## Nim-LibP2P ## Copyright (c) 2019 Status Research & Development GmbH ## Licensed under either of ## * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE)) ## * MIT license ([LICENSE-MIT](LICENSE-MIT)) ## at your option. ## This file may not be copied, modified, or distributed except according to ## those terms. # TODO: this module is temporary to allow # for quick switchover fro 1.1 to 1.0. # This should be removed once 1.1 is stable # enough. import std/[options, random, sequtils, sets, tables] import chronos, chronicles, metrics import ./pubsub, ./floodsub, ./pubsubpeer, ./peertable, ./mcache, ./timedcache, ./rpc/[messages, message], ../protocol, ../../stream/connection, ../../peerinfo, ../../peerid, ../../utility logScope: topics = "libp2p gossipsub" const GossipSubCodec* = "/meshsub/1.0.0" # overlay parameters const GossipSubD* = 6 const GossipSubDlo* = 4 const GossipSubDhi* = 12 # gossip parameters const GossipSubHistoryLength* = 5 const GossipSubHistoryGossip* = 3 # heartbeat interval const GossipSubHeartbeatInitialDelay* = 100.millis const GossipSubHeartbeatInterval* = 1.seconds # fanout ttl const GossipSubFanoutTTL* = 1.minutes type GossipSub* = ref object of FloodSub mesh*: PeerTable # peers that we send messages to when we are subscribed to the topic fanout*: PeerTable # peers that we send messages to when we're not subscribed to the topic gossipsub*: PeerTable # peers that are subscribed to a topic lastFanoutPubSub*: Table[string, Moment] # last publish time for fanout topics gossip*: Table[string, seq[ControlIHave]] # pending gossip control*: Table[string, ControlMessage] # pending control messages mcache*: MCache # messages cache heartbeatFut: Future[void] # cancellation future for heartbeat interval heartbeatRunning: bool heartbeatEvents*: seq[AsyncEvent] parameters*: GossipSubParams GossipSubParams* = object # stubs explicit: bool pruneBackoff*: Duration floodPublish*: bool gossipFactor*: float64 dScore*: int dOut*: int dLazy*: int gossipThreshold*: float64 publishThreshold*: float64 graylistThreshold*: float64 acceptPXThreshold*: float64 opportunisticGraftThreshold*: float64 decayInterval*: Duration decayToZero*: float64 retainScore*: Duration appSpecificWeight*: float64 ipColocationFactorWeight*: float64 ipColocationFactorThreshold*: float64 behaviourPenaltyWeight*: float64 behaviourPenaltyDecay*: float64 directPeers*: seq[PeerId] proc init*(G: type[GossipSubParams]): G = discard when defined(libp2p_expensive_metrics): declareGauge(libp2p_gossipsub_peers_per_topic_mesh, "gossipsub peers per topic in mesh", labels = ["topic"]) declareGauge(libp2p_gossipsub_peers_per_topic_fanout, "gossipsub peers per topic in fanout", labels = ["topic"]) declareGauge(libp2p_gossipsub_peers_per_topic_gossipsub, "gossipsub peers per topic in gossipsub", labels = ["topic"]) method init*(g: GossipSub) = proc handler(conn: Connection, proto: string) {.async.} = ## main protocol handler that gets triggered on every ## connection for a protocol string ## e.g. ``/floodsub/1.0.0``, etc... ## try: await g.handleConn(conn, proto) except CancelledError: # This is top-level procedure which will work as separate task, so it # do not need to propogate CancelledError. trace "Unexpected cancellation in gossipsub handler", conn except CatchableError as exc: trace "GossipSub handler leaks an error", exc = exc.msg, conn g.handler = handler g.codec = GossipSubCodec proc replenishFanout(g: GossipSub, topic: string) = ## get fanout peers for a topic logScope: topic trace "about to replenish fanout" if g.fanout.peers(topic) < GossipSubDLo: trace "replenishing fanout", peers = g.fanout.peers(topic) if topic in g.gossipsub: for peer in g.gossipsub[topic]: if g.fanout.addPeer(topic, peer): if g.fanout.peers(topic) == GossipSubD: break when defined(libp2p_expensive_metrics): libp2p_gossipsub_peers_per_topic_fanout .set(g.fanout.peers(topic).int64, labelValues = [topic]) trace "fanout replenished with peers", peers = g.fanout.peers(topic) method onPubSubPeerEvent*(p: GossipSub, peer: PubsubPeer, event: PubSubPeerEvent) {.gcsafe.} = case event.kind of PubSubPeerEventKind.Connected: discard of PubSubPeerEventKind.Disconnected: # If a send connection is lost, it's better to remove peer from the mesh - # if it gets reestablished, the peer will be readded to the mesh, and if it # doesn't, well.. then we hope the peer is going away! for _, peers in p.mesh.mpairs(): peers.excl(peer) for _, peers in p.fanout.mpairs(): peers.excl(peer) procCall FloodSub(p).onPubSubPeerEvent(peer, event) proc rebalanceMesh(g: GossipSub, topic: string) = logScope: topic mesh = g.mesh.peers(topic) gossipsub = g.gossipsub.peers(topic) trace "rebalancing mesh" # create a mesh topic that we're subscribing to var grafts, prunes: seq[PubSubPeer] if g.mesh.peers(topic) < GossipSubDlo: trace "replenishing mesh", peers = g.mesh.peers(topic) # replenish the mesh if we're below Dlo grafts = toSeq( g.gossipsub.getOrDefault(topic, initHashSet[PubSubPeer]()) - g.mesh.getOrDefault(topic, initHashSet[PubSubPeer]()) ).filterIt(it.connected) shuffle(grafts) # Graft peers so we reach a count of D grafts.setLen(min(grafts.len, GossipSubD - g.mesh.peers(topic))) trace "grafting", grafts = grafts.len for peer in grafts: if g.mesh.addPeer(topic, peer): g.fanout.removePeer(topic, peer) if g.mesh.peers(topic) > GossipSubDhi: # prune peers if we've gone over Dhi prunes = toSeq(g.mesh[topic]) shuffle(prunes) prunes.setLen(prunes.len - GossipSubD) # .. down to D peers trace "pruning", prunes = prunes.len for peer in prunes: g.mesh.removePeer(topic, peer) when defined(libp2p_expensive_metrics): libp2p_gossipsub_peers_per_topic_gossipsub .set(g.gossipsub.peers(topic).int64, labelValues = [topic]) libp2p_gossipsub_peers_per_topic_fanout .set(g.fanout.peers(topic).int64, labelValues = [topic]) libp2p_gossipsub_peers_per_topic_mesh .set(g.mesh.peers(topic).int64, labelValues = [topic]) trace "mesh balanced" # Send changes to peers after table updates to avoid stale state if grafts.len > 0: let graft = RPCMsg(control: some(ControlMessage(graft: @[ControlGraft(topicID: topic)]))) g.broadcast(grafts, graft) if prunes.len > 0: let prune = RPCMsg(control: some(ControlMessage(prune: @[ControlPrune(topicID: topic)]))) g.broadcast(prunes, prune) proc dropFanoutPeers(g: GossipSub) = # drop peers that we haven't published to in # GossipSubFanoutTTL seconds let now = Moment.now() for topic in toSeq(g.lastFanoutPubSub.keys): let val = g.lastFanoutPubSub[topic] if now > val: g.fanout.del(topic) g.lastFanoutPubSub.del(topic) trace "dropping fanout topic", topic when defined(libp2p_expensive_metrics): libp2p_gossipsub_peers_per_topic_fanout .set(g.fanout.peers(topic).int64, labelValues = [topic]) proc getGossipPeers(g: GossipSub): Table[PubSubPeer, ControlMessage] {.gcsafe.} = ## gossip iHave messages to peers ## trace "getting gossip peers (iHave)" let topics = toHashSet(toSeq(g.mesh.keys)) + toHashSet(toSeq(g.fanout.keys)) let controlMsg = ControlMessage() for topic in topics: var allPeers = toSeq(g.gossipsub.getOrDefault(topic)) shuffle(allPeers) let mesh = g.mesh.getOrDefault(topic) let fanout = g.fanout.getOrDefault(topic) let gossipPeers = mesh + fanout let mids = g.mcache.window(topic) if not mids.len > 0: continue if topic notin g.gossipsub: trace "topic not in gossip array, skipping", topic continue let ihave = ControlIHave(topicID: topic, messageIDs: toSeq(mids)) for peer in allPeers: if result.len >= GossipSubD: trace "got gossip peers", peers = result.len break if peer in gossipPeers: continue if peer notin result: result[peer] = controlMsg result[peer].ihave.add(ihave) proc heartbeat(g: GossipSub) {.async.} = while g.heartbeatRunning: try: trace "running heartbeat" for t in toSeq(g.topics.keys): g.rebalanceMesh(t) g.dropFanoutPeers() # replenish known topics to the fanout for t in toSeq(g.fanout.keys): g.replenishFanout(t) let peers = g.getGossipPeers() for peer, control in peers: g.peers.withValue(peer.peerId, pubsubPeer) do: g.send( pubsubPeer[], RPCMsg(control: some(control))) g.mcache.shift() # shift the cache except CancelledError as exc: raise exc except CatchableError as exc: warn "exception ocurred in gossipsub heartbeat", exc = exc.msg for trigger in g.heartbeatEvents: trace "firing heartbeat event", instance = cast[int](g) trigger.fire() await sleepAsync(GossipSubHeartbeatInterval) method unsubscribePeer*(g: GossipSub, peer: PeerID) = ## handle peer disconnects ## trace "unsubscribing gossipsub peer", peer let pubSubPeer = g.peers.getOrDefault(peer) if pubSubPeer.isNil: trace "no peer to unsubscribe", peer return for t in toSeq(g.gossipsub.keys): g.gossipsub.removePeer(t, pubSubPeer) when defined(libp2p_expensive_metrics): libp2p_gossipsub_peers_per_topic_gossipsub .set(g.gossipsub.peers(t).int64, labelValues = [t]) for t in toSeq(g.mesh.keys): g.mesh.removePeer(t, pubSubPeer) when defined(libp2p_expensive_metrics): libp2p_gossipsub_peers_per_topic_mesh .set(g.mesh.peers(t).int64, labelValues = [t]) for t in toSeq(g.fanout.keys): g.fanout.removePeer(t, pubSubPeer) when defined(libp2p_expensive_metrics): libp2p_gossipsub_peers_per_topic_fanout .set(g.fanout.peers(t).int64, labelValues = [t]) procCall FloodSub(g).unsubscribePeer(peer) method subscribeTopic*(g: GossipSub, topic: string, subscribe: bool, peer: PubSubPeer) {.gcsafe.} = # Skip floodsub - we don't want it to add the peer to `g.floodsub` procCall PubSub(g).subscribeTopic(topic, subscribe, peer) logScope: peer topic if subscribe: trace "peer subscribed to topic" # subscribe remote peer to the topic discard g.gossipsub.addPeer(topic, peer) else: trace "peer unsubscribed from topic" # unsubscribe remote peer from the topic g.gossipsub.removePeer(topic, peer) g.mesh.removePeer(topic, peer) g.fanout.removePeer(topic, peer) when defined(libp2p_expensive_metrics): libp2p_gossipsub_peers_per_topic_mesh .set(g.mesh.peers(topic).int64, labelValues = [topic]) libp2p_gossipsub_peers_per_topic_fanout .set(g.fanout.peers(topic).int64, labelValues = [topic]) when defined(libp2p_expensive_metrics): libp2p_gossipsub_peers_per_topic_gossipsub .set(g.gossipsub.peers(topic).int64, labelValues = [topic]) trace "gossip peers", peers = g.gossipsub.peers(topic), topic proc handleGraft(g: GossipSub, peer: PubSubPeer, grafts: seq[ControlGraft]): seq[ControlPrune] = for graft in grafts: let topic = graft.topicID logScope: peer topic trace "peer grafted topic" # If they send us a graft before they send us a subscribe, what should # we do? For now, we add them to mesh but don't add them to gossipsub. if topic in g.topics: if g.mesh.peers(topic) < GossipSubDHi: # In the spec, there's no mention of DHi here, but implicitly, a # peer will be removed from the mesh on next rebalance, so we don't want # this peer to push someone else out if g.mesh.addPeer(topic, peer): g.fanout.removePeer(topic, peer) else: trace "peer already in mesh" else: result.add(ControlPrune(topicID: topic)) else: debug "peer grafting topic we're not interested in" result.add(ControlPrune(topicID: topic)) when defined(libp2p_expensive_metrics): libp2p_gossipsub_peers_per_topic_mesh .set(g.mesh.peers(topic).int64, labelValues = [topic]) libp2p_gossipsub_peers_per_topic_fanout .set(g.fanout.peers(topic).int64, labelValues = [topic]) proc handlePrune(g: GossipSub, peer: PubSubPeer, prunes: seq[ControlPrune]) = for prune in prunes: trace "peer pruned topic", peer, topic = prune.topicID g.mesh.removePeer(prune.topicID, peer) when defined(libp2p_expensive_metrics): libp2p_gossipsub_peers_per_topic_mesh .set(g.mesh.peers(prune.topicID).int64, labelValues = [prune.topicID]) proc handleIHave(g: GossipSub, peer: PubSubPeer, ihaves: seq[ControlIHave]): ControlIWant = for ihave in ihaves: trace "peer sent ihave", peer, topic = ihave.topicID, msgs = ihave.messageIDs if ihave.topicID in g.mesh: for m in ihave.messageIDs: if m notin g.seen: result.messageIDs.add(m) proc handleIWant(g: GossipSub, peer: PubSubPeer, iwants: seq[ControlIWant]): seq[Message] = for iwant in iwants: for mid in iwant.messageIDs: trace "peer sent iwant", peer, messageID = mid let msg = g.mcache.get(mid) if msg.isSome: result.add(msg.get()) method rpcHandler*(g: GossipSub, peer: PubSubPeer, rpcMsg: RPCMsg) {.async.} = await procCall PubSub(g).rpcHandler(peer, rpcMsg) for msg in rpcMsg.messages: # for every message let msgId = g.msgIdProvider(msg) if g.seen.put(msgId): trace "Dropping already-seen message", msgId, peer continue g.mcache.put(msgId, msg) if (msg.signature.len > 0 or g.verifySignature) and not msg.verify(): # always validate if signature is present or required debug "Dropping message due to failed signature verification", msgId, peer continue if msg.seqno.len > 0 and msg.seqno.len != 8: # if we have seqno should be 8 bytes long debug "Dropping message due to invalid seqno length", msgId, peer continue # g.anonymize needs no evaluation when receiving messages # as we have a "lax" policy and allow signed messages let validation = await g.validate(msg) case validation of ValidationResult.Reject: debug "Dropping message after validation, reason: reject", msgId, peer continue of ValidationResult.Ignore: debug "Dropping message after validation, reason: ignore", msgId, peer continue of ValidationResult.Accept: discard var toSendPeers = initHashSet[PubSubPeer]() for t in msg.topicIDs: # for every topic in the message g.floodsub.withValue(t, peers): toSendPeers.incl(peers[]) g.mesh.withValue(t, peers): toSendPeers.incl(peers[]) await handleData(g, t, msg.data) # In theory, if topics are the same in all messages, we could batch - we'd # also have to be careful to only include validated messages g.broadcast(toSeq(toSendPeers), RPCMsg(messages: @[msg])) trace "forwared message to peers", peers = toSendPeers.len, msgId, peer if rpcMsg.control.isSome: let control = rpcMsg.control.get() g.handlePrune(peer, control.prune) var respControl: ControlMessage respControl.iwant.add(g.handleIHave(peer, control.ihave)) respControl.prune.add(g.handleGraft(peer, control.graft)) let messages = g.handleIWant(peer, control.iwant) if respControl.graft.len > 0 or respControl.prune.len > 0 or respControl.ihave.len > 0 or messages.len > 0: trace "sending control message", msg = shortLog(respControl), peer g.send( peer, RPCMsg(control: some(respControl), messages: messages)) method subscribe*(g: GossipSub, topic: string, handler: TopicHandler) {.async.} = await procCall PubSub(g).subscribe(topic, handler) g.rebalanceMesh(topic) method unsubscribe*(g: GossipSub, topics: seq[TopicPair]) {.async.} = await procCall PubSub(g).unsubscribe(topics) for (topic, handler) in topics: # delete from mesh only if no handlers are left if topic notin g.topics: if topic in g.mesh: let peers = g.mesh[topic] g.mesh.del(topic) let prune = RPCMsg( control: some(ControlMessage(prune: @[ControlPrune(topicID: topic)]))) g.broadcast(toSeq(peers), prune) method unsubscribeAll*(g: GossipSub, topic: string) {.async.} = await procCall PubSub(g).unsubscribeAll(topic) if topic in g.mesh: let peers = g.mesh.getOrDefault(topic) g.mesh.del(topic) let prune = RPCMsg(control: some(ControlMessage(prune: @[ControlPrune(topicID: topic)]))) g.broadcast(toSeq(peers), prune) method publish*(g: GossipSub, topic: string, data: seq[byte]): Future[int] {.async.} = # base returns always 0 discard await procCall PubSub(g).publish(topic, data) logScope: topic trace "Publishing message on topic", data = data.shortLog if topic.len <= 0: # data could be 0/empty debug "Empty topic, skipping publish" return 0 var peers: HashSet[PubSubPeer] if topic in g.topics: # if we're subscribed use the mesh peers = g.mesh.getOrDefault(topic) else: # not subscribed, send to fanout peers # try optimistically peers = g.fanout.getOrDefault(topic) if peers.len == 0: # ok we had nothing.. let's try replenish inline g.replenishFanout(topic) peers = g.fanout.getOrDefault(topic) # even if we couldn't publish, # we still attempted to publish # on the topic, so it makes sense # to update the last topic publish # time g.lastFanoutPubSub[topic] = Moment.fromNow(GossipSubFanoutTTL) if peers.len == 0: debug "No peers for topic, skipping publish" return 0 inc g.msgSeqno let msg = if g.anonymize: Message.init(none(PeerInfo), data, topic, none(uint64), false) else: Message.init(some(g.peerInfo), data, topic, some(g.msgSeqno), g.sign) msgId = g.msgIdProvider(msg) logScope: msgId trace "Created new message", msg = shortLog(msg), peers = peers.len if g.seen.put(msgId): # custom msgid providers might cause this trace "Dropping already-seen message" return 0 g.mcache.put(msgId, msg) g.broadcast(toSeq(peers), RPCMsg(messages: @[msg])) when defined(libp2p_expensive_metrics): if peers.len > 0: libp2p_pubsub_messages_published.inc(labelValues = [topic]) trace "Published message to peers" return peers.len method start*(g: GossipSub) {.async.} = trace "gossipsub start" if not g.heartbeatFut.isNil: warn "Starting gossipsub twice" return g.heartbeatRunning = true g.heartbeatFut = g.heartbeat() method stop*(g: GossipSub) {.async.} = trace "gossipsub stop" if g.heartbeatFut.isNil: warn "Stopping gossipsub without starting it" return # stop heartbeat interval g.heartbeatRunning = false if not g.heartbeatFut.finished: trace "awaiting last heartbeat" await g.heartbeatFut trace "heartbeat stopped" g.heartbeatFut = nil method initPubSub*(g: GossipSub) = procCall FloodSub(g).initPubSub() randomize() g.mcache = MCache.init(GossipSubHistoryGossip, GossipSubHistoryLength) g.mesh = initTable[string, HashSet[PubSubPeer]]() # meshes - topic to peer g.fanout = initTable[string, HashSet[PubSubPeer]]() # fanout - topic to peer g.gossipsub = initTable[string, HashSet[PubSubPeer]]()# topic to peer map of all gossipsub peers g.lastFanoutPubSub = initTable[string, Moment]() # last publish time for fanout topics g.gossip = initTable[string, seq[ControlIHave]]() # pending gossip g.control = initTable[string, ControlMessage]() # pending control messages