Files
neuron-tai/packages/p2p/meshnet_p2p/gossip.py
Dobromir Popov a2258d3df4 feat(us-017): P2P gossip, NAT-traversal relay node, and TLS
- packages/p2p: identity (peer_id from sha256 of RSA pubkey), TLS cert
  generation with SHA-256 fingerprint, GossipClient (WSS PubSub with
  per-topic handlers, dedup by msg_id, auto-reconnect), MdnsDiscovery
  (zeroconf optional dependency, graceful no-op fallback)
- packages/relay: new meshnet-relay package — RelayServer (asyncio +
  websockets) with gossip fanout hub, circuit relay proxy for NAT traversal,
  peer registry; meshnet-relay CLI
- packages/p2p/relay_bootstrap.json: team relay bootstrap list
- Tracker: _NodeEntry gains relay_addr, cert_fingerprint, peer_id; both
  register and heartbeat handlers read and store these optional fields
- docs/adr/0010 already written (previous commit)
- conftest.py: packages/relay added to sys.path
- 18 new tests; 115 passed total, 1 skipped (no regressions)

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
2026-06-29 17:58:16 +03:00

163 lines
5.8 KiB
Python

"""WebSocket gossip client — connects to relay, publish/subscribe to topics."""
from __future__ import annotations
import asyncio
import json
import logging
import threading
import time
import uuid
from collections import defaultdict
from typing import Callable
log = logging.getLogger(__name__)
# Message envelope topics
TOPIC_NODE_JOIN = "node-join"
TOPIC_NODE_LEAVE = "node-leave"
TOPIC_COVERAGE_UPDATE = "coverage-update"
TOPIC_HEARTBEAT = "heartbeat"
TOPIC_PEER_LIST = "peer-list"
TOPIC_RELAY_ANNOUNCE = "relay-announce"
_MSG_TTL = 3 # max re-broadcast hops
def _make_envelope(topic: str, payload: dict, from_peer: str, ttl: int = _MSG_TTL) -> dict:
return {
"topic": topic,
"version": 1,
"from_peer": from_peer,
"timestamp": time.strftime("%Y-%m-%dT%H:%M:%SZ", time.gmtime()),
"msg_id": str(uuid.uuid4()),
"ttl": ttl,
"payload": payload,
}
class GossipClient:
"""Thread-safe WebSocket gossip client.
Usage::
client = GossipClient(relay_url="ws://relay:8765", peer_id="abc123")
client.subscribe("node-join", lambda env: print(env["payload"]))
client.start()
client.publish("node-join", {"addr": "http://192.168.1.42:8001", ...})
...
client.stop()
"""
def __init__(self, relay_url: str, peer_id: str, reconnect_interval: float = 3.0):
self.relay_url = relay_url
self.peer_id = peer_id
self.reconnect_interval = reconnect_interval
self._handlers: dict[str, list[Callable]] = defaultdict(list)
self._seen: set[str] = set()
self._loop: asyncio.AbstractEventLoop | None = None
self._thread: threading.Thread | None = None
self._ws = None
self._running = False
self._connected = threading.Event()
self._stop_event: asyncio.Event | None = None
def subscribe(self, topic: str, handler: Callable) -> None:
"""Register a sync callback for messages on topic."""
self._handlers[topic].append(handler)
def publish(self, topic: str, payload: dict) -> None:
"""Send a gossip message to all peers via the relay. Thread-safe."""
envelope = _make_envelope(topic, payload, self.peer_id)
if self._loop and self._running:
asyncio.run_coroutine_threadsafe(self._send(envelope), self._loop)
def start(self) -> None:
"""Start the gossip client in a background thread."""
self._running = True
self._loop = asyncio.new_event_loop()
self._thread = threading.Thread(target=self._run_loop, daemon=True, name="gossip")
self._thread.start()
def wait_connected(self, timeout: float = 5.0) -> bool:
"""Block until connected to relay or timeout. Returns True if connected."""
return self._connected.wait(timeout)
def stop(self) -> None:
"""Stop the gossip client and clean up."""
self._running = False
if self._loop and self._stop_event is not None:
self._loop.call_soon_threadsafe(self._stop_event.set)
if self._thread:
self._thread.join(timeout=3.0)
# ------------------------------------------------------------------
# Internal asyncio methods (run inside the background event loop)
# ------------------------------------------------------------------
def _run_loop(self) -> None:
asyncio.set_event_loop(self._loop)
self._stop_event = asyncio.Event()
try:
self._loop.run_until_complete(self._connect_loop())
except Exception:
log.debug("Gossip loop exited", exc_info=True)
async def _connect_loop(self) -> None:
import websockets # type: ignore[import]
while self._running and not (self._stop_event and self._stop_event.is_set()):
try:
async with websockets.connect(
self.relay_url,
ping_interval=20,
ping_timeout=10,
open_timeout=5,
) as ws:
self._ws = ws
self._connected.set()
log.debug("Gossip connected to %s", self.relay_url)
# Send peer registration
await ws.send(json.dumps(
_make_envelope(
"peer-register",
{"peer_id": self.peer_id},
self.peer_id,
)
))
await self._receive_loop(ws)
except Exception as exc:
self._connected.clear()
if self._running:
log.debug("Gossip disconnected (%s); reconnecting in %ss", exc, self.reconnect_interval)
await asyncio.sleep(self.reconnect_interval)
async def _receive_loop(self, ws) -> None:
async for raw in ws:
try:
envelope = json.loads(raw)
except (json.JSONDecodeError, TypeError):
continue
msg_id = envelope.get("msg_id", "")
if msg_id in self._seen:
continue
self._seen.add(msg_id)
if len(self._seen) > 10_000:
# Trim seen set to avoid unbounded growth
self._seen = set(list(self._seen)[-5_000:])
topic = envelope.get("topic", "")
for handler in self._handlers.get(topic, []):
try:
handler(envelope)
except Exception:
log.debug("Gossip handler error for topic %s", topic, exc_info=True)
async def _send(self, envelope: dict) -> None:
if self._ws is not None:
try:
await self._ws.send(json.dumps(envelope))
except Exception as exc:
log.debug("Gossip send failed: %s", exc)