import asyncdispatch, asyncnet, os, strformat, strutils, tables from nativeSockets import Domain, SockType, Protocol from net import IpAddress, Port, isIpAddress, `$` from posix import CMSG_SPACE import asyncutils import ../../message import random type PunchdResponse = Future[tuple[msgContent: string, sock: AsyncSocket]] PunchdProgressCb = proc (future: PunchdResponse, msgContent: string) {.async.} OutgoingPunchdMessage = object future: PunchdResponse progressCb: PunchdProgressCb PunchdConnection = object sock: AsyncSocket outMessages: TableRef[string, OutgoingPunchdMessage] inConnections: FutureStream[AsyncSocket] ServerConnection = object sock: AsyncSocket outMessages: TableRef[string, Future[string]] peerNotifications: FutureStream[string] publicIp: IpAddress publicPorts: seq[Port] # Punchd messages ProgressTcpSyniConnect* = object command: string args: string # Server messages OkGetPeerinfo* = object ip: string ports: seq[uint16] OkGetEndpoint* = object ip: IpAddress port: Port NotifyPeer* = object sender: string recipient: string command: string srcIp: IpAddress srcPorts: seq[Port] dstIp: IpAddress dstPorts: seq[Port] seqNumbers: seq[uint32] # Exceptions PunchdError = object of ValueError # FIXME: not used yet ServerError = object of ValueError proc usage() = echo &"usage: {paramStr(0)} SERVER_HOSTNAME SERVER_PORT PEER_ID [OTHER_PEER_ID]" proc handleServerMessages(conn: ServerConnection) {.async.} = while true: let line = await conn.sock.recvLine(maxLength = 400) let args = line.parseArgs(3, 1) case args[0]: of "ok": let future = conn.outMessages[args[1]] conn.outMessages.del(args[1]) future.complete(args[2]) of "error": let future = conn.outMessages[args[1]] conn.outMessages.del(args[1]) future.fail(newException(ServerError, args[2])) of "notify-peer": asyncCheck conn.peerNotifications.write(line.substr(args[0].len + 1)) else: raise newException(ValueError, "invalid server message") proc handlePunchdMessages(conn: PunchdConnection) {.async.} = while true: let fd = conn.sock.getFd.AsyncFD let cmsgSize = CMSG_SPACE(sizeof(AsyncFD).csize_t) let resp = await fd.asyncRecvMsg(400, cmsgSize) let line = resp.data.strip(leading = false, trailing = true, chars = {'\n'}) echo "received punchd message: ", line let args = line.parseArgs(3, 1) case args[0]: of "ok": let outMsg = conn.outMessages[args[1]] conn.outMessages.del(args[1]) if resp.cmsgs.len < 1: echo "no cmsg" raise newException(ValueError, "invalid punchd message") let sock = newAsyncSocket(resp.cmsgs[0].getFd) register(sock.getFd.AsyncFD) outMsg.future.complete((args[2], sock)) of "error": let outMsg = conn.outMessages[args[1]] conn.outMessages.del(args[1]) outMsg.future.fail(newException(PunchdError, args[2])) of "progress": let outMsg = conn.outMessages[args[1]] asyncCheck outMsg.progressCb(outMsg.future, args[2]) else: raise newException(ValueError, "invalid punchd message") proc sendRequest(connection: PunchdConnection, command: string, content: string, progressCb: PunchdProgressCb = nil): PunchdResponse = result = newFuture[PunchdResponse.T]("sendRequest") let id = $rand(uint32) asyncCheck connection.sock.send(&"{command}|{id}|{content}\n") let outMsg = OutgoingPunchdMessage(future: result, progressCb: progressCb) echo "id = ", id connection.outMessages[id] = outMsg proc sendRequest(connection: ServerConnection, command: string, content: string): Future[string] = result = newFuture[string]("sendRequest") let id = $rand(uint32) var request: string if content.len != 0: request = &"{command}|{id}|{content}\n" else: request = &"{command}|{id}\n" asyncCheck connection.sock.send(request) connection.outMessages[id] = result proc acceptConnection(punchdConn: PunchdConnection, command: string, msgContent: string) {.async.} = echo "accepting connection ", msgContent let resp = await punchdConn.sendRequest(command, msgContent) asyncCheck punchdConn.inConnections.write(resp.sock) proc handlePeerNotifications(serverConn: ServerConnection, punchdConn: PunchdConnection, peerId: string) {.async.} = while true: let (hasData, data) = await serverConn.peerNotifications.read if not hasData: break try: let msg = parseMessage[NotifyPeer](data) # FIXME: check if we want to receive messages from the sender echo "received message from ", msg.sender let srcPorts = msg.srcPorts.join(",") let dstPorts = msg.dstPorts.join(",") let seqNumbers = msg.seqNumbers.join(",") let req = &"{msg.srcIp}|{srcPorts}|{msg.dstIp}|{dstPorts}|{seqNumbers}" asyncCheck acceptConnection(punchdConn, msg.command, req) except ValueError as e: echo e.msg discard proc punchHole(punchdConn: PunchdConnection, serverConn: ServerConnection, peerId: string, otherPeerId: string): Future[AsyncSocket] {.async.} = let sResp = await serverConn.sendRequest("get-peerinfo", otherPeerId) let peerInfo = parseMessage[OkGetPeerinfo](sResp) proc progressCb(future: PunchdResponse, msgContent: string) {.async.} = try: let parsedResp = parseMessage[ProgressTcpSyniConnect](msgContent) let req = &"{peerId}|{otherPeerId}|{parsedResp.command}|{parsedResp.args}" discard await serverConn.sendRequest("notify-peer", req) except ServerError as e: future.fail(e) except ValueError as e: future.fail(e) let myPorts = serverConn.publicPorts.join(",") let peerPorts = peerInfo.ports.join(",") let req = &"{serverConn.publicIp}|{myPorts}|{peerInfo.ip}|{peerPorts}" let pResp = await punchdConn.sendRequest("tcp-syni-connect", req, progressCb) result = pResp.sock proc initServerConnection(serverHostname: string, serverPort: Port, probingPort: Port): Future[ServerConnection] {.async.} = result.publicPorts.add(probingPort) var failCount = 0 while result.publicPorts.len < 3: # FIXME: error handling let sock = newAsyncSocket() try: sock.bindAddr(probingPort) except OSError as e: if failCount == 3: echo "raising error" raise e failCount.inc await sleepAsync(100) continue await sock.connect(serverHostname, serverPort) let id = rand(uint32) await sock.send(&"get-endpoint|{id}\n") let line = await sock.recvLine(maxLength = 400) let args = line.parseArgs(3) assert(args[0] == "ok") assert(args[1] == $id) let endpoint = parseMessage[OkGetEndpoint](args[2]) echo "endpoint: ", endpoint result.publicIp = endpoint.ip result.publicPorts.add(endpoint.port) let emptyLine = await sock.recvLine(maxLength = 400) assert(emptyLine.len == 0) sock.close() result.sock = await asyncnet.dial(serverHostname, serverPort) result.outMessages = newTable[string, Future[string]]() result.peerNotifications = newFutureStream[string]("initServerConnection") proc runApp(serverHostname: string, serverPort: Port, peerId: string, otherPeerId: string = "") {.async.} = randomize() # initialize random number generator var punchdConn = PunchdConnection() punchdConn.sock = newAsyncSocket(AF_UNIX, SOCK_STREAM, IPPROTO_IP) punchdConn.outMessages = newTable[string, OutgoingPunchdMessage]() punchdConn.inConnections = newFutureStream[AsyncSocket]("runApp") await punchdConn.sock.connectUnix("/tmp/punchd.socket") asyncCheck handlePunchdMessages(punchdConn) let srcPort = rand(Port(1024) .. Port.high) if otherPeerId.len == 0: # register and wait for connections echo &"init server connection, probing port: {srcPort}" let serverConn = await initServerConnection(serverHostname, serverPort, srcPort) asyncCheck handleServerMessages(serverConn) asyncCheck handlePeerNotifications(serverConn, punchdConn, peerId) let myPorts = serverConn.publicPorts.join(",") let req = &"{peerId}|{serverConn.publicIp}|{myPorts}" echo "registering: ", req discard await serverConn.sendRequest("register", req) while true: let (hasSock, sock) = await punchdConn.inConnections.read if not hasSock: break echo "accepted!" let msg = await sock.recv(4) echo "received message: ", msg await sock.send("pong") else: # initiate a new connection var serverConn = await initServerConnection(serverHostname, serverPort, srcPort) asyncCheck handleServerMessages(serverConn) let sock = await punchHole(punchdConn, serverConn, peerId, otherPeerId) echo "connected!" await sock.send("ping") let msg = await sock.recv(4) echo "received message: ", msg proc main() = if paramCount() < 3 or paramCount() > 4: usage() quit(1) let portNumber = paramStr(2).parseUInt if portNumber > uint16.high: usage() quit(1) if paramCount() == 4: waitFor runApp(paramStr(1), Port(portNumber), paramStr(3), paramStr(4)) else: waitFor runApp(paramStr(1), Port(portNumber), paramStr(3)) when isMainModule: main()