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electrum
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more reliable peer and channel re-establishing

regtest_lnd
SomberNight 7 years ago
parent
f2db608753
commit
a4dc488905
No known key found for this signature in database GPG Key ID: B33B5F232C6271E9
5 changed files with 130 additions and 41 deletions
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  1. 2
      electrum/gui/qt/channels_list.py
  2. 48
      electrum/lnbase.py
  3. 16
      electrum/lnhtlc.py
  4. 15
      electrum/lnrouter.py
  5. 90
      electrum/lnworker.py

2
electrum/gui/qt/channels_list.py
View File

@ -24,7 +24,7 @@ class ChannelsList(MyTreeWidget):
bh2u(chan.node_id),
self.parent.format_amount(chan.local_state.amount_msat//1000),
self.parent.format_amount(chan.remote_state.amount_msat//1000),
chan.state
chan.get_state()
]
def create_menu(self, position):

48
electrum/lnbase.py
View File

@ -207,6 +207,10 @@ class HandshakeState(object):
self.h = sha256(self.h + data)
return self.h
class HandshakeFailed(Exception): pass
def get_nonce_bytes(n):
"""BOLT 8 requires the nonce to be 12 bytes, 4 bytes leading
zeroes and 8 bytes little endian encoded 64 bit integer.
@ -285,6 +289,7 @@ class Peer(PrintError):
self.host = host
self.port = port
self.pubkey = pubkey
self.peer_addr = LNPeerAddr(host, port, pubkey)
self.lnworker = lnworker
self.privkey = lnworker.privkey
self.network = lnworker.network
@ -340,7 +345,10 @@ class Peer(PrintError):
self.read_buffer = self.read_buffer[offset:]
msg = aead_decrypt(rk_m, rn_m, b'', c)
return msg
s = await self.reader.read(2**10)
try:
s = await self.reader.read(2**10)
except:
s = None
if not s:
raise LightningPeerConnectionClosed()
self.read_buffer += s
@ -354,9 +362,11 @@ class Peer(PrintError):
# act 1
self.writer.write(msg)
rspns = await self.reader.read(2**10)
assert len(rspns) == 50, "Lightning handshake act 1 response has bad length, are you sure this is the right pubkey? " + str(bh2u(self.pubkey))
if len(rspns) != 50:
raise HandshakeFailed("Lightning handshake act 1 response has bad length, are you sure this is the right pubkey? " + str(bh2u(self.pubkey)))
hver, alice_epub, tag = rspns[0], rspns[1:34], rspns[34:]
assert bytes([hver]) == hs.handshake_version
if bytes([hver]) != hs.handshake_version:
raise HandshakeFailed("unexpected handshake version: {}".format(hver))
# act 2
hs.update(alice_epub)
ss = get_ecdh(epriv, alice_epub)
@ -461,15 +471,21 @@ class Peer(PrintError):
@aiosafe
async def main_loop(self):
await asyncio.wait_for(self.initialize(), 5)
self.channel_db.add_recent_peer(LNPeerAddr(self.host, self.port, self.pubkey))
self.channel_db.add_recent_peer(self.peer_addr)
# loop
while True:
self.ping_if_required()
msg = await self.read_message()
self.process_message(msg)
# close socket
self.print_error('closing lnbase')
self.writer.close()
def close_and_cleanup(self):
try:
self.writer.close()
except:
pass
for chan in self.channels.values():
chan.set_state('DISCONNECTED')
self.network.trigger_callback('channel', chan)
@aiosafe
async def channel_establishment_flow(self, wallet, config, password, funding_sat, push_msat, temp_channel_id):
@ -601,14 +617,18 @@ class Peer(PrintError):
assert success, success
m.remote_state = m.remote_state._replace(ctn=0)
m.local_state = m.local_state._replace(ctn=0, current_commitment_signature=remote_sig)
m.state = 'OPENING'
m.set_state('OPENING')
return m
@aiosafe
async def reestablish_channel(self, chan):
await self.initialized
chan_id = chan.channel_id
chan.state = 'REESTABLISHING'
if chan.get_state() != 'DISCONNECTED':
self.print_error('reestablish_channel was called but channel {} already in state {}'
.format(chan_id, chan.get_state()))
return
chan.set_state('REESTABLISHING')
self.network.trigger_callback('channel', chan)
self.send_message(gen_msg("channel_reestablish",
channel_id=chan_id,
@ -616,7 +636,7 @@ class Peer(PrintError):
next_remote_revocation_number=chan.remote_state.ctn
))
await self.channel_reestablished[chan_id]
chan.state = 'OPENING'
chan.set_state('OPENING')
if chan.local_state.funding_locked_received and chan.short_channel_id:
self.mark_open(chan)
self.network.trigger_callback('channel', chan)
@ -727,10 +747,10 @@ class Peer(PrintError):
print("SENT CHANNEL ANNOUNCEMENT")
def mark_open(self, chan):
if chan.state == "OPEN":
if chan.get_state() == "OPEN":
return
assert chan.local_state.funding_locked_received
chan.state = "OPEN"
chan.set_state("OPEN")
self.network.trigger_callback('channel', chan)
# add channel to database
node_ids = [self.pubkey, self.lnworker.pubkey]
@ -820,7 +840,7 @@ class Peer(PrintError):
@aiosafe
async def pay(self, path, chan, amount_msat, payment_hash, pubkey_in_invoice, min_final_cltv_expiry):
assert chan.state == "OPEN"
assert chan.get_state() == "OPEN"
assert amount_msat > 0, "amount_msat is not greater zero"
height = self.network.get_local_height()
route = self.network.path_finder.create_route_from_path(path, self.lnworker.pubkey)
@ -911,7 +931,7 @@ class Peer(PrintError):
htlc_id = int.from_bytes(htlc["id"], 'big')
assert htlc_id == chan.remote_state.next_htlc_id, (htlc_id, chan.remote_state.next_htlc_id)
assert chan.state == "OPEN"
assert chan.get_state() == "OPEN"
cltv_expiry = int.from_bytes(htlc["cltv_expiry"], 'big')
# TODO verify sanity of their cltv expiry

16
electrum/lnhtlc.py
View File

@ -138,7 +138,21 @@ class HTLCStateMachine(PrintError):
self.local_commitment = self.pending_local_commitment
self.remote_commitment = self.pending_remote_commitment
self.state = 'DISCONNECTED'
self._is_funding_txo_spent = None # "don't know"
self.set_state('DISCONNECTED')
def set_state(self, state: str):
self._state = state
def get_state(self):
return self._state
def set_funding_txo_spentness(self, is_spent: bool):
assert isinstance(is_spent, bool)
self._is_funding_txo_spent = is_spent
def should_try_to_reestablish_peer(self) -> bool:
return self._is_funding_txo_spent is False and self._state == 'DISCONNECTED'
def get_funding_address(self):
script = funding_output_script(self.local_config, self.remote_config)

15
electrum/lnrouter.py
View File

@ -269,6 +269,7 @@ class ChannelDB(JsonDB):
self._channels_for_node = defaultdict(set) # node -> set(short_channel_id)
self.nodes = {} # node_id -> NodeInfo
self._recent_peers = []
self._last_good_address = {} # node_id -> LNPeerAddr
self.ca_verifier = LNChanAnnVerifier(network, self)
self.network.add_jobs([self.ca_verifier])
@ -297,6 +298,11 @@ class ChannelDB(JsonDB):
for host, port, pubkey in recent_peers:
peer = LNPeerAddr(str(host), int(port), bfh(pubkey))
self._recent_peers.append(peer)
# last good address
last_good_addr = self.get('last_good_address', {})
for node_id, host_and_port in last_good_addr.items():
host, port = host_and_port
self._last_good_address[bfh(node_id)] = LNPeerAddr(str(host), int(port), bfh(node_id))
def save_data(self):
with self.lock:
@ -316,6 +322,11 @@ class ChannelDB(JsonDB):
recent_peers.append(
[str(peer.host), int(peer.port), bh2u(peer.pubkey)])
self.put('recent_peers', recent_peers)
# last good address
last_good_addr = {}
for node_id, peer in self._last_good_address.items():
last_good_addr[bh2u(node_id)] = [str(peer.host), int(peer.port)]
self.put('last_good_address', last_good_addr)
self.write()
def __len__(self):
@ -347,6 +358,10 @@ class ChannelDB(JsonDB):
self._recent_peers.remove(peer)
self._recent_peers.insert(0, peer)
self._recent_peers = self._recent_peers[:self.NUM_MAX_RECENT_PEERS]
self._last_good_address[peer.pubkey] = peer
def get_last_good_address(self, node_id: bytes) -> Optional[LNPeerAddr]:
return self._last_good_address.get(node_id, None)
def on_channel_announcement(self, msg_payload, trusted=False):
short_channel_id = msg_payload['short_channel_id']

90
electrum/lnworker.py
View File

@ -4,6 +4,7 @@ from decimal import Decimal
import random
import time
from typing import Optional, Sequence
import threading
import dns.resolver
import dns.exception
@ -22,6 +23,7 @@ from .i18n import _
NUM_PEERS_TARGET = 4
PEER_RETRY_INTERVAL = 600 # seconds
PEER_RETRY_INTERVAL_FOR_CHANNELS = 30 # seconds
FALLBACK_NODE_LIST = (
LNPeerAddr('ecdsa.net', 9735, bfh('038370f0e7a03eded3e1d41dc081084a87f0afa1c5b22090b4f3abb391eb15d8ff')),
@ -34,6 +36,7 @@ class LNWorker(PrintError):
self.wallet = wallet
self.network = network
self.channel_db = self.network.channel_db
self.lock = threading.RLock()
pk = wallet.storage.get('lightning_privkey')
if pk is None:
pk = bh2u(os.urandom(32))
@ -48,9 +51,6 @@ class LNWorker(PrintError):
for chan_id, chan in self.channels.items():
self.network.lnwatcher.watch_channel(chan, self.on_channel_utxos)
self._last_tried_peer = {} # LNPeerAddr -> unix timestamp
# TODO peers that we have channels with should also be added now
# but we don't store their IP/port yet.. also what if it changes?
# need to listen for node_announcements and save the new IP/port
self._add_peers_from_config()
# wait until we see confirmations
self.network.register_callback(self.on_network_update, ['updated', 'verified', 'fee_histogram']) # thread safe
@ -72,15 +72,14 @@ class LNWorker(PrintError):
def channels_for_peer(self, node_id):
assert type(node_id) is bytes
return {x: y for (x, y) in self.channels.items() if y.node_id == node_id}
with self.lock:
return {x: y for (x, y) in self.channels.items() if y.node_id == node_id}
def add_peer(self, host, port, node_id):
port = int(port)
peer_addr = LNPeerAddr(host, port, node_id)
if node_id in self.peers:
return
if peer_addr in self._last_tried_peer:
return
self._last_tried_peer[peer_addr] = time.time()
self.print_error("adding peer", peer_addr)
peer = Peer(self, host, port, node_id, request_initial_sync=self.config.get("request_initial_sync", True))
@ -90,10 +89,11 @@ class LNWorker(PrintError):
def save_channel(self, openchannel):
assert type(openchannel) is HTLCStateMachine
self.channels[openchannel.channel_id] = openchannel
if openchannel.remote_state.next_per_commitment_point == openchannel.remote_state.current_per_commitment_point:
raise Exception("Tried to save channel with next_point == current_point, this should not happen")
dumped = [x.serialize() for x in self.channels.values()]
with self.lock:
self.channels[openchannel.channel_id] = openchannel
dumped = [x.serialize() for x in self.channels.values()]
self.wallet.storage.put("channels", dumped)
self.wallet.storage.write()
self.network.trigger_callback('channel', openchannel)
@ -104,7 +104,7 @@ class LNWorker(PrintError):
If the Funding TX has not been mined, return None
"""
assert chan.state in ["OPEN", "OPENING"]
assert chan.get_state() in ["OPEN", "OPENING"]
peer = self.peers[chan.node_id]
conf = self.wallet.get_tx_height(chan.funding_outpoint.txid)[1]
if conf >= chan.constraints.funding_txn_minimum_depth:
@ -121,16 +121,12 @@ class LNWorker(PrintError):
def on_channel_utxos(self, chan, utxos):
outpoints = [Outpoint(x["tx_hash"], x["tx_pos"]) for x in utxos]
if chan.funding_outpoint not in outpoints:
chan.state = "CLOSED"
chan.set_funding_txo_spentness(True)
chan.set_state("CLOSED")
# FIXME is this properly GC-ed? (or too soon?)
LNChanCloseHandler(self.network, self.wallet, chan)
elif chan.state == 'DISCONNECTED':
if chan.node_id not in self.peers:
self.print_error("received channel_utxos for channel which does not have peer (errored?)")
return
peer = self.peers[chan.node_id]
coro = peer.reestablish_channel(chan)
asyncio.run_coroutine_threadsafe(coro, self.network.asyncio_loop)
else:
chan.set_funding_txo_spentness(False)
self.network.trigger_callback('channel', chan)
def on_network_update(self, event, *args):
@ -139,8 +135,10 @@ class LNWorker(PrintError):
# since short_channel_id could be changed while saving.
# Mitigated by posting to loop:
async def network_jobs():
for chan in self.channels.values():
if chan.state == "OPENING":
with self.lock:
channels = list(self.channels.values())
for chan in channels:
if chan.get_state() == "OPENING":
res = self.save_short_chan_id(chan)
if not res:
self.print_error("network update but funding tx is still not at sufficient depth")
@ -148,7 +146,7 @@ class LNWorker(PrintError):
# this results in the channel being marked OPEN
peer = self.peers[chan.node_id]
peer.funding_locked(chan)
elif chan.state == "OPEN":
elif chan.get_state() == "OPEN":
peer = self.peers.get(chan.node_id)
if peer is None:
self.print_error("peer not found for {}".format(bh2u(chan.node_id)))
@ -177,6 +175,7 @@ class LNWorker(PrintError):
return asyncio.run_coroutine_threadsafe(coro, self.network.asyncio_loop)
def pay(self, invoice, amount_sat=None):
# TODO try some number of paths (e.g. 10) in case of failures
addr = lndecode(invoice, expected_hrp=constants.net.SEGWIT_HRP)
payment_hash = addr.paymenthash
invoice_pubkey = addr.pubkey.serialize()
@ -189,7 +188,9 @@ class LNWorker(PrintError):
raise Exception("No path found")
node_id, short_channel_id = path[0]
peer = self.peers[node_id]
for chan in self.channels.values():
with self.lock:
channels = list(self.channels.values())
for chan in channels:
if chan.short_channel_id == short_channel_id:
break
else:
@ -216,7 +217,8 @@ class LNWorker(PrintError):
self.wallet.storage.write()
def list_channels(self):
return [str(x) for x in self.channels]
with self.lock:
return [str(x) for x in self.channels]
def close_channel(self, chan_id):
chan = self.channels[chan_id]
@ -250,7 +252,7 @@ class LNWorker(PrintError):
# try random peer from graph
all_nodes = self.channel_db.nodes
if all_nodes:
self.print_error('trying to get ln peers from channel db')
#self.print_error('trying to get ln peers from channel db')
node_ids = list(all_nodes)
max_tries = min(200, len(all_nodes))
for i in range(max_tries):
@ -259,7 +261,7 @@ class LNWorker(PrintError):
if node is None: continue
addresses = node.addresses
if not addresses: continue
host, port = addresses[0]
host, port = random.choice(addresses)
peer = LNPeerAddr(host, port, node_id)
if peer.pubkey in self.peers: continue
if peer in self._last_tried_peer: continue
@ -309,16 +311,54 @@ class LNWorker(PrintError):
self.print_error('got {} ln peers from dns seed'.format(len(peers)))
return peers
def reestablish_peers_and_channels(self):
def reestablish_peer_for_given_channel():
# try last good address first
peer = self.channel_db.get_last_good_address(chan.node_id)
if peer:
last_tried = self._last_tried_peer.get(peer, 0)
if last_tried + PEER_RETRY_INTERVAL_FOR_CHANNELS < now:
self.add_peer(peer.host, peer.port, peer.pubkey)
return
# try random address for node_id
node_info = self.channel_db.nodes.get(chan.node_id, None)
if not node_info: return
addresses = node_info.addresses
if not addresses: return
host, port = random.choice(addresses)
peer = LNPeerAddr(host, port, chan.node_id)
last_tried = self._last_tried_peer.get(peer, 0)
if last_tried + PEER_RETRY_INTERVAL_FOR_CHANNELS < now:
self.add_peer(host, port, chan.node_id)
with self.lock:
channels = list(self.channels.values())
now = time.time()
for chan in channels:
if not chan.should_try_to_reestablish_peer():
continue
peer = self.peers.get(chan.node_id, None)
if peer is None:
reestablish_peer_for_given_channel()
else:
coro = peer.reestablish_channel(chan)
asyncio.run_coroutine_threadsafe(coro, self.network.asyncio_loop)
@aiosafe
async def main_loop(self):
while True:
await asyncio.sleep(1)
now = time.time()
for node_id, peer in list(self.peers.items()):
if peer.exception:
self.print_error("removing peer", peer.host)
peer.close_and_cleanup()
self.peers.pop(node_id)
self.reestablish_peers_and_channels()
if len(self.peers) >= NUM_PEERS_TARGET:
continue
peers = self._get_next_peers_to_try()
for peer in peers:
self.add_peer(peer.host, peer.port, peer.pubkey)
last_tried = self._last_tried_peer.get(peer, 0)
if last_tried + PEER_RETRY_INTERVAL < now:
self.add_peer(peer.host, peer.port, peer.pubkey)

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