## 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, oids import chronos, chronicles, stew/byteutils, metrics import ../muxer, ../../stream/connection, ../../stream/bufferstream, ../../utility, ../../peerinfo, coder, types, lpchannel export muxer logScope: topics = "mplex" declareGauge(libp2p_mplex_channels, "mplex channels", labels = ["initiator", "peer"]) type Mplex* = ref object of Muxer remote: Table[uint64, LPChannel] local: Table[uint64, LPChannel] currentId*: uint64 maxChannels*: uint64 inChannTimeout: Duration outChannTimeout: Duration isClosed: bool oid*: Oid proc getChannelList(m: Mplex, initiator: bool): var Table[uint64, LPChannel] = if initiator: trace "picking local channels", initiator = initiator, oid = $m.oid result = m.local else: trace "picking remote channels", initiator = initiator, oid = $m.oid result = m.remote proc newStreamInternal*(m: Mplex, initiator: bool = true, chanId: uint64 = 0, name: string = "", lazy: bool = false, timeout: Duration): Future[LPChannel] {.async, gcsafe.} = ## create new channel/stream ## let id = if initiator: m.currentId.inc(); m.currentId else: chanId trace "creating new channel", channelId = id, initiator = initiator, name = name, oid = $m.oid result = LPChannel.init( id, m.connection, initiator, name, lazy = lazy, timeout = timeout) result.peerInfo = m.connection.peerInfo result.observedAddr = m.connection.observedAddr doAssert(id notin m.getChannelList(initiator), "channel slot already taken!") m.getChannelList(initiator)[id] = result libp2p_mplex_channels.set( m.getChannelList(initiator).len.int64, labelValues = [$initiator, $m.connection.peerInfo]) proc cleanupChann(m: Mplex, chann: LPChannel) {.async, inline.} = ## remove the local channel from the internal tables ## await chann.closeEvent.wait() if not isNil(chann): m.getChannelList(chann.initiator).del(chann.id) trace "cleaned up channel", id = chann.id libp2p_mplex_channels.set( m.getChannelList(chann.initiator).len.int64, labelValues = [$chann.initiator, $m.connection.peerInfo]) proc handleStream(m: Mplex, chann: LPChannel) {.async.} = ## call the muxer stream handler for this channel ## try: await m.streamHandler(chann) trace "finished handling stream" doAssert(chann.closed, "connection not closed by handler!") except CancelledError as exc: trace "cancling stream handler", exc = exc.msg await chann.reset() raise except CatchableError as exc: trace "exception in stream handler", exc = exc.msg await chann.reset() await m.cleanupChann(chann) method handle*(m: Mplex) {.async, gcsafe.} = trace "starting mplex main loop", oid = $m.oid try: defer: trace "stopping mplex main loop", oid = $m.oid await m.close() while not m.connection.closed: trace "waiting for data", oid = $m.oid let (id, msgType, data) = await m.connection.readMsg() trace "read message from connection", id = id, msgType = msgType, data = data.shortLog, oid = $m.oid let initiator = bool(ord(msgType) and 1) var channel: LPChannel if MessageType(msgType) != MessageType.New: let channels = m.getChannelList(initiator) if id notin channels: trace "Channel not found, skipping", id = id, initiator = initiator, msg = msgType, oid = $m.oid continue channel = channels[id] logScope: id = id initiator = initiator msgType = msgType size = data.len muxer_oid = $m.oid case msgType: of MessageType.New: let name = string.fromBytes(data) channel = await m.newStreamInternal( false, id, name, timeout = m.outChannTimeout) trace "created channel", name = channel.name, oid = $channel.oid if not isNil(m.streamHandler): # launch handler task asyncCheck m.handleStream(channel) of MessageType.MsgIn, MessageType.MsgOut: logScope: name = channel.name oid = $channel.oid trace "pushing data to channel" if data.len > MaxMsgSize: raise newLPStreamLimitError() await channel.pushTo(data) of MessageType.CloseIn, MessageType.CloseOut: logScope: name = channel.name oid = $channel.oid trace "closing channel" await channel.closeRemote() await m.cleanupChann(channel) trace "deleted channel" of MessageType.ResetIn, MessageType.ResetOut: logScope: name = channel.name oid = $channel.oid trace "resetting channel" await channel.reset() await m.cleanupChann(channel) trace "deleted channel" except CancelledError as exc: raise exc except CatchableError as exc: trace "Exception occurred", exception = exc.msg, oid = $m.oid proc init*(M: type Mplex, conn: Connection, maxChanns: uint = MaxChannels, inTimeout, outTimeout: Duration = DefaultChanTimeout): Mplex = M(connection: conn, maxChannels: maxChanns, inChannTimeout: inTimeout, outChannTimeout: outTimeout, remote: initTable[uint64, LPChannel](), local: initTable[uint64, LPChannel](), oid: genOid()) method newStream*(m: Mplex, name: string = "", lazy: bool = false): Future[Connection] {.async, gcsafe.} = let channel = await m.newStreamInternal( lazy = lazy, timeout = m.inChannTimeout) if not lazy: await channel.open() asyncCheck m.cleanupChann(channel) return Connection(channel) method close*(m: Mplex) {.async, gcsafe.} = if m.isClosed: return defer: m.remote.clear() m.local.clear() m.isClosed = true trace "closing mplex muxer", oid = $m.oid let channs = toSeq(m.remote.values) & toSeq(m.local.values) for chann in channs: await chann.reset() await m.cleanupChann(chann) await m.connection.close()