## 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 std/[oids, sequtils] import chronos, chronicles import transport, ../errors, ../wire, ../multiaddress, ../multicodec, ../stream/connection, ../stream/chronosstream logScope: topics = "tcptransport" export transport const TcpTransportTrackerName* = "libp2p.tcptransport" type TcpTransport* = ref object of Transport server*: StreamServer clients: array[Direction, seq[StreamTransport]] flags: set[ServerFlags] TcpTransportTracker* = ref object of TrackerBase opened*: uint64 closed*: uint64 proc setupTcpTransportTracker(): TcpTransportTracker {.gcsafe.} proc getTcpTransportTracker(): TcpTransportTracker {.gcsafe.} = result = cast[TcpTransportTracker](getTracker(TcpTransportTrackerName)) if isNil(result): result = setupTcpTransportTracker() proc dumpTracking(): string {.gcsafe.} = var tracker = getTcpTransportTracker() result = "Opened tcp transports: " & $tracker.opened & "\n" & "Closed tcp transports: " & $tracker.closed proc leakTransport(): bool {.gcsafe.} = var tracker = getTcpTransportTracker() result = (tracker.opened != tracker.closed) proc setupTcpTransportTracker(): TcpTransportTracker = result = new TcpTransportTracker result.opened = 0 result.closed = 0 result.dump = dumpTracking result.isLeaked = leakTransport addTracker(TcpTransportTrackerName, result) proc connHandler*(t: TcpTransport, client: StreamTransport, dir: Direction): Future[Connection] {.async.} = var observedAddr: MultiAddress = MultiAddress() try: observedAddr = MultiAddress.init(client.remoteAddress).tryGet() except CatchableError as exc: trace "Connection setup failed", exc = exc.msg if not(isNil(client) and client.closed): await client.closeWait() raise exc debug "Handling tcp connection", address = $observedAddr, dir = $dir, clients = t.clients[Direction.In].len + t.clients[Direction.Out].len let conn = Connection( ChronosStream.init( client = client, dir = dir, observedAddr = observedAddr )) proc onClose() {.async.} = try: let futs = @[client.join(), conn.join()] await futs[0] or futs[1] for f in futs: if not f.finished: await f.cancelAndWait() # cancel outstanding join() trace "Cleaning up client", addrs = $client.remoteAddress, conn t.clients[dir].keepItIf( it != client ) await allFuturesThrowing( conn.close(), client.closeWait()) trace "Cleaned up client", addrs = $client.remoteAddress, conn except CatchableError as exc: let useExc {.used.} = exc debug "Error cleaning up client", errMsg = exc.msg, conn t.clients[dir].add(client) asyncSpawn onClose() return conn proc init*(T: type TcpTransport, flags: set[ServerFlags] = {}): T = result = T(flags: flags) result.initTransport() method initTransport*(t: TcpTransport) = t.multicodec = multiCodec("tcp") inc getTcpTransportTracker().opened method start*(t: TcpTransport, ma: MultiAddress) {.async.} = ## listen on the transport ## if t.running: trace "TCP transport already running" return await procCall Transport(t).start(ma) trace "Starting TCP transport" t.server = createStreamServer(t.ma, t.flags, t) # always get the resolved address in case we're bound to 0.0.0.0:0 t.ma = MultiAddress.init(t.server.sock.getLocalAddress()).tryGet() t.running = true trace "Listening on", address = t.ma method stop*(t: TcpTransport) {.async, gcsafe.} = ## stop the transport ## try: trace "Stopping TCP transport" await procCall Transport(t).stop() # call base checkFutures( await allFinished( t.clients[Direction.In].mapIt(it.closeWait()) & t.clients[Direction.Out].mapIt(it.closeWait()))) # server can be nil if not isNil(t.server): await t.server.closeWait() t.server = nil trace "Transport stopped" inc getTcpTransportTracker().closed except CatchableError as exc: trace "Error shutting down tcp transport", exc = exc.msg finally: t.running = false method accept*(t: TcpTransport): Future[Connection] {.async, gcsafe.} = ## accept a new TCP connection ## if not t.running: raise newTransportClosedError() try: let transp = await t.server.accept() return await t.connHandler(transp, Direction.In) except TransportOsError as exc: # TODO: it doesn't sound like all OS errors # can be ignored, we should re-raise those # that can't. debug "OS Error", exc = exc.msg except TransportTooManyError as exc: warn "Too many files opened", exc = exc.msg except TransportUseClosedError as exc: info "Server was closed", exc = exc.msg raise newTransportClosedError(exc) except CatchableError as exc: trace "Unexpected error creating connection", exc = exc.msg raise exc method dial*(t: TcpTransport, address: MultiAddress): Future[Connection] {.async, gcsafe.} = ## dial a peer ## trace "Dialing remote peer", address = $address let transp = await connect(address) return await t.connHandler(transp, Direction.Out) method handles*(t: TcpTransport, address: MultiAddress): bool {.gcsafe.} = if procCall Transport(t).handles(address): return address.protocols .tryGet() .filterIt( it == multiCodec("tcp") ) .len > 0