// TODO: It would be AWESOME if we could just store this class directly, but // unfortunately, Bond's type aliases allow only primitive types to be aliased. // We should check to see if we can add support for custom types in Bond's source, // but for now, we're forced to do a double serialization here. public static ArraySegment <byte> ToByteArray(IGenericSerializable Serializable) { if (Serializable == null) { return(default(ArraySegment <byte>)); } var Type = Serializable.GetType(); var Result = new SerializationGenericReference(0) { Type = BondSerializationUtil.GetTypeIdentifierString(Type), Data = BondSerializer.Serialize(Serializable) }; return(BondSerializer.Serialize(Result)); }
/// <summary> /// Receive and enqueue messages from the server endpoint. /// </summary> private void ReceiveThread() { BinaryFormatter binaryFormatter = new BinaryFormatter(); #if GENERIC_SERIALIZATION IGenericSerializable msg = null; #else object msg = null; #endif while (!m_Disposed) { if ((m_Socket != null) && (m_Socket.Connected) && (m_Connected)) { try { #if GENERIC_SERIALIZATION msg = PacketTypes.DecodeMessage(null, new SerializedPacket(m_NetworkStream)); #else msg = binaryFormatter.Deserialize(m_NetworkStream); //blocks #endif } catch (Exception e) { if (e.InnerException is SocketException) { if (((SocketException)e.InnerException).ErrorCode == 10053) { Trace.WriteLine("SocketException 10053: Read aborted by local host."); } else if (((SocketException)e.InnerException).ErrorCode == 10054) { Trace.WriteLine("SocketException 10054: Read aborted. Remote connection lost."); } else { Trace.WriteLine("ReceiveThread SocketException while reading. ErrorCode=" + ((SocketException)e.InnerException).ErrorCode.ToString()); } } else { Trace.WriteLine("ReceiveThread failed to read: " + e.ToString()); } continue; } lock (m_ReceiveQueue) { this.m_LastMsgReceived = DateTime.Now; if (!(msg is TCPHeartbeatMessage)) { m_ReceiveQueue.Enqueue(new ReceiveMessageAndParticipant(msg, m_ServerParticipant)); Chunk c = (msg as Chunk); if (c != null) { m_LastMsgSequence = c.MessageSequence; m_LastChunkSequence = c.ChunkSequenceInMessage; } } else { Trace.WriteLine("TCPClient received heartbeat message at " + DateTime.Now.ToString(), this.GetType().ToString()); } } } else { Thread.Sleep(100); } } Trace.WriteLine("Receive Thread is ending.", this.GetType().ToString()); }
/// <summary> /// Maintain the connection to the server endpoint. /// </summary> private void ConnectThread() { while (!m_Disposed) { if ((m_Socket == null) || (!m_Socket.Connected) || (!m_Connected)) { Socket s = (Socket)Interlocked.Exchange(ref m_Socket, null); if (s != null) { s.Close(); } try { if (m_Disposed) { break; } using (Synchronizer.Lock(this.SyncRoot)) { this.SetPublishedProperty("Connected", ref this.m_Connected, false); NetworkStatus newStatus = m_NetworkStatus.Clone(); newStatus.ConnectionStatus = ConnectionStatus.TryingToConnect; this.SetPublishedProperty("NetworkStatus", ref m_NetworkStatus, newStatus); } Trace.WriteLine("Attempting connection to server: " + this.m_RemoteEP.ToString(), this.GetType().ToString()); m_Socket = new Socket(this.m_RemoteEP.AddressFamily, SocketType.Stream, ProtocolType.Tcp); m_Socket.ReceiveTimeout = 20000; //Temporarily set to 20 seconds for the handshaking phase. //In case the server endpoint changed: UpdateRemoteEndpoint(); m_Socket.Connect(this.m_RemoteEP); m_NetworkStream = new NetworkStream(m_Socket); //NetworkStream does not own the socket. //Receive handshake BinaryFormatter bf = new BinaryFormatter(); #if GENERIC_SERIALIZATION IGenericSerializable o = PacketTypes.DecodeMessage(null, new SerializedPacket(m_NetworkStream)); #else object o = bf.Deserialize(m_NetworkStream); #endif if (o is TCPHandshakeMessage) { Trace.WriteLine("Handshake received from " + ((TCPHandshakeMessage)o).ParticipantId.ToString() + " ep=" + ((TCPHandshakeMessage)o).EndPoint.ToString()); //send a handshake TCPHandshakeMessage handshake = new TCPHandshakeMessage(m_Participant, (IPEndPoint)m_Socket.LocalEndPoint); lock (this.m_ReceiveQueue) { //If this is a reconnect, these values tell the server where we left off handshake.LastMessageSequence = m_LastMsgSequence; handshake.LastChunkSequence = m_LastChunkSequence; } MemoryStream ms = new MemoryStream(); #if GENERIC_SERIALIZATION handshake.Serialize().WriteToStream(ms); #else bf.Serialize(ms, handshake); #endif m_NetworkStream.Write(ms.GetBuffer(), 0, (int)ms.Length); Trace.WriteLine("Handshake sent.", this.GetType().ToString()); //The first time we connect to a server we create a new ParticipantModel to represent the server. if (m_ServerParticipant == null) { TCPHandshakeMessage h = (TCPHandshakeMessage)o; m_ServerId = h.ParticipantId; m_ServerParticipant = new ParticipantModel(m_ServerId, h.HumanName); } else { //In reconnect scenarios we keep the same server ParticipantModel, but the Guid could //change if the server was restarted. In this case we just want to update the Guid. //Notice that we can't create a new ParticipantModel here without breaking some things. if (!m_ServerId.Equals(((TCPHandshakeMessage)o).ParticipantId)) { m_ServerId = ((TCPHandshakeMessage)o).ParticipantId; m_ServerParticipant.Guid = m_ServerId; } } } else { throw new ApplicationException("Invalid handshake received: " + o.GetType().ToString()); } m_Socket.ReceiveTimeout = 0; //Reset socket to infinite timeout. m_ClientTimeout = SetClientTimeout(); using (Synchronizer.Lock(this.SyncRoot)) { //Setting this property allows the ReceiveThread to begin: this.SetPublishedProperty("Connected", ref this.m_Connected, true); NetworkStatus newStatus = m_NetworkStatus.Clone(); newStatus.ConnectionStatus = ConnectionStatus.Connected; this.SetPublishedProperty("NetworkStatus", ref m_NetworkStatus, newStatus); } lock (this.m_ReceiveQueue) { //This enables the client timeout: this.m_LastMsgReceived = DateTime.Now; } Trace.WriteLine("Connected.", this.GetType().ToString()); } catch (SocketException se) { if (se.ErrorCode == 10060) { Trace.WriteLine("ConnectThread SocketException 10060: remote host failed to respond."); } else if (se.ErrorCode == 10038) { Trace.WriteLine("ConnectThread SocketException 10038: operation attempted on non-socket."); } else { Trace.WriteLine("ConnectThread SocketException " + se.ErrorCode.ToString() + ": " + se.ToString()); } } catch (IOException ioe) { Trace.WriteLine("ConnectThread IOException: " + ioe.Message); if ((ioe.InnerException != null) && (ioe.InnerException is SocketException)) { Trace.WriteLine(" InnerException: SocketException " + ((SocketException)ioe.InnerException).ErrorCode.ToString()); } } catch (Exception e) { Trace.WriteLine("ConnectThread exception: " + e.ToString()); } } for (int i = 0; ((i < 10) && (!m_Disposed)); i++) { Thread.Sleep(100); } } Trace.WriteLine("ConnectThread is ending.", this.GetType().ToString()); }
public static ArraySegment <byte> Convert(IGenericSerializable value, ArraySegment <byte> unused, Type ExpectedType) { return(SerializationGenericReference.ToByteArray(value)); }
public static IGenericSerializable Convert(ArraySegment <byte> value, IGenericSerializable unused, Type ExpectedType) { return(SerializationGenericReference.FromByteArray(value)); }
/// <summary> /// When the ListenThread has a prospective new client on the line, here we attempt to establish the connection. /// </summary> /// <param name="ar"></param> private void AcceptSocketCallback(IAsyncResult ar) { Socket s = null; TcpListener tcpListener = (TcpListener)ar.AsyncState; try { s = tcpListener.EndAcceptSocket(ar); } catch (ObjectDisposedException ode) { Trace.WriteLine("AcceptSocketCallback ObjectDisposedException" + ode.Message, this.GetType().ToString()); return; } catch (SocketException se) { Trace.WriteLine("AcceptSocketCallback: " + se.ToString(), this.GetType().ToString()); return; } catch (Exception e) { Trace.WriteLine(e.ToString(), this.GetType().ToString()); return; } finally { m_ClientConnected.Set(); //Let the ListenThread continue } if (s != null) { try { //Send a handshake NetworkStream ns = new NetworkStream(s); //Here the network stream does not "own" the socket, so we have to close it explicitly. BinaryFormatter bf = new BinaryFormatter(); MemoryStream ms = new MemoryStream(); TCPHandshakeMessage handshake = new TCPHandshakeMessage(this.m_Participant, new IPEndPoint(0, 0)); #if GENERIC_SERIALIZATION handshake.Serialize().WriteToStream(ms); #else bf.Serialize(ms, handshake); #endif ns.Write(ms.GetBuffer(), 0, (int)ms.Length); Trace.WriteLine("Handshake sent.", this.GetType().ToString()); //Receive a handshake #if GENERIC_SERIALIZATION IGenericSerializable o = PacketTypes.DecodeMessage(null, new SerializedPacket(ns)); #else object o = bf.Deserialize(ns); #endif if (o is TCPHandshakeMessage) { TCPHandshakeMessage h = (TCPHandshakeMessage)o; Trace.WriteLine("Handshake received from " + h.ParticipantId.ToString() + " ep=" + h.EndPoint.ToString(), this.GetType().ToString()); ParticipantModel p; //In case this client still has a socket open, force it to close ClosePreviousSocket(h.ParticipantId); //Notice that as soon as we add the entry to m_AllClients, it is eligible for sending of outbound messages: bool newClient = false; lock (m_AllClients) { if (m_AllClients.ContainsKey(h.ParticipantId)) { ((ClientData)m_AllClients[h.ParticipantId]).ConnectionState = ConnectionState.Connected; ((ClientData)m_AllClients[h.ParticipantId]).Socket = s; p = ((ClientData)m_AllClients[h.ParticipantId]).Participant; //Add the participant to the classroom model using (Synchronizer.Lock(m_Classroom.SyncRoot)) { m_Classroom.Participants.Add(p); } ((ClientData)m_AllClients[h.ParticipantId]).Timeout = DateTime.MaxValue; this.m_ServerSender.Reconnect(((ClientData)m_AllClients[h.ParticipantId]), h.LastMessageSequence, h.LastChunkSequence); } else { p = new ParticipantModel(h.ParticipantId, h.HumanName); //Add the participant to the classroom model using (Synchronizer.Lock(m_Classroom.SyncRoot)) { m_Classroom.Participants.Add(p); } ClientData client = new ClientData(s, h.ParticipantId, p); this.m_ServerSender.AddClient(client); m_AllClients.Add(h.ParticipantId, client); newClient = true; } } //Update connected client count for network status using (Synchronizer.Lock(this.SyncRoot)) { this.SetPublishedProperty("ClientCount", ref this.m_ClientCount, this.m_ClientCount + 1); NetworkStatus newStatus = m_NetworkStatus.Clone(); newStatus.ClientCount = this.m_ClientCount; this.SetPublishedProperty("NetworkStatus", ref m_NetworkStatus, newStatus); } //Start a receive thread for this socket. Thread receiveThread = new Thread(ReceiveThread); receiveThread.Start(new ReceiveThreadArgs(p, ns, s.RemoteEndPoint)); //Send the current presentation state if this is a new client if (newClient) { m_Sender.ForceUpdate(new SingletonGroup(p)); } } else { Trace.WriteLine("AcceptSocketCallback invalid handshake from " + s.RemoteEndPoint.ToString(), this.GetType().ToString()); } } catch (Exception e) { Trace.WriteLine("AcceptSocketCallback exception while handshaking with " + s.RemoteEndPoint.ToString() + ": " + e.ToString(), this.GetType().ToString()); } } }
/// <summary> /// We use one receive thread per socket /// </summary> /// <param name="o"></param> private void ReceiveThread(Object o) { ReceiveThreadArgs args = (ReceiveThreadArgs)o; NetworkStream ns = args.NetStream; ParticipantModel participant = args.Participant; Guid participantId = participant.Guid; EndPoint remoteEP = args.RemoteEndPoint; IFormatter binaryFormatter = new BinaryFormatter(); #if GENERIC_SERIALIZATION IGenericSerializable msg = null; #else object msg = null; #endif while (!this.m_Disposed) { try { #if GENERIC_SERIALIZATION msg = PacketTypes.DecodeMessage(null, new SerializedPacket(ns)); #else msg = binaryFormatter.Deserialize(ns); //blocks #endif } catch (SerializationException se) { Trace.WriteLine(se.ToString(), this.GetType().ToString()); break; } catch (Exception e) { if (e.InnerException is SocketException) { SocketException se = (SocketException)e.InnerException; if (se.ErrorCode == 10054) { Trace.WriteLine("ReceiveThread detected a disconnected client during NetworkStream.Read: " + remoteEP.ToString(), this.GetType().ToString()); break; } else if (se.ErrorCode == 10053) { Trace.WriteLine("ReceiveThread: socket was closed by local host.", this.GetType().ToString()); break; } else if (se.ErrorCode == 10004) { Trace.WriteLine("ReceiveThread: a blocking operation was interrupted.", this.GetType().ToString()); break; } else { Trace.WriteLine("SocketException in ReceiveThread. remote Endpoint= " + remoteEP.ToString() + " " + se.ToString() + " error code: " + se.ErrorCode.ToString(), this.GetType().ToString()); break; } } else { Trace.WriteLine("Exception while reading: " + e.ToString(), this.GetType().ToString()); break; } } lock (m_ReceiveQueue) { m_ReceiveQueue.Enqueue(new ReceiveMessageAndParticipant(msg, participant)); } } //Remove the participant from the classroom here. Notice that the socket for this participant may still be open. using (Synchronizer.Lock(m_Classroom.SyncRoot)) { m_Classroom.Participants.Remove(participant); } Trace.WriteLine("ReceiveThread is ending for remote endpoint=" + remoteEP.ToString(), this.GetType().ToString()); }