# Nim-LibP2P # Copyright (c) 2022 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. when (NimMajor, NimMinor) < (1, 4): {.push raises: [Defect].} else: {.push raises: [].} import sequtils, std/[tables] import chronos, chronicles, metrics, stew/[endians2, byteutils, objects] import ../muxer, ../../stream/connection export muxer logScope: topics = "libp2p yamux" const YamuxCodec* = "/yamux/1.0.0" YamuxVersion = 0.uint8 DefaultWindowSize = 256000 MaxChannelCount = 200 when defined(libp2p_yamux_metrics): declareGauge(libp2p_yamux_channels, "yamux channels", labels = ["initiator", "peer"]) declareHistogram libp2p_yamux_send_queue, "message send queue length (in byte)", buckets = [0.0, 100.0, 250.0, 1000.0, 2000.0, 1600.0, 6400.0, 25600.0, 256000.0] declareHistogram libp2p_yamux_recv_queue, "message recv queue length (in byte)", buckets = [0.0, 100.0, 250.0, 1000.0, 2000.0, 1600.0, 6400.0, 25600.0, 256000.0] type YamuxError* = object of CatchableError MsgType = enum Data = 0x0 WindowUpdate = 0x1 Ping = 0x2 GoAway = 0x3 MsgFlags {.size: 2.} = enum Syn Ack Fin Rst GoAwayStatus = enum NormalTermination = 0x0, ProtocolError = 0x1, InternalError = 0x2, YamuxHeader = object version: uint8 msgType: MsgType flags: set[MsgFlags] streamId: uint32 length: uint32 proc readHeader(conn: LPStream): Future[YamuxHeader] {.async, gcsafe.} = var buffer: array[12, byte] await conn.readExactly(addr buffer[0], 12) result.version = buffer[0] let flags = fromBytesBE(uint16, buffer[2..3]) if not result.msgType.checkedEnumAssign(buffer[1]) or flags notin 0'u16..15'u16: raise newException(YamuxError, "Wrong header") result.flags = cast[set[MsgFlags]](flags) result.streamId = fromBytesBE(uint32, buffer[4..7]) result.length = fromBytesBE(uint32, buffer[8..11]) return result proc `$`(header: YamuxHeader): string = result = "{" & $header.msgType & ", " result &= "{" & header.flags.foldl(if a != "": a & ", " & $b else: $b, "") & "}, " result &= "streamId: " & $header.streamId & ", " result &= "length: " & $header.length & "}" proc encode(header: YamuxHeader): array[12, byte] = result[0] = header.version result[1] = uint8(header.msgType) result[2..3] = toBytesBE(cast[uint16](header.flags)) result[4..7] = toBytesBE(header.streamId) result[8..11] = toBytesBE(header.length) proc write(conn: LPStream, header: YamuxHeader): Future[void] {.gcsafe.} = trace "write directly on stream", h = $header var buffer = header.encode() return conn.write(@buffer) proc ping(T: type[YamuxHeader], flag: MsgFlags, pingData: uint32): T = T( version: YamuxVersion, msgType: MsgType.Ping, flags: {flag}, length: pingData ) proc goAway(T: type[YamuxHeader], status: GoAwayStatus): T = T( version: YamuxVersion, msgType: MsgType.GoAway, length: uint32(status) ) proc data( T: type[YamuxHeader], streamId: uint32, length: uint32 = 0, flags: set[MsgFlags] = {}, ): T = T( version: YamuxVersion, msgType: MsgType.Data, length: length, flags: flags, streamId: streamId ) proc windowUpdate( T: type[YamuxHeader], streamId: uint32, delta: uint32, flags: set[MsgFlags] = {}, ): T = T( version: YamuxVersion, msgType: MsgType.WindowUpdate, length: delta, flags: flags, streamId: streamId ) type ToSend = tuple data: seq[byte] sent: int fut: Future[void] YamuxChannel* = ref object of Connection id: uint32 recvWindow: int sendWindow: int maxRecvWindow: int conn: Connection isSrc: bool opened: bool isSending: bool sendQueue: seq[ToSend] recvQueue: seq[byte] isReset: bool remoteReset: bool closedRemotely: Future[void] closedLocally: bool receivedData: AsyncEvent returnedEof: bool proc `$`(channel: YamuxChannel): string = result = if channel.conn.dir == Out: "=> " else: "<= " result &= $channel.id var s: seq[string] = @[] if channel.closedRemotely.done(): s.add("ClosedRemotely") if channel.closedLocally: s.add("ClosedLocally") if channel.isReset: s.add("Reset") if s.len > 0: result &= " {" & s.foldl(if a != "": a & ", " & b else: b, "") & "}" proc sendQueueBytes(channel: YamuxChannel, limit: bool = false): int = for (elem, sent, _) in channel.sendQueue: result.inc(min(elem.len - sent, if limit: channel.maxRecvWindow div 3 else: elem.len - sent)) proc actuallyClose(channel: YamuxChannel) {.async.} = if channel.closedLocally and channel.sendQueue.len == 0 and channel.closedRemotely.done(): await procCall Connection(channel).closeImpl() proc remoteClosed(channel: YamuxChannel) {.async.} = if not channel.closedRemotely.done(): channel.closedRemotely.complete() await channel.actuallyClose() method closeImpl*(channel: YamuxChannel) {.async, gcsafe.} = if not channel.closedLocally: channel.closedLocally = true if channel.isReset == false and channel.sendQueue.len == 0: await channel.conn.write(YamuxHeader.data(channel.id, 0, {Fin})) await channel.actuallyClose() proc reset(channel: YamuxChannel, isLocal: bool = false) {.async.} = if channel.isReset: return trace "Reset channel" channel.isReset = true channel.remoteReset = not isLocal for (d, s, fut) in channel.sendQueue: fut.fail(newLPStreamEOFError()) channel.sendQueue = @[] channel.recvQueue = @[] channel.sendWindow = 0 if not channel.closedLocally: if isLocal: try: await channel.conn.write(YamuxHeader.data(channel.id, 0, {Rst})) except LPStreamEOFError as exc: discard except LPStreamClosedError as exc: discard await channel.close() if not channel.closedRemotely.done(): await channel.remoteClosed() channel.receivedData.fire() if not isLocal: # If we reset locally, we want to flush up to a maximum of recvWindow # bytes. We use the recvWindow in the proc cleanupChann. channel.recvWindow = 0 proc updateRecvWindow(channel: YamuxChannel) {.async.} = let inWindow = channel.recvWindow + channel.recvQueue.len if inWindow > channel.maxRecvWindow div 2: return let delta = channel.maxRecvWindow - inWindow channel.recvWindow.inc(delta) await channel.conn.write(YamuxHeader.windowUpdate( channel.id, delta.uint32 )) trace "increasing the recvWindow", delta method readOnce*( channel: YamuxChannel, pbytes: pointer, nbytes: int): Future[int] {.async.} = if channel.isReset: raise if channel.remoteReset: newLPStreamResetError() elif channel.closedLocally: newLPStreamClosedError() else: newLPStreamConnDownError() if channel.returnedEof: raise newLPStreamRemoteClosedError() if channel.recvQueue.len == 0: channel.receivedData.clear() await channel.closedRemotely or channel.receivedData.wait() if channel.closedRemotely.done() and channel.recvQueue.len == 0: channel.returnedEof = true return 0 let toRead = min(channel.recvQueue.len, nbytes) var p = cast[ptr UncheckedArray[byte]](pbytes) toOpenArray(p, 0, nbytes - 1)[0.. channel.maxRecvWindow: debug "channel send queue too big, resetting", maxSendWindow=channel.maxRecvWindow, currentQueueSize = channel.sendQueueBytes(true) try: await channel.reset(true) except CatchableError as exc: debug "failed to reset", msg=exc.msg break let bytesAvailable = channel.sendQueueBytes() toSend = min(channel.sendWindow, bytesAvailable) var sendBuffer = newSeqUninitialized[byte](toSend + 12) header = YamuxHeader.data(channel.id, toSend.uint32) inBuffer = 0 if toSend >= bytesAvailable and channel.closedLocally: trace "last buffer we'll sent on this channel", toSend, bytesAvailable header.flags.incl({Fin}) sendBuffer[0..<12] = header.encode() var futures: seq[Future[void]] while inBuffer < toSend: let (data, sent, fut) = channel.sendQueue[0] let bufferToSend = min(data.len - sent, toSend - inBuffer) sendBuffer.toOpenArray(12, 12 + toSend - 1)[inBuffer..<(inBuffer+bufferToSend)] = channel.sendQueue[0].data.toOpenArray(sent, sent + bufferToSend - 1) channel.sendQueue[0].sent.inc(bufferToSend) if channel.sendQueue[0].sent >= data.len: futures.add(fut) channel.sendQueue.delete(0) inBuffer.inc(bufferToSend) trace "build send buffer", h = $header, msg=string.fromBytes(sendBuffer[12..^1]) channel.sendWindow.dec(toSend) try: await channel.conn.write(sendBuffer) except CatchableError as exc: let connDown = newLPStreamConnDownError(exc) for fut in futures.items(): fut.fail(connDown) await channel.reset() break for fut in futures.items(): fut.complete() channel.activity = true method write*(channel: YamuxChannel, msg: seq[byte]): Future[void] = result = newFuture[void]("Yamux Send") if channel.remoteReset: result.fail(newLPStreamResetError()) return result if channel.closedLocally or channel.isReset: result.fail(newLPStreamClosedError()) return result if msg.len == 0: result.complete() return result channel.sendQueue.add((msg, 0, result)) when defined(libp2p_yamux_metrics): libp2p_yamux_recv_queue.observe(channel.sendQueueBytes().int64) asyncSpawn channel.trySend() proc open*(channel: YamuxChannel) {.async, gcsafe.} = if channel.opened: trace "Try to open channel twice" return channel.opened = true await channel.conn.write(YamuxHeader.data(channel.id, 0, {if channel.isSrc: Syn else: Ack})) type Yamux* = ref object of Muxer channels: Table[uint32, YamuxChannel] flushed: Table[uint32, int] currentId: uint32 isClosed: bool maxChannCount: int proc lenBySrc(m: Yamux, isSrc: bool): int = for v in m.channels.values(): if v.isSrc == isSrc: result += 1 proc cleanupChann(m: Yamux, channel: YamuxChannel) {.async.} = await channel.join() m.channels.del(channel.id) when defined(libp2p_yamux_metrics): libp2p_yamux_channels.set(m.lenBySrc(channel.isSrc).int64, [$channel.isSrc, $channel.peerId]) if channel.isReset and channel.recvWindow > 0: m.flushed[channel.id] = channel.recvWindow proc createStream(m: Yamux, id: uint32, isSrc: bool): YamuxChannel = result = YamuxChannel( id: id, maxRecvWindow: DefaultWindowSize, recvWindow: DefaultWindowSize, sendWindow: DefaultWindowSize, isSrc: isSrc, conn: m.connection, receivedData: newAsyncEvent(), closedRemotely: newFuture[void]() ) result.objName = "YamuxStream" result.dir = if isSrc: Direction.Out else: Direction.In result.timeoutHandler = proc(): Future[void] {.gcsafe.} = trace "Idle timeout expired, resetting YamuxChannel" result.reset() result.initStream() result.peerId = m.connection.peerId result.observedAddr = m.connection.observedAddr result.transportDir = m.connection.transportDir when defined(libp2p_agents_metrics): result.shortAgent = m.connection.shortAgent m.channels[id] = result asyncSpawn m.cleanupChann(result) trace "created channel", id, pid=m.connection.peerId when defined(libp2p_yamux_metrics): libp2p_yamux_channels.set(m.lenBySrc(isSrc).int64, [$isSrc, $result.peerId]) method close*(m: Yamux) {.async.} = if m.isClosed == true: trace "Already closed" return m.isClosed = true trace "Closing yamux" let channels = toSeq(m.channels.values()) for channel in channels: await channel.reset(true) await m.connection.write(YamuxHeader.goAway(NormalTermination)) await m.connection.close() trace "Closed yamux" proc handleStream(m: Yamux, channel: YamuxChannel) {.async.} = ## call the muxer stream handler for this channel ## try: await m.streamHandler(channel) trace "finished handling stream" doAssert(channel.isClosed, "connection not closed by handler!") except CatchableError as exc: trace "Exception in yamux stream handler", msg = exc.msg await channel.reset() method handle*(m: Yamux) {.async, gcsafe.} = trace "Starting yamux handler", pid=m.connection.peerId try: while not m.connection.atEof: trace "waiting for header" let header = await m.connection.readHeader() trace "got message", h = $header case header.msgType: of Ping: if MsgFlags.Syn in header.flags: await m.connection.write(YamuxHeader.ping(MsgFlags.Ack, header.length)) of GoAway: var status: GoAwayStatus if status.checkedEnumAssign(header.length): trace "Received go away", status else: trace "Received unexpected error go away" break of Data, WindowUpdate: if MsgFlags.Syn in header.flags: if header.streamId in m.channels: debug "Trying to create an existing channel, skipping", id=header.streamId else: if header.streamId in m.flushed: m.flushed.del(header.streamId) if header.streamId mod 2 == m.currentId mod 2: raise newException(YamuxError, "Peer used our reserved stream id") let newStream = m.createStream(header.streamId, false) if m.channels.len >= m.maxChannCount: await newStream.reset() continue await newStream.open() asyncSpawn m.handleStream(newStream) elif header.streamId notin m.channels: if header.streamId notin m.flushed: raise newException(YamuxError, "Unknown stream ID: " & $header.streamId) elif header.msgType == Data: # Flush the data m.flushed[header.streamId].dec(int(header.length)) if m.flushed[header.streamId] < 0: raise newException(YamuxError, "Peer exhausted the recvWindow after reset") if header.length > 0: var buffer = newSeqUninitialized[byte](header.length) await m.connection.readExactly(addr buffer[0], int(header.length)) continue let channel = m.channels[header.streamId] if header.msgType == WindowUpdate: channel.sendWindow += int(header.length) await channel.trySend() else: if header.length.int > channel.recvWindow.int: # check before allocating the buffer raise newException(YamuxError, "Peer exhausted the recvWindow") if header.length > 0: var buffer = newSeqUninitialized[byte](header.length) await m.connection.readExactly(addr buffer[0], int(header.length)) trace "Msg Rcv", msg=string.fromBytes(buffer) await channel.gotDataFromRemote(buffer) if MsgFlags.Fin in header.flags: trace "remote closed channel" await channel.remoteClosed() if MsgFlags.Rst in header.flags: trace "remote reset channel" await channel.reset() except LPStreamEOFError as exc: trace "Stream EOF", msg = exc.msg except YamuxError as exc: trace "Closing yamux connection", error=exc.msg await m.connection.write(YamuxHeader.goAway(ProtocolError)) finally: await m.close() trace "Stopped yamux handler" method newStream*( m: Yamux, name: string = "", lazy: bool = false): Future[Connection] {.async, gcsafe.} = if m.channels.len > m.maxChannCount - 1: raise newException(TooManyChannels, "max allowed channel count exceeded") let stream = m.createStream(m.currentId, true) m.currentId += 2 if not lazy: await stream.open() return stream proc new*(T: type[Yamux], conn: Connection, maxChannCount: int = MaxChannelCount): T = T( connection: conn, currentId: if conn.dir == Out: 1 else: 2, maxChannCount: maxChannCount )