## 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 std/[sequtils, strutils, tables, hashes, sets] import chronos, chronicles, nimcrypto/sha2, metrics import rpc/[messages, message, protobuf], ../../peerid, ../../peerinfo, ../../stream/connection, ../../crypto/crypto, ../../protobuf/minprotobuf, ../../utility logScope: topics = "pubsubpeer" when defined(libp2p_expensive_metrics): declareCounter(libp2p_pubsub_sent_messages, "number of messages sent", labels = ["id", "topic"]) declareCounter(libp2p_pubsub_received_messages, "number of messages received", labels = ["id", "topic"]) declareCounter(libp2p_pubsub_skipped_received_messages, "number of received skipped messages", labels = ["id"]) declareCounter(libp2p_pubsub_skipped_sent_messages, "number of sent skipped messages", labels = ["id"]) type PubSubObserver* = ref object onRecv*: proc(peer: PubSubPeer; msgs: var RPCMsg) {.gcsafe, raises: [Defect].} onSend*: proc(peer: PubSubPeer; msgs: var RPCMsg) {.gcsafe, raises: [Defect].} GetConn* = proc(): Future[(Connection, RPCMsg)] {.gcsafe.} PubSubPeer* = ref object of RootObj getConn*: GetConn # callback to establish a new send connection codec*: string # the protocol that this peer joined from sendConn: Connection # cached send connection connections*: seq[Connection] # connections to this peer peerId*: PeerID handler*: RPCHandler observers*: ref seq[PubSubObserver] # ref as in smart_ptr dialLock: AsyncLock score*: float64 iWantBudget*: int iHaveBudget*: int outbound*: bool # if this is an outbound connection appScore*: float64 # application specific score behaviourPenalty*: float64 # the eventual penalty score RPCHandler* = proc(peer: PubSubPeer, msg: RPCMsg): Future[void] {.gcsafe.} chronicles.formatIt(PubSubPeer): $it.peerId func hash*(p: PubSubPeer): Hash = # int is either 32/64, so intptr basically, pubsubpeer is a ref cast[pointer](p).hash func shortLog*(p: PubSubPeer): string = if p.isNil: "PubSubPeer(nil)" else: shortLog(p.peerId) chronicles.formatIt(PubSubPeer): shortLog(it) proc connected*(p: PubSubPeer): bool = not p.sendConn.isNil and not (p.sendConn.closed or p.sendConn.atEof) proc recvObservers(p: PubSubPeer, msg: var RPCMsg) = # trigger hooks if not(isNil(p.observers)) and p.observers[].len > 0: for obs in p.observers[]: if not(isNil(obs)): # TODO: should never be nil, but... obs.onRecv(p, msg) proc sendObservers(p: PubSubPeer, msg: var RPCMsg) = # trigger hooks if not(isNil(p.observers)) and p.observers[].len > 0: for obs in p.observers[]: if not(isNil(obs)): # TODO: should never be nil, but... obs.onSend(p, msg) proc handle*(p: PubSubPeer, conn: Connection) {.async.} = debug "starting pubsub read loop", conn, peer = p, closed = conn.closed try: try: while not conn.atEof: trace "waiting for data", conn, peer = p, closed = conn.closed let data = await conn.readLp(64 * 1024) trace "read data from peer", conn, peer = p, closed = conn.closed, data = data.shortLog var rmsg = decodeRpcMsg(data) if rmsg.isErr(): notice "failed to decode msg from peer", conn, peer = p, closed = conn.closed, err = rmsg.error() break trace "decoded msg from peer", conn, peer = p, closed = conn.closed, msg = rmsg.get().shortLog # trigger hooks p.recvObservers(rmsg.get()) when defined(libp2p_expensive_metrics): for m in rmsg.get().messages: for t in m.topicIDs: # metrics libp2p_pubsub_received_messages.inc(labelValues = [$p.peerId, t]) await p.handler(p, rmsg.get()) finally: await conn.close() if p.sendConn == conn: p.sendConn = nil 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 PubSubPeer.handle" except CatchableError as exc: trace "Exception occurred in PubSubPeer.handle", conn, peer = p, closed = conn.closed, exc = exc.msg finally: debug "exiting pubsub read loop", conn, peer = p, closed = conn.closed proc getSendConn(p: PubSubPeer): Future[Connection] {.async.} = ## get a cached send connection or create a new one - will return nil if ## getting a new connection fails ## block: # check if there's an existing connection that can be reused let current = p.sendConn if not current.isNil: if not (current.closed() or current.atEof): # The existing send connection looks like it might work - reuse it trace "Reusing existing connection", current return current # Send connection is set but broken - get rid of it p.sendConn = nil # Careful, p.sendConn might change after here! await current.close() # TODO this might be unnecessary try: # Testing has demonstrated that when we perform concurrent meshsub dials # and later close one of them, other implementations such as rust-libp2p # become deaf to our messages (potentially due to the clean-up associated # with closing connections). To prevent this, we use a lock that ensures # that only a single dial will be performed for each peer and send the # subscription table every time we reconnect. # # Nevertheless, this approach is still quite problematic because the gossip # sends and their respective dials may be started from the mplex read loop. # This may cause the read loop to get stuck which ultimately results in a # deadlock when the other side tries to send us any other message that must # be routed through mplex (it will be stuck on `pushTo`). Such messages # naturally arise in the process of dialing itself. # # See https://github.com/status-im/nim-libp2p/issues/337 # # One possible long-term solution is to avoid "blocking" the mplex read # loop by making the gossip send non-blocking through the use of a queue. await p.dialLock.acquire() # Another concurrent dial may have populated p.sendConn if p.sendConn != nil: let current = p.sendConn if not (current.closed() or current.atEof): # The existing send connection looks like it might work - reuse it debug "Reusing existing connection", current return current else: p.sendConn = nil # Grab a new send connection let (newConn, handshake) = await p.getConn() # ...and here if newConn.isNil: return nil trace "Sending handshake", newConn, handshake = shortLog(handshake) await newConn.writeLp(encodeRpcMsg(handshake)) trace "Caching new send connection", newConn p.sendConn = newConn # Start a read loop on the new connection. # All the errors are handled inside `handle()` procedure. asyncSpawn p.handle(newConn) return newConn finally: if p.dialLock.locked: p.dialLock.release() proc connectImpl*(p: PubSubPeer) {.async.} = try: discard await getSendConn(p) except CatchableError as exc: debug "Could not connect to pubsub peer", err = exc.msg proc connect*(p: PubSubPeer) = asyncCheck(connectImpl(p)) proc sendImpl(p: PubSubPeer, msg: RPCMsg) {.async.} = doAssert(not isNil(p), "pubsubpeer nil!") trace "sending msg to peer", peer = p, rpcMsg = shortLog(msg) # trigger send hooks var mm = msg # hooks can modify the message p.sendObservers(mm) let encoded = encodeRpcMsg(mm) if encoded.len <= 0: info "empty message, skipping" return var conn: Connection try: conn = await p.getSendConn() if conn == nil: trace "Couldn't get send connection, dropping message", peer = p return trace "sending encoded msgs to peer", conn, encoded = shortLog(encoded) await conn.writeLp(encoded) trace "sent pubsub message to remote", conn when defined(libp2p_expensive_metrics): for x in mm.messages: for t in x.topicIDs: # metrics libp2p_pubsub_sent_messages.inc(labelValues = [$p.peerId, t]) except CatchableError as exc: # Because we detach the send call from the currently executing task using # asyncCheck, no exceptions may leak out of it trace "Unable to send to remote", conn, exc = exc.msg # Next time sendConn is used, it will be have its close flag set and thus # will be recycled if not isNil(conn): await conn.close() # This will clean up the send connection if exc is CancelledError: # TODO not handled debug "Send cancelled", peer = p # We'll ask for a new send connection whenever possible if p.sendConn == conn: p.sendConn = nil proc send*(p: PubSubPeer, msg: RPCMsg) = asyncCheck sendImpl(p, msg) proc `$`*(p: PubSubPeer): string = $p.peerId proc newPubSubPeer*(peerId: PeerID, getConn: GetConn, codec: string): PubSubPeer = new result result.getConn = getConn result.codec = codec result.peerId = peerId result.dialLock = newAsyncLock()