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lnd_assistant.py
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from collections import defaultdict
from pprint import pprint
from subprocess import Popen, PIPE
import json
import os
import pickle
import shlex
import time
def sat_to_btc(satoshi_as_string):
return int(satoshi_as_string) * 1e-8
class LndAssistant:
@staticmethod
def get_open_channels():
channels_info = json.loads(os.popen('lncli listchannels').read())
channels = channels_info['channels']
for ch in channels:
ch['local_ratio'] = float(ch['local_balance']) / float(ch['capacity'])
return channels
def __init__(self, days=7):
if len(os.popen('lncli walletbalance').read()) == 0:
raise PermissionError('lncli is locked or does not exist.')
self.days = days
## Node info.
self.my_node_info = json.loads(os.popen('lncli getinfo').read())
# my_node_info: { 'alias',
# 'best_header_timestamp',
# 'block_hash',
# 'block_height',
# 'chains',
# 'identity_pubkey',
# 'num_active_channels',
# 'num_inactive_channels',
# 'num_peers',
# 'num_pending_channels',
# 'synced_to_chain',
# 'testnet',
# 'uris',
# 'version' }
self.balance = json.loads(os.popen('lncli walletbalance').read())
# balance: { 'confirmed_balance',
# 'total_balance',
# 'unconfirmed_balance' }
## Network graph.
self.graph = json.loads(os.popen('lncli describegraph').read())
# graph['nodes']: { 'pub_key',
# 'alias',
# 'color',
# 'addresses': [ {'network',
# 'addr'} ],
# 'last_update'}
self.node_stats = { node['pub_key'] : { 'alias': node['alias'],
'addresses': node['addresses'],
'last_update': node['last_update'],
'capacity': 0.0,
'channels': 0, }
for node in self.graph['nodes'] }
# graph['edges']: { 'chan_point',
# 'capacity',
# 'channel_id',
# 'last_update',
# 'node1_pub',
# 'node2_pub',
# 'node1_policy': { 'min_htlc',
# 'fee_base_msat',
# 'disabled',
# 'fee_rate_milli_msat',
# 'time_lock_delta' },
# 'node2_policy': {...} }
for edge in self.graph['edges']:
for pubkey in [edge['node1_pub'], edge['node2_pub']]:
self.node_stats[pubkey]['channels'] += 1
self.node_stats[pubkey]['capacity'] += sat_to_btc(edge['capacity'])
## Forwarding events and routing channels.
day = 24 * 60 * 60
cmd = ('lncli fwdinghistory --max_events 50000 ' +
'--start_time=%d --end_time=%d') % (time.time() - self.days * day,
time.time() + day)
self.fwd_events = json.loads(os.popen(cmd).read())['forwarding_events']
# fwd_events: { 'amt_in',
# 'amt_out',
# 'chan_id_in',
# 'chan_id_out',
# 'fee',
# 'fee_msat',
# 'timestamp' }
self.chan_id_to_chan_fwd_events = {}
for event in self.fwd_events:
self.chan_id_to_chan_fwd_events[event['chan_id_in']] = { 'amt_in': [],
'amt_out': [], 'fee': [] }
self.chan_id_to_chan_fwd_events[event['chan_id_out']] = { 'amt_in': [],
'amt_out': [], 'fee': [] }
for event in self.fwd_events:
self.chan_id_to_chan_fwd_events[event['chan_id_in']]['amt_in'].append(
int(event['amt_in']))
self.chan_id_to_chan_fwd_events[event['chan_id_out']]['amt_out'].append(
int(event['amt_out']))
# TODO: maybe use float(event['fee_msat']) / 1000.0
self.chan_id_to_chan_fwd_events[event['chan_id_out']]['fee'].append(
int(event['fee']))
## Open channels.
channels_info = json.loads(os.popen('lncli listchannels').read())
self.channels = channels_info['channels']
# channels: { 'commit_fee',
# 'unsettled_balance',
# 'fee_per_kw',
# 'capacity',
# 'remote_pubkey',
# 'csv_delay',
# 'num_updates',
# 'commit_weight',
# 'private',
# 'remote_balance',
# 'total_satoshis_sent',
# 'pending_htlcs': [{ 'amount',
# 'incoming',
# 'expiration_height',
# 'hash_lock' }],
# 'chan_id',
# 'active',
# 'total_satoshis_received',
# 'channel_point',
# 'local_balance' }
## Closed channels.
closed_channels_info = json.loads(os.popen('lncli closedchannels').read())
self.closed_channels = closed_channels_info['channels']
# closed_channels: { 'capacity',
# 'chain_hash',
# 'chan_id',
# 'channel_point',
# 'close_height',
# 'close_type',
# 'closing_tx_hash',
# 'remote_pubkey',
# 'settled_balance',
# 'time_locked_balance' }
# close_type: set(['COOPERATIVE_CLOSE',
# 'LOCAL_FORCE_CLOSE',
# 'REMOTE_FORCE_CLOSE',
# 'FUNDING_CANCELED',
# 'BREACH_CLOSE'])
## Channel opening time (pickled, could be slow the first time called).
def update_txid_to_time(txid, txid_to_time):
if txid not in txid_to_time:
bitcoind_cmd = 'bitcoin-cli getrawtransaction %s 1' % (txid)
txinfo = json.loads(os.popen(bitcoind_cmd).read())
txid_to_time[txid] = txinfo['time']
try:
txid_to_time = pickle.load(open('lnd_assistant_txid_to_time.pkl', 'rb'))
except:
txid_to_time = {}
for ch in self.channels:
txid = ch['channel_point'][:ch['channel_point'].find(':')]
update_txid_to_time(txid, txid_to_time)
for ch in self.closed_channels:
if ch['close_type'] == 'FUNDING_CANCELED':
continue # These transactions are not recorded.
txid = ch['channel_point'][:ch['channel_point'].find(':')]
update_txid_to_time(txid, txid_to_time)
txid = ch['closing_tx_hash']
update_txid_to_time(txid, txid_to_time)
pickle.dump(txid_to_time, open('lnd_assistant_txid_to_time.pkl', 'wb'))
## Transactions.
transactions_info = json.loads(os.popen('lncli listchaintxns').read())
self.transactions = transactions_info['transactions']
self.tx_hash_to_transaction = { t['tx_hash'] : t
for t in self.transactions }
## Additional annotations for open channels.
def txid_by_me(txid, tx_hash_to_transaction):
return (txid in tx_hash_to_transaction and
tx_hash_to_transaction[txid]['amount'] != '0')
for ch in self.channels:
txid = ch['channel_point'][:ch['channel_point'].find(':')]
ch['opened_time'] = txid_to_time[txid]
ch['opened_by_me'] = txid_by_me(txid, self.tx_hash_to_transaction)
ch['local_ratio'] = float(ch['local_balance']) / float(ch['capacity'])
ch['used'] = ( int(ch['total_satoshis_received']) +
int(ch['total_satoshis_sent']) > 0 )
if ch['chan_id'] in self.chan_id_to_chan_fwd_events:
chan_fwd_events = self.chan_id_to_chan_fwd_events[ch['chan_id']]
ch['fwd_events'] = ( len(chan_fwd_events['amt_in']) +
len(chan_fwd_events['amt_out']) )
else:
ch['fwd_events'] = 0
ch['remote_alias'] = self.node_stats[ch['remote_pubkey']]['alias']
## Additional annotations for closed channels.
for ch in self.closed_channels:
if ch['close_type'] != 'FUNDING_CANCELED':
txid = ch['channel_point'][:ch['channel_point'].find(':')]
ch['opened_time'] = txid_to_time[txid]
ch['closed_time'] = txid_to_time[ch['closing_tx_hash']]
ch['channel_age'] = ch['closed_time'] - ch['opened_time']
ch['opened_by_me'] = txid_by_me(txid, self.tx_hash_to_transaction)
ch['closed_by_me'] = (ch['close_type'] == 'LOCAL_FORCE_CLOSE' or
txid_by_me(ch['closing_tx_hash'], self.tx_hash_to_transaction))
else:
ch['opened_time'] = 0
ch['closed_time'] = 0
ch['channel_age'] = 0
if ch['chan_id'] in self.chan_id_to_chan_fwd_events:
chan_fwd_events = self.chan_id_to_chan_fwd_events[ch['chan_id']]
ch['fwd_events'] = ( len(chan_fwd_events['amt_in']) +
len(chan_fwd_events['amt_out']) )
else:
ch['fwd_events'] = 0
if ch['remote_pubkey'] in self.node_stats:
ch['remote_alias'] = self.node_stats[ch['remote_pubkey']]['alias']
else:
ch['remote_alias'] = ch['remote_pubkey'][:30] + '...'
## Additional data structures for easier lookups.
self.chan_id_to_channel = { ch['chan_id'] : ch for ch in self.channels }
self.remote_pubkey_to_chan_ids = defaultdict(list)
for ch in self.channels:
self.remote_pubkey_to_chan_ids[ch['remote_pubkey']].append(ch['chan_id'])
self.closed_chan_id_to_channel = { ch['chan_id'] : ch
for ch in self.closed_channels }
self.closed_channel_point_to_channel = { ch['channel_point'] : ch
for ch in self.closed_channels }
self.remote_pubkey_to_closed_channel_point = defaultdict(list)
for ch in self.closed_channels:
self.remote_pubkey_to_closed_channel_point[ch['remote_pubkey']].append(
ch['channel_point'])
def old_unused_channels(self):
channels = [ ch for ch in self.channels if not ch['used'] ]
channels = sorted(channels, key=lambda ch: ch['opened_time'])
return channels
def routing_channels(self):
channels = []
for chan_id in self.chan_id_to_chan_fwd_events.keys():
if chan_id in self.chan_id_to_channel:
ch = self.chan_id_to_channel[chan_id]
elif chan_id in self.closed_chan_id_to_channel:
ch = self.closed_chan_id_to_channel[chan_id]
ch['local_ratio'] = '? (closed)'
else:
ch = { 'chan_id': chan_id, 'remote_alias': '?', 'opened_by_me': '?',
'capacity': '?', 'local_ratio': '?' }
chan_fwd_events = self.chan_id_to_chan_fwd_events[chan_id]
ch['fwd_events_in'] = len(chan_fwd_events['amt_in'])
ch['fwd_events_out'] = len(chan_fwd_events['amt_out'])
ch['fwd_events'] = ch['fwd_events_in'] + ch['fwd_events_out']
if ch['fwd_events_in'] > 0:
ch['avg_amt_in'] = int( sum(chan_fwd_events['amt_in']) /
len(chan_fwd_events['amt_in']) )
else:
ch['avg_amt_in'] = 0
if ch['fwd_events_out'] > 0:
ch['avg_amt_out'] = int( sum(chan_fwd_events['amt_out']) /
len(chan_fwd_events['amt_out']) )
else:
ch['avg_amt_out'] = 0
ch['fees'] = sum(chan_fwd_events['fee'])
channels.append(ch)
channels = sorted(channels, key=lambda ch: ch['fwd_events'], reverse=True)
return channels
def peers_with_multiple_channels(self):
peers = []
for pubkey in self.remote_pubkey_to_chan_ids.keys():
if len(self.remote_pubkey_to_chan_ids[pubkey]) > 1:
channels = []
for chan_id in self.remote_pubkey_to_chan_ids[pubkey]:
channels.append(self.chan_id_to_channel[chan_id])
channels = sorted(channels, key=lambda ch: float(ch['capacity']),
reverse=True)
peers.append(channels)
peers = sorted(peers, key=lambda x: len(x), reverse=True)
return peers
def peers_exhausting_inbound_capacity(self):
peers = []
for pubkey in self.remote_pubkey_to_chan_ids.keys():
total_capacity = 0
total_local_balance = 0
total_satoshis_sent = 0
total_satoshis_received = 0
fwd_events = 0
for chan_id in self.remote_pubkey_to_chan_ids[pubkey]:
ch = self.chan_id_to_channel[chan_id]
total_capacity += int(ch['capacity'])
total_local_balance += int(ch['local_balance'])
total_satoshis_sent += int(ch['total_satoshis_sent'])
total_satoshis_received += int(ch['total_satoshis_received'])
fwd_events += int(ch['fwd_events'])
if total_satoshis_sent > 0 and total_local_balance < total_capacity / 3:
peers.append({
'remote_pubkey': pubkey,
'alias': self.node_stats[pubkey]['alias'],
'n_channels': len(self.remote_pubkey_to_chan_ids[pubkey]),
'total_capacity': total_capacity,
'total_local_ratio': float(total_local_balance) / total_capacity,
'total_satoshis_sent': total_satoshis_sent,
'total_satoshis_received': total_satoshis_received,
'fwd_events': fwd_events,
})
peers = sorted(peers, key=lambda p: p['total_local_ratio'])
return peers
def closed_routing_channels(self):
channels = [ch for ch in self.closed_channels if ch['fwd_events'] > 0]
for ch in channels:
ch['other_channels'] = 0
if ch['remote_pubkey'] in self.remote_pubkey_to_chan_ids:
ch['other_channels'] = len(
self.remote_pubkey_to_chan_ids[ch['remote_pubkey']])
return sorted(channels, key=lambda ch: ch['fwd_events'], reverse=True)
def non_direct_peers_with_most_channels(self, rows):
sorted_pubkeys = sorted(self.node_stats.keys(),
key=lambda pubkey: self.node_stats[pubkey]['channels'],
reverse=True)
peers = []
for pubkey in sorted_pubkeys:
if pubkey not in self.remote_pubkey_to_chan_ids:
node = self.node_stats[pubkey]
node['pubkey'] = pubkey
peers.append(node)
if len(peers) == rows:
break
return peers
def possible_routes(self, payreq, amt=1, max_routes=10):
d = json.loads(os.popen('lncli decodepayreq %s' % (payreq)).read())
if int(d['num_satoshis']) == 0:
d['num_satoshis'] = amt
cmd = 'lncli queryroutes --dest=%s --amt=%s --num_max_routes=%d' % (
d['destination'], d['num_satoshis'], max_routes)
cmd += ' --final_cltv_delta=144'
print(cmd)
routes = json.loads(os.popen(cmd).read())['routes']
routes_annotated = []
for route in routes:
first_chan_id = route['hops'][0]['chan_id']
ch = self.chan_id_to_channel[first_chan_id]
routes_annotated.append({ 'route': route, 'channel': ch })
return routes_annotated
@staticmethod
def send_to_routes(payreq, routes_array):
d = json.loads(os.popen('lncli decodepayreq %s' % (payreq)).read())
routes = {'routes': routes_array}
cmd = 'lncli sendtoroute --payment_hash=%s --routes=\'%s\'' % (
d['payment_hash'], json.dumps(routes))
print(cmd)
proc = Popen(shlex.split(cmd), stdout=PIPE, stderr=PIPE)
stdout, stderr = proc.communicate()
print('stdout:', stdout, 'stderr:', stderr)
return (stderr == '') and (json.loads(stdout)['payment_error'] == '')