# Nim-LibP2P # Copyright (c) 2023 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/[options, sets, sequtils] import stew/results import chronos, chronicles import ../../protocol, ../../../switch, ../../../multiaddress, ../../../multicodec, ../../../peerid, ../../../utils/[semaphore, future], ../../../errors import core export core logScope: topics = "libp2p autonat" type Autonat* = ref object of LPProtocol sem: AsyncSemaphore switch*: Switch dialTimeout: Duration proc sendDial(conn: Connection, pid: PeerId, addrs: seq[MultiAddress]) {.async.} = let pb = AutonatDial(peerInfo: some(AutonatPeerInfo( id: some(pid), addrs: addrs ))).encode() await conn.writeLp(pb.buffer) proc sendResponseError(conn: Connection, status: ResponseStatus, text: string = "") {.async.} = let pb = AutonatDialResponse( status: status, text: if text == "": none(string) else: some(text), ma: none(MultiAddress) ).encode() await conn.writeLp(pb.buffer) proc sendResponseOk(conn: Connection, ma: MultiAddress) {.async.} = let pb = AutonatDialResponse( status: ResponseStatus.Ok, text: some("Ok"), ma: some(ma) ).encode() await conn.writeLp(pb.buffer) proc tryDial(autonat: Autonat, conn: Connection, addrs: seq[MultiAddress]) {.async.} = await autonat.sem.acquire() var futs: seq[Future[Opt[MultiAddress]]] try: # This is to bypass the per peer max connections limit let outgoingConnection = autonat.switch.connManager.expectConnection(conn.peerId, Out) if outgoingConnection.failed() and outgoingConnection.error of AlreadyExpectingConnectionError: await conn.sendResponseError(DialRefused, outgoingConnection.error.msg) return # Safer to always try to cancel cause we aren't sure if the connection was established defer: outgoingConnection.cancel() # tryDial is to bypass the global max connections limit futs = addrs.mapIt(autonat.switch.dialer.tryDial(conn.peerId, @[it])) let fut = await anyCompleted(futs).wait(autonat.dialTimeout) let ma = await fut if ma.isSome: await conn.sendResponseOk(ma.get()) else: await conn.sendResponseError(DialError, "Missing observed address") except CancelledError as exc: raise exc except AllFuturesFailedError as exc: debug "All dial attempts failed", addrs, exc = exc.msg await conn.sendResponseError(DialError, "All dial attempts failed") except AsyncTimeoutError as exc: debug "Dial timeout", addrs, exc = exc.msg await conn.sendResponseError(DialError, "Dial timeout") except CatchableError as exc: debug "Unexpected error", addrs, exc = exc.msg await conn.sendResponseError(DialError, "Unexpected error") finally: autonat.sem.release() for f in futs: if not f.finished(): f.cancel() proc handleDial(autonat: Autonat, conn: Connection, msg: AutonatMsg): Future[void] = if msg.dial.isNone() or msg.dial.get().peerInfo.isNone(): return conn.sendResponseError(BadRequest, "Missing Peer Info") let peerInfo = msg.dial.get().peerInfo.get() if peerInfo.id.isSome() and peerInfo.id.get() != conn.peerId: return conn.sendResponseError(BadRequest, "PeerId mismatch") if conn.observedAddr.isNone: return conn.sendResponseError(BadRequest, "Missing observed address") let observedAddr = conn.observedAddr.get() var isRelayed = observedAddr.contains(multiCodec("p2p-circuit")) if isRelayed.isErr() or isRelayed.get(): return conn.sendResponseError(DialRefused, "Refused to dial a relayed observed address") let hostIp = observedAddr[0] if hostIp.isErr() or not IP.match(hostIp.get()): trace "wrong observed address", address=observedAddr return conn.sendResponseError(InternalError, "Expected an IP address") var addrs = initHashSet[MultiAddress]() addrs.incl(observedAddr) trace "addrs received", addrs = peerInfo.addrs for ma in peerInfo.addrs: isRelayed = ma.contains(multiCodec("p2p-circuit")) if isRelayed.isErr() or isRelayed.get(): continue let maFirst = ma[0] if maFirst.isErr() or not DNS_OR_IP.match(maFirst.get()): continue try: addrs.incl( if maFirst.get() == hostIp.get(): ma else: let maEnd = ma[1..^1] if maEnd.isErr(): continue hostIp.get() & maEnd.get() ) except LPError as exc: continue if len(addrs) >= AddressLimit: break if len(addrs) == 0: return conn.sendResponseError(DialRefused, "No dialable address") let addrsSeq = toSeq(addrs) trace "trying to dial", addrs = addrsSeq return autonat.tryDial(conn, addrsSeq) proc new*(T: typedesc[Autonat], switch: Switch, semSize: int = 1, dialTimeout = 15.seconds): T = let autonat = T(switch: switch, sem: newAsyncSemaphore(semSize), dialTimeout: dialTimeout) proc handleStream(conn: Connection, proto: string) {.async, gcsafe.} = try: let msgOpt = AutonatMsg.decode(await conn.readLp(1024)) if msgOpt.isNone() or msgOpt.get().msgType != MsgType.Dial: raise newException(AutonatError, "Received malformed message") let msg = msgOpt.get() await autonat.handleDial(conn, msg) except CancelledError as exc: raise exc except CatchableError as exc: debug "exception in autonat handler", exc = exc.msg, conn finally: trace "exiting autonat handler", conn await conn.close() autonat.handler = handleStream autonat.codec = AutonatCodec autonat