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from pyln.testing.utils import TEST_NETWORK, TIMEOUT, VALGRIND, DEVELOPER, DEPRECATED_APIS # noqa: F401
from pyln.testing.utils import env, only_one, wait_for, write_config, TailableProc, sync_blockheight, wait_channel_quiescent, get_tx_p2wsh_outnum # noqa: F401
import bitstring
from pyln.client import Millisatoshi
EXPERIMENTAL_FEATURES = env("EXPERIMENTAL_FEATURES", "0") == "1"
COMPAT = env("COMPAT", "1") == "1"
EXPERIMENTAL_DUAL_FUND = env("EXPERIMENTAL_DUAL_FUND", "0") == "1"
def hex_bits(features):
# We always to full bytes
flen = (max(features + [0]) + 7) // 8 * 8
res = bitstring.BitArray(length=flen)
# Big endian sucketh.
for f in features:
res[flen - 1 - f] = 1
return res.hex
def expected_peer_features(wumbo_channels=False, extra=[]):
"""Return the expected peer features hexstring for this configuration"""
features = [1, 5, 7, 9, 11, 13, 15, 17]
if EXPERIMENTAL_FEATURES:
# OPT_ONION_MESSAGES
features += [103]
# option_anchor_outputs
features += [21]
if wumbo_channels:
features += [19]
return hex_bits(features + extra)
# With the addition of the keysend plugin, we now send a different set of
# features for the 'node' and the 'peer' feature sets
def expected_node_features(wumbo_channels=False, extra=[]):
"""Return the expected node features hexstring for this configuration"""
features = [1, 5, 7, 9, 11, 13, 15, 17, 55]
if EXPERIMENTAL_FEATURES:
# OPT_ONION_MESSAGES
features += [103]
# option_anchor_outputs
features += [21]
if wumbo_channels:
features += [19]
return hex_bits(features + extra)
def expected_channel_features(wumbo_channels=False, extra=[]):
"""Return the expected channel features hexstring for this configuration"""
features = []
if EXPERIMENTAL_FEATURES:
# OPT_ONION_MESSAGES
features += [103]
return hex_bits(features + extra)
def move_matches(exp, mv):
if mv['type'] != exp['type']:
return False
if mv['credit'] != "{}msat".format(exp['credit']):
return False
if mv['debit'] != "{}msat".format(exp['debit']):
return False
if mv['tag'] != exp['tag']:
return False
return True
def check_coin_moves(n, account_id, expected_moves, chainparams):
moves = n.rpc.call('listcoinmoves_plugin')['coin_moves']
node_id = n.info['id']
acct_moves = [m for m in moves if m['account_id'] == account_id]
for mv in acct_moves:
print("{{'type': '{}', 'credit': {}, 'debit': {}, 'tag': '{}'}},"
.format(mv['type'],
Millisatoshi(mv['credit']).millisatoshis,
Millisatoshi(mv['debit']).millisatoshis,
mv['tag']))
assert mv['version'] == 1
assert mv['node_id'] == node_id
assert mv['timestamp'] > 0
assert mv['coin_type'] == chainparams['bip173_prefix']
# chain moves should have blockheights
if mv['type'] == 'chain_mvt':
assert mv['blockheight'] is not None
for num, m in enumerate(expected_moves):
# They can group things which are in any order.
if isinstance(m, list):
number_moves = len(m)
for acct_move in acct_moves[:number_moves]:
found = None
for i in range(len(m)):
if move_matches(m[i], acct_move):
found = i
break
if found is None:
raise ValueError("Unexpected move {} amongst {}".format(acct_move, m))
del m[i]
acct_moves = acct_moves[number_moves:]
else:
if not move_matches(m, acct_moves[0]):
raise ValueError("Unexpected move {}: {} != {}".format(num, acct_moves[0], m))
acct_moves = acct_moves[1:]
assert acct_moves == []
def check_coin_moves_idx(n):
""" Just check that the counter increments smoothly"""
moves = n.rpc.call('listcoinmoves_plugin')['coin_moves']
idx = 0
for m in moves:
c_idx = m['movement_idx']
# verify that the index count increments smoothly here, also
if c_idx == 0 and idx == 0:
continue
assert c_idx == idx + 1
idx = c_idx
def account_balance(n, account_id):
moves = n.rpc.call('listcoinmoves_plugin')['coin_moves']
chan_moves = [m for m in moves if m['account_id'] == account_id]
assert len(chan_moves) > 0
m_sum = 0
for m in chan_moves:
m_sum += int(m['credit'][:-4])
m_sum -= int(m['debit'][:-4])
return m_sum
def first_channel_id(n1, n2):
return only_one(only_one(n1.rpc.listpeers(n2.info['id'])['peers'])['channels'])['channel_id']
def basic_fee(feerate):
if EXPERIMENTAL_FEATURES:
# option_anchor_outputs
weight = 1124
else:
weight = 724
return (weight * feerate) // 1000