## 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 oids, deques import chronos, chronicles, metrics import types, coder, ../muxer, nimcrypto/utils, ../../stream/connection, ../../stream/bufferstream, ../../peerinfo export connection logScope: topics = "mplexchannel" ## Channel half-closed states ## ## | State | Closed local | Closed remote ## |============================================= ## | Read | Yes (until EOF) | No ## | Write | No | Yes ## # TODO: this is one place where we need to use # a proper state machine, but I've opted out of # it for now for two reasons: # # 1) we don't have that many states to manage # 2) I'm not sure if adding the state machine # would have simplified or complicated the code # # But now that this is in place, we should perhaps # reconsider reworking it again, this time with a # more formal approach. # type LPChannel* = ref object of BufferStream id*: uint64 # channel id timeout: Duration # channel timeout if no activity activity: bool # reset every time data is sent or received name*: string # name of the channel (for debugging) conn*: Connection # wrapped connection used to for writing initiator*: bool # initiated remotely or locally flag isLazy*: bool # is channel lazy isOpen*: bool # has channel been opened (only used with isLazy) closedLocal*: bool # has channel been closed locally msgCode*: MessageType # cached in/out message code closeCode*: MessageType # cached in/out close code resetCode*: MessageType # cached in/out reset code timerTaskFut: Future[void] # the current timer instanse proc open*(s: LPChannel) {.async, gcsafe.} template withWriteLock(lock: AsyncLock, body: untyped): untyped = try: await lock.acquire() body finally: if not(isNil(lock)) and lock.locked: lock.release() template withEOFExceptions(body: untyped): untyped = try: body except LPStreamEOFError as exc: trace "muxed connection EOF", exc = exc.msg except LPStreamClosedError as exc: trace "muxed connection closed", exc = exc.msg except LPStreamIncompleteError as exc: trace "incomplete message", exc = exc.msg proc cleanupTimer(s: LPChannel) {.async.} = ## cleanup timers if not s.timerTaskFut.finished: await s.timerTaskFut.cancelAndWait() proc closeMessage(s: LPChannel) {.async.} = logScope: id = s.id initiator = s.initiator name = s.name oid = $s.oid peer = $s.conn.peerInfo # stack = getStackTrace() ## send close message - this will not raise ## on EOF or Closed withWriteLock(s.writeLock): trace "sending close message" await s.conn.writeMsg(s.id, s.closeCode) # write close proc resetMessage(s: LPChannel) {.async.} = logScope: id = s.id initiator = s.initiator name = s.name oid = $s.oid peer = $s.conn.peerInfo # stack = getStackTrace() ## send reset message - this will not raise withEOFExceptions: withWriteLock(s.writeLock): trace "sending reset message" await s.conn.writeMsg(s.id, s.resetCode) # write reset proc open*(s: LPChannel) {.async, gcsafe.} = logScope: id = s.id initiator = s.initiator name = s.name oid = $s.oid peer = $s.conn.peerInfo # stack = getStackTrace() ## NOTE: Don't call withExcAndLock or withWriteLock, ## because this already gets called from writeHandler ## which is locked await s.conn.writeMsg(s.id, MessageType.New, s.name) trace "opened channel" s.isOpen = true proc closeRemote*(s: LPChannel) {.async.} = logScope: id = s.id initiator = s.initiator name = s.name oid = $s.oid peer = $s.conn.peerInfo # stack = getStackTrace() trace "got EOF, closing channel" try: await s.drainBuffer() s.isEof = true # set EOF immediately to prevent further reads await s.close() # close local end # call to avoid leaks await procCall BufferStream(s).close() # close parent bufferstream await s.cleanupTimer() trace "channel closed on EOF" except CancelledError as exc: raise exc except CatchableError as exc: trace "exception closing remote channel", exc = exc.msg method closed*(s: LPChannel): bool = ## this emulates half-closed behavior ## when closed locally writing is ## disabled - see the table in the ## header of the file s.closedLocal method reset*(s: LPChannel) {.base, async, gcsafe.} = logScope: id = s.id initiator = s.initiator name = s.name oid = $s.oid peer = $s.conn.peerInfo # stack = getStackTrace() trace "resetting channel" if s.closedLocal and s.isEof: trace "channel already closed or reset" return # we asyncCheck here because the other end # might be dead already - reset is always # optimistic asyncCheck s.resetMessage() try: # drain the buffer before closing await s.drainBuffer() await procCall BufferStream(s).close() s.isEof = true s.closedLocal = true await s.cleanupTimer() except CancelledError as exc: raise exc except CatchableError as exc: trace "exception in reset", exc = exc.msg trace "channel reset" method close*(s: LPChannel) {.async, gcsafe.} = logScope: id = s.id initiator = s.initiator name = s.name oid = $s.oid peer = $s.conn.peerInfo # stack = getStackTrace() if s.closedLocal: trace "channel already closed" return trace "closing local lpchannel" proc closeInternal() {.async.} = try: await s.closeMessage().wait(2.minutes) if s.atEof: # already closed by remote close parent buffer immediately await procCall BufferStream(s).close() await s.cleanupTimer() except CancelledError as exc: await s.reset() raise exc except CatchableError as exc: trace "exception closing channel" await s.reset() trace "lpchannel closed local" s.closedLocal = true asyncCheck closeInternal() proc timeoutMonitor(s: LPChannel) {.async.} = ## monitor the channel for innactivity ## ## if the timeout was hit, it means that ## neither incoming nor outgoing activity ## has been detected and the channel will ## be reset ## try: while true: await sleepAsync(s.timeout) if s.closed or s.atEof: return if s.activity: s.activity = false continue break # reset channel on innactivity timeout trace "channel timed out, resetting" await s.reset() except CancelledError as exc: raise exc except CatchableError as exc: trace "exception in timeout", exc = exc.msg method initStream*(s: LPChannel) = if s.objName.len == 0: s.objName = "LPChannel" procCall BufferStream(s).initStream() method readOnce*(s: LPChannel, pbytes: pointer, nbytes: int): Future[int] = s.activity = true procCall BufferStream(s).readOnce(pbytes, nbytes) method write*(s: LPChannel, msg: seq[byte]): Future[void] = s.activity = true procCall BufferStream(s).write(msg) proc init*( L: type LPChannel, id: uint64, conn: Connection, initiator: bool, name: string = "", size: int = DefaultBufferSize, lazy: bool = false, timeout: Duration = DefaultChanTimeout): LPChannel = let chann = L( id: id, name: name, conn: conn, initiator: initiator, isLazy: lazy, timeout: timeout, 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) logScope: id = chann.id initiator = chann.initiator name = chann.name oid = $chann.oid peer = $chann.conn.peerInfo # stack = getStackTrace() proc writeHandler(data: seq[byte]) {.async, gcsafe.} = try: if chann.isLazy and not(chann.isOpen): await chann.open() # writes should happen in sequence trace "sending data" await conn.writeMsg(chann.id, chann.msgCode, data) except CatchableError as exc: trace "exception in lpchannel write handler", exc = exc.msg await chann.reset() raise exc chann.initBufferStream(writeHandler, size) when chronicles.enabledLogLevel == LogLevel.TRACE: chann.name = if chann.name.len > 0: chann.name else: $chann.oid chann.timerTaskFut = chann.timeoutMonitor() trace "created new lpchannel" return chann