.rpc.close(l1.info['id']) decoded = bitcoind.rpc.decoderawtransaction(c['tx']) # Elements has a change output always assert len(decoded['vout']) == 1 if TEST_NETWORK == 'regtest' else 2 def test_zeroreserve_mixed(node_factory, bitcoind): """l1 runs with zeroreserve, l2 and l3 without, should still work Basically tests that l1 doesn't get upset when l2 allows us to drop below dust. """ plugin_path = Path(__file__).parent / "plugins" / "zeroreserve.py" opts = [ { 'plugin': str(plugin_path), 'reserve': '0sat', 'dev-allowdustreserve': True, }, { 'dev-allowdustreserve': False, }, { 'dev-allowdustreserve': False, } ] l1, l2, l3 = node_factory.get_nodes(3, opts=opts) l1.fundwallet(10**7) l3.fundwallet(10**7) l1.connect(l2) l3.connect(l1) l1.rpc.fundchannel(l2.info['id'], 10**6, reserve='0sat') l3.rpc.fundchannel(l1.info['id'], 10**6) def test_zeroreserve_alldust(node_factory): """If we allow dust reserves we need larger fundings This is because we might have up to allhtlcs = (local.max_concurrent_htlcs + remote.max_concurrent_htlcs) alldust = allhlcs * min(local.dust, remote.dust) allocated to HTLCs in flight, reducing both direct outputs to dust. This could leave us with no outs on the commitment, is therefore invalid. Parameters are as follows: - Regtest: - max_concurrent_htlcs = 483 - dust = 546sat - minfunding = (483 * 2 + 2) * 546sat = 528528sat - Mainnet: - max_concurrent_htlcs = 30 - dust = 546sat - minfunding = (30 * 2 + 2) * 546sat = 33852s """ plugin_path = Path(__file__).parent / "plugins" / "zeroreserve.py" l1, l2 = node_factory.get_nodes(2, opts=[{ 'plugin': plugin_path, 'reserve': '0sat', 'dev-allowdustreserve': True }] * 2) maxhtlc = 483 mindust = 546 minfunding = (maxhtlc * 2 + 2) * mindust l1.fundwallet(10**6) error = (f'channel funding {minfunding}sat too small for chosen parameters: ' f'a total of {maxhtlc * 2} HTLCs with dust value {mindust}sat would ' f'result in a commitment_transaction without outputs') # This is right on the edge, and should fail with pytest.raises(RpcError, match=error): l1.connect(l2) l1.rpc.fundchannel(l2.info['id'], minfunding) # Now try with just a bit more l1.connect(l2) l1.rpc.fundchannel(l2.info['id'], minfunding + 1) def test_coinbase_unspendable(node_factory, bitcoind): """ A node should not be able to spend a coinbase output before it's mature """ [l1] = node_factory.get_nodes(1) addr = l1.rpc.newaddr()["bech32"] bitcoind.rpc.generatetoaddress(1, addr) addr2 = l1.rpc.newaddr()["bech32"] # Wait til money in wallet wait_for(lambda: len(l1.rpc.listfunds()['outputs']) == 1) out = only_one(l1.rpc.listfunds()['outputs']) assert out['status'] == 'immature' with pytest.raises(RpcError, match='Could not afford all using all 0 available UTXOs'): l1.rpc.withdraw(addr2, "all") # Nothing sent to the mempool! assert len(bitcoind.rpc.getrawmempool()) == 0 # Mine 98 blocks bitcoind.rpc.generatetoaddress(98, l1.rpc.newaddr()['bech32']) assert len([out for out in l1.rpc.listfunds()['outputs'] if out['status'] == 'confirmed']) == 0 with pytest.raises(RpcError, match='Could not afford all using all 0 available UTXOs'): l1.rpc.withdraw(addr2, "all") # One more and the first coinbase unlocks bitcoind.rpc.generatetoaddress(1, l1.rpc.newaddr()['bech32']) wait_for(lambda: len(l1.rpc.listfunds()['outputs']) == 100) assert len([out for out in l1.rpc.listfunds()['outputs'] if out['status'] == 'confirmed']) == 1 l1.rpc.withdraw(addr2, "all") # One tx in the mempool now! assert len(bitcoind.rpc.getrawmempool()) == 1 # Mine one block, assert one more is spendable bitcoind.rpc.generatetoaddress(1, l1.rpc.newaddr()['bech32']) assert len([out for out in l1.rpc.listfunds()['outputs'] if out['status'] == 'confirmed']) == 1 @pytest.mark.openchannel('v2') def test_openchannel_no_confirmed_inputs_opener(node_factory, bitcoind): """ If the opener flags 'require-confirmed-inputs' for an open, and accepter sends unconfirmed inputs check that the accepter aborts the open """ l1_opts = {'funder-policy': 'match', 'funder-policy-mod': 100, 'lease-fee-base-sat': '100sat', 'lease-fee-basis': 100, 'may_reconnect': True, 'funder-lease-requests-only': False, 'allow_warning': True} l2_opts = l1_opts.copy() l1_opts['require-confirmed-inputs'] = True l1, l2 = node_factory.get_nodes(2, opts=[l1_opts, l2_opts]) assert l1.rpc.listconfigs()['configs']['require-confirmed-inputs']['value_bool'] is True amount = 500000 l1.fundwallet(20000000) l2.fundwallet(20000000) utxo_lookups = set() def _no_utxo_response(r): utxo_lookups.add(tuple(r['params'])) return {'id': r['id'], 'result': None} # We mock l1 out such that it thinks no inputs are confirmed l1.daemon.rpcproxy.mock_rpc('gettxout', _no_utxo_response) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) # l1 should return an error + abort the open as it thinks it's # sending unconfirmed inputs to a peer that's requested only # confirmed inputs with pytest.raises(RpcError, match=r'Input .* is not confirmed'): l1.rpc.fundchannel(l2.info['id'], amount) assert l1.daemon.is_in_log('validating psbt for role: accepter') # Verify that the looked up utxo is l2's # Build a set of outpoints for node (l2) outs = {(out['txid'], out['output']) for out in l2.rpc.listfunds()['outputs']} # Confirm that seen utxo lookups are a subset of l2's outpoints assert utxo_lookups <= outs wait_for(lambda: l1.rpc.listpeerchannels()['channels'] == []) wait_for(lambda: l2.rpc.listpeerchannels()['channels'] == []) @pytest.mark.openchannel('v2') def test_openchannel_no_unconfirmed_inputs_accepter(node_factory, bitcoind): """ If the accepter flags 'require-confirmed-inputs' for an open, and opener send unconfirmed inputs check that the accepter aborts the open """ l1_opts = {'funder-policy': 'match', 'funder-policy-mod': 100, 'lease-fee-base-sat': '100sat', 'lease-fee-basis': 100, 'may_reconnect': True, 'funder-lease-requests-only': False, 'allow_warning': True} l2_opts = l1_opts.copy() l2_opts['require-confirmed-inputs'] = True l1, l2 = node_factory.get_nodes(2, opts=[l1_opts, l2_opts]) assert l2.rpc.listconfigs()['configs']['require-confirmed-inputs']['value_bool'] is True amount = 500000 l1.fundwallet(20000000) l1.fundwallet(20000000) l2.fundwallet(20000000) utxo_lookups = set() def _verify_utxos(n, lookedup): # Build a set of outpoints for node (l2) outs = {(out['txid'], out['output']) for out in n.rpc.listfunds()['outputs']} # Confirm that seen utxo lookups are a subset of l2's outpoints assert lookedup <= outs lookedup.clear() def _no_utxo_response(r): utxo_lookups.add(tuple(r['params'])) # Check that the utxo belongs to l2 return {'id': r['id'], 'result': None} l1.daemon.rpcproxy.mock_rpc('gettxout', _no_utxo_response) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) # l1 should return an error + abort the open as it thinks it's # sending unconfirmed inputs to a peer that's requested only # confirmed inputs with pytest.raises(RpcError, match=r'Input .* is not confirmed'): l1.rpc.fundchannel(l2.info['id'], amount) _verify_utxos(l1, utxo_lookups) l1.daemon.rpcproxy.mock_rpc('gettxout', None) l2.daemon.rpcproxy.mock_rpc('gettxout', _no_utxo_response) # l2 should return an error + abort the open with pytest.raises(RpcError, match=r'Input .* is not confirmed'): l1.rpc.fundchannel(l2.info['id'], amount) _verify_utxos(l1, utxo_lookups) # Let's negotiate the open, remove option from l2, and then RBF # Turn the txout unconfirmed off, so we can open a channel l2.daemon.rpcproxy.mock_rpc('gettxout', None) res = l1.rpc.fundchannel(l2.info['id'], amount) l1.daemon.wait_for_log(' to DUALOPEND_AWAITING_LOCKIN') l2.daemon.wait_for_log(' to DUALOPEND_AWAITING_LOCKIN') # Remove option from l2 l2.stop() del l2.daemon.opts['require-confirmed-inputs'] l2.start() assert l2.rpc.listconfigs()['configs']['require-confirmed-inputs']['value_bool'] is False # Turn the mock back on so we pretend everything l1 sends is unconf l2.daemon.rpcproxy.mock_rpc('gettxout', _no_utxo_response) # Prep for RBF startweight = 42 + 172 # base weight, funding output next_feerate = find_next_feerate(l1, l2) psbt = l1.rpc.fundpsbt(amount, next_feerate, startweight, min_witness_weight=110, excess_as_change=True)['psbt'] # Attempt bump, fail. L2 should remember required-confirmed-inputs # from original channel negotiation, despite node-wide setting # being flagged off l1.rpc.connect(l2.info['id'], 'localhost', l2.port) bump = l1.rpc.openchannel_bump(res['channel_id'], amount, psbt) with pytest.raises(RpcError, match=r'Input .* is not confirmed'): l1.rpc.openchannel_update(res['channel_id'], bump['psbt']) _verify_utxos(l1, utxo_lookups) @unittest.skip("anchors not available") @pytest.mark.openchannel('v2') def test_no_anchor_liquidity_ads(node_factory, bitcoind): """ Liquidity ads requires anchors, which are no longer a requirement for dual-funded channels. """ l2_opts = {'funder-policy': 'match', 'funder-policy-mod': 100, 'lease-fee-base-sat': '100sat', 'lease-fee-basis': 100, 'may_reconnect': True, 'funder-lease-requests-only': False} l1_opts = l2_opts.copy() l1_opts['experimental-anchors'] = None l1, l2 = node_factory.get_nodes(2, opts=[l1_opts, l2_opts]) feerate = 2000 amount = 10**6 l1.fundwallet(10**8) l2.fundwallet(10**8) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) with pytest.raises(RpcError, match=r'liquidity ads not supported, no anchors.'): l1.rpc.fundchannel(l2.info['id'], amount, request_amt=amount, feerate='{}perkw'.format(feerate), compact_lease='029a002d000000004b2003e8') # But you can make it work without the liquidity ad request l1.rpc.connect(l2.info['id'], 'localhost', l2.port) l1.rpc.fundchannel(l2.info['id'], amount, feerate='{}perkw'.format(feerate)) # Confirm that we used the DUAL_FUND flow chan = only_one(only_one(l1.rpc.listpeers()['peers'])['channels']) assert chan['state'] == 'DUALOPEND_AWAITING_LOCKIN' assert chan['funding']['local_funds_msat'] == chan['funding']['remote_funds_msat'] assert 'option_anchor_outputs' not in chan['features'] @unittest.skipIf(TEST_NETWORK != 'regtest', 'elementsd has different feerates') @pytest.mark.parametrize("anchors", [False, True]) def test_commitment_feerate(bitcoind, node_factory, anchors): opts = {} if anchors: opts['experimental-anchors'] = None l1, l2 = node_factory.get_nodes(2, opts=opts) opening_feerate = 2000 if anchors: # anchors use lowball fees commitment_feerate = 3750 else: commitment_feerate = opening_feerate l1.fundwallet(10**8) l1.rpc.connect(l2.info['id'], 'localhost', l2.port) l1.rpc.fundchannel(l2.info['id'], 10**6, feerate=f'{opening_feerate}perkw') wait_for(lambda: bitcoind.rpc.getrawmempool() != []) tx = only_one([t for t in bitcoind.rpc.getrawmempool(True).values()]) feerate_perkw = int(tx['fees']['base'] * 100_000_000) / (tx['weight'] / 1000) assert opening_feerate - 10 < feerate_perkw < opening_feerate + 10 bitcoind.generate_block(1) l2.stop() l1.rpc.close(l2.info['id'], unilateraltimeout=1) # feerate for this will be the same wait_for(lambda: bitcoind.rpc.getrawmempool() != []) tx = only_one([t for t in bitcoind.rpc.getrawmempool(True).values()]) fee = int(tx['fees']['base'] * 100_000_000) # Weight is idealized worst case, and we don't meet it! if anchors: # 200 is the approximate cost estimate used for anchor outputs. assert tx['weight'] < 1124 - 200 else: assert tx['weight'] < 724 if anchors: # We pay for two anchors, but only produce one. fee -= 330 weight = 1124 else: weight = 724 feerate_perkw = fee / (weight / 1000) assert commitment_feerate - 10 < feerate_perkw < commitment_feerate + 10 @unittest.skipIf(TEST_NETWORK != 'regtest', 'elementsd has different tx costs') def test_anchor_min_emergency(bitcoind, node_factory): l1, l2 = node_factory.line_graph(2, opts={'experimental-anchors': None}, fundchannel=False) addr = l1.rpc.newaddr()['bech32'] bitcoind.rpc.sendtoaddress(addr, 5000000 / 10**8) bitcoind.generate_block(1, wait_for_mempool=1) wait_for(lambda: l1.rpc.listfunds()['outputs'] != []) # Cost of tx itself is 3637. with pytest.raises(RpcError, match=r'We would not have enough left for min-emergency-msat 25000sat'): l1.rpc.fundchannel(l2.info['id'], f'{5000000 - 3637}sat') l1.rpc.fundchannel(l2.info['id'], 'all') bitcoind.generate_block(1, wait_for_mempool=1) # Wait for l1 to see that spend. wait_for(lambda: len(l1.rpc.listfunds()['outputs']) == 1) # Default is 25000 sats. assert only_one(l1.rpc.listfunds()['outputs'])['amount_msat'] == Millisatoshi('25000sat') # And we can't spend it, either! addr2 = l2.rpc.newaddr()['bech32'] with pytest.raises(RpcError, match=r'We would not have enough left for min-emergency-msat 25000sat'): l1.rpc.withdraw(addr2, '500sat') with pytest.raises(RpcError, match=r'We would not have enough left for min-emergency-msat 25000sat'): l1.rpc.withdraw(addr2, 'all') # Make sure channeld tells gossipd about channel before we close, otherwise # we get spurious "bad gossip" complaints if l2 sends channel_updates. l1.daemon.wait_for_log("received private channel announcement from channeld") # Even with onchain anchor channel, it still keeps reserve (just in case!). l1.rpc.close(l2.info['id']) bitcoind.generate_block(1, wait_for_mempool=1) sync_blockheight(bitcoind, [l1]) # This workse, but will leave the emergency funds as change. l1.rpc.withdraw(addr2, 'all') bitcoind.generate_block(1, wait_for_mempool=1) sync_blockheight(bitcoind, [l1]) wait_for(lambda: [(o['amount_msat'], o['status']) for o in l1.rpc.listfunds()['outputs']] == [(Millisatoshi('25000sat'), 'confirmed')]) # Can't spend it! with pytest.raises(RpcError, match=r'We would not have enough left for min-emergency-msat 25000sat'): l1.rpc.withdraw(addr2, 'all') # Once it's totally forgotten, we can spend that! bitcoind.generate_block(99) wait_for(lambda: l1.rpc.listpeerchannels()['channels'] == []) # And it's *all* gone! l1.rpc.withdraw(addr2, 'all') bitcoind.generate_block(1, wait_for_mempool=1) wait_for(lambda: l1.rpc.listfunds()['outputs'] == []) def test_fundchannel_utxo_too_small(bitcoind, node_factory): l1, l2 = node_factory.get_nodes(2) # Add 1 600 sat UTXO to a fresh node bitcoind.rpc.sendtoaddress(l1.rpc.newaddr()['bech32'], 0.00000600) bitcoind.generate_block(1, wait_for_mempool=1) wait_for(lambda: len(l1.rpc.listfunds()['outputs']) == 1) # a higher fee rate, making the 600 sat UTXO uneconomical: l1.rpc.connect(l2.info['id'], 'localhost', l2.port) with pytest.raises(RpcError, match=r'Could not afford 100000sat using all 0 available UTXOs'): l1.rpc.fundchannel(l2.info['id'], 100000, 10000) @unittest.skipIf(TEST_NETWORK != 'regtest', 'elementsd doesnt yet support PSBT features we need') def test_opening_explicit_channel_type(node_factory, bitcoind): plugin_path = Path(__file__).parent / "plugins" / "zeroconf-selective.py" l1, l2, l3, l4 = node_factory.get_nodes(4, opts=[{'experimental-dual-fund': None, 'experimental-anchors': None}, {'experimental-anchors': None, 'plugin': str(plugin_path), 'zeroconf-allow': '0266e4598d1d3c415f572a8488830b60f7e744ed9235eb0b1ba93283b315c03518'}, {'experimental-dual-fund': None, 'experimental-anchors': None}, {'experimental-anchors': None}]) l1.fundwallet(FUNDAMOUNT) l1.connect(l2) l1.connect(l3) l1.connect(l4) STATIC_REMOTEKEY = 12 ANCHORS_OLD = 20 ANCHORS_ZERO_FEE_HTLC_TX = 22 ZEROCONF = 50 for zeroconf in ([], [ZEROCONF]): for ctype in ([STATIC_REMOTEKEY], [STATIC_REMOTEKEY, ANCHORS_ZERO_FEE_HTLC_TX]): ret = l1.rpc.fundchannel_start(l2.info['id'], FUNDAMOUNT, channel_type=ctype + zeroconf) assert ret['channel_type']['bits'] == ctype + zeroconf assert only_one(l1.rpc.listpeerchannels()['channels'])['channel_type']['bits'] == ctype + zeroconf # Note: l2 doesn't show it in listpeerchannels yet... l1.rpc.fundchannel_cancel(l2.info['id']) # Zeroconf is refused to l4. for ctype in ([STATIC_REMOTEKEY], [ANCHORS_ZERO_FEE_HTLC_TX, STATIC_REMOTEKEY]): with pytest.raises(RpcError, match=r'not on our allowlist'): l1.rpc.fundchannel_start(l4.info['id'], FUNDAMOUNT, channel_type=ctype + [ZEROCONF]) psbt = l1.rpc.fundpsbt(FUNDAMOUNT - 1000, '253perkw', 250, reserve=0)['psbt'] for ctype in ([STATIC_REMOTEKEY], [STATIC_REMOTEKEY, ANCHORS_ZERO_FEE_HTLC_TX]): ret = l1.rpc.openchannel_init(l3.info['id'], FUNDAMOUNT - 1000, psbt, channel_type=ctype) assert ret['channel_type']['bits'] == ctype assert only_one(l1.rpc.listpeerchannels()['channels'])['channel_type']['bits'] == ctype assert only_one(l3.rpc.listpeerchannels()['channels'])['channel_type']['bits'] == ctype l1.rpc.openchannel_abort(ret['channel_id']) # Old anchors not supported for new channels with pytest.raises(RpcError, match=r'channel_type not supported'): l1.rpc.fundchannel_start(l2.info['id'], FUNDAMOUNT, channel_type=[STATIC_REMOTEKEY, ANCHORS_OLD]) with pytest.raises(RpcError, match=r'channel_type not supported'): l1.rpc.openchannel_init(l3.info['id'], FUNDAMOUNT - 1000, psbt, channel_type=[STATIC_REMOTEKEY, ANCHORS_OLD]) # We need static_remotekey now, too with pytest.raises(RpcError, match=r'channel_type not supported'): l1.rpc.fundchannel_start(l2.info['id'], FUNDAMOUNT, channel_type=[]) with pytest.raises(RpcError, match=r'channel_type not supported'): l1.rpc.openchannel_init(l3.info['id'], FUNDAMOUNT - 1000, psbt, channel_type=[]) # l1 will try, with dev-any-channel-type, l2 will reject. l1.stop() l1.daemon.opts['dev-any-channel-type'] = None l1.start() l1.connect(l2) with pytest.raises(RpcError, match=r'They sent ERROR .*: You gave bad parameters: Did not support channel_type \[12,20\]'): l1.rpc.fundchannel_start(l2.info['id'], FUNDAMOUNT, channel_type=[STATIC_REMOTEKEY, ANCHORS_OLD]) # Now make l2 accept it! l2.stop() l2.daemon.opts['dev-any-channel-type'] = None l2.start() l1.connect(l2) ret = l1.rpc.fundchannel_start(l2.info['id'], FUNDAMOUNT, channel_type=[STATIC_REMOTEKEY, ANCHORS_OLD]) assert ret['channel_type']['bits'] == [STATIC_REMOTEKEY, ANCHORS_OLD] assert only_one(l1.rpc.listpeerchannels()['channels'])['channel_type']['bits'] == [STATIC_REMOTEKEY, ANCHORS_OLD] # Note: l3 doesn't show it in listpeerchannels yet... l1.rpc.fundchannel_cancel(l2.info['id']) l1.rpc.unreserveinputs(psbt) # Works with fundchannel / multifundchannel ret = l1.rpc.fundchannel(l2.info['id'], FUNDAMOUNT // 3, channel_type=[STATIC_REMOTEKEY]) assert ret['channel_type']['bits'] == [STATIC_REMOTEKEY] assert only_one(l1.rpc.listpeerchannels()['channels'])['channel_type']['bits'] == [STATIC_REMOTEKEY] assert only_one(l2.rpc.listpeerchannels()['channels'])['channel_type']['bits'] == [STATIC_REMOTEKEY] # FIXME: Check type is actually correct! # Mine that so we can spend change. bitcoind.generate_block(1, wait_for_mempool=1) wait_for(lambda: len(l1.rpc.listfunds()['outputs']) == 1) l1.connect(l3) ret = l1.rpc.fundchannel(l3.info['id'], FUNDAMOUNT // 3, channel_type=[STATIC_REMOTEKEY]) assert ret['channel_type']['bits'] == [STATIC_REMOTEKEY] assert only_one(l1.rpc.listpeerchannels(l3.info['id'])['channels'])['channel_type']['bits'] == [STATIC_REMOTEKEY] assert only_one(l3.rpc.listpeerchannels()['channels'])['channel_type']['bits'] == [STATIC_REMOTEKEY]