# Copyright (C) 2018 The Electrum developers # Distributed under the MIT software license, see the accompanying # file LICENCE or http://www.opensource.org/licenses/mit-license.php import asyncio import os from decimal import Decimal import random import time import operator from enum import IntEnum from typing import (Optional, Sequence, Tuple, List, Set, Dict, TYPE_CHECKING, NamedTuple, Union, Mapping, Any, Iterable, AsyncGenerator, DefaultDict, Callable) import threading import socket import aiohttp import json from datetime import datetime, timezone from functools import partial from collections import defaultdict import concurrent from concurrent import futures import urllib.parse import dns.resolver import dns.exception from aiorpcx import run_in_thread, NetAddress, ignore_after from . import constants, util from . import keystore from .util import profiler, chunks, OldTaskGroup from .invoices import Invoice, PR_UNPAID, PR_EXPIRED, PR_PAID, PR_INFLIGHT, PR_FAILED, PR_ROUTING, LN_EXPIRY_NEVER from .invoices import BaseInvoice from .util import NetworkRetryManager, JsonRPCClient, NotEnoughFunds from .util import EventListener, event_listener from .lnutil import LN_MAX_FUNDING_SAT from .keystore import BIP32_KeyStore from .bitcoin import COIN from .bitcoin import opcodes, make_op_return, address_to_scripthash from .transaction import Transaction from .transaction import get_script_type_from_output_script from .crypto import sha256 from .bip32 import BIP32Node from .util import bfh, InvoiceError, resolve_dns_srv, is_ip_address, log_exceptions from .crypto import chacha20_encrypt, chacha20_decrypt from .util import ignore_exceptions, make_aiohttp_session from .util import timestamp_to_datetime, random_shuffled_copy from .util import MyEncoder, is_private_netaddress, UnrelatedTransactionException from .logging import Logger from .lntransport import LNTransport, LNResponderTransport, LNTransportBase from .lnpeer import Peer, LN_P2P_NETWORK_TIMEOUT from .lnaddr import lnencode, LnAddr, lndecode from .ecc import der_sig_from_sig_string from .lnchannel import Channel, AbstractChannel from .lnchannel import ChannelState, PeerState, HTLCWithStatus from .lnrater import LNRater from . import lnutil from .lnutil import funding_output_script from .bitcoin import redeem_script_to_address from .lnutil import (Outpoint, LNPeerAddr, get_compressed_pubkey_from_bech32, extract_nodeid, PaymentFailure, split_host_port, ConnStringFormatError, generate_keypair, LnKeyFamily, LOCAL, REMOTE, MIN_FINAL_CLTV_EXPIRY_FOR_INVOICE, NUM_MAX_EDGES_IN_PAYMENT_PATH, SENT, RECEIVED, HTLCOwner, UpdateAddHtlc, Direction, LnFeatures, ShortChannelID, HtlcLog, derive_payment_secret_from_payment_preimage, NoPathFound, InvalidGossipMsg) from .lnutil import ln_dummy_address, ln_compare_features, IncompatibleLightningFeatures from .transaction import PartialTxOutput, PartialTransaction, PartialTxInput from .lnonion import OnionFailureCode, OnionRoutingFailure from .lnmsg import decode_msg from .i18n import _ from .lnrouter import (RouteEdge, LNPaymentRoute, LNPaymentPath, is_route_sane_to_use, NoChannelPolicy, LNPathInconsistent) from .address_synchronizer import TX_HEIGHT_LOCAL, TX_TIMESTAMP_INF from . import lnsweep from .lnwatcher import LNWalletWatcher from .crypto import pw_encode_with_version_and_mac, pw_decode_with_version_and_mac from .lnutil import ImportedChannelBackupStorage, OnchainChannelBackupStorage from .lnchannel import ChannelBackup from .channel_db import UpdateStatus, ChannelDBNotLoaded from .channel_db import get_mychannel_info, get_mychannel_policy from .submarine_swaps import SwapManager from .channel_db import ChannelInfo, Policy from .mpp_split import suggest_splits from .trampoline import create_trampoline_route_and_onion, TRAMPOLINE_FEES, is_legacy_relay if TYPE_CHECKING: from .network import Network from .wallet import Abstract_Wallet from .channel_db import ChannelDB from .simple_config import SimpleConfig SAVED_PR_STATUS = [PR_PAID, PR_UNPAID] # status that are persisted NUM_PEERS_TARGET = 4 # onchain channel backup data CB_VERSION = 0 CB_MAGIC_BYTES = bytes([0, 0, 0, CB_VERSION]) FALLBACK_NODE_LIST_TESTNET = ( LNPeerAddr(host='203.132.95.10', port=9735, pubkey=bfh('038863cf8ab91046230f561cd5b386cbff8309fa02e3f0c3ed161a3aeb64a643b9')), LNPeerAddr(host='2401:d002:4402:0:bf1d:986a:7598:6d49', port=9735, pubkey=bfh('038863cf8ab91046230f561cd5b386cbff8309fa02e3f0c3ed161a3aeb64a643b9')), LNPeerAddr(host='50.116.3.223', port=9734, pubkey=bfh('03236a685d30096b26692dce0cf0fa7c8528bdf61dbf5363a3ef6d5c92733a3016')), LNPeerAddr(host='3.16.119.191', port=9735, pubkey=bfh('03d5e17a3c213fe490e1b0c389f8cfcfcea08a29717d50a9f453735e0ab2a7c003')), LNPeerAddr(host='34.250.234.192', port=9735, pubkey=bfh('03933884aaf1d6b108397e5efe5c86bcf2d8ca8d2f700eda99db9214fc2712b134')), LNPeerAddr(host='88.99.209.230', port=9735, pubkey=bfh('0260d9119979caedc570ada883ff614c6efb93f7f7382e25d73ecbeba0b62df2d7')), LNPeerAddr(host='160.16.233.215', port=9735, pubkey=bfh('023ea0a53af875580899da0ab0a21455d9c19160c4ea1b7774c9d4be6810b02d2c')), LNPeerAddr(host='197.155.6.173', port=9735, pubkey=bfh('0269a94e8b32c005e4336bfb743c08a6e9beb13d940d57c479d95c8e687ccbdb9f')), LNPeerAddr(host='2c0f:fb18:406::4', port=9735, pubkey=bfh('0269a94e8b32c005e4336bfb743c08a6e9beb13d940d57c479d95c8e687ccbdb9f')), LNPeerAddr(host='163.172.94.64', port=9735, pubkey=bfh('030f0bf260acdbd3edcad84d7588ec7c5df4711e87e6a23016f989b8d3a4147230')), LNPeerAddr(host='23.237.77.12', port=9735, pubkey=bfh('02312627fdf07fbdd7e5ddb136611bdde9b00d26821d14d94891395452f67af248')), LNPeerAddr(host='197.155.6.172', port=9735, pubkey=bfh('02ae2f22b02375e3e9b4b4a2db4f12e1b50752b4062dbefd6e01332acdaf680379')), LNPeerAddr(host='2c0f:fb18:406::3', port=9735, pubkey=bfh('02ae2f22b02375e3e9b4b4a2db4f12e1b50752b4062dbefd6e01332acdaf680379')), LNPeerAddr(host='23.239.23.44', port=9740, pubkey=bfh('034fe52e98a0e9d3c21b767e1b371881265d8c7578c21f5afd6d6438da10348b36')), LNPeerAddr(host='2600:3c01::f03c:91ff:fe05:349c', port=9740, pubkey=bfh('034fe52e98a0e9d3c21b767e1b371881265d8c7578c21f5afd6d6438da10348b36')), ) FALLBACK_NODE_LIST_MAINNET = [ LNPeerAddr(host='172.81.181.3', port=9735, pubkey=bfh('0214382bdce7750dfcb8126df8e2b12de38536902dc36abcebdaeefdeca1df8284')), LNPeerAddr(host='35.230.100.60', port=9735, pubkey=bfh('023f5e3582716bed96f6f26cfcd8037e07474d7b4743afdc8b07e692df63464d7e')), LNPeerAddr(host='40.69.71.114', port=9735, pubkey=bfh('028303182c9885da93b3b25c9621d22cf34475e63c123942e402ab530c0556e675')), LNPeerAddr(host='94.177.171.73', port=9735, pubkey=bfh('0276e09a267592e7451a939c932cf685f0754de382a3ca85d2fb3a864d4c365ad5')), LNPeerAddr(host='34.236.113.58', port=9735, pubkey=bfh('02fa50c72ee1e2eb5f1b6d9c3032080c4c864373c4201dfa2966aa34eee1051f97')), LNPeerAddr(host='52.50.244.44', port=9735, pubkey=bfh('030c3f19d742ca294a55c00376b3b355c3c90d61c6b6b39554dbc7ac19b141c14f')), LNPeerAddr(host='157.245.68.47', port=9735, pubkey=bfh('03c2abfa93eacec04721c019644584424aab2ba4dff3ac9bdab4e9c97007491dda')), LNPeerAddr(host='18.221.23.28', port=9735, pubkey=bfh('03abf6f44c355dec0d5aa155bdbdd6e0c8fefe318eff402de65c6eb2e1be55dc3e')), LNPeerAddr(host='52.224.178.244', port=9735, pubkey=bfh('026b105ac13212c48714c6be9b11577a9ce10f10e1c88a45ce217e6331209faf8b')), LNPeerAddr(host='34.239.230.56', port=9735, pubkey=bfh('03864ef025fde8fb587d989186ce6a4a186895ee44a926bfc370e2c366597a3f8f')), LNPeerAddr(host='46.229.165.136', port=9735, pubkey=bfh('0390b5d4492dc2f5318e5233ab2cebf6d48914881a33ef6a9c6bcdbb433ad986d0')), LNPeerAddr(host='157.230.28.160', port=9735, pubkey=bfh('0279c22ed7a068d10dc1a38ae66d2d6461e269226c60258c021b1ddcdfe4b00bc4')), LNPeerAddr(host='74.108.13.152', port=9735, pubkey=bfh('0331f80652fb840239df8dc99205792bba2e559a05469915804c08420230e23c7c')), LNPeerAddr(host='167.172.44.148', port=9735, pubkey=bfh('0395033b252c6f40e3756984162d68174e2bd8060a129c0d3462a9370471c6d28f')), LNPeerAddr(host='138.68.14.104', port=9735, pubkey=bfh('03bb88ccc444534da7b5b64b4f7b15e1eccb18e102db0e400d4b9cfe93763aa26d')), LNPeerAddr(host='3.124.63.44', port=9735, pubkey=bfh('0242a4ae0c5bef18048fbecf995094b74bfb0f7391418d71ed394784373f41e4f3')), LNPeerAddr(host='2001:470:8:2e1::43', port=9735, pubkey=bfh('03baa70886d9200af0ffbd3f9e18d96008331c858456b16e3a9b41e735c6208fef')), LNPeerAddr(host='2601:186:c100:6bcd:219:d1ff:fe75:dc2f', port=9735, pubkey=bfh('0298f6074a454a1f5345cb2a7c6f9fce206cd0bf675d177cdbf0ca7508dd28852f')), LNPeerAddr(host='2001:41d0:e:734::1', port=9735, pubkey=bfh('03a503d8e30f2ff407096d235b5db63b4fcf3f89a653acb6f43d3fc492a7674019')), LNPeerAddr(host='2a01:4f9:2b:2254::2', port=9735, pubkey=bfh('02f3069a342ae2883a6f29e275f06f28a56a6ea2e2d96f5888a3266444dcf542b6')), LNPeerAddr(host='2a02:8070:24c1:100:528c:2997:6dbc:a054', port=9735, pubkey=bfh('02a45def9ae014fdd2603dd7033d157faa3a55a72b06a63ae22ef46d9fafdc6e8d')), LNPeerAddr(host='2600:3c01::f03c:91ff:fe05:349c', port=9736, pubkey=bfh('02731b798b39a09f9f14e90ee601afb6ebb796d6e5797de14582a978770b33700f')), LNPeerAddr(host='2a00:8a60:e012:a00::21', port=9735, pubkey=bfh('027ce055380348d7812d2ae7745701c9f93e70c1adeb2657f053f91df4f2843c71')), LNPeerAddr(host='2604:a880:400:d1::8bd:1001', port=9735, pubkey=bfh('03649c72a4816f0cd546f84aafbd657e92a30ab474de7ab795e8b5650a427611f7')), LNPeerAddr(host='2a01:4f8:c0c:7b31::1', port=9735, pubkey=bfh('02c16cca44562b590dd279c942200bdccfd4f990c3a69fad620c10ef2f8228eaff')), LNPeerAddr(host='2001:41d0:1:b40d::1', port=9735, pubkey=bfh('026726a4b043d413b45b334876d17b8a98848129604429ec65532ba286a42efeac')), ] from .trampoline import trampolines_by_id, hardcoded_trampoline_nodes, is_hardcoded_trampoline class PaymentDirection(IntEnum): SENT = 0 RECEIVED = 1 SELF_PAYMENT = 2 FORWARDING = 3 class PaymentInfo(NamedTuple): payment_hash: bytes amount_msat: Optional[int] direction: int status: int class ReceivedMPPStatus(NamedTuple): is_expired: bool is_accepted: bool expected_msat: int htlc_set: Set[Tuple[ShortChannelID, UpdateAddHtlc]] class ErrorAddingPeer(Exception): pass # set some feature flags as baseline for both LNWallet and LNGossip # note that e.g. DATA_LOSS_PROTECT is needed for LNGossip as many peers require it BASE_FEATURES = ( LnFeatures(0) | LnFeatures.OPTION_DATA_LOSS_PROTECT_OPT | LnFeatures.OPTION_STATIC_REMOTEKEY_OPT | LnFeatures.VAR_ONION_OPT | LnFeatures.PAYMENT_SECRET_OPT | LnFeatures.OPTION_UPFRONT_SHUTDOWN_SCRIPT_OPT ) # we do not want to receive unrequested gossip (see lnpeer.maybe_save_remote_update) LNWALLET_FEATURES = ( BASE_FEATURES | LnFeatures.OPTION_DATA_LOSS_PROTECT_REQ | LnFeatures.OPTION_STATIC_REMOTEKEY_REQ | LnFeatures.GOSSIP_QUERIES_REQ | LnFeatures.VAR_ONION_REQ | LnFeatures.PAYMENT_SECRET_REQ | LnFeatures.BASIC_MPP_OPT | LnFeatures.OPTION_TRAMPOLINE_ROUTING_OPT_ELECTRUM | LnFeatures.OPTION_SHUTDOWN_ANYSEGWIT_OPT | LnFeatures.OPTION_CHANNEL_TYPE_OPT | LnFeatures.OPTION_SCID_ALIAS_OPT ) LNGOSSIP_FEATURES = ( BASE_FEATURES | LnFeatures.GOSSIP_QUERIES_OPT | LnFeatures.GOSSIP_QUERIES_REQ ) class LNWorker(Logger, EventListener, NetworkRetryManager[LNPeerAddr]): INITIAL_TRAMPOLINE_FEE_LEVEL = 1 # only used for trampoline payments. set to 0 in tests. def __init__(self, xprv, features: LnFeatures): Logger.__init__(self) NetworkRetryManager.__init__( self, max_retry_delay_normal=3600, init_retry_delay_normal=600, max_retry_delay_urgent=300, init_retry_delay_urgent=4, ) self.lock = threading.RLock() self.node_keypair = generate_keypair(BIP32Node.from_xkey(xprv), LnKeyFamily.NODE_KEY) self.backup_key = generate_keypair(BIP32Node.from_xkey(xprv), LnKeyFamily.BACKUP_CIPHER).privkey self.payment_secret_key = generate_keypair(BIP32Node.from_xkey(xprv), LnKeyFamily.PAYMENT_SECRET_KEY).privkey self._peers = {} # type: Dict[bytes, Peer] # pubkey -> Peer # needs self.lock self.taskgroup = OldTaskGroup() self.listen_server = None # type: Optional[asyncio.AbstractServer] self.features = features self.network = None # type: Optional[Network] self.config = None # type: Optional[SimpleConfig] self.stopping_soon = False # whether we are being shut down self._labels_cache = {} # txid -> str self.register_callbacks() @property def channel_db(self): return self.network.channel_db if self.network else None def uses_trampoline(self): return not bool(self.channel_db) @property def peers(self) -> Mapping[bytes, Peer]: """Returns a read-only copy of peers.""" with self.lock: return self._peers.copy() def channels_for_peer(self, node_id: bytes) -> Dict[bytes, Channel]: return {} def get_node_alias(self, node_id: bytes) -> Optional[str]: """Returns the alias of the node, or None if unknown.""" node_alias = None if not self.uses_trampoline(): node_info = self.channel_db.get_node_info_for_node_id(node_id) if node_info: node_alias = node_info.alias else: for k, v in hardcoded_trampoline_nodes().items(): if v.pubkey.startswith(node_id): node_alias = k break return node_alias async def maybe_listen(self): # FIXME: only one LNWorker can listen at a time (single port) listen_addr = self.config.LIGHTNING_LISTEN if listen_addr: self.logger.info(f'lightning_listen enabled. will try to bind: {listen_addr!r}') try: netaddr = NetAddress.from_string(listen_addr) except Exception as e: self.logger.error(f"failed to parse config key '{self.config.cv.LIGHTNING_LISTEN.key()}'. got: {e!r}") return addr = str(netaddr.host) async def cb(reader, writer): transport = LNResponderTransport(self.node_keypair.privkey, reader, writer) try: node_id = await transport.handshake() except Exception as e: self.logger.info(f'handshake failure from incoming connection: {e!r}') return await self._add_peer_from_transport(node_id=node_id, transport=transport) try: self.listen_server = await asyncio.start_server(cb, addr, netaddr.port) except OSError as e: self.logger.error(f"cannot listen for lightning p2p. error: {e!r}") @ignore_exceptions # don't kill outer taskgroup async def main_loop(self): self.logger.info("starting taskgroup.") try: async with self.taskgroup as group: await group.spawn(asyncio.Event().wait) # run forever (until cancel) except Exception as e: self.logger.exception("taskgroup died.") finally: self.logger.info("taskgroup stopped.") async def _maintain_connectivity(self): while True: await asyncio.sleep(1) if self.stopping_soon: return now = time.time() if len(self._peers) >= NUM_PEERS_TARGET: continue peers = await self._get_next_peers_to_try() for peer in peers: if self._can_retry_addr(peer, now=now): try: await self._add_peer(peer.host, peer.port, peer.pubkey) except ErrorAddingPeer as e: self.logger.info(f"failed to add peer: {peer}. exc: {e!r}") async def _add_peer(self, host: str, port: int, node_id: bytes) -> Peer: if node_id in self._peers: return self._peers[node_id] port = int(port) peer_addr = LNPeerAddr(host, port, node_id) self._trying_addr_now(peer_addr) self.logger.info(f"adding peer {peer_addr}") if node_id == self.node_keypair.pubkey: raise ErrorAddingPeer("cannot connect to self") transport = LNTransport(self.node_keypair.privkey, peer_addr, proxy=self.network.proxy) peer = await self._add_peer_from_transport(node_id=node_id, transport=transport) return peer async def _add_peer_from_transport(self, *, node_id: bytes, transport: LNTransportBase) -> Peer: peer = Peer(self, node_id, transport) with self.lock: existing_peer = self._peers.get(node_id) if existing_peer: existing_peer.close_and_cleanup() assert node_id not in self._peers self._peers[node_id] = peer await self.taskgroup.spawn(peer.main_loop()) return peer def peer_closed(self, peer: Peer) -> None: with self.lock: peer2 = self._peers.get(peer.pubkey) if peer2 is peer: self._peers.pop(peer.pubkey) def num_peers(self) -> int: return sum([p.is_initialized() for p in self.peers.values()]) def start_network(self, network: 'Network'): assert network assert self.network is None, "already started" self.network = network self.config = network.config self._add_peers_from_config() asyncio.run_coroutine_threadsafe(self.main_loop(), self.network.asyncio_loop) async def stop(self): if self.listen_server: self.listen_server.close() self.unregister_callbacks() await self.taskgroup.cancel_remaining() def _add_peers_from_config(self): peer_list = self.config.LIGHTNING_PEERS or [] for host, port, pubkey in peer_list: asyncio.run_coroutine_threadsafe( self._add_peer(host, int(port), bfh(pubkey)), self.network.asyncio_loop) def is_good_peer(self, peer: LNPeerAddr) -> bool: # the purpose of this method is to filter peers that advertise the desired feature bits # it is disabled for now, because feature bits published in node announcements seem to be unreliable return True node_id = peer.pubkey node = self.channel_db._nodes.get(node_id) if not node: return False try: ln_compare_features(self.features, node.features) except IncompatibleLightningFeatures: return False #self.logger.info(f'is_good {peer.host}') return True def on_peer_successfully_established(self, peer: Peer) -> None: if isinstance(peer.transport, LNTransport): peer_addr = peer.transport.peer_addr # reset connection attempt count self._on_connection_successfully_established(peer_addr) if not self.uses_trampoline(): # add into channel db self.channel_db.add_recent_peer(peer_addr) # save network address into channels we might have with peer for chan in peer.channels.values(): chan.add_or_update_peer_addr(peer_addr) async def _get_next_peers_to_try(self) -> Sequence[LNPeerAddr]: now = time.time() await self.channel_db.data_loaded.wait() # first try from recent peers recent_peers = self.channel_db.get_recent_peers() for peer in recent_peers: if not peer: continue if peer.pubkey in self._peers: continue if not self._can_retry_addr(peer, now=now): continue if not self.is_good_peer(peer): continue return [peer] # try random peer from graph unconnected_nodes = self.channel_db.get_200_randomly_sorted_nodes_not_in(self.peers.keys()) if unconnected_nodes: for node_id in unconnected_nodes: addrs = self.channel_db.get_node_addresses(node_id) if not addrs: continue host, port, timestamp = self.choose_preferred_address(list(addrs)) try: peer = LNPeerAddr(host, port, node_id) except ValueError: continue if not self._can_retry_addr(peer, now=now): continue if not self.is_good_peer(peer): continue #self.logger.info('taking random ln peer from our channel db') return [peer] # getting desperate... let's try hardcoded fallback list of peers if constants.net in (constants.BitcoinTestnet,): fallback_list = FALLBACK_NODE_LIST_TESTNET elif constants.net in (constants.BitcoinMainnet,): fallback_list = FALLBACK_NODE_LIST_MAINNET else: return [] # regtest?? fallback_list = [peer for peer in fallback_list if self._can_retry_addr(peer, now=now)] if fallback_list: return [random.choice(fallback_list)] # last resort: try dns seeds (BOLT-10) return await run_in_thread(self._get_peers_from_dns_seeds) def _get_peers_from_dns_seeds(self) -> Sequence[LNPeerAddr]: # NOTE: potentially long blocking call, do not run directly on asyncio event loop. # Return several peers to reduce the number of dns queries. if not constants.net.LN_DNS_SEEDS: return [] dns_seed = random.choice(constants.net.LN_DNS_SEEDS) self.logger.info('asking dns seed "{}" for ln peers'.format(dns_seed)) try: # note: this might block for several seconds # this will include bech32-encoded-pubkeys and ports srv_answers = resolve_dns_srv('r{}.{}'.format( constants.net.LN_REALM_BYTE, dns_seed)) except dns.exception.DNSException as e: self.logger.info(f'failed querying (1) dns seed "{dns_seed}" for ln peers: {repr(e)}') return [] random.shuffle(srv_answers) num_peers = 2 * NUM_PEERS_TARGET srv_answers = srv_answers[:num_peers] # we now have pubkeys and ports but host is still needed peers = [] for srv_ans in srv_answers: try: # note: this might block for several seconds answers = dns.resolver.resolve(srv_ans['host']) except dns.exception.DNSException as e: self.logger.info(f'failed querying (2) dns seed "{dns_seed}" for ln peers: {repr(e)}') continue try: ln_host = str(answers[0]) port = int(srv_ans['port']) bech32_pubkey = srv_ans['host'].split('.')[0] pubkey = get_compressed_pubkey_from_bech32(bech32_pubkey) peers.append(LNPeerAddr(ln_host, port, pubkey)) except Exception as e: self.logger.info(f'error with parsing peer from dns seed: {repr(e)}') continue self.logger.info(f'got {len(peers)} ln peers from dns seed') return peers @staticmethod def choose_preferred_address(addr_list: Sequence[Tuple[str, int, int]]) -> Tuple[str, int, int]: assert len(addr_list) >= 1 # choose first one that is an IP for host, port, timestamp in addr_list: if is_ip_address(host): return host, port, timestamp # otherwise choose one at random # TODO maybe filter out onion if not on tor? choice = random.choice(addr_list) return choice @event_listener def on_event_proxy_set(self, *args): for peer in self.peers.values(): peer.close_and_cleanup() self._clear_addr_retry_times() @log_exceptions async def add_peer(self, connect_str: str) -> Peer: node_id, rest = extract_nodeid(connect_str) peer = self._peers.get(node_id) if not peer: if rest is not None: host, port = split_host_port(rest) else: if self.uses_trampoline(): addr = trampolines_by_id().get(node_id) if not addr: raise ConnStringFormatError(_('Address unknown for node:') + ' ' + node_id.hex()) host, port = addr.host, addr.port else: addrs = self.channel_db.get_node_addresses(node_id) if not addrs: raise ConnStringFormatError(_('Don\'t know any addresses for node:') + ' ' + node_id.hex()) host, port, timestamp = self.choose_preferred_address(list(addrs)) port = int(port) # Try DNS-resolving the host (if needed). This is simply so that # the caller gets a nice exception if it cannot be resolved. try: await asyncio.get_running_loop().getaddrinfo(host, port) except socket.gaierror: raise ConnStringFormatError(_('Hostname does not resolve (getaddrinfo failed)')) # add peer peer = await self._add_peer(host, port, node_id) return peer class LNGossip(LNWorker): max_age = 14*24*3600 LOGGING_SHORTCUT = 'g' def __init__(self): seed = os.urandom(32) node = BIP32Node.from_rootseed(seed, xtype='standard') xprv = node.to_xprv() super().__init__(xprv, LNGOSSIP_FEATURES) self.unknown_ids = set() def start_network(self, network: 'Network'): super().start_network(network) for coro in [ self._maintain_connectivity(), self.maintain_db(), ]: tg_coro = self.taskgroup.spawn(coro) asyncio.run_coroutine_threadsafe(tg_coro, self.network.asyncio_loop) async def maintain_db(self): await self.channel_db.data_loaded.wait() while True: if len(self.unknown_ids) == 0: self.channel_db.prune_old_policies(self.max_age) self.channel_db.prune_orphaned_channels() await asyncio.sleep(120) async def add_new_ids(self, ids: Iterable[bytes]): known = self.channel_db.get_channel_ids() new = set(ids) - set(known) self.unknown_ids.update(new) util.trigger_callback('unknown_channels', len(self.unknown_ids)) util.trigger_callback('gossip_peers', self.num_peers()) util.trigger_callback('ln_gossip_sync_progress') def get_ids_to_query(self) -> Sequence[bytes]: N = 500 l = list(self.unknown_ids) self.unknown_ids = set(l[N:]) util.trigger_callback('unknown_channels', len(self.unknown_ids)) util.trigger_callback('ln_gossip_sync_progress') return l[0:N] def get_sync_progress_estimate(self) -> Tuple[Optional[int], Optional[int], Optional[int]]: """Estimates the gossip synchronization process and returns the number of synchronized channels, the total channels in the network and a rescaled percentage of the synchronization process.""" if self.num_peers() == 0: return None, None, None nchans_with_0p, nchans_with_1p, nchans_with_2p = self.channel_db.get_num_channels_partitioned_by_policy_count() num_db_channels = nchans_with_0p + nchans_with_1p + nchans_with_2p # some channels will never have two policies (only one is in gossip?...) # so if we have at least 1 policy for a channel, we consider that channel "complete" here current_est = num_db_channels - nchans_with_0p total_est = len(self.unknown_ids) + num_db_channels progress = current_est / total_est if total_est and current_est else 0 progress_percent = (1.0 / 0.95 * progress) * 100 progress_percent = min(progress_percent, 100) progress_percent = round(progress_percent) # take a minimal number of synchronized channels to get a more accurate # percentage estimate if current_est < 200: progress_percent = 0 return current_est, total_est, progress_percent async def process_gossip(self, chan_anns, node_anns, chan_upds): # note: we run in the originating peer's TaskGroup, so we can safely raise here # and disconnect only from that peer await self.channel_db.data_loaded.wait() self.logger.debug(f'process_gossip {len(chan_anns)} {len(node_anns)} {len(chan_upds)}') # channel announcements def process_chan_anns(): for payload in chan_anns: self.channel_db.verify_channel_announcement(payload) self.channel_db.add_channel_announcements(chan_anns) await run_in_thread(process_chan_anns) # node announcements def process_node_anns(): for payload in node_anns: self.channel_db.verify_node_announcement(payload) self.channel_db.add_node_announcements(node_anns) await run_in_thread(process_node_anns) # channel updates categorized_chan_upds = await run_in_thread(partial( self.channel_db.add_channel_updates, chan_upds, max_age=self.max_age)) orphaned = categorized_chan_upds.orphaned if orphaned: self.logger.info(f'adding {len(orphaned)} unknown channel ids') orphaned_ids = [c['short_channel_id'] for c in orphaned] await self.add_new_ids(orphaned_ids) if categorized_chan_upds.good: self.logger.debug(f'process_gossip: {len(categorized_chan_upds.good)}/{len(chan_upds)}') class LNWallet(LNWorker): lnwatcher: Optional['LNWalletWatcher'] MPP_EXPIRY = 120 TIMEOUT_SHUTDOWN_FAIL_PENDING_HTLCS = 3 # seconds PAYMENT_TIMEOUT = 120 def __init__(self, wallet: 'Abstract_Wallet', xprv): self.wallet = wallet self.db = wallet.db Logger.__init__(self) LNWorker.__init__(self, xprv, LNWALLET_FEATURES) self.config = wallet.config self.lnwatcher = None self.lnrater: LNRater = None self.payment_info = self.db.get_dict('lightning_payments') # RHASH -> amount, direction, is_paid self.preimages = self.db.get_dict('lightning_preimages') # RHASH -> preimage self._bolt11_cache = {} # note: this sweep_address is only used as fallback; as it might result in address-reuse self.logs = defaultdict(list) # type: Dict[str, List[HtlcLog]] # key is RHASH # (not persisted) # used in tests self.enable_htlc_settle = True self.enable_htlc_forwarding = True # note: accessing channels (besides simple lookup) needs self.lock! self._channels = {} # type: Dict[bytes, Channel] channels = self.db.get_dict("channels") for channel_id, c in random_shuffled_copy(channels.items()): self._channels[bfh(channel_id)] = Channel(c, lnworker=self) self._channel_backups = {} # type: Dict[bytes, ChannelBackup] # order is important: imported should overwrite onchain for name in ["onchain_channel_backups", "imported_channel_backups"]: channel_backups = self.db.get_dict(name) for channel_id, storage in channel_backups.items(): self._channel_backups[bfh(channel_id)] = ChannelBackup(storage, lnworker=self) self.sent_htlcs = defaultdict(asyncio.Queue) # type: Dict[bytes, asyncio.Queue[HtlcLog]] self.sent_htlcs_info = dict() # (RHASH, scid, htlc_id) -> route, payment_secret, amount_msat, bucket_msat, trampoline_fee_level self.sent_buckets = dict() # payment_secret -> (amount_sent, amount_failed) self.received_mpp_htlcs = dict() # type: Dict[bytes, ReceivedMPPStatus] # payment_secret -> ReceivedMPPStatus self.swap_manager = SwapManager(wallet=self.wallet, lnworker=self) # detect inflight payments self.inflight_payments = set() # (not persisted) keys of invoices that are in PR_INFLIGHT state for payment_hash in self.get_payments(status='inflight').keys(): self.set_invoice_status(payment_hash.hex(), PR_INFLIGHT) self.trampoline_forwarding_failures = {} # todo: should be persisted # map forwarded htlcs (fw_info=(scid_hex, htlc_id)) to originating peer pubkeys self.downstream_htlc_to_upstream_peer_map = {} # type: Dict[Tuple[str, int], bytes] # payment_hash -> callback, timeout: self.hold_invoice_callbacks = {} # type: Dict[bytes, Tuple[Callable[[bytes], None], int]] self.payment_bundles = [] # lists of hashes. todo:persist def has_deterministic_node_id(self) -> bool: return bool(self.db.get('lightning_xprv')) def can_have_recoverable_channels(self) -> bool: return (self.has_deterministic_node_id() and not self.config.LIGHTNING_LISTEN) def has_recoverable_channels(self) -> bool: """Whether *future* channels opened by this wallet would be recoverable from seed (via putting OP_RETURN outputs into funding txs). """ return (self.can_have_recoverable_channels() and self.config.LIGHTNING_USE_RECOVERABLE_CHANNELS) @property def channels(self) -> Mapping[bytes, Channel]: """Returns a read-only copy of channels.""" with self.lock: return self._channels.copy() @property def channel_backups(self) -> Mapping[bytes, ChannelBackup]: """Returns a read-only copy of channels.""" with self.lock: return self._channel_backups.copy() def get_channel_objects(self) -> Mapping[bytes, AbstractChannel]: r = self.channel_backups r.update(self.channels) return r def get_channel_by_id(self, channel_id: bytes) -> Optional[Channel]: return self._channels.get(channel_id, None) def get_channel_by_scid(self, scid: bytes) -> Optional[Channel]: for chan in self._channels.values(): if chan.short_channel_id == scid: return chan def diagnostic_name(self): return self.wallet.diagnostic_name() @ignore_exceptions @log_exceptions async def sync_with_local_watchtower(self): watchtower = self.network.local_watchtower if watchtower: while True: for chan in self.channels.values(): await self.sync_channel_with_watchtower(chan, watchtower.sweepstore) await asyncio.sleep(5) @ignore_exceptions @log_exceptions async def sync_with_remote_watchtower(self): while True: # periodically poll if the user updated 'watchtower_url' await asyncio.sleep(5) watchtower_url = self.config.WATCHTOWER_CLIENT_URL if not watchtower_url: continue parsed_url = urllib.parse.urlparse(watchtower_url) if not (parsed_url.scheme == 'https' or is_private_netaddress(parsed_url.hostname)): self.logger.warning(f"got watchtower URL for remote tower but we won't use it! " f"can only use HTTPS (except if private IP): not using {watchtower_url!r}") continue # try to sync with the remote watchtower try: async with make_aiohttp_session(proxy=self.network.proxy) as session: watchtower = JsonRPCClient(session, watchtower_url) watchtower.add_method('get_ctn') watchtower.add_method('add_sweep_tx') for chan in self.channels.values(): await self.sync_channel_with_watchtower(chan, watchtower) except aiohttp.client_exceptions.ClientConnectorError: self.logger.info(f'could not contact remote watchtower {watchtower_url}') async def sync_channel_with_watchtower(self, chan: Channel, watchtower): outpoint = chan.funding_outpoint.to_str() addr = chan.get_funding_address() current_ctn = chan.get_oldest_unrevoked_ctn(REMOTE) watchtower_ctn = await watchtower.get_ctn(outpoint, addr) for ctn in range(watchtower_ctn + 1, current_ctn): sweeptxs = chan.create_sweeptxs(ctn) for tx in sweeptxs: await watchtower.add_sweep_tx(outpoint, ctn, tx.inputs()[0].prevout.to_str(), tx.serialize()) def start_network(self, network: 'Network'): super().start_network(network) self.lnwatcher = LNWalletWatcher(self, network) self.swap_manager.start_network(network=network, lnwatcher=self.lnwatcher) self.lnrater = LNRater(self, network) for chan in self.channels.values(): if chan.need_to_subscribe(): self.lnwatcher.add_channel(chan.funding_outpoint.to_str(), chan.get_funding_address()) for cb in self.channel_backups.values(): if cb.need_to_subscribe(): self.lnwatcher.add_channel(cb.funding_outpoint.to_str(), cb.get_funding_address()) for coro in [ self.maybe_listen(), self.lnwatcher.trigger_callbacks(), # shortcut (don't block) if funding tx locked and verified self.reestablish_peers_and_channels(), self.sync_with_local_watchtower(), self.sync_with_remote_watchtower(), ]: tg_coro = self.taskgroup.spawn(coro) asyncio.run_coroutine_threadsafe(tg_coro, self.network.asyncio_loop) async def stop(self): self.stopping_soon = True if self.listen_server: # stop accepting new peers self.listen_server.close() async with ignore_after(self.TIMEOUT_SHUTDOWN_FAIL_PENDING_HTLCS): await self.wait_for_received_pending_htlcs_to_get_removed() await LNWorker.stop(self) if self.lnwatcher: await self.lnwatcher.stop() self.lnwatcher = None async def wait_for_received_pending_htlcs_to_get_removed(self): assert self.stopping_soon is True # We try to fail pending MPP HTLCs, and wait a bit for them to get removed. # Note: even without MPP, if we just failed/fulfilled an HTLC, it is good # to wait a bit for it to become irrevocably removed. # Note: we don't wait for *all htlcs* to get removed, only for those # that we can already fail/fulfill. e.g. forwarded htlcs cannot be removed async with OldTaskGroup() as group: for peer in self.peers.values(): await group.spawn(peer.wait_one_htlc_switch_iteration()) while True: if all(not peer.received_htlcs_pending_removal for peer in self.peers.values()): break async with OldTaskGroup(wait=any) as group: for peer in self.peers.values(): await group.spawn(peer.received_htlc_removed_event.wait()) def peer_closed(self, peer): for chan in self.channels_for_peer(peer.pubkey).values(): chan.peer_state = PeerState.DISCONNECTED util.trigger_callback('channel', self.wallet, chan) super().peer_closed(peer) def get_payments(self, *, status=None) -> Mapping[bytes, List[HTLCWithStatus]]: out = defaultdict(list) for chan in self.channels.values(): d = chan.get_payments(status=status) for payment_hash, plist in d.items(): out[payment_hash] += plist return out def get_payment_value( self, info: Optional['PaymentInfo'], plist: List[HTLCWithStatus]) -> Tuple[PaymentDirection, int, Optional[int], int]: """ fee_msat is included in amount_msat""" assert plist amount_msat = sum(int(x.direction) * x.htlc.amount_msat for x in plist) if all(x.direction == SENT for x in plist): direction = PaymentDirection.SENT fee_msat = (- info.amount_msat - amount_msat) if info else None elif all(x.direction == RECEIVED for x in plist): direction = PaymentDirection.RECEIVED fee_msat = None elif amount_msat < 0: direction = PaymentDirection.SELF_PAYMENT fee_msat = - amount_msat else: direction = PaymentDirection.FORWARDING fee_msat = - amount_msat timestamp = min([htlc_with_status.htlc.timestamp for htlc_with_status in plist]) return direction, amount_msat, fee_msat, timestamp def get_lightning_history(self): out = {} for payment_hash, plist in self.get_payments(status='settled').items(): if len(plist) == 0: continue key = payment_hash.hex() info = self.get_payment_info(payment_hash) direction, amount_msat, fee_msat, timestamp = self.get_payment_value(info, plist) label = self.wallet.get_label_for_rhash(key) if not label and direction == PaymentDirection.FORWARDING: label = _('Forwarding') preimage = self.get_preimage(payment_hash).hex() item = { 'type': 'payment', 'label': label, 'timestamp': timestamp or 0, 'date': timestamp_to_datetime(timestamp), 'direction': direction, 'amount_msat': amount_msat, 'fee_msat': fee_msat, 'payment_hash': key, 'preimage': preimage, } # add group_id to swap transactions swap = self.swap_manager.get_swap(payment_hash) if swap: if swap.is_reverse: item['group_id'] = swap.spending_txid item['group_label'] = 'Reverse swap' + ' ' + self.config.format_amount_and_units(swap.lightning_amount) else: item['group_id'] = swap.funding_txid item['group_label'] = 'Forward swap' + ' ' + self.config.format_amount_and_units(swap.onchain_amount) # done out[payment_hash] = item return out def get_label_for_txid(self, txid: str) -> str: return self._labels_cache.get(txid) def get_onchain_history(self): current_height = self.wallet.adb.get_local_height() out = {} # add funding events for chan in self.channels.values(): item = chan.get_funding_height() if item is None: continue funding_txid, funding_height, funding_timestamp = item tx_height = self.wallet.adb.get_tx_height(funding_txid) self._labels_cache[funding_txid] = _('Open channel') + ' ' + chan.get_id_for_log() item = { 'channel_id': chan.channel_id.hex(), 'type': 'channel_opening', 'label': self.get_label_for_txid(funding_txid), 'txid': funding_txid, 'amount_msat': chan.balance(LOCAL, ctn=0), 'direction': PaymentDirection.RECEIVED, 'timestamp': tx_height.timestamp, 'monotonic_timestamp': tx_height.timestamp or TX_TIMESTAMP_INF, 'date': timestamp_to_datetime(tx_height.timestamp), 'fee_sat': None, 'fee_msat': None, 'height': tx_height.height, 'confirmations': tx_height.conf, 'txpos_in_block': tx_height.txpos, } # FIXME this data structure needs to be kept in ~sync with wallet.get_onchain_history out[funding_txid] = item item = chan.get_closing_height() if item is None: continue closing_txid, closing_height, closing_timestamp = item tx_height = self.wallet.adb.get_tx_height(closing_txid) self._labels_cache[closing_txid] = _('Close channel') + ' ' + chan.get_id_for_log() item = { 'channel_id': chan.channel_id.hex(), 'txid': closing_txid, 'label': self.get_label_for_txid(closing_txid), 'type': 'channel_closure', 'amount_msat': -chan.balance_minus_outgoing_htlcs(LOCAL), 'direction': PaymentDirection.SENT, 'timestamp': tx_height.timestamp, 'monotonic_timestamp': tx_height.timestamp or TX_TIMESTAMP_INF, 'date': timestamp_to_datetime(tx_height.timestamp), 'fee_sat': None, 'fee_msat': None, 'height': tx_height.height, 'confirmations': tx_height.conf, 'txpos_in_block': tx_height.txpos, } # FIXME this data structure needs to be kept in ~sync with wallet.get_onchain_history out[closing_txid] = item # add info about submarine swaps settled_payments = self.get_payments(status='settled') for payment_hash_hex, swap in self.swap_manager.swaps.items(): txid = swap.spending_txid if swap.is_reverse else swap.funding_txid if txid is None: continue payment_hash = bytes.fromhex(payment_hash_hex) if payment_hash in settled_payments: plist = settled_payments[payment_hash] info = self.get_payment_info(payment_hash) direction, amount_msat, fee_msat, timestamp = self.get_payment_value(info, plist) else: amount_msat = 0 label = 'Reverse swap' if swap.is_reverse else 'Forward swap' delta = current_height - swap.locktime if self.wallet.adb.is_mine(swap.lockup_address): tx_height = self.wallet.adb.get_tx_height(swap.funding_txid) if swap.is_reverse and tx_height.height <= 0: label += ' (%s)' % _('waiting for funding tx confirmation') if not swap.is_reverse and not swap.is_redeemed and swap.spending_txid is None and delta < 0: label += f' (refundable in {-delta} blocks)' # fixme: only if unspent self._labels_cache[txid] = label out[txid] = { 'txid': txid, 'group_id': txid, 'amount_msat': 0, #'amount_msat': amount_msat, # must not be added 'type': 'swap', 'label': self.get_label_for_txid(txid), } return out def get_history(self): out = list(self.get_lightning_history().values()) + list(self.get_onchain_history().values()) # sort by timestamp out.sort(key=lambda x: (x.get('timestamp') or float("inf"))) balance_msat = 0 for item in out: balance_msat += item['amount_msat'] item['balance_msat'] = balance_msat return out def channel_peers(self) -> List[bytes]: node_ids = [chan.node_id for chan in self.channels.values() if not chan.is_closed()] return node_ids def channels_for_peer(self, node_id): assert type(node_id) is bytes return {chan_id: chan for (chan_id, chan) in self.channels.items() if chan.node_id == node_id} def channel_state_changed(self, chan: Channel): if type(chan) is Channel: self.save_channel(chan) self.clear_invoices_cache() util.trigger_callback('channel', self.wallet, chan) def save_channel(self, chan: Channel): assert type(chan) is Channel if chan.config[REMOTE].next_per_commitment_point == chan.config[REMOTE].current_per_commitment_point: raise Exception("Tried to save channel with next_point == current_point, this should not happen") self.wallet.save_db() util.trigger_callback('channel', self.wallet, chan) def channel_by_txo(self, txo: str) -> Optional[AbstractChannel]: for chan in self.channels.values(): if chan.funding_outpoint.to_str() == txo: return chan for chan in self.channel_backups.values(): if chan.funding_outpoint.to_str() == txo: return chan async def handle_onchain_state(self, chan: Channel): if type(chan) is ChannelBackup: util.trigger_callback('channel', self.wallet, chan) return if (chan.get_state() in (ChannelState.OPEN, ChannelState.SHUTDOWN) and chan.should_be_closed_due_to_expiring_htlcs(self.network.get_local_height())): self.logger.info(f"force-closing due to expiring htlcs") await self.schedule_force_closing(chan.channel_id) elif chan.get_state() == ChannelState.FUNDED: peer = self._peers.get(chan.node_id) if peer and peer.is_initialized(): peer.send_channel_ready(chan) elif chan.get_state() == ChannelState.OPEN: peer = self._peers.get(chan.node_id) if peer: await peer.maybe_update_fee(chan) conf = self.lnwatcher.adb.get_tx_height(chan.funding_outpoint.txid).conf peer.on_network_update(chan, conf) elif chan.get_state() == ChannelState.FORCE_CLOSING: force_close_tx = chan.force_close_tx() txid = force_close_tx.txid() height = self.lnwatcher.adb.get_tx_height(txid).height if height == TX_HEIGHT_LOCAL: self.logger.info('REBROADCASTING CLOSING TX') await self.network.try_broadcasting(force_close_tx, 'force-close') @log_exceptions async def _open_channel_coroutine( self, *, connect_str: str, funding_tx: PartialTransaction, funding_sat: int, push_sat: int, password: Optional[str]) -> Tuple[Channel, PartialTransaction]: peer = await self.add_peer(connect_str) coro = peer.channel_establishment_flow( funding_tx=funding_tx, funding_sat=funding_sat, push_msat=push_sat * 1000, temp_channel_id=os.urandom(32)) chan, funding_tx = await asyncio.wait_for(coro, LN_P2P_NETWORK_TIMEOUT) util.trigger_callback('channels_updated', self.wallet) self.wallet.adb.add_transaction(funding_tx) # save tx as local into the wallet self.wallet.sign_transaction(funding_tx, password) self.wallet.set_label(funding_tx.txid(), _('Open channel')) if funding_tx.is_complete(): await self.network.try_broadcasting(funding_tx, 'open_channel') return chan, funding_tx def add_channel(self, chan: Channel): with self.lock: self._channels[chan.channel_id] = chan self.lnwatcher.add_channel(chan.funding_outpoint.to_str(), chan.get_funding_address()) def add_new_channel(self, chan: Channel): self.add_channel(chan) channels_db = self.db.get_dict('channels') channels_db[chan.channel_id.hex()] = chan.storage for addr in chan.get_wallet_addresses_channel_might_want_reserved(): self.wallet.set_reserved_state_of_address(addr, reserved=True) try: self.save_channel(chan) except Exception: chan.set_state(ChannelState.REDEEMED) self.remove_channel(chan.channel_id) raise def cb_data(self, node_id): return CB_MAGIC_BYTES + node_id[0:16] def decrypt_cb_data(self, encrypted_data, funding_address): funding_scripthash = bytes.fromhex(address_to_scripthash(funding_address)) nonce = funding_scripthash[0:12] return chacha20_decrypt(key=self.backup_key, data=encrypted_data, nonce=nonce) def encrypt_cb_data(self, data, funding_address): funding_scripthash = bytes.fromhex(address_to_scripthash(funding_address)) nonce = funding_scripthash[0:12] return chacha20_encrypt(key=self.backup_key, data=data, nonce=nonce) def mktx_for_open_channel( self, *, coins: Sequence[PartialTxInput], funding_sat: int, node_id: bytes, fee_est=None) -> PartialTransaction: outputs = [PartialTxOutput.from_address_and_value(ln_dummy_address(), funding_sat)] if self.has_recoverable_channels(): dummy_scriptpubkey = make_op_return(self.cb_data(node_id)) outputs.append(PartialTxOutput(scriptpubkey=dummy_scriptpubkey, value=0)) tx = self.wallet.make_unsigned_transaction( coins=coins, outputs=outputs, fee=fee_est) tx.set_rbf(False) return tx def suggest_funding_amount(self, amount_to_pay, coins): """ wether we can pay amount_sat after opening a new channel""" num_sats_can_send = int(self.num_sats_can_send()) lightning_needed = amount_to_pay - num_sats_can_send assert lightning_needed > 0 min_funding_sat = lightning_needed + (lightning_needed // 20) + 1000 # safety margin min_funding_sat = max(min_funding_sat, 100_000) # at least 1mBTC if min_funding_sat > LN_MAX_FUNDING_SAT: return fee_est = partial(self.config.estimate_fee, allow_fallback_to_static_rates=True) # to avoid NoDynamicFeeEstimates try: self.mktx_for_open_channel(coins=coins, funding_sat=min_funding_sat, node_id=bytes(32), fee_est=fee_est) funding_sat = min_funding_sat except NotEnoughFunds: return # if available, suggest twice that amount: if 2 * min_funding_sat <= LN_MAX_FUNDING_SAT: try: self.mktx_for_open_channel(coins=coins, funding_sat=2*min_funding_sat, node_id=bytes(32), fee_est=fee_est) funding_sat = 2 * min_funding_sat except NotEnoughFunds: pass return funding_sat, min_funding_sat def open_channel(self, *, connect_str: str, funding_tx: PartialTransaction, funding_sat: int, push_amt_sat: int, password: str = None) -> Tuple[Channel, PartialTransaction]: if funding_sat > LN_MAX_FUNDING_SAT: raise Exception(_("Requested channel capacity is over protocol allowed maximum.")) coro = self._open_channel_coroutine( connect_str=connect_str, funding_tx=funding_tx, funding_sat=funding_sat, push_sat=push_amt_sat, password=password) fut = asyncio.run_coroutine_threadsafe(coro, self.network.asyncio_loop) try: chan, funding_tx = fut.result() except concurrent.futures.TimeoutError: raise Exception(_("open_channel timed out")) return chan, funding_tx def get_channel_by_short_id(self, short_channel_id: bytes) -> Optional[Channel]: for chan in self.channels.values(): if chan.short_channel_id == short_channel_id: return chan def can_pay_invoice(self, invoice: Invoice) -> bool: assert invoice.is_lightning() return (invoice.get_amount_sat() or 0) <= self.num_sats_can_send() @log_exceptions async def pay_invoice( self, invoice: str, *, amount_msat: int = None, attempts: int = None, # used only in unit tests full_path: LNPaymentPath = None, channels: Optional[Sequence[Channel]] = None, ) -> Tuple[bool, List[HtlcLog]]: lnaddr = self._check_invoice(invoice, amount_msat=amount_msat) min_cltv_expiry = lnaddr.get_min_final_cltv_expiry() payment_hash = lnaddr.paymenthash key = payment_hash.hex() payment_secret = lnaddr.payment_secret invoice_pubkey = lnaddr.pubkey.serialize() invoice_features = lnaddr.get_features() r_tags = lnaddr.get_routing_info('r') amount_to_pay = lnaddr.get_amount_msat() status = self.get_payment_status(payment_hash) if status == PR_PAID: raise PaymentFailure(_("This invoice has been paid already")) if status == PR_INFLIGHT: raise PaymentFailure(_("A payment was already initiated for this invoice")) if payment_hash in self.get_payments(status='inflight'): raise PaymentFailure(_("A previous attempt to pay this invoice did not clear")) info = PaymentInfo(payment_hash, amount_to_pay, SENT, PR_UNPAID) self.save_payment_info(info) self.wallet.set_label(key, lnaddr.get_description()) self.logger.info(f"pay_invoice starting session for RHASH={payment_hash.hex()}") self.set_invoice_status(key, PR_INFLIGHT) success = False try: await self.pay_to_node( node_pubkey=invoice_pubkey, payment_hash=payment_hash, payment_secret=payment_secret, amount_to_pay=amount_to_pay, min_cltv_expiry=min_cltv_expiry, r_tags=r_tags, invoice_features=invoice_features, attempts=attempts, full_path=full_path, channels=channels) success = True except PaymentFailure as e: self.logger.info(f'payment failure: {e!r}') reason = str(e) except ChannelDBNotLoaded as e: self.logger.info(f'payment failure: {e!r}') reason = str(e) finally: self.logger.info(f"pay_invoice ending session for RHASH={payment_hash.hex()}. {success=}") if success: self.set_invoice_status(key, PR_PAID) util.trigger_callback('payment_succeeded', self.wallet, key) else: self.set_invoice_status(key, PR_UNPAID) util.trigger_callback('payment_failed', self.wallet, key, reason) log = self.logs[key] return success, log async def pay_to_node( self, *, node_pubkey: bytes, payment_hash: bytes, payment_secret: bytes, amount_to_pay: int, # in msat min_cltv_expiry: int, r_tags, invoice_features: int, attempts: int = None, full_path: LNPaymentPath = None, fwd_trampoline_onion=None, fwd_trampoline_fee=None, fwd_trampoline_cltv_delta=None, channels: Optional[Sequence[Channel]] = None, ) -> None: if fwd_trampoline_onion: # todo: compare to the fee of the actual route we found if fwd_trampoline_fee < 1000: raise OnionRoutingFailure(code=OnionFailureCode.TRAMPOLINE_FEE_INSUFFICIENT, data=b'') if fwd_trampoline_cltv_delta < 576: raise OnionRoutingFailure(code=OnionFailureCode.TRAMPOLINE_EXPIRY_TOO_SOON, data=b'') self.logs[payment_hash.hex()] = log = [] # when encountering trampoline forwarding difficulties in the legacy case, we # sometimes need to fall back to a single trampoline forwarder, at the expense # of privacy use_two_trampolines = True self.trampoline_fee_level = self.INITIAL_TRAMPOLINE_FEE_LEVEL self.failed_trampoline_routes = [] start_time = time.time() amount_inflight = 0 # what we sent in htlcs (that receiver gets, without fees) while True: amount_to_send = amount_to_pay - amount_inflight if amount_to_send > 0: # 1. create a set of routes for remaining amount. # note: path-finding runs in a separate thread so that we don't block the asyncio loop # graph updates might occur during the computation routes = self.create_routes_for_payment( amount_msat=amount_to_send, final_total_msat=amount_to_pay, invoice_pubkey=node_pubkey, min_cltv_expiry=min_cltv_expiry, r_tags=r_tags, invoice_features=invoice_features, full_path=full_path, payment_hash=payment_hash, payment_secret=payment_secret, trampoline_fee_level=self.trampoline_fee_level, use_two_trampolines=use_two_trampolines, fwd_trampoline_onion=fwd_trampoline_onion, channels=channels, ) # 2. send htlcs async for route, amount_msat, total_msat, amount_receiver_msat, cltv_delta, bucket_payment_secret, trampoline_onion, trampoline_route in routes: amount_inflight += amount_receiver_msat if amount_inflight > amount_to_pay: # safety belts raise Exception(f"amount_inflight={amount_inflight} > amount_to_pay={amount_to_pay}") await self.pay_to_route( route=route, amount_msat=amount_msat, total_msat=total_msat, amount_receiver_msat=amount_receiver_msat, payment_hash=payment_hash, payment_secret=bucket_payment_secret, min_cltv_expiry=cltv_delta, trampoline_onion=trampoline_onion, trampoline_fee_level=self.trampoline_fee_level, trampoline_route=trampoline_route) # invoice_status is triggered in self.set_invoice_status when it actally changes. # It is also triggered here to update progress for a lightning payment in the GUI # (e.g. attempt counter) util.trigger_callback('invoice_status', self.wallet, payment_hash.hex(), PR_INFLIGHT) # 3. await a queue self.logger.info(f"amount inflight {amount_inflight}") htlc_log = await self.sent_htlcs[payment_hash].get() amount_inflight -= htlc_log.amount_msat if amount_inflight < 0: raise Exception(f"amount_inflight={amount_inflight} < 0") log.append(htlc_log) if htlc_log.success: if self.network.path_finder: # TODO: report every route to liquidity hints for mpp # in the case of success, we report channels of the # route as being able to send the same amount in the future, # as we assume to not know the capacity self.network.path_finder.update_liquidity_hints(htlc_log.route, htlc_log.amount_msat) # remove inflight htlcs from liquidity hints self.network.path_finder.update_inflight_htlcs(htlc_log.route, add_htlcs=False) return # htlc failed if (attempts is not None and len(log) >= attempts) or (attempts is None and time.time() - start_time > self.PAYMENT_TIMEOUT): raise PaymentFailure('Giving up after %d attempts'%len(log)) # if we get a tmp channel failure, it might work to split the amount and try more routes # if we get a channel update, we might retry the same route and amount route = htlc_log.route sender_idx = htlc_log.sender_idx erring_node_id = route[sender_idx].node_id failure_msg = htlc_log.failure_msg code, data = failure_msg.code, failure_msg.data self.logger.info(f"UPDATE_FAIL_HTLC. code={repr(code)}. " f"decoded_data={failure_msg.decode_data()}. data={data.hex()!r}") self.logger.info(f"error reported by {erring_node_id.hex()}") if code == OnionFailureCode.MPP_TIMEOUT: raise PaymentFailure(failure_msg.code_name()) # trampoline if self.uses_trampoline(): def maybe_raise_trampoline_fee(htlc_log): if htlc_log.trampoline_fee_level == self.trampoline_fee_level: self.trampoline_fee_level += 1 self.failed_trampoline_routes = [] self.logger.info(f'raising trampoline fee level {self.trampoline_fee_level}') else: self.logger.info(f'NOT raising trampoline fee level, already at {self.trampoline_fee_level}') # FIXME The trampoline nodes in the path are chosen randomly. # Some of the errors might depend on how we have chosen them. # Having more attempts is currently useful in part because of the randomness, # instead we should give feedback to create_routes_for_payment. # Sometimes the trampoline node fails to send a payment and returns # TEMPORARY_CHANNEL_FAILURE, while it succeeds with a higher trampoline fee. if code in ( OnionFailureCode.TRAMPOLINE_FEE_INSUFFICIENT, OnionFailureCode.TRAMPOLINE_EXPIRY_TOO_SOON, OnionFailureCode.TEMPORARY_CHANNEL_FAILURE): # TODO: parse the node policy here (not returned by eclair yet) # TODO: erring node is always the first trampoline even if second # trampoline demands more fees, we can't influence this maybe_raise_trampoline_fee(htlc_log) continue elif use_two_trampolines: use_two_trampolines = False elif code in ( OnionFailureCode.UNKNOWN_NEXT_PEER, OnionFailureCode.TEMPORARY_NODE_FAILURE): trampoline_route = htlc_log.route r = [hop.end_node.hex() for hop in trampoline_route] self.logger.info(f'failed trampoline route: {r}') assert r not in self.failed_trampoline_routes self.failed_trampoline_routes.append(r) continue else: raise PaymentFailure(failure_msg.code_name()) else: self.handle_error_code_from_failed_htlc( route=route, sender_idx=sender_idx, failure_msg=failure_msg, amount=htlc_log.amount_msat) async def pay_to_route( self, *, route: LNPaymentRoute, amount_msat: int, total_msat: int, amount_receiver_msat:int, payment_hash: bytes, payment_secret: bytes, min_cltv_expiry: int, trampoline_onion: bytes = None, trampoline_fee_level: int, trampoline_route: Optional[List]) -> None: # send a single htlc short_channel_id = route[0].short_channel_id chan = self.get_channel_by_short_id(short_channel_id) assert chan, ShortChannelID(short_channel_id) peer = self._peers.get(route[0].node_id) if not peer: raise PaymentFailure('Dropped peer') await peer.initialized htlc = peer.pay( route=route, chan=chan, amount_msat=amount_msat, total_msat=total_msat, payment_hash=payment_hash, min_final_cltv_expiry=min_cltv_expiry, payment_secret=payment_secret, trampoline_onion=trampoline_onion) key = (payment_hash, short_channel_id, htlc.htlc_id) self.sent_htlcs_info[key] = route, payment_secret, amount_msat, total_msat, amount_receiver_msat, trampoline_fee_level, trampoline_route # if we sent MPP to a trampoline, add item to sent_buckets if self.uses_trampoline() and amount_msat != total_msat: if payment_secret not in self.sent_buckets: self.sent_buckets[payment_secret] = (0, 0) amount_sent, amount_failed = self.sent_buckets[payment_secret] amount_sent += amount_receiver_msat self.sent_buckets[payment_secret] = amount_sent, amount_failed if self.network.path_finder: # add inflight htlcs to liquidity hints self.network.path_finder.update_inflight_htlcs(route, add_htlcs=True) util.trigger_callback('htlc_added', chan, htlc, SENT) def handle_error_code_from_failed_htlc( self, *, route: LNPaymentRoute, sender_idx: int, failure_msg: OnionRoutingFailure, amount: int) -> None: assert self.channel_db # cannot be in trampoline mode assert self.network.path_finder # remove inflight htlcs from liquidity hints self.network.path_finder.update_inflight_htlcs(route, add_htlcs=False) code, data = failure_msg.code, failure_msg.data # TODO can we use lnmsg.OnionWireSerializer here? # TODO update onion_wire.csv # handle some specific error codes failure_codes = { OnionFailureCode.TEMPORARY_CHANNEL_FAILURE: 0, OnionFailureCode.AMOUNT_BELOW_MINIMUM: 8, OnionFailureCode.FEE_INSUFFICIENT: 8, OnionFailureCode.INCORRECT_CLTV_EXPIRY: 4, OnionFailureCode.EXPIRY_TOO_SOON: 0, OnionFailureCode.CHANNEL_DISABLED: 2, } if sender_idx is None: raise PaymentFailure(failure_msg.code_name()) try: failing_channel = route[sender_idx + 1].short_channel_id except IndexError: raise PaymentFailure(f'payment destination reported error: {failure_msg.code_name()}') from None # TODO: handle unknown next peer? # handle failure codes that include a channel update if code in failure_codes: offset = failure_codes[code] channel_update_len = int.from_bytes(data[offset:offset+2], byteorder="big") channel_update_as_received = data[offset+2: offset+2+channel_update_len] payload = self._decode_channel_update_msg(channel_update_as_received) if payload is None: self.logger.info(f'could not decode channel_update for failed htlc: ' f'{channel_update_as_received.hex()}') blacklist = True elif payload.get('short_channel_id') != failing_channel: self.logger.info(f'short_channel_id in channel_update does not match our route') blacklist = True else: # apply the channel update or get blacklisted blacklist, update = self._handle_chanupd_from_failed_htlc( payload, route=route, sender_idx=sender_idx) # we interpret a temporary channel failure as a liquidity issue # in the channel and update our liquidity hints accordingly if code == OnionFailureCode.TEMPORARY_CHANNEL_FAILURE: self.network.path_finder.update_liquidity_hints( route, amount, failing_channel=ShortChannelID(failing_channel)) # if we can't decide on some action, we are stuck if not (blacklist or update): raise PaymentFailure(failure_msg.code_name()) # for errors that do not include a channel update else: blacklist = True if blacklist: self.network.path_finder.liquidity_hints.add_to_blacklist(failing_channel) def _handle_chanupd_from_failed_htlc(self, payload, *, route, sender_idx) -> Tuple[bool, bool]: blacklist = False update = False try: r = self.channel_db.add_channel_update(payload, verify=True) except InvalidGossipMsg: return True, False # blacklist short_channel_id = ShortChannelID(payload['short_channel_id']) if r == UpdateStatus.GOOD: self.logger.info(f"applied channel update to {short_channel_id}") # TODO: add test for this # FIXME: this does not work for our own unannounced channels. for chan in self.channels.values(): if chan.short_channel_id == short_channel_id: chan.set_remote_update(payload) update = True elif r == UpdateStatus.ORPHANED: # maybe it is a private channel (and data in invoice was outdated) self.logger.info(f"Could not find {short_channel_id}. maybe update is for private channel?") start_node_id = route[sender_idx].node_id update = self.channel_db.add_channel_update_for_private_channel(payload, start_node_id) blacklist = not update elif r == UpdateStatus.EXPIRED: blacklist = True elif r == UpdateStatus.DEPRECATED: self.logger.info(f'channel update is not more recent.') blacklist = True elif r == UpdateStatus.UNCHANGED: blacklist = True return blacklist, update @classmethod def _decode_channel_update_msg(cls, chan_upd_msg: bytes) -> Optional[Dict[str, Any]]: channel_update_as_received = chan_upd_msg channel_update_typed = (258).to_bytes(length=2, byteorder="big") + channel_update_as_received # note: some nodes put channel updates in error msgs with the leading msg_type already there. # we try decoding both ways here. try: message_type, payload = decode_msg(channel_update_typed) if payload['chain_hash'] != constants.net.rev_genesis_bytes(): raise Exception() payload['raw'] = channel_update_typed return payload except Exception: # FIXME: too broad try: message_type, payload = decode_msg(channel_update_as_received) if payload['chain_hash'] != constants.net.rev_genesis_bytes(): raise Exception() payload['raw'] = channel_update_as_received return payload except Exception: return None def _check_invoice(self, invoice: str, *, amount_msat: int = None) -> LnAddr: addr = lndecode(invoice) if addr.is_expired(): raise InvoiceError(_("This invoice has expired")) if amount_msat: # replace amt in invoice. main usecase is paying zero amt invoices existing_amt_msat = addr.get_amount_msat() if existing_amt_msat and amount_msat < existing_amt_msat: raise Exception("cannot pay lower amt than what is originally in LN invoice") addr.amount = Decimal(amount_msat) / COIN / 1000 if addr.amount is None: raise InvoiceError(_("Missing amount")) if addr.get_min_final_cltv_expiry() > lnutil.NBLOCK_CLTV_EXPIRY_TOO_FAR_INTO_FUTURE: raise InvoiceError("{}\n{}".format( _("Invoice wants us to risk locking funds for unreasonably long."), f"min_final_cltv_expiry: {addr.get_min_final_cltv_expiry()}")) addr.validate_and_compare_features(self.features) return addr def is_trampoline_peer(self, node_id: bytes) -> bool: # until trampoline is advertised in lnfeatures, check against hardcoded list if is_hardcoded_trampoline(node_id): return True peer = self._peers.get(node_id) if not peer: return False return (peer.their_features.supports(LnFeatures.OPTION_TRAMPOLINE_ROUTING_OPT_ECLAIR)\ or peer.their_features.supports(LnFeatures.OPTION_TRAMPOLINE_ROUTING_OPT_ELECTRUM)) def suggest_peer(self) -> Optional[bytes]: if not self.uses_trampoline(): return self.lnrater.suggest_peer() else: return random.choice(list(hardcoded_trampoline_nodes().values())).pubkey def suggest_splits(self, amount_msat: int, my_active_channels, invoice_features, r_tags): channels_with_funds = { (chan.channel_id, chan.node_id): int(chan.available_to_spend(HTLCOwner.LOCAL)) for chan in my_active_channels } self.logger.info(f"channels_with_funds: {channels_with_funds}") if self.uses_trampoline(): # in the case of a legacy payment, we don't allow splitting via different # trampoline nodes, because of https://github.com/ACINQ/eclair/issues/2127 is_legacy, _ = is_legacy_relay(invoice_features, r_tags) exclude_multinode_payments = is_legacy # we don't split within a channel when sending to a trampoline node, # the trampoline node will split for us exclude_single_channel_splits = True else: exclude_multinode_payments = False exclude_single_channel_splits = False split_configurations = suggest_splits( amount_msat, channels_with_funds, exclude_single_part_payments=False, exclude_multinode_payments=exclude_multinode_payments, exclude_single_channel_splits=exclude_single_channel_splits ) self.logger.info(f'suggest_split {amount_msat} returned {len(split_configurations)} configurations') return split_configurations async def create_routes_for_payment( self, *, amount_msat: int, # part of payment amount we want routes for now final_total_msat: int, # total payment amount final receiver will get invoice_pubkey, min_cltv_expiry, r_tags, invoice_features: int, payment_hash: bytes, payment_secret: bytes, trampoline_fee_level: int, use_two_trampolines: bool, fwd_trampoline_onion=None, full_path: LNPaymentPath = None, channels: Optional[Sequence[Channel]] = None, ) -> AsyncGenerator[Tuple[LNPaymentRoute, int], None]: """Creates multiple routes for splitting a payment over the available private channels. We first try to conduct the payment over a single channel. If that fails and mpp is supported by the receiver, we will split the payment.""" invoice_features = LnFeatures(invoice_features) trampoline_features = LnFeatures.VAR_ONION_OPT local_height = self.network.get_local_height() if channels: my_active_channels = channels else: my_active_channels = [ chan for chan in self.channels.values() if chan.is_active() and not chan.is_frozen_for_sending()] # try random order random.shuffle(my_active_channels) split_configurations = self.suggest_splits(amount_msat, my_active_channels, invoice_features, r_tags) for sc in split_configurations: is_multichan_mpp = len(sc.config.items()) > 1 is_mpp = sum(len(x) for x in list(sc.config.values())) > 1 if is_mpp and not invoice_features.supports(LnFeatures.BASIC_MPP_OPT): continue self.logger.info(f"trying split configuration: {sc.config.values()} rating: {sc.rating}") routes = [] try: if self.uses_trampoline(): per_trampoline_channel_amounts = defaultdict(list) # categorize by trampoline nodes for trampolin mpp construction for (chan_id, _), part_amounts_msat in sc.config.items(): chan = self.channels[chan_id] for part_amount_msat in part_amounts_msat: per_trampoline_channel_amounts[chan.node_id].append((chan_id, part_amount_msat)) # for each trampoline forwarder, construct mpp trampoline for trampoline_node_id, trampoline_parts in per_trampoline_channel_amounts.items(): per_trampoline_amount = sum([x[1] for x in trampoline_parts]) if trampoline_node_id == invoice_pubkey: trampoline_route = None trampoline_onion = None per_trampoline_secret = payment_secret per_trampoline_amount_with_fees = amount_msat per_trampoline_cltv_delta = min_cltv_expiry per_trampoline_fees = 0 else: trampoline_route, trampoline_onion, per_trampoline_amount_with_fees, per_trampoline_cltv_delta = create_trampoline_route_and_onion( amount_msat=per_trampoline_amount, total_msat=final_total_msat, min_cltv_expiry=min_cltv_expiry, my_pubkey=self.node_keypair.pubkey, invoice_pubkey=invoice_pubkey, invoice_features=invoice_features, node_id=trampoline_node_id, r_tags=r_tags, payment_hash=payment_hash, payment_secret=payment_secret, local_height=local_height, trampoline_fee_level=trampoline_fee_level, use_two_trampolines=use_two_trampolines, failed_routes=self.failed_trampoline_routes) # node_features is only used to determine is_tlv per_trampoline_secret = os.urandom(32) per_trampoline_fees = per_trampoline_amount_with_fees - per_trampoline_amount self.logger.info(f'created route with trampoline fee level={trampoline_fee_level}') self.logger.info(f'trampoline hops: {[hop.end_node.hex() for hop in trampoline_route]}') self.logger.info(f'per trampoline fees: {per_trampoline_fees}') for chan_id, part_amount_msat in trampoline_parts: chan = self.channels[chan_id] margin = chan.available_to_spend(LOCAL, strict=True) - part_amount_msat delta_fee = min(per_trampoline_fees, margin) # TODO: distribute trampoline fee over several channels? part_amount_msat_with_fees = part_amount_msat + delta_fee per_trampoline_fees -= delta_fee route = [ RouteEdge( start_node=self.node_keypair.pubkey, end_node=trampoline_node_id, short_channel_id=chan.short_channel_id, fee_base_msat=0, fee_proportional_millionths=0, cltv_expiry_delta=0, node_features=trampoline_features) ] self.logger.info(f'adding route {part_amount_msat} {delta_fee} {margin}') routes.append((route, part_amount_msat_with_fees, per_trampoline_amount_with_fees, part_amount_msat, per_trampoline_cltv_delta, per_trampoline_secret, trampoline_onion, trampoline_route)) if per_trampoline_fees != 0: self.logger.info('not enough margin to pay trampoline fee') raise NoPathFound() else: # We atomically loop through a split configuration. If there was # a failure to find a path for a single part, we try the next configuration for (chan_id, _), part_amounts_msat in sc.config.items(): for part_amount_msat in part_amounts_msat: channel = self.channels[chan_id] route = await run_in_thread( partial( self.create_route_for_payment, amount_msat=part_amount_msat, invoice_pubkey=invoice_pubkey, min_cltv_expiry=min_cltv_expiry, r_tags=r_tags, invoice_features=invoice_features, my_sending_channels=[channel] if is_multichan_mpp else my_active_channels, full_path=full_path, ) ) routes.append((route, part_amount_msat, final_total_msat, part_amount_msat, min_cltv_expiry, payment_secret, fwd_trampoline_onion, None)) except NoPathFound: continue for route in routes: yield route return raise NoPathFound() @profiler def create_route_for_payment( self, *, amount_msat: int, invoice_pubkey: bytes, min_cltv_expiry: int, r_tags, invoice_features: int, my_sending_channels: List[Channel], full_path: Optional[LNPaymentPath]) -> LNPaymentRoute: my_sending_aliases = set(chan.get_local_scid_alias() for chan in my_sending_channels) my_sending_channels = {chan.short_channel_id: chan for chan in my_sending_channels if chan.short_channel_id is not None} # Collect all private edges from route hints. # Note: if some route hints are multiple edges long, and these paths cross each other, # we allow our path finding to cross the paths; i.e. the route hints are not isolated. private_route_edges = {} # type: Dict[ShortChannelID, RouteEdge] for private_path in r_tags: # we need to shift the node pubkey by one towards the destination: private_path_nodes = [edge[0] for edge in private_path][1:] + [invoice_pubkey] private_path_rest = [edge[1:] for edge in private_path] start_node = private_path[0][0] # remove aliases from direct routes if len(private_path) == 1 and private_path[0][1] in my_sending_aliases: self.logger.info(f'create_route: skipping alias {ShortChannelID(private_path[0][1])}') continue for end_node, edge_rest in zip(private_path_nodes, private_path_rest): short_channel_id, fee_base_msat, fee_proportional_millionths, cltv_expiry_delta = edge_rest short_channel_id = ShortChannelID(short_channel_id) # if we have a routing policy for this edge in the db, that takes precedence, # as it is likely from a previous failure channel_policy = self.channel_db.get_policy_for_node( short_channel_id=short_channel_id, node_id=start_node, my_channels=my_sending_channels) if channel_policy: fee_base_msat = channel_policy.fee_base_msat fee_proportional_millionths = channel_policy.fee_proportional_millionths cltv_expiry_delta = channel_policy.cltv_expiry_delta node_info = self.channel_db.get_node_info_for_node_id(node_id=end_node) route_edge = RouteEdge( start_node=start_node, end_node=end_node, short_channel_id=short_channel_id, fee_base_msat=fee_base_msat, fee_proportional_millionths=fee_proportional_millionths, cltv_expiry_delta=cltv_expiry_delta, node_features=node_info.features if node_info else 0) private_route_edges[route_edge.short_channel_id] = route_edge start_node = end_node # now find a route, end to end: between us and the recipient try: route = self.network.path_finder.find_route( nodeA=self.node_keypair.pubkey, nodeB=invoice_pubkey, invoice_amount_msat=amount_msat, path=full_path, my_sending_channels=my_sending_channels, private_route_edges=private_route_edges) except NoChannelPolicy as e: raise NoPathFound() from e if not route: raise NoPathFound() # test sanity if not is_route_sane_to_use(route, amount_msat, min_cltv_expiry): self.logger.info(f"rejecting insane route {route}") raise NoPathFound() assert len(route) > 0 if route[-1].end_node != invoice_pubkey: raise LNPathInconsistent("last node_id != invoice pubkey") # add features from invoice route[-1].node_features |= invoice_features return route def clear_invoices_cache(self): self._bolt11_cache.clear() def get_bolt11_invoice( self, *, payment_hash: bytes, amount_msat: Optional[int], message: str, expiry: int, fallback_address: Optional[str], channels: Optional[Sequence[Channel]] = None, ) -> Tuple[LnAddr, str]: assert isinstance(payment_hash, bytes), f"expected bytes, but got {type(payment_hash)}" pair = self._bolt11_cache.get(payment_hash) if pair: lnaddr, invoice = pair assert lnaddr.get_amount_msat() == amount_msat return pair assert amount_msat is None or amount_msat > 0 timestamp = int(time.time()) routing_hints, trampoline_hints = self.calc_routing_hints_for_invoice(amount_msat, channels=channels) self.logger.info(f"creating bolt11 invoice with routing_hints: {routing_hints}") invoice_features = self.features.for_invoice() payment_secret = self.get_payment_secret(payment_hash) amount_btc = amount_msat/Decimal(COIN*1000) if amount_msat else None if expiry == 0: expiry = LN_EXPIRY_NEVER lnaddr = LnAddr( paymenthash=payment_hash, amount=amount_btc, tags=[ ('d', message), ('c', MIN_FINAL_CLTV_EXPIRY_FOR_INVOICE), ('x', expiry), ('9', invoice_features), ('f', fallback_address), ] + routing_hints + trampoline_hints, date=timestamp, payment_secret=payment_secret) invoice = lnencode(lnaddr, self.node_keypair.privkey) pair = lnaddr, invoice self._bolt11_cache[payment_hash] = pair return pair def get_payment_secret(self, payment_hash): return sha256(sha256(self.payment_secret_key) + payment_hash) def create_payment_info(self, *, amount_msat: Optional[int], write_to_disk=True) -> bytes: payment_preimage = os.urandom(32) payment_hash = sha256(payment_preimage) info = PaymentInfo(payment_hash, amount_msat, RECEIVED, PR_UNPAID) self.save_preimage(payment_hash, payment_preimage, write_to_disk=False) self.save_payment_info(info, write_to_disk=False) if write_to_disk: self.wallet.save_db() return payment_hash def bundle_payments(self, hash_list): self.payment_bundles.append(hash_list) def get_payment_bundle(self, payment_hash): for hash_list in self.payment_bundles: if payment_hash in hash_list: return hash_list def save_preimage(self, payment_hash: bytes, preimage: bytes, *, write_to_disk: bool = True): assert sha256(preimage) == payment_hash self.preimages[payment_hash.hex()] = preimage.hex() if write_to_disk: self.wallet.save_db() def get_preimage(self, payment_hash: bytes) -> Optional[bytes]: assert isinstance(payment_hash, bytes), f"expected bytes, but got {type(payment_hash)}" r = self.preimages.get(payment_hash.hex()) return bytes.fromhex(r) if r else None def get_payment_info(self, payment_hash: bytes) -> Optional[PaymentInfo]: """returns None if payment_hash is a payment we are forwarding""" key = payment_hash.hex() with self.lock: if key in self.payment_info: amount_msat, direction, status = self.payment_info[key] return PaymentInfo(payment_hash, amount_msat, direction, status) def add_payment_info_for_hold_invoice(self, payment_hash: bytes, lightning_amount_sat: int): info = PaymentInfo(payment_hash, lightning_amount_sat * 1000, RECEIVED, PR_UNPAID) self.save_payment_info(info, write_to_disk=False) def register_callback_for_hold_invoice( self, payment_hash: bytes, cb: Callable[[bytes], None], timeout: int, ): expiry = int(time.time()) + timeout self.hold_invoice_callbacks[payment_hash] = cb, expiry def save_payment_info(self, info: PaymentInfo, *, write_to_disk: bool = True) -> None: key = info.payment_hash.hex() assert info.status in SAVED_PR_STATUS with self.lock: self.payment_info[key] = info.amount_msat, info.direction, info.status if write_to_disk: self.wallet.save_db() def check_received_htlc( self, payment_secret: bytes, short_channel_id: ShortChannelID, htlc: UpdateAddHtlc, expected_msat: int, ) -> Optional[bool]: """ return MPP status: True (accepted), False (expired) or None (waiting) """ payment_hash = htlc.payment_hash self.update_mpp_with_received_htlc(payment_secret, short_channel_id, htlc, expected_msat) is_expired, is_accepted = self.get_mpp_status(payment_secret) if not is_accepted and not is_expired: bundle = self.get_payment_bundle(payment_hash) payment_hashes = bundle or [payment_hash] payment_secrets = [self.get_payment_secret(h) for h in bundle] if bundle else [payment_secret] first_timestamp = min([self.get_first_timestamp_of_mpp(x) for x in payment_secrets]) if self.get_payment_status(payment_hash) == PR_PAID: is_accepted = True elif self.stopping_soon: is_expired = True # try to time out pending HTLCs before shutting down elif all([self.is_mpp_amount_reached(x) for x in payment_secrets]): preimage = self.get_preimage(payment_hash) hold_invoice_callback = self.hold_invoice_callbacks.get(payment_hash) if not preimage and hold_invoice_callback: # for hold invoices, trigger callback cb, timeout = hold_invoice_callback if int(time.time()) < timeout: cb(payment_hash) else: is_expired = True else: # note: preimage will be None for outer trampoline onion is_accepted = True elif time.time() - first_timestamp > self.MPP_EXPIRY: is_expired = True if is_accepted: # accept only the current part of a bundle self.set_mpp_status(payment_secret, is_expired, is_accepted) elif is_expired: # .. but expire all parts for x in payment_secrets: if x in self.received_mpp_htlcs: self.set_mpp_status(x, is_expired, is_accepted) self.maybe_cleanup_mpp_status(payment_secret, short_channel_id, htlc) return True if is_accepted else (False if is_expired else None) def update_mpp_with_received_htlc( self, payment_secret: bytes, short_channel_id: ShortChannelID, htlc: UpdateAddHtlc, expected_msat: int, ): # add new htlc to set mpp_status = self.received_mpp_htlcs.get(payment_secret) if mpp_status is None: mpp_status = ReceivedMPPStatus( is_expired=False, is_accepted=False, expected_msat=expected_msat, htlc_set=set(), ) assert expected_msat == mpp_status.expected_msat key = (short_channel_id, htlc) if key not in mpp_status.htlc_set: mpp_status.htlc_set.add(key) # side-effecting htlc_set self.received_mpp_htlcs[payment_secret] = mpp_status def get_mpp_status(self, payment_secret: bytes) -> Tuple[bool, bool]: mpp_status = self.received_mpp_htlcs[payment_secret] return mpp_status.is_expired, mpp_status.is_accepted def set_mpp_status(self, payment_secret: bytes, is_expired: bool, is_accepted: bool): mpp_status = self.received_mpp_htlcs[payment_secret] self.received_mpp_htlcs[payment_secret] = mpp_status._replace( is_expired=is_expired, is_accepted=is_accepted, ) def is_mpp_amount_reached(self, payment_secret: bytes) -> bool: mpp_status = self.received_mpp_htlcs.get(payment_secret) if not mpp_status: return False total = sum([_htlc.amount_msat for scid, _htlc in mpp_status.htlc_set]) return total >= mpp_status.expected_msat def get_first_timestamp_of_mpp(self, payment_secret: bytes) -> int: mpp_status = self.received_mpp_htlcs.get(payment_secret) if not mpp_status: return int(time.time()) return min([_htlc.timestamp for scid, _htlc in mpp_status.htlc_set]) def maybe_cleanup_mpp_status( self, payment_secret: bytes, short_channel_id: ShortChannelID, htlc: UpdateAddHtlc, ) -> None: mpp_status = self.received_mpp_htlcs[payment_secret] if not mpp_status.is_accepted and not mpp_status.is_expired: return key = (short_channel_id, htlc) mpp_status.htlc_set.remove(key) # side-effecting htlc_set if not mpp_status.htlc_set and payment_secret in self.received_mpp_htlcs: self.received_mpp_htlcs.pop(payment_secret) def get_payment_status(self, payment_hash: bytes) -> int: info = self.get_payment_info(payment_hash) return info.status if info else PR_UNPAID def get_invoice_status(self, invoice: BaseInvoice) -> int: invoice_id = invoice.rhash if invoice_id in self.inflight_payments: return PR_INFLIGHT # status may be PR_FAILED status = self.get_payment_status(bytes.fromhex(invoice_id)) if status == PR_UNPAID and invoice_id in self.logs: status = PR_FAILED return status def set_invoice_status(self, key: str, status: int) -> None: if status == PR_INFLIGHT: self.inflight_payments.add(key) elif key in self.inflight_payments: self.inflight_payments.remove(key) if status in SAVED_PR_STATUS: self.set_payment_status(bfh(key), status) util.trigger_callback('invoice_status', self.wallet, key, status) self.logger.info(f"invoice status triggered (2) for key {key} and status {status}") # liquidity changed self.clear_invoices_cache() def set_request_status(self, payment_hash: bytes, status: int) -> None: if self.get_payment_status(payment_hash) == status: return self.set_payment_status(payment_hash, status) request_id = payment_hash.hex() req = self.wallet.get_request(request_id) if req is None: return util.trigger_callback('request_status', self.wallet, request_id, status) def set_payment_status(self, payment_hash: bytes, status: int) -> None: info = self.get_payment_info(payment_hash) if info is None: # if we are forwarding return info = info._replace(status=status) self.save_payment_info(info) def _on_maybe_forwarded_htlc_resolved(self, chan: Channel, htlc_id: int) -> None: """Called when an HTLC we offered on chan gets irrevocably fulfilled or failed. If we find this was a forwarded HTLC, the upstream peer is notified. """ fw_info = chan.short_channel_id.hex(), htlc_id upstream_peer_pubkey = self.downstream_htlc_to_upstream_peer_map.get(fw_info) if not upstream_peer_pubkey: return upstream_peer = self.peers.get(upstream_peer_pubkey) if not upstream_peer: return upstream_peer.downstream_htlc_resolved_event.set() upstream_peer.downstream_htlc_resolved_event.clear() def htlc_fulfilled(self, chan: Channel, payment_hash: bytes, htlc_id: int): util.trigger_callback('htlc_fulfilled', payment_hash, chan, htlc_id) self._on_maybe_forwarded_htlc_resolved(chan=chan, htlc_id=htlc_id) q = self.sent_htlcs.get(payment_hash) if q: route, payment_secret, amount_msat, bucket_msat, amount_receiver_msat, trampoline_fee_level, trampoline_route = self.sent_htlcs_info[(payment_hash, chan.short_channel_id, htlc_id)] htlc_log = HtlcLog( success=True, route=route, amount_msat=amount_receiver_msat, trampoline_fee_level=trampoline_fee_level) q.put_nowait(htlc_log) else: key = payment_hash.hex() self.set_invoice_status(key, PR_PAID) util.trigger_callback('payment_succeeded', self.wallet, key) def htlc_failed( self, chan: Channel, payment_hash: bytes, htlc_id: int, error_bytes: Optional[bytes], failure_message: Optional['OnionRoutingFailure']): util.trigger_callback('htlc_failed', payment_hash, chan, htlc_id) self._on_maybe_forwarded_htlc_resolved(chan=chan, htlc_id=htlc_id) q = self.sent_htlcs.get(payment_hash) if q: # detect if it is part of a bucket # if yes, wait until the bucket completely failed key = (payment_hash, chan.short_channel_id, htlc_id) route, payment_secret, amount_msat, bucket_msat, amount_receiver_msat, trampoline_fee_level, trampoline_route = self.sent_htlcs_info[key] if error_bytes: # TODO "decode_onion_error" might raise, catch and maybe blacklist/penalise someone? try: failure_message, sender_idx = chan.decode_onion_error(error_bytes, route, htlc_id) except Exception as e: sender_idx = None failure_message = OnionRoutingFailure(-1, str(e)) else: # probably got "update_fail_malformed_htlc". well... who to penalise now? assert failure_message is not None sender_idx = None self.logger.info(f"htlc_failed {failure_message}") # check sent_buckets if we use trampoline if self.uses_trampoline() and payment_secret in self.sent_buckets: amount_sent, amount_failed = self.sent_buckets[payment_secret] amount_failed += amount_receiver_msat self.sent_buckets[payment_secret] = amount_sent, amount_failed if amount_sent != amount_failed: self.logger.info('bucket still active...') return self.logger.info('bucket failed') amount_receiver_msat = amount_sent if trampoline_route: route = trampoline_route htlc_log = HtlcLog( success=False, route=route, amount_msat=amount_receiver_msat, error_bytes=error_bytes, failure_msg=failure_message, sender_idx=sender_idx, trampoline_fee_level=trampoline_fee_level) q.put_nowait(htlc_log) else: self.logger.info(f"received unknown htlc_failed, probably from previous session") key = payment_hash.hex() self.set_invoice_status(key, PR_UNPAID) util.trigger_callback('payment_failed', self.wallet, key, '') def calc_routing_hints_for_invoice(self, amount_msat: Optional[int], channels=None): """calculate routing hints (BOLT-11 'r' field)""" routing_hints = [] if channels is None: channels = list(self.get_channels_for_receiving(amount_msat)) random.shuffle(channels) # let's not leak channel order scid_to_my_channels = {chan.short_channel_id: chan for chan in channels if chan.short_channel_id is not None} for chan in channels: alias_or_scid = chan.get_remote_scid_alias() or chan.short_channel_id assert isinstance(alias_or_scid, bytes), alias_or_scid channel_info = get_mychannel_info(chan.short_channel_id, scid_to_my_channels) # note: as a fallback, if we don't have a channel update for the # incoming direction of our private channel, we fill the invoice with garbage. # the sender should still be able to pay us, but will incur an extra round trip # (they will get the channel update from the onion error) # at least, that's the theory. https://github.com/lightningnetwork/lnd/issues/2066 fee_base_msat = fee_proportional_millionths = 0 cltv_expiry_delta = 1 # lnd won't even try with zero missing_info = True if channel_info: policy = get_mychannel_policy(channel_info.short_channel_id, chan.node_id, scid_to_my_channels) if policy: fee_base_msat = policy.fee_base_msat fee_proportional_millionths = policy.fee_proportional_millionths cltv_expiry_delta = policy.cltv_expiry_delta missing_info = False if missing_info: self.logger.info( f"Warning. Missing channel update for our channel {chan.short_channel_id}; " f"filling invoice with incorrect data.") routing_hints.append(('r', [( chan.node_id, alias_or_scid, fee_base_msat, fee_proportional_millionths, cltv_expiry_delta)])) trampoline_hints = [] for r in routing_hints: node_id, short_channel_id, fee_base_msat, fee_proportional_millionths, cltv_expiry_delta = r[1][0] if len(r[1])== 1 and self.is_trampoline_peer(node_id): trampoline_hints.append(('t', (node_id, fee_base_msat, fee_proportional_millionths, cltv_expiry_delta))) return routing_hints, trampoline_hints def delete_payment_info(self, payment_hash_hex: str): # This method is called when an invoice or request is deleted by the user. # The GUI only lets the user delete invoices or requests that have not been paid. # Once an invoice/request has been paid, it is part of the history, # and get_lightning_history assumes that payment_info is there. assert self.get_payment_status(bytes.fromhex(payment_hash_hex)) != PR_PAID with self.lock: self.payment_info.pop(payment_hash_hex, None) def get_balance(self, frozen=False): with self.lock: return Decimal(sum( chan.balance(LOCAL) if not chan.is_closed() and (chan.is_frozen_for_sending() if frozen else True) else 0 for chan in self.channels.values())) / 1000 def get_channels_for_sending(self): for c in self.channels.values(): if c.is_active() and not c.is_frozen_for_sending(): if self.channel_db or self.is_trampoline_peer(c.node_id): yield c def fee_estimate(self, amount_sat): # Here we have to guess a fee, because some callers (submarine swaps) # use this method to initiate a payment, which would otherwise fail. fee_base_msat = TRAMPOLINE_FEES[3]['fee_base_msat'] fee_proportional_millionths = TRAMPOLINE_FEES[3]['fee_proportional_millionths'] # inverse of fee_for_edge_msat amount_msat = amount_sat * 1000 amount_minus_fees = (amount_msat - fee_base_msat) * 1_000_000 // ( 1_000_000 + fee_proportional_millionths) return Decimal(amount_msat - amount_minus_fees) / 1000 def num_sats_can_send(self, deltas=None) -> Decimal: """ without trampoline, sum of all channel capacity with trampoline, MPP must use a single trampoline """ if deltas is None: deltas = {} def send_capacity(chan): if chan in deltas: delta_msat = deltas[chan] * 1000 if delta_msat > chan.available_to_spend(REMOTE): delta_msat = 0 else: delta_msat = 0 return chan.available_to_spend(LOCAL) + delta_msat can_send_dict = defaultdict(int) with self.lock: for c in self.get_channels_for_sending(): if not self.uses_trampoline(): can_send_dict[0] += send_capacity(c) else: can_send_dict[c.node_id] += send_capacity(c) can_send = max(can_send_dict.values()) if can_send_dict else 0 can_send_sat = Decimal(can_send)/1000 can_send_sat -= self.fee_estimate(can_send_sat) return max(can_send_sat, 0) def get_channels_for_receiving(self, amount_msat=None) -> Sequence[Channel]: if not amount_msat: # assume we want to recv a large amt, e.g. finding max. amount_msat = float('inf') with self.lock: channels = list(self.channels.values()) # we exclude channels that cannot *right now* receive (e.g. peer offline) channels = [chan for chan in channels if (chan.is_open() and not chan.is_frozen_for_receiving())] # Filter out nodes that have low receive capacity compared to invoice amt. # Even with MPP, below a certain threshold, including these channels probably # hurts more than help, as they lead to many failed attempts for the sender. channels = sorted(channels, key=lambda chan: -chan.available_to_spend(REMOTE)) selected_channels = [] running_sum = 0 cutoff_factor = 0.2 # heuristic for chan in channels: recv_capacity = chan.available_to_spend(REMOTE) chan_can_handle_payment_as_single_part = recv_capacity >= amount_msat chan_small_compared_to_running_sum = recv_capacity < cutoff_factor * running_sum if not chan_can_handle_payment_as_single_part and chan_small_compared_to_running_sum: break running_sum += recv_capacity selected_channels.append(chan) channels = selected_channels del selected_channels # cap max channels to include to keep QR code reasonably scannable channels = channels[:10] return channels def num_sats_can_receive(self, deltas=None) -> Decimal: """ We no longer assume the sender to send MPP on different channels, because channel liquidities are hard to guess """ if deltas is None: deltas = {} def recv_capacity(chan): if chan in deltas: delta_msat = deltas[chan] * 1000 if delta_msat > chan.available_to_spend(LOCAL): delta_msat = 0 else: delta_msat = 0 return chan.available_to_spend(REMOTE) + delta_msat with self.lock: recv_channels = self.get_channels_for_receiving() recv_chan_msats = [recv_capacity(chan) for chan in recv_channels] if not recv_chan_msats: return Decimal(0) can_receive_msat = max(recv_chan_msats) return Decimal(can_receive_msat) / 1000 def _suggest_channels_for_rebalance(self, direction, amount_sat) -> Sequence[Tuple[Channel, int]]: """ Suggest a channel and amount to send/receive with that channel, so that we will be able to receive/send amount_sat This is used when suggesting a swap or rebalance in order to receive a payment """ with self.lock: func = self.num_sats_can_send if direction == SENT else self.num_sats_can_receive suggestions = [] channels = self.get_channels_for_sending() if direction == SENT else self.get_channels_for_receiving() for chan in channels: available_sat = chan.available_to_spend(LOCAL if direction == SENT else REMOTE) // 1000 delta = amount_sat - available_sat delta += self.fee_estimate(amount_sat) # add safety margin delta += delta // 100 + 1 if func(deltas={chan:delta}) >= amount_sat: suggestions.append((chan, delta)) elif direction==RECEIVED and func(deltas={chan:2*delta}) >= amount_sat: # MPP heuristics has a 0.5 slope suggestions.append((chan, 2*delta)) if not suggestions: raise NotEnoughFunds return suggestions def _suggest_rebalance(self, direction, amount_sat): """ Suggest a rebalance in order to be able to send or receive amount_sat. Returns (from_channel, to_channel, amount to shuffle) """ try: suggestions = self._suggest_channels_for_rebalance(direction, amount_sat) except NotEnoughFunds: return False for chan2, delta in suggestions: # margin for fee caused by rebalancing delta += self.fee_estimate(amount_sat) # find other channel or trampoline that can send delta for chan1 in self.channels.values(): if chan1.is_frozen_for_sending() or not chan1.is_active(): continue if chan1 == chan2: continue if self.uses_trampoline() and chan1.node_id == chan2.node_id: continue if direction == SENT: if chan1.can_pay(delta*1000): return (chan1, chan2, delta) else: if chan1.can_receive(delta*1000): return (chan2, chan1, delta) else: continue else: return False def num_sats_can_rebalance(self, chan1, chan2): # TODO: we should be able to spend 'max', with variable fee n1 = chan1.available_to_spend(LOCAL) n1 -= self.fee_estimate(n1) n2 = chan2.available_to_spend(REMOTE) amount_sat = min(n1, n2) // 1000 return amount_sat def suggest_rebalance_to_send(self, amount_sat): return self._suggest_rebalance(SENT, amount_sat) def suggest_rebalance_to_receive(self, amount_sat): return self._suggest_rebalance(RECEIVED, amount_sat) def suggest_swap_to_send(self, amount_sat, coins): # fixme: if swap_amount_sat is lower than the minimum swap amount, we need to propose a higher value assert amount_sat > self.num_sats_can_send() try: suggestions = self._suggest_channels_for_rebalance(SENT, amount_sat) except NotEnoughFunds: return for chan, swap_recv_amount in suggestions: # check that we can send onchain swap_server_mining_fee = 10000 # guessing, because we have not called get_pairs yet swap_funding_sat = swap_recv_amount + swap_server_mining_fee swap_output = PartialTxOutput.from_address_and_value(ln_dummy_address(), int(swap_funding_sat)) if not self.wallet.can_pay_onchain([swap_output], coins=coins): continue return (chan, swap_recv_amount) def suggest_swap_to_receive(self, amount_sat): assert amount_sat > self.num_sats_can_receive() try: suggestions = self._suggest_channels_for_rebalance(RECEIVED, amount_sat) except NotEnoughFunds: return for chan, swap_recv_amount in suggestions: return (chan, swap_recv_amount) async def rebalance_channels(self, chan1: Channel, chan2: Channel, *, amount_msat: int): if chan1 == chan2: raise Exception('Rebalance requires two different channels') if self.uses_trampoline() and chan1.node_id == chan2.node_id: raise Exception('Rebalance requires channels from different trampolines') payment_hash = self.create_payment_info(amount_msat=amount_msat) lnaddr, invoice = self.get_bolt11_invoice( payment_hash=payment_hash, amount_msat=amount_msat, message='rebalance', expiry=3600, fallback_address=None, channels=[chan2], ) return await self.pay_invoice( invoice, channels=[chan1]) def can_receive_invoice(self, invoice: BaseInvoice) -> bool: assert invoice.is_lightning() return (invoice.get_amount_sat() or 0) <= self.num_sats_can_receive() async def close_channel(self, chan_id): chan = self._channels[chan_id] peer = self._peers[chan.node_id] return await peer.close_channel(chan_id) def _force_close_channel(self, chan_id: bytes) -> Transaction: chan = self._channels[chan_id] tx = chan.force_close_tx() # We set the channel state to make sure we won't sign new commitment txs. # We expect the caller to try to broadcast this tx, after which it is # not safe to keep using the channel even if the broadcast errors (server could be lying). # Until the tx is seen in the mempool, there will be automatic rebroadcasts. chan.set_state(ChannelState.FORCE_CLOSING) # Add local tx to wallet to also allow manual rebroadcasts. try: self.wallet.adb.add_transaction(tx) except UnrelatedTransactionException: pass # this can happen if (~all the balance goes to REMOTE) return tx async def force_close_channel(self, chan_id: bytes) -> str: """Force-close the channel. Network-related exceptions are propagated to the caller. (automatic rebroadcasts will be scheduled) """ # note: as we are async, it can take a few event loop iterations between the caller # "calling us" and us getting to run, and we only set the channel state now: tx = self._force_close_channel(chan_id) await self.network.broadcast_transaction(tx) return tx.txid() def schedule_force_closing(self, chan_id: bytes) -> 'asyncio.Task[None]': """Schedules a task to force-close the channel and returns it. Network-related exceptions are suppressed. (automatic rebroadcasts will be scheduled) Note: this method is intentionally not async so that callers have a guarantee that the channel state is set immediately. """ tx = self._force_close_channel(chan_id) return asyncio.create_task(self.network.try_broadcasting(tx, 'force-close')) def remove_channel(self, chan_id): chan = self.channels[chan_id] assert chan.can_be_deleted() with self.lock: self._channels.pop(chan_id) self.db.get('channels').pop(chan_id.hex()) for addr in chan.get_wallet_addresses_channel_might_want_reserved(): self.wallet.set_reserved_state_of_address(addr, reserved=False) util.trigger_callback('channels_updated', self.wallet) util.trigger_callback('wallet_updated', self.wallet) @ignore_exceptions @log_exceptions async def reestablish_peer_for_given_channel(self, chan: Channel) -> None: now = time.time() peer_addresses = [] if self.uses_trampoline(): addr = trampolines_by_id().get(chan.node_id) if addr: peer_addresses.append(addr) else: # will try last good address first, from gossip last_good_addr = self.channel_db.get_last_good_address(chan.node_id) if last_good_addr: peer_addresses.append(last_good_addr) # will try addresses for node_id from gossip addrs_from_gossip = self.channel_db.get_node_addresses(chan.node_id) or [] for host, port, ts in addrs_from_gossip: peer_addresses.append(LNPeerAddr(host, port, chan.node_id)) # will try addresses stored in channel storage peer_addresses += list(chan.get_peer_addresses()) # Done gathering addresses. # Now select first one that has not failed recently. for peer in peer_addresses: if self._can_retry_addr(peer, urgent=True, now=now): await self._add_peer(peer.host, peer.port, peer.pubkey) return async def reestablish_peers_and_channels(self): while True: await asyncio.sleep(1) if self.stopping_soon: return for chan in self.channels.values(): if chan.is_closed(): continue # reestablish if not chan.should_try_to_reestablish_peer(): continue peer = self._peers.get(chan.node_id, None) if peer: await peer.taskgroup.spawn(peer.reestablish_channel(chan)) else: await self.taskgroup.spawn(self.reestablish_peer_for_given_channel(chan)) def current_feerate_per_kw(self): from .simple_config import FEE_LN_ETA_TARGET, FEERATE_FALLBACK_STATIC_FEE, FEERATE_REGTEST_HARDCODED from .simple_config import FEERATE_PER_KW_MIN_RELAY_LIGHTNING if constants.net is constants.BitcoinRegtest: return FEERATE_REGTEST_HARDCODED // 4 feerate_per_kvbyte = self.network.config.eta_target_to_fee(FEE_LN_ETA_TARGET) if feerate_per_kvbyte is None: feerate_per_kvbyte = FEERATE_FALLBACK_STATIC_FEE return max(FEERATE_PER_KW_MIN_RELAY_LIGHTNING, feerate_per_kvbyte // 4) def create_channel_backup(self, channel_id: bytes): chan = self._channels[channel_id] # do not backup old-style channels assert chan.is_static_remotekey_enabled() peer_addresses = list(chan.get_peer_addresses()) peer_addr = peer_addresses[0] return ImportedChannelBackupStorage( node_id = chan.node_id, privkey = self.node_keypair.privkey, funding_txid = chan.funding_outpoint.txid, funding_index = chan.funding_outpoint.output_index, funding_address = chan.get_funding_address(), host = peer_addr.host, port = peer_addr.port, is_initiator = chan.constraints.is_initiator, channel_seed = chan.config[LOCAL].channel_seed, local_delay = chan.config[LOCAL].to_self_delay, remote_delay = chan.config[REMOTE].to_self_delay, remote_revocation_pubkey = chan.config[REMOTE].revocation_basepoint.pubkey, remote_payment_pubkey = chan.config[REMOTE].payment_basepoint.pubkey, local_payment_pubkey=chan.config[LOCAL].payment_basepoint.pubkey, ) def export_channel_backup(self, channel_id): xpub = self.wallet.get_fingerprint() backup_bytes = self.create_channel_backup(channel_id).to_bytes() assert backup_bytes == ImportedChannelBackupStorage.from_bytes(backup_bytes).to_bytes(), "roundtrip failed" encrypted = pw_encode_with_version_and_mac(backup_bytes, xpub) assert backup_bytes == pw_decode_with_version_and_mac(encrypted, xpub), "encrypt failed" return 'channel_backup:' + encrypted async def request_force_close(self, channel_id: bytes, *, connect_str=None) -> None: if channel_id in self.channels: chan = self.channels[channel_id] peer = self._peers.get(chan.node_id) if not peer: raise Exception('Peer not found') chan.should_request_force_close = True peer.close_and_cleanup() elif connect_str: peer = await self.add_peer(connect_str) await peer.request_force_close(channel_id) elif channel_id in self.channel_backups: await self._request_force_close_from_backup(channel_id) else: raise Exception(f'Unknown channel {channel_id.hex()}') def import_channel_backup(self, data): xpub = self.wallet.get_fingerprint() cb_storage = ImportedChannelBackupStorage.from_encrypted_str(data, password=xpub) channel_id = cb_storage.channel_id() if channel_id.hex() in self.db.get_dict("channels"): raise Exception('Channel already in wallet') self.logger.info(f'importing channel backup: {channel_id.hex()}') d = self.db.get_dict("imported_channel_backups") d[channel_id.hex()] = cb_storage with self.lock: cb = ChannelBackup(cb_storage, lnworker=self) self._channel_backups[channel_id] = cb self.wallet.save_db() util.trigger_callback('channels_updated', self.wallet) self.lnwatcher.add_channel(cb.funding_outpoint.to_str(), cb.get_funding_address()) def has_conflicting_backup_with(self, remote_node_id: bytes): """ Returns whether we have an active channel with this node on another device, using same local node id. """ channel_backup_peers = [ cb.node_id for cb in self.channel_backups.values() if (not cb.is_closed() and cb.get_local_pubkey() == self.node_keypair.pubkey)] return any(remote_node_id.startswith(cb_peer_nodeid) for cb_peer_nodeid in channel_backup_peers) def remove_channel_backup(self, channel_id): chan = self.channel_backups[channel_id] assert chan.can_be_deleted() found = False onchain_backups = self.db.get_dict("onchain_channel_backups") imported_backups = self.db.get_dict("imported_channel_backups") if channel_id.hex() in onchain_backups: onchain_backups.pop(channel_id.hex()) found = True if channel_id.hex() in imported_backups: imported_backups.pop(channel_id.hex()) found = True if not found: raise Exception('Channel not found') with self.lock: self._channel_backups.pop(channel_id) self.wallet.save_db() util.trigger_callback('channels_updated', self.wallet) @log_exceptions async def _request_force_close_from_backup(self, channel_id: bytes): cb = self.channel_backups.get(channel_id) if not cb: raise Exception(f'channel backup not found {self.channel_backups}') cb = cb.cb # storage self.logger.info(f'requesting channel force close: {channel_id.hex()}') if isinstance(cb, ImportedChannelBackupStorage): node_id = cb.node_id privkey = cb.privkey addresses = [(cb.host, cb.port, 0)] else: assert isinstance(cb, OnchainChannelBackupStorage) privkey = self.node_keypair.privkey for pubkey, peer_addr in trampolines_by_id().items(): if pubkey.startswith(cb.node_id_prefix): node_id = pubkey addresses = [(peer_addr.host, peer_addr.port, 0)] break else: # we will try with gossip (see below) addresses = [] async def _request_fclose(addresses): for host, port, timestamp in addresses: peer_addr = LNPeerAddr(host, port, node_id) transport = LNTransport(privkey, peer_addr, proxy=self.network.proxy) peer = Peer(self, node_id, transport, is_channel_backup=True) try: async with OldTaskGroup(wait=any) as group: await group.spawn(peer._message_loop()) await group.spawn(peer.request_force_close(channel_id)) return True except Exception as e: self.logger.info(f'failed to connect {host} {e}') continue else: return False # try first without gossip db success = await _request_fclose(addresses) if success: return # try with gossip db if self.uses_trampoline(): raise Exception(_('Please enable gossip')) node_id = self.network.channel_db.get_node_by_prefix(cb.node_id_prefix) addresses_from_gossip = self.network.channel_db.get_node_addresses(node_id) if not addresses_from_gossip: raise Exception('Peer not found in gossip database') success = await _request_fclose(addresses_from_gossip) if not success: raise Exception('failed to connect') def maybe_add_backup_from_tx(self, tx): funding_address = None node_id_prefix = None for i, o in enumerate(tx.outputs()): script_type = get_script_type_from_output_script(o.scriptpubkey) if script_type == 'p2wsh': funding_index = i funding_address = o.address for o2 in tx.outputs(): if o2.scriptpubkey.startswith(bytes([opcodes.OP_RETURN])): encrypted_data = o2.scriptpubkey[2:] data = self.decrypt_cb_data(encrypted_data, funding_address) if data.startswith(CB_MAGIC_BYTES): node_id_prefix = data[4:] if node_id_prefix is None: return funding_txid = tx.txid() cb_storage = OnchainChannelBackupStorage( node_id_prefix = node_id_prefix, funding_txid = funding_txid, funding_index = funding_index, funding_address = funding_address, is_initiator = True) channel_id = cb_storage.channel_id().hex() if channel_id in self.db.get_dict("channels"): return self.logger.info(f"adding backup from tx") d = self.db.get_dict("onchain_channel_backups") d[channel_id] = cb_storage cb = ChannelBackup(cb_storage, lnworker=self) self.wallet.save_db() with self.lock: self._channel_backups[bfh(channel_id)] = cb util.trigger_callback('channels_updated', self.wallet) self.lnwatcher.add_channel(cb.funding_outpoint.to_str(), cb.get_funding_address())