public StreamEngine(AsyncSocket handle, Options options, String endpoint) { m_handle = handle; m_insize = 0; m_ioEnabled = false; m_sendingState = SendState.Idle; m_receivingState = ReceiveState.Idle; m_outsize = 0; m_session = null; m_options = options; m_plugged = false; m_endpoint = endpoint; m_socket = null; m_encoder = null; m_decoder = null; m_actionsQueue = new Queue <StateMachineAction>(); // Set the socket buffer limits for the underlying socket. if (m_options.SendBuffer != 0) { m_handle.SendBufferSize = m_options.SendBuffer; } if (m_options.ReceiveBuffer != 0) { m_handle.ReceiveBufferSize = m_options.ReceiveBuffer; } }
public StreamEngine(AsyncSocket handle, Options options, string endpoint) { m_handle = handle; m_insize = 0; m_ioEnabled = false; m_sendingState = SendState.Idle; m_receivingState = ReceiveState.Idle; m_outsize = 0; m_session = null; m_options = options; m_plugged = false; m_endpoint = endpoint; m_socket = null; m_encoder = null; m_decoder = null; m_actionsQueue = new Queue<StateMachineAction>(); // Set the socket buffer limits for the underlying socket. if (m_options.SendBuffer != 0) { m_handle.SendBufferSize = m_options.SendBuffer; } if (m_options.ReceiveBuffer != 0) { m_handle.ReceiveBufferSize = m_options.ReceiveBuffer; } }
private void HandleHandshake(Action action, SocketError socketError, int bytesTransferred) { int bytesSent; int bytesReceived; switch (m_handshakeState) { case HandshakeState.Closed: switch (action) { case Action.Start: // Send the 'length' and 'flags' fields of the identity message. // The 'length' field is encoded in the long format. m_greetingOutputBuffer[m_outsize++] = ((byte)0xff); m_greetingOutputBuffer.PutLong(m_options.Endian, (long)m_options.IdentitySize + 1, 1); m_outsize += 8; m_greetingOutputBuffer[m_outsize++] = ((byte)0x7f); m_outpos = new ByteArraySegment(m_greetingOutputBuffer); m_handshakeState = HandshakeState.SendingGreeting; BeginWrite(m_outpos, m_outsize); break; default: Debug.Assert(false); break; } break; case HandshakeState.SendingGreeting: switch (action) { case Action.OutCompleted: bytesSent = EndWrite(socketError, bytesTransferred); if (bytesSent == -1) { Error(); } else { m_outpos.AdvanceOffset(bytesSent); m_outsize -= bytesSent; if (m_outsize > 0) { BeginWrite(m_outpos, m_outsize); } else { m_greetingBytesRead = 0; var greetingSegment = new ByteArraySegment(m_greeting, m_greetingBytesRead); m_handshakeState = HandshakeState.ReceivingGreeting; BeginRead(greetingSegment, PreambleSize); } } break; case Action.ActivateIn: case Action.ActivateOut: // nothing to do break; default: Debug.Assert(false); break; } break; case HandshakeState.ReceivingGreeting: switch (action) { case Action.InCompleted: bytesReceived = EndRead(socketError, bytesTransferred); if (bytesReceived == -1) { Error(); } else { m_greetingBytesRead += bytesReceived; // check if it is an unversion protocol if (m_greeting[0] != 0xff || (m_greetingBytesRead == 10 && (m_greeting[9] & 0x01) == 0)) { m_encoder = new V1Encoder(Config.OutBatchSize, m_options.Endian); m_encoder.SetMsgSource(m_session); m_decoder = new V1Decoder(Config.InBatchSize, m_options.MaxMessageSize, m_options.Endian); m_decoder.SetMsgSink(m_session); // We have already sent the message header. // Since there is no way to tell the encoder to // skip the message header, we simply throw that // header data away. int headerSize = m_options.IdentitySize + 1 >= 255 ? 10 : 2; var tmp = new byte[10]; var bufferp = new ByteArraySegment(tmp); int bufferSize = headerSize; m_encoder.GetData(ref bufferp, ref bufferSize); Debug.Assert(bufferSize == headerSize); // Make sure the decoder sees the data we have already received. m_inpos = new ByteArraySegment(m_greeting); m_insize = m_greetingBytesRead; // To allow for interoperability with peers that do not forward // their subscriptions, we inject a phony subscription // message into the incoming message stream. To put this // message right after the identity message, we temporarily // divert the message stream from session to ourselves. if (m_options.SocketType == ZmqSocketType.Pub || m_options.SocketType == ZmqSocketType.Xpub) m_decoder.SetMsgSink(this); ActivateOut(); } else if (m_greetingBytesRead < 10) { var greetingSegment = new ByteArraySegment(m_greeting, m_greetingBytesRead); BeginRead(greetingSegment, PreambleSize - m_greetingBytesRead); } else { // The peer is using versioned protocol. // Send the rest of the greeting. m_outpos[m_outsize++] = 1; // Protocol version m_outpos[m_outsize++] = (byte)m_options.SocketType; m_handshakeState = HandshakeState.SendingRestOfGreeting; BeginWrite(m_outpos, m_outsize); } } break; case Action.ActivateIn: case Action.ActivateOut: // nothing to do break; default: Debug.Assert(false); break; } break; case HandshakeState.SendingRestOfGreeting: switch (action) { case Action.OutCompleted: bytesSent = EndWrite(socketError, bytesTransferred); if (bytesSent == -1) { Error(); } else { m_outpos.AdvanceOffset(bytesSent); m_outsize -= bytesSent; if (m_outsize > 0) { BeginWrite(m_outpos, m_outsize); } else { var greetingSegment = new ByteArraySegment(m_greeting, m_greetingBytesRead); m_handshakeState = HandshakeState.ReceivingRestOfGreeting; BeginRead(greetingSegment, GreetingSize - m_greetingBytesRead); } } break; case Action.ActivateIn: case Action.ActivateOut: // nothing to do break; default: Debug.Assert(false); break; } break; case HandshakeState.ReceivingRestOfGreeting: switch (action) { case Action.InCompleted: bytesReceived = EndRead(socketError, bytesTransferred); if (bytesReceived == -1) { Error(); } else { m_greetingBytesRead += bytesReceived; if (m_greetingBytesRead < GreetingSize) { var greetingSegment = new ByteArraySegment(m_greeting, m_greetingBytesRead); BeginRead(greetingSegment, GreetingSize); } else { if (m_greeting[VersionPos] == 0) { // ZMTP/1.0 framing. m_encoder = new V1Encoder(Config.OutBatchSize, m_options.Endian); m_encoder.SetMsgSource(m_session); m_decoder = new V1Decoder(Config.InBatchSize, m_options.MaxMessageSize, m_options.Endian); m_decoder.SetMsgSink(m_session); } else { // v1 framing protocol. m_encoder = new V2Encoder(Config.OutBatchSize, m_session, m_options.Endian); m_decoder = new V2Decoder(Config.InBatchSize, m_options.MaxMessageSize, m_session, m_options.Endian); } // handshake is done Activate(); } } break; case Action.ActivateIn: case Action.ActivateOut: // nothing to do break; default: Debug.Assert(false); break; } break; default: Debug.Assert(false); break; } }
private void Handle(Action action, SocketError socketError, int bytesTransferred) { switch (m_state) { case State.Closed: switch (action) { case Action.Start: if (m_options.RawSocket) { m_encoder = new RawEncoder(Config.OutBatchSize, m_session, m_options.Endian); m_decoder = new RawDecoder(Config.InBatchSize, m_options.MaxMessageSize, m_session, m_options.Endian); Activate(); } else { m_state = State.Handshaking; m_handshakeState = HandshakeState.Closed; HandleHandshake(action, socketError, bytesTransferred); } break; } break; case State.Handshaking: HandleHandshake(action, socketError, bytesTransferred); break; case State.Active: switch (action) { case Action.InCompleted: m_insize = EndRead(socketError, bytesTransferred); ProcessInput(); break; case Action.ActivateIn: // if we stuck let's continue, other than that nothing to do if (m_receivingState == ReceiveState.Stuck) { m_receivingState = ReceiveState.Active; ProcessInput(); } break; case Action.OutCompleted: int bytesSent = EndWrite(socketError, bytesTransferred); // IO error has occurred. We stop waiting for output events. // The engine is not terminated until we detect input error; // this is necessary to prevent losing incoming messages. if (bytesSent == -1) { m_sendingState = SendState.Error; } else { m_outpos.AdvanceOffset(bytesSent); m_outsize -= bytesSent; BeginSending(); } break; case Action.ActivateOut: // if we idle we start sending, other than do nothing if (m_sendingState == SendState.Idle) { m_sendingState = SendState.Active; BeginSending(); } break; default: Debug.Assert(false); break; } break; case State.Stalled: switch (action) { case Action.ActivateIn: // There was an input error but the engine could not // be terminated (due to the stalled decoder). // Flush the pending message and terminate the engine now. m_decoder.ProcessBuffer(m_inpos, 0); Debug.Assert(!m_decoder.Stalled()); m_session.Flush(); Error(); break; case Action.ActivateOut: break; } break; } }
private void HandleHandshake(Action action, SocketError socketError, int bytesTransferred) { int bytesSent; int bytesReceived; switch (m_handshakeState) { case HandshakeState.Closed: switch (action) { case Action.Start: // Send the 'length' and 'flags' fields of the identity message. // The 'length' field is encoded in the long format. m_greetingOutputBuffer[m_outsize++] = ((byte)0xff); m_greetingOutputBuffer.PutLong(m_options.Endian, (long)m_options.IdentitySize + 1, 1); m_outsize += 8; m_greetingOutputBuffer[m_outsize++] = ((byte)0x7f); m_outpos = new ByteArraySegment(m_greetingOutputBuffer); m_handshakeState = HandshakeState.SendingGreeting; BeginWrite(m_outpos, m_outsize); break; default: Debug.Assert(false); break; } break; case HandshakeState.SendingGreeting: switch (action) { case Action.OutCompleted: bytesSent = EndWrite(socketError, bytesTransferred); if (bytesSent == -1) { Error(); } else { m_outpos.AdvanceOffset(bytesSent); m_outsize -= bytesSent; if (m_outsize > 0) { BeginWrite(m_outpos, m_outsize); } else { m_greetingBytesRead = 0; var greetingSegment = new ByteArraySegment(m_greeting, m_greetingBytesRead); m_handshakeState = HandshakeState.ReceivingGreeting; BeginRead(greetingSegment, PreambleSize); } } break; case Action.ActivateIn: case Action.ActivateOut: // nothing to do break; default: Debug.Assert(false); break; } break; case HandshakeState.ReceivingGreeting: switch (action) { case Action.InCompleted: bytesReceived = EndRead(socketError, bytesTransferred); if (bytesReceived == -1) { Error(); } else { m_greetingBytesRead += bytesReceived; // check if it is an unversion protocol if (m_greeting[0] != 0xff || (m_greetingBytesRead == 10 && (m_greeting[9] & 0x01) == 0)) { m_encoder = new V1Encoder(Config.OutBatchSize, m_options.Endian); m_encoder.SetMsgSource(m_session); m_decoder = new V1Decoder(Config.InBatchSize, m_options.MaxMessageSize, m_options.Endian); m_decoder.SetMsgSink(m_session); // We have already sent the message header. // Since there is no way to tell the encoder to // skip the message header, we simply throw that // header data away. int headerSize = m_options.IdentitySize + 1 >= 255 ? 10 : 2; var tmp = new byte[10]; var bufferp = new ByteArraySegment(tmp); int bufferSize = headerSize; m_encoder.GetData(ref bufferp, ref bufferSize); Debug.Assert(bufferSize == headerSize); // Make sure the decoder sees the data we have already received. m_inpos = new ByteArraySegment(m_greeting); m_insize = m_greetingBytesRead; // To allow for interoperability with peers that do not forward // their subscriptions, we inject a phony subscription // message into the incoming message stream. To put this // message right after the identity message, we temporarily // divert the message stream from session to ourselves. if (m_options.SocketType == ZmqSocketType.Pub || m_options.SocketType == ZmqSocketType.Xpub) { m_decoder.SetMsgSink(this); } ActivateOut(); } else if (m_greetingBytesRead < 10) { var greetingSegment = new ByteArraySegment(m_greeting, m_greetingBytesRead); BeginRead(greetingSegment, PreambleSize - m_greetingBytesRead); } else { // The peer is using versioned protocol. // Send the rest of the greeting. m_outpos[m_outsize++] = 1; // Protocol version m_outpos[m_outsize++] = (byte)m_options.SocketType; m_handshakeState = HandshakeState.SendingRestOfGreeting; BeginWrite(m_outpos, m_outsize); } } break; case Action.ActivateIn: case Action.ActivateOut: // nothing to do break; default: Debug.Assert(false); break; } break; case HandshakeState.SendingRestOfGreeting: switch (action) { case Action.OutCompleted: bytesSent = EndWrite(socketError, bytesTransferred); if (bytesSent == -1) { Error(); } else { m_outpos.AdvanceOffset(bytesSent); m_outsize -= bytesSent; if (m_outsize > 0) { BeginWrite(m_outpos, m_outsize); } else { var greetingSegment = new ByteArraySegment(m_greeting, m_greetingBytesRead); m_handshakeState = HandshakeState.ReceivingRestOfGreeting; BeginRead(greetingSegment, GreetingSize - m_greetingBytesRead); } } break; case Action.ActivateIn: case Action.ActivateOut: // nothing to do break; default: Debug.Assert(false); break; } break; case HandshakeState.ReceivingRestOfGreeting: switch (action) { case Action.InCompleted: bytesReceived = EndRead(socketError, bytesTransferred); if (bytesReceived == -1) { Error(); } else { m_greetingBytesRead += bytesReceived; if (m_greetingBytesRead < GreetingSize) { var greetingSegment = new ByteArraySegment(m_greeting, m_greetingBytesRead); BeginRead(greetingSegment, GreetingSize); } else { if (m_greeting[VersionPos] == 0) { // ZMTP/1.0 framing. m_encoder = new V1Encoder(Config.OutBatchSize, m_options.Endian); m_encoder.SetMsgSource(m_session); m_decoder = new V1Decoder(Config.InBatchSize, m_options.MaxMessageSize, m_options.Endian); m_decoder.SetMsgSink(m_session); } else { // v1 framing protocol. m_encoder = new V2Encoder(Config.OutBatchSize, m_session, m_options.Endian); m_decoder = new V2Decoder(Config.InBatchSize, m_options.MaxMessageSize, m_session, m_options.Endian); } // handshake is done Activate(); } } break; case Action.ActivateIn: case Action.ActivateOut: // nothing to do break; default: Debug.Assert(false); break; } break; default: Debug.Assert(false); break; } }