## 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. import tables, sequtils, sets import chronos, chronicles import pubsubpeer, rpc/[message, messages], ../protocol, ../../stream/connection, ../../peerid, ../../peerinfo import metrics export PubSubPeer export PubSubObserver logScope: topics = "pubsub" declareGauge(libp2p_pubsub_peers, "pubsub peer instances") declareGauge(libp2p_pubsub_topics, "pubsub subscribed topics") declareCounter(libp2p_pubsub_validation_success, "pubsub successfully validated messages") declareCounter(libp2p_pubsub_validation_failure, "pubsub failed validated messages") declarePublicCounter(libp2p_pubsub_messages_published, "published messages", labels = ["topic"]) type PeerTable* = Table[string, HashSet[PubSubPeer]] SendRes = tuple[published: seq[string], failed: seq[string]] # keep private TopicHandler* = proc(topic: string, data: seq[byte]): Future[void] {.gcsafe.} ValidatorHandler* = proc(topic: string, message: Message): Future[bool] {.gcsafe, closure.} TopicPair* = tuple[topic: string, handler: TopicHandler] MsgIdProvider* = proc(m: Message): string {.noSideEffect, raises: [Defect], nimcall, gcsafe.} Topic* = object name*: string handler*: seq[TopicHandler] PubSub* = ref object of LPProtocol peerInfo*: PeerInfo # this peer's info topics*: Table[string, Topic] # local topics peers*: Table[string, PubSubPeer] # peerid to peer map triggerSelf*: bool # trigger own local handler on publish verifySignature*: bool # enable signature verification sign*: bool # enable message signing cleanupLock: AsyncLock validators*: Table[string, HashSet[ValidatorHandler]] observers: ref seq[PubSubObserver] # ref as in smart_ptr msgIdProvider*: MsgIdProvider # Turn message into message id (not nil) msgSeqno*: uint64 proc hasPeerID*(t: PeerTable, topic, peerId: string): bool = # unefficient but used only in tests! let peers = t.getOrDefault(topic) if peers.len == 0: false else: let ps = toSeq(peers) ps.any do (peer: PubSubPeer) -> bool: peer.id == peerId method handleDisconnect*(p: PubSub, peer: PubSubPeer) {.base.} = ## handle peer disconnects ## if not isNil(peer.peerInfo) and peer.id in p.peers: trace "deleting peer", peer = peer.id p.peers.del(peer.id) trace "peer disconnected", peer = peer.id # metrics libp2p_pubsub_peers.set(p.peers.len.int64) proc sendSubs*(p: PubSub, peer: PubSubPeer, topics: seq[string], subscribe: bool) {.async.} = ## send subscriptions to remote peer trace "sending subscriptions", peer = peer.id, subscribe = subscribe, topicIDs = topics var msg: RPCMsg for t in topics: trace "sending topic", peer = peer.id, subscribe = subscribe, topicName = t msg.subscriptions.add(SubOpts(topic: t, subscribe: subscribe)) try: # wait for a connection before publishing # this happens when if not peer.onConnect.isSet: trace "awaiting send connection" await peer.onConnect.wait() await peer.send(@[msg]) except CancelledError as exc: p.handleDisconnect(peer) raise exc except CatchableError as exc: trace "unable to send subscriptions", exc = exc.msg p.handleDisconnect(peer) method subscribeTopic*(p: PubSub, topic: string, subscribe: bool, peerId: string) {.base, async.} = discard method rpcHandler*(p: PubSub, peer: PubSubPeer, rpcMsgs: seq[RPCMsg]) {.async, base.} = ## handle rpc messages trace "processing RPC message", peer = peer.id, msgs = rpcMsgs.len for m in rpcMsgs: # for all RPC messages trace "processing messages", msg = m.shortLog if m.subscriptions.len > 0: # if there are any subscriptions for s in m.subscriptions: # subscribe/unsubscribe the peer for each topic trace "about to subscribe to topic", topicId = s.topic await p.subscribeTopic(s.topic, s.subscribe, peer.id) proc getOrCreatePeer(p: PubSub, peerInfo: PeerInfo, proto: string): PubSubPeer = if peerInfo.id in p.peers: return p.peers[peerInfo.id] # create new pubsub peer let peer = newPubSubPeer(peerInfo, proto) trace "created new pubsub peer", peerId = peer.id p.peers[peer.id] = peer peer.observers = p.observers # metrics libp2p_pubsub_peers.set(p.peers.len.int64) return peer method handleConn*(p: PubSub, conn: Connection, proto: string) {.base, async.} = ## handle incoming connections ## ## this proc will: ## 1) register a new PubSubPeer for the connection ## 2) register a handler with the peer; ## this handler gets called on every rpc message ## that the peer receives ## 3) ask the peer to subscribe us to every topic ## that we're interested in ## if isNil(conn.peerInfo): trace "no valid PeerId for peer" await conn.close() return proc handler(peer: PubSubPeer, msgs: seq[RPCMsg]) {.async.} = # call pubsub rpc handler await p.rpcHandler(peer, msgs) let peer = p.getOrCreatePeer(conn.peerInfo, proto) let topics = toSeq(p.topics.keys) if topics.len > 0: await p.sendSubs(peer, topics, true) try: peer.handler = handler await peer.handle(conn) # spawn peer read loop trace "pubsub peer handler ended", peer = peer.id except CancelledError as exc: raise exc except CatchableError as exc: trace "exception ocurred in pubsub handle", exc = exc.msg finally: p.handleDisconnect(peer) await conn.close() method subscribePeer*(p: PubSub, conn: Connection) {.base.} = if not(isNil(conn)): let peer = p.getOrCreatePeer(conn.peerInfo, p.codec) trace "subscribing to peer", peerId = conn.peerInfo.id if not peer.connected: peer.conn = conn method unsubscribePeer*(p: PubSub, peerInfo: PeerInfo) {.base, async.} = if peerInfo.id in p.peers: let peer = p.peers[peerInfo.id] trace "unsubscribing from peer", peerId = $peerInfo if not(isNil(peer.conn)): await peer.conn.close() p.handleDisconnect(peer) proc connected*(p: PubSub, peerInfo: PeerInfo): bool = if peerInfo.id in p.peers: let peer = p.peers[peerInfo.id] if not(isNil(peer)): return peer.connected method unsubscribe*(p: PubSub, topics: seq[TopicPair]) {.base, async.} = ## unsubscribe from a list of ``topic`` strings for t in topics: # metrics libp2p_pubsub_topics.dec() for i, h in p.topics[t.topic].handler: if h == t.handler: p.topics[t.topic].handler.del(i) # make sure we delete the topic if # no more handlers are left if p.topics[t.topic].handler.len <= 0: p.topics.del(t.topic) method unsubscribe*(p: PubSub, topic: string, handler: TopicHandler): Future[void] {.base.} = ## unsubscribe from a ``topic`` string p.unsubscribe(@[(topic, handler)]) method subscribe*(p: PubSub, topic: string, handler: TopicHandler) {.base, async.} = ## subscribe to a topic ## ## ``topic`` - a string topic to subscribe to ## ## ``handler`` - is a user provided proc ## that will be triggered ## on every received message ## if topic notin p.topics: trace "subscribing to topic", name = topic p.topics[topic] = Topic(name: topic) p.topics[topic].handler.add(handler) for peer in toSeq(p.peers.values): await p.sendSubs(peer, @[topic], true) # metrics libp2p_pubsub_topics.inc() proc sendHelper*(p: PubSub, sendPeers: HashSet[PubSubPeer], msgs: seq[Message]): Future[SendRes] {.async.} = var sent: seq[tuple[id: string, fut: Future[void]]] for sendPeer in sendPeers: # avoid sending to self if sendPeer.peerInfo == p.peerInfo: continue trace "sending messages to peer", peer = sendPeer.id, msgs sent.add((id: sendPeer.id, fut: sendPeer.send(@[RPCMsg(messages: msgs)]))) var published: seq[string] var failed: seq[string] let futs = await allFinished(sent.mapIt(it.fut)) for s in futs: let f = sent.filterIt(it.fut == s) if f.len > 0: if s.failed: trace "sending messages to peer failed", peer = f[0].id failed.add(f[0].id) else: trace "sending messages to peer succeeded", peer = f[0].id published.add(f[0].id) return (published, failed) method publish*(p: PubSub, topic: string, data: seq[byte]): Future[int] {.base, async.} = ## publish to a ``topic`` if p.triggerSelf and topic in p.topics: for h in p.topics[topic].handler: trace "triggering handler", topicID = topic try: await h(topic, data) except CancelledError as exc: raise exc except CatchableError as exc: # TODO these exceptions are ignored since it's likely that if writes are # are failing, the underlying connection is already closed - this needs # more cleanup though debug "Could not write to pubsub connection", msg = exc.msg return 0 method initPubSub*(p: PubSub) {.base.} = ## perform pubsub initialization p.observers = new(seq[PubSubObserver]) if p.msgIdProvider == nil: p.msgIdProvider = defaultMsgIdProvider method start*(p: PubSub) {.async, base.} = ## start pubsub discard method stop*(p: PubSub) {.async, base.} = ## stopt pubsub discard method addValidator*(p: PubSub, topic: varargs[string], hook: ValidatorHandler) {.base.} = for t in topic: if t notin p.validators: p.validators[t] = initHashSet[ValidatorHandler]() trace "adding validator for topic", topicId = t p.validators[t].incl(hook) method removeValidator*(p: PubSub, topic: varargs[string], hook: ValidatorHandler) {.base.} = for t in topic: if t in p.validators: p.validators[t].excl(hook) method validate*(p: PubSub, message: Message): Future[bool] {.async, base.} = var pending: seq[Future[bool]] trace "about to validate message" for topic in message.topicIDs: trace "looking for validators on topic", topicID = topic, registered = toSeq(p.validators.keys) if topic in p.validators: trace "running validators for topic", topicID = topic # TODO: add timeout to validator pending.add(p.validators[topic].mapIt(it(topic, message))) let futs = await allFinished(pending) result = futs.allIt(not it.failed and it.read()) if result: libp2p_pubsub_validation_success.inc() else: libp2p_pubsub_validation_failure.inc() proc newPubSub*(P: typedesc[PubSub], peerInfo: PeerInfo, triggerSelf: bool = false, verifySignature: bool = true, sign: bool = true, msgIdProvider: MsgIdProvider = defaultMsgIdProvider): P = result = P(peerInfo: peerInfo, triggerSelf: triggerSelf, verifySignature: verifySignature, sign: sign, cleanupLock: newAsyncLock(), msgIdProvider: msgIdProvider) result.initPubSub() proc addObserver*(p: PubSub; observer: PubSubObserver) = p.observers[] &= observer proc removeObserver*(p: PubSub; observer: PubSubObserver) = let idx = p.observers[].find(observer) if idx != -1: p.observers[].del(idx)