Esempio n. 1
0
        public void InEvent()
        {
            Socket fd;

            try
            {
                fd = Accept();
                Utils.TuneTcpSocket(fd);
                Utils.TuneTcpKeepalives(fd, m_options.TcpKeepalive, m_options.TcpKeepaliveCnt, m_options.TcpKeepaliveIdle, m_options.TcpKeepaliveIntvl);
            }
            catch (NetMQException ex)
            {
                //  If connection was reset by the peer in the meantime, just ignore it.
                //  TODO: Handle specific errors like ENFILE/EMFILE etc.
                //ZError.exc (e);
                m_socket.EventAcceptFailed(m_endpoint, ex.ErrorCode);
                return;
            }


            //  Create the engine object for this connection.
            StreamEngine engine;

            try
            {
                engine = new StreamEngine(fd, m_options, m_endpoint);
            }
            catch (SocketException ex)
            {
                //LOG.error("Failed to initialize StreamEngine", e.getCause());

                ErrorCode errorCode = ErrorHelper.SocketErrorToErrorCode(ex.SocketErrorCode);

                m_socket.EventAcceptFailed(m_endpoint, errorCode);
                throw NetMQException.Create(errorCode);
            }
            //  Choose I/O thread to run connecter in. Given that we are already
            //  running in an I/O thread, there must be at least one available.
            IOThread ioThread = ChooseIOThread(m_options.Affinity);

            //  Create and launch a session object.
            SessionBase session = SessionBase.Create(ioThread, false, m_socket,
                                                     m_options, new Address(m_handle.LocalEndPoint));

            session.IncSeqnum();
            LaunchChild(session);
            SendAttach(session, engine, false);
            m_socket.EventAccepted(m_endpoint, fd);
        }
Esempio n. 2
0
        public void InEvent()
        {
            Socket fd;

            try
            {
                fd = Accept();
            }
            catch (SocketException ex)
            {
                m_socket.EventAcceptFailed(m_address.ToString(), ErrorHelper.SocketErrorToErrorCode(ex.SocketErrorCode));
                return;
            }
            catch (NetMQException ex)
            {
                //  If connection was reset by the peer in the meantime, just ignore it.
                //  TODO: Handle specific errors like ENFILE/EMFILE etc.
                //ZError.exc (e);
                m_socket.EventAcceptFailed(m_address.ToString(), ex.ErrorCode);
                return;
            }

            PgmSocket pgmSocket = new PgmSocket(m_options, PgmSocketType.Receiver, m_address);

            pgmSocket.Init(fd);

            PgmSession pgmSession = new PgmSession(pgmSocket, m_options);

            IOThread ioThread = ChooseIOThread(m_options.Affinity);

            SessionBase session = SessionBase.Create(ioThread, false, m_socket,
                                                     m_options, new Address(m_handle.LocalEndPoint));

            session.IncSeqnum();
            LaunchChild(session);
            SendAttach(session, pgmSession, false);
            m_socket.EventAccepted(m_address.ToString(), fd);
        }
Esempio n. 3
0
        public void Connect([NotNull] string addr)
        {
            CheckContextTerminated();

            //  Process pending commands, if any.
            ProcessCommands(0, false);

            string address;
            string protocol;

            DecodeAddress(addr, out address, out protocol);

            CheckProtocol(protocol);

            if (protocol.Equals(Address.InProcProtocol))
            {
                //  TODO: inproc connect is specific with respect to creating pipes
                //  as there's no 'reconnect' functionality implemented. Once that
                //  is in place we should follow generic pipe creation algorithm.

                //  Find the peer endpoint.
                Ctx.Endpoint peer = FindEndpoint(addr);

                // The total HWM for an inproc connection should be the sum of
                // the binder's HWM and the connector's HWM.
                int sndhwm;
                int rcvhwm;
                if (m_options.SendHighWatermark == 0 || peer.Options.ReceiveHighWatermark == 0)
                {
                    sndhwm = 0;
                }
                else
                {
                    sndhwm = m_options.SendHighWatermark + peer.Options.ReceiveHighWatermark;
                }
                if (m_options.ReceiveHighWatermark == 0 || peer.Options.SendHighWatermark == 0)
                {
                    rcvhwm = 0;
                }
                else
                {
                    rcvhwm = m_options.ReceiveHighWatermark + peer.Options.SendHighWatermark;
                }

                //  Create a bi-directional pipe to connect the peers.
                ZObject[] parents        = { this, peer.Socket };
                int[]     highWaterMarks = { sndhwm, rcvhwm };
                bool[]    delays         = { m_options.DelayOnDisconnect, m_options.DelayOnClose };
                Pipe[]    pipes          = Pipe.PipePair(parents, highWaterMarks, delays);

                //  Attach local end of the pipe to this socket object.
                AttachPipe(pipes[0]);

                //  If required, send the identity of the peer to the local socket.
                if (peer.Options.RecvIdentity)
                {
                    var id = new Msg();
                    id.InitPool(peer.Options.IdentitySize);
                    id.Put(peer.Options.Identity, 0, peer.Options.IdentitySize);
                    id.SetFlags(MsgFlags.Identity);
                    bool written = pipes[0].Write(ref id);
                    Debug.Assert(written);
                    pipes[0].Flush();
                }

                //  If required, send the identity of the local socket to the peer.
                if (m_options.RecvIdentity)
                {
                    var id = new Msg();
                    id.InitPool(m_options.IdentitySize);
                    id.Put(m_options.Identity, 0, m_options.IdentitySize);
                    id.SetFlags(MsgFlags.Identity);
                    bool written = pipes[1].Write(ref id);
                    Debug.Assert(written);
                    pipes[1].Flush();
                }

                //  Attach remote end of the pipe to the peer socket. Note that peer's
                //  seqnum was incremented in find_endpoint function. We don't need it
                //  increased here.
                SendBind(peer.Socket, pipes[1], false);

                // Save last endpoint URI
                m_options.LastEndpoint = addr;

                // remember inproc connections for disconnect
                m_inprocs.Add(addr, pipes[0]);

                return;
            }

            //  Choose the I/O thread to run the session in.
            IOThread ioThread = ChooseIOThread(m_options.Affinity);

            if (ioThread == null)
            {
                throw NetMQException.Create("Empty IO Thread", ErrorCode.EmptyThread);
            }
            var paddr = new Address(protocol, address);

            //  Resolve address (if needed by the protocol)
            if (protocol.Equals(Address.TcpProtocol))
            {
                paddr.Resolved = (new TcpAddress());
                paddr.Resolved.Resolve(
                    address, m_options.IPv4Only);
            }
            else if (protocol.Equals(Address.IpcProtocol))
            {
                paddr.Resolved = (new IpcAddress());
                paddr.Resolved.Resolve(address, true);
            }
            else if (protocol.Equals(Address.PgmProtocol) || protocol.Equals(Address.EpgmProtocol))
            {
                if (m_options.SocketType == ZmqSocketType.Sub || m_options.SocketType == ZmqSocketType.Xsub)
                {
                    Bind(addr);
                    return;
                }

                paddr.Resolved = new PgmAddress();
                paddr.Resolved.Resolve(address, m_options.IPv4Only);
            }

            //  Create session.
            SessionBase session = SessionBase.Create(ioThread, true, this, m_options, paddr);

            Debug.Assert(session != null);

            //  PGM does not support subscription forwarding; ask for all data to be
            //  sent to this pipe.
            bool icanhasall = protocol.Equals(Address.PgmProtocol) || protocol.Equals(Address.EpgmProtocol);

            if (!m_options.DelayAttachOnConnect || icanhasall)
            {
                //  Create a bi-directional pipe.
                ZObject[] parents = { this, session };
                int[]     hwms    = { m_options.SendHighWatermark, m_options.ReceiveHighWatermark };
                bool[]    delays  = { m_options.DelayOnDisconnect, m_options.DelayOnClose };
                Pipe[]    pipes   = Pipe.PipePair(parents, hwms, delays);

                //  Attach local end of the pipe to the socket object.
                AttachPipe(pipes[0], icanhasall);

                //  Attach remote end of the pipe to the session object later on.
                session.AttachPipe(pipes[1]);
            }

            // Save last endpoint URI
            m_options.LastEndpoint = paddr.ToString();

            AddEndpoint(addr, session);
        }