# Nim-LibP2P # Copyright (c) 2023-2024 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. {.push raises: [].} import std/[oids, strformat] import pkg/[chronos, chronicles, metrics] import ./coder, ../muxer, ../../stream/[bufferstream, connection, streamseq], ../../peerinfo export connection logScope: topics = "libp2p mplexchannel" when defined(libp2p_mplex_metrics): declareHistogram libp2p_mplex_qlen, "message queue length", buckets = [0.0, 1.0, 2.0, 4.0, 8.0, 16.0, 32.0, 64.0, 128.0, 256.0, 512.0] declareCounter libp2p_mplex_qlenclose, "closed because of max queuelen" declareHistogram libp2p_mplex_qtime, "message queuing time" when defined(libp2p_network_protocols_metrics): declareCounter libp2p_protocols_bytes, "total sent or received bytes", ["protocol", "direction"] ## Channel half-closed states ## ## | State | Closed local | Closed remote ## |============================================= ## | Read | Yes (until EOF) | No ## | Write | No | Yes ## ## Channels are considered fully closed when both outgoing and incoming ## directions are closed and when the reader of the channel has read the ## EOF marker const MaxWrites = 1024 ##\ ## Maximum number of in-flight writes - after this, we disconnect the peer LPChannelTrackerName* = "LPChannel" type LPChannel* = ref object of BufferStream id*: uint64 # channel id name*: string # name of the channel (for debugging) conn*: Connection # wrapped connection used to for writing initiator*: bool # initiated remotely or locally flag isOpen*: bool # has channel been opened closedLocal*: bool # has channel been closed locally remoteReset*: bool # has channel been remotely reset localReset*: bool # has channel been reset locally msgCode*: MessageType # cached in/out message code closeCode*: MessageType # cached in/out close code resetCode*: MessageType # cached in/out reset code writes*: int # In-flight writes func shortLog*(s: LPChannel): auto = try: if s == nil: "LPChannel(nil)" elif s.name != $s.oid and s.name.len > 0: &"{shortLog(s.conn.peerId)}:{s.oid}:{s.name}" else: &"{shortLog(s.conn.peerId)}:{s.oid}" except ValueError as exc: raiseAssert(exc.msg) chronicles.formatIt(LPChannel): shortLog(it) proc open*(s: LPChannel) {.async: (raises: [CancelledError, LPStreamError]).} = trace "Opening channel", s, conn = s.conn if s.conn.isClosed: return try: await s.conn.writeMsg(s.id, MessageType.New, s.name) s.isOpen = true except CancelledError as exc: raise exc except LPStreamError as exc: await s.conn.close() raise exc method closed*(s: LPChannel): bool = s.closedLocal proc closeUnderlying(s: LPChannel): Future[void] {.async: (raises: []).} = ## Channels may be closed for reading and writing in any order - we'll close ## the underlying bufferstream when both directions are closed if s.closedLocal and s.atEof(): await procCall BufferStream(s).close() proc reset*(s: LPChannel) {.async: (raises: []).} = if s.isClosed: trace "Already closed", s return s.isClosed = true s.closedLocal = true s.localReset = not s.remoteReset trace "Resetting channel", s, len = s.len if s.isOpen and not s.conn.isClosed: # If the connection is still active, notify the other end proc resetMessage() {.async: (raises: []).} = try: trace "sending reset message", s, conn = s.conn await noCancel s.conn.writeMsg(s.id, s.resetCode) # write reset except LPStreamError as exc: trace "Can't send reset message", s, conn = s.conn, msg = exc.msg await s.conn.close() asyncSpawn resetMessage() await s.closeImpl() trace "Channel reset", s method close*(s: LPChannel) {.async: (raises: []).} = ## Close channel for writing - a message will be sent to the other peer ## informing them that the channel is closed and that we're waiting for ## their acknowledgement. if s.closedLocal: trace "Already closed", s return s.closedLocal = true trace "Closing channel", s, conn = s.conn, len = s.len if s.isOpen and not s.conn.isClosed: try: await s.conn.writeMsg(s.id, s.closeCode) # write close except CancelledError: await s.conn.close() except LPStreamError as exc: # It's harmless that close message cannot be sent - the connection is # likely down already await s.conn.close() trace "Cannot send close message", s, id = s.id, msg = exc.msg await s.closeUnderlying() # maybe already eofed trace "Closed channel", s, len = s.len method initStream*(s: LPChannel) = if s.objName.len == 0: s.objName = LPChannelTrackerName s.timeoutHandler = proc(): Future[void] {.async: (raises: [], raw: true).} = trace "Idle timeout expired, resetting LPChannel", s s.reset() procCall BufferStream(s).initStream() method readOnce*( s: LPChannel, pbytes: pointer, nbytes: int ): Future[int] {.async: (raises: [CancelledError, LPStreamError]).} = ## Mplex relies on reading being done regularly from every channel, or all ## channels are blocked - in particular, this means that reading from one ## channel must not be done from within a callback / read handler of another ## or the reads will lock each other. if s.remoteReset: raise newLPStreamResetError() if s.localReset: raise newLPStreamClosedError() if s.atEof(): raise newLPStreamRemoteClosedError() if s.conn.closed: raise newLPStreamConnDownError() try: let bytes = await procCall BufferStream(s).readOnce(pbytes, nbytes) when defined(libp2p_network_protocols_metrics): if s.protocol.len > 0: libp2p_protocols_bytes.inc(bytes.int64, labelValues=[s.protocol, "in"]) trace "readOnce", s, bytes if bytes == 0: await s.closeUnderlying() return bytes except CancelledError as exc: await s.reset() raise exc except LPStreamError as exc: # Resetting is necessary because data has been lost in s.readBuf and # there's no way to gracefully recover / use the channel any more await s.reset() raise newLPStreamConnDownError(exc) proc prepareWrite( s: LPChannel, msg: seq[byte] ): Future[void] {.async: (raises: [CancelledError, LPStreamError]).} = # prepareWrite is the slow path of writing a message - see conditions in # write if s.remoteReset: raise newLPStreamResetError() if s.closedLocal: raise newLPStreamClosedError() if s.conn.closed: raise newLPStreamConnDownError() if msg.len == 0: return if s.writes >= MaxWrites: debug "Closing connection, too many in-flight writes on channel", s, conn = s.conn, writes = s.writes when defined(libp2p_mplex_metrics): libp2p_mplex_qlenclose.inc() await s.reset() await s.conn.close() return if not s.isOpen: await s.open() await s.conn.writeMsg(s.id, s.msgCode, msg) proc completeWrite( s: LPChannel, fut: Future[void].Raising([CancelledError, LPStreamError]), msgLen: int ): Future[void] {.async: (raises: [CancelledError, LPStreamError]).} = try: s.writes += 1 when defined(libp2p_mplex_metrics): libp2p_mplex_qlen.observe(s.writes.int64 - 1) libp2p_mplex_qtime.time: await fut else: await fut when defined(libp2p_network_protocols_metrics): if s.protocol.len > 0: # This crashes on Nim 2.0.2 with `--mm:orc` during `nimble test` # https://github.com/status-im/nim-metrics/issues/79 libp2p_protocols_bytes.inc( msgLen.int64, labelValues = [s.protocol, "out"]) s.activity = true except CancelledError as exc: # Chronos may still send the data raise exc except LPStreamConnDownError as exc: await s.reset() await s.conn.close() raise exc except LPStreamEOFError as exc: raise exc except LPStreamError as exc: trace "exception in lpchannel write handler", s, msg = exc.msg await s.reset() await s.conn.close() raise newLPStreamConnDownError(exc) finally: s.writes -= 1 method write*( s: LPChannel, msg: seq[byte] ): Future[void] {.async: (raises: [ CancelledError, LPStreamError], raw: true).} = ## Write to mplex channel - there may be up to MaxWrite concurrent writes ## pending after which the peer is disconnected let closed = s.closedLocal or s.conn.closed let fut = if (not closed) and msg.len > 0 and s.writes < MaxWrites and s.isOpen: # Fast path: Avoid a copy of msg being kept in the closure created by # `{.async.}` as this drives up memory usage - the conditions are laid out # in prepareWrite s.conn.writeMsg(s.id, s.msgCode, msg) else: prepareWrite(s, msg) s.completeWrite(fut, msg.len) method getWrapped*(s: LPChannel): Connection = s.conn proc init*( L: type LPChannel, id: uint64, conn: Connection, initiator: bool, name: string = "", timeout: Duration = DefaultChanTimeout): LPChannel = let chann = L( id: id, name: name, conn: conn, initiator: initiator, timeout: timeout, isOpen: if initiator: false else: true, msgCode: if initiator: MessageType.MsgOut else: MessageType.MsgIn, closeCode: if initiator: MessageType.CloseOut else: MessageType.CloseIn, resetCode: if initiator: MessageType.ResetOut else: MessageType.ResetIn, dir: if initiator: Direction.Out else: Direction.In) chann.initStream() when chronicles.enabledLogLevel == LogLevel.TRACE: chann.name = if chann.name.len > 0: chann.name else: $chann.oid trace "Created new lpchannel", s = chann, id, initiator return chann