## 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: ## Timeouts and message limits are still missing ## they need to be added ASAP import tables, sequtils, options, strformat import chronos, chronicles import coder, types, lpchannel, ../muxer, ../../varint, ../../connection, ../../vbuffer, ../../protocols/protocol, ../../stream/bufferstream, ../../stream/lpstream logScope: topic = "Mplex" type Mplex* = ref object of Muxer remote*: Table[uint, LPChannel] local*: Table[uint, LPChannel] currentId*: uint maxChannels*: uint proc getChannelList(m: Mplex, initiator: bool): var Table[uint, LPChannel] = if initiator: result = m.remote else: result = m.local proc newStreamInternal*(m: Mplex, initiator: bool = true, chanId: uint = 0, name: string = ""): Future[LPChannel] {.async, gcsafe.} = ## create new channel/stream let id = if initiator: m.currentId.inc(); m.currentId else: chanId result = newChannel(id, m.connection, initiator, name) m.getChannelList(initiator)[id] = result method handle*(m: Mplex) {.async, gcsafe.} = trace "starting mplex main loop" try: while not m.connection.closed: let msg = await m.connection.readMsg() if msg.isNone: # TODO: allow poll with timeout to avoid using `sleepAsync` await sleepAsync(10.millis) continue let (id, msgType, data) = msg.get() let initiator = bool(ord(msgType) and 1) var channel: LPChannel if MessageType(msgType) != MessageType.New: let channels = m.getChannelList(initiator) if not channels.contains(id): trace "handle: Channel with id and msg type ", id = id, msg = msgType continue channel = channels[id] case msgType: of MessageType.New: let name = cast[string](data) channel = await m.newStreamInternal(false, id, name) trace "handle: created channel ", id = id, name = name if not isNil(m.streamHandler): let stream = newConnection(channel) stream.peerInfo = m.connection.peerInfo let handlerFut = m.streamHandler(stream) # channel cleanup routine proc cleanUpChan(udata: pointer) {.gcsafe.} = if handlerFut.finished: channel.close().addCallback( proc(udata: pointer) = channel.cleanUp() .addCallback(proc(udata: pointer) = trace "handle: cleaned up channel ", id = id)) handlerFut.addCallback(cleanUpChan) continue of MessageType.MsgIn, MessageType.MsgOut: trace "handle: pushing data to channel ", id = id, msgType = msgType await channel.pushTo(data) of MessageType.CloseIn, MessageType.CloseOut: trace "handle: closing channel ", id = id, msgType = msgType await channel.closedByRemote() m.getChannelList(initiator).del(id) of MessageType.ResetIn, MessageType.ResetOut: trace "handle: resetting channel ", id = id await channel.resetByRemote() break except: error "exception occurred", exception = getCurrentExceptionMsg() finally: await m.connection.close() proc newMplex*(conn: Connection, maxChanns: uint = MaxChannels): Mplex = new result result.connection = conn result.maxChannels = maxChanns result.remote = initTable[uint, LPChannel]() result.local = initTable[uint, LPChannel]() method newStream*(m: Mplex, name: string = ""): Future[Connection] {.async, gcsafe.} = let channel = await m.newStreamInternal() await m.connection.writeMsg(channel.id, MessageType.New, name) result = newConnection(channel) result.peerInfo = m.connection.peerInfo method close*(m: Mplex) {.async, gcsafe.} = await allFutures(@[allFutures(toSeq(m.remote.values).mapIt(it.close())), allFutures(toSeq(m.local.values).mapIt(it.close()))]) m.connection.reset()