I was told several times that async is better or that I should use async instead of sync sockets and as such started learning it, but am already having difficult.
I've got the basic feel of how the callback works and how to establish a connection.
I am using this msdn code as reference!
A few problems I am having with the code:
Currently that code will connect to the server, send a text, read the response and exit. How do I do so I can keep receiving the data until either the server disconnects me and/or I end it by myself ? I am not much sure on how I should do it, if I would need to wrap it on a thread with while or simple call that Receive again once the ReceiveCallback is done.
Another things I've noticed is when it connects, the socket is assigned to client but the code itself is always reassigning the client socket which I don't understand very well compared to the sync socket we have a main socket that we are always consulting etc.
I am not sure on how old the reference I am using is but would appreciate if you could help me with examples of what I have pointed out as it is easier for me to understand.
UPDATE:
private void SetupRecieveCallback(Socket sock)
{
new Thread(
delegate()
{
while (isReceiving)
{
_receiveQueue.Reset();
try
{
AsyncCallback recieveData = new AsyncCallback(OnRecievedData);
sock.BeginReceive(m_byBuff, 0, m_byBuff.Length, SocketFlags.None, recieveData, sock);
}
catch (Exception ex)
{
_logger.Error("Setup Recieve Callback failed! " + ex.Message);
}
_receiveQueue.WaitOne();
}
}
).Start();
/*
// The original code
try
{
AsyncCallback recieveData = new AsyncCallback(OnRecievedData);
sock.BeginReceive(m_byBuff, 0, m_byBuff.Length, SocketFlags.None, recieveData, sock);
}
catch (Exception ex)
{
_logger.Error("Setup Recieve Callback failed! " + ex.Message);
}
*/
}
Simply call BeginReceive() again in the callback to keep receiving. When the server breaks the connection then your callback will be called and EndReceive() throws an ObjectDisposedException. That's how you know to stop calling BeginReceive().
Second question is harder to decode (ask only one). I'm guessing you are puzzled about this statement:
private static void ConnectCallback(IAsyncResult ar) {
try {
// Retrieve the socket from the state object.
Socket client = (Socket) ar.AsyncState;
// etc..
No reassigning the socket is happening here. The code simply retrieves a reference to the original socket. Which is a useful technique, it allows this callback to be used by more than one connection. The ar.AsyncState value got to be the socket by this statement:
client.BeginConnect( remoteEP,
new AsyncCallback(ConnectCallback), client);
Note how client is passed to the AsyncCallback constructor. The exact same client that's retrieved in the callback. Any object can be passed.
Related
I've got a listener socket that accepts, receives and sends as a TCP server typically does. I've given my accept and receive code below, it's not that different from the example on Microsoft's documentation. The main difference is that my server doesn't kill a connection after it stops receiving data (I don't know if this is a bad design or not?).
private void on_accept(IAsyncResult xResult)
{
Socket listener = null;
Socket handler = null;
TStateObject state = null;
Task<int> consumer = null;
try
{
mxResetEvent.Set();
listener = (Socket)xResult.AsyncState;
handler = listener.EndAccept(xResult);
state = new TStateObject()
{
Socket = handler
};
consumer = async_input_consumer(state);
OnConnect?.Invoke(this, handler);
handler.BeginReceive(state.Buffer, 0, TStateObject.BufferSize, 0, new AsyncCallback(on_receive), state);
}
catch (SocketException se)
{
if (se.ErrorCode == 10054)
{
on_disconnect(state);
}
}
catch (ObjectDisposedException)
{
return;
}
catch (Exception ex)
{
System.Console.WriteLine("Exception in TCPServer::AcceptCallback, exception: " + ex.Message);
}
}
private void on_receive(IAsyncResult xResult)
{
Socket handler = null;
TStateObject state = null;
try
{
state = xResult.AsyncState as TStateObject;
handler = state.Socket;
int bytesRead = handler.EndReceive(xResult);
UInt16 id = TClientRegistry.GetIdBySocket(handler);
TContext context = TClientRegistry.GetContext(id);
if (bytesRead > 0)
{
var buffer_data = new byte[bytesRead];
Array.Copy(state.Buffer, buffer_data, bytesRead);
state.BufferBlock.Post(buffer_data);
}
Array.Clear(state.Buffer, 0, state.Buffer.Length);
handler.BeginReceive(state.Buffer, 0, TStateObject.BufferSize, 0, new AsyncCallback(on_receive), state);
}
catch (SocketException se)
{
if(se.ErrorCode == 10054)
{
on_disconnect(state);
}
}
catch (ObjectDisposedException)
{
return;
}
catch (Exception ex)
{
System.Console.WriteLine("Exception in TCPServer::ReadCallback, exception: " + ex.Message);
}
}
This code is used to connect to an embedded device and works (mostly) fine. I was investigating a memory leak and trying to speed up the process a bit by replicating exactly what the device does (our connection speeds are in the realm of about 70kbps to our device, and it took an entire weekend of stress testing to get the memory leak to double the memory footprint of the server).
So I wrote a C# program to replicate the data transactions, but I've run into an issue where when I disconnect the test program, the server gets caught in a loop where it endlessly has its on_receive callback called. I was under the impression that BeginReceive wouldn't be triggered until something was received, and it seems to call on_receive, ends the receiving like an async callback should do, process the data, and then I want the connection to await more data so I call BeginReceive again.
The part of my test program where the issue occurs is in here:
private static void read_write_test()
{
mxConnection = new Socket(AddressFamily.InterNetwork, SocketType.Stream, ProtocolType.Tcp);
mxConnection.Connect("12.12.12.18", 10);
if (mxConnection.Connected)
{
byte[] data = Encoding.ASCII.GetBytes("HANDSHAKESTRING"); //Connect string
int len = data.Length;
mxConnection.Send(data);
data = new byte[4];
len = mxConnection.Receive(data);
if (len == 0 || data[0] != '1')
{
mxConnection.Disconnect(false);
return;
}
}
//Meat of the test goes here but isn't relevant
mxConnection.Shutdown(SocketShutdown.Both);
mxConnection.Close();
}
Up until the Shutdown(SocketShutdown.Both) call, everything works as expected. When I make that call however, it seems like the server never gets notification that the client has closed the socket and gets stuck in a loop of endlessly trying to receive. I've done my homework and I think I am closing my connection properly as per this discussion. I've messed around with the disconnect section to just do mxConnection.Disconnect(false) as well, but the same thing occurs.
When the device disconnects from the server, my server catches a SocketException with error code 10054, which documentation says:
Connection reset by peer.
An existing connection was forcibly closed
by the remote host. This normally results if the peer application on
the remote host is suddenly stopped, the host is rebooted, the host or
remote network interface is disabled, or the remote host uses a hard
close (see setsockopt for more information on the SO_LINGER option on
the remote socket). This error may also result if a connection was
broken due to keep-alive activity detecting a failure while one or
more operations are in progress. Operations that were in progress fail
with WSAENETRESET. Subsequent operations fail with WSAECONNRESET.
I've used this to handle the socket being closed and has worked well for the most part. However, with my C# test program, it doesn't seem like it works the same way.
Am I missing something here? I'd appreciate any input. Thanks.
The main difference is that my server doesn't kill a connection after it stops receiving data (I don't know if this is a bad design or not?).
Of course it is.
it seems like the server never gets notification that the client has closed the socket and gets stuck in a loop of endlessly trying to receive
The server does get notification. It's just that you ignore it. The notification is that your receive operation returns 0. When that happens, you just call BeginReceive() again. Which starts a new read operation. Which…returns 0! You just keep doing that over and over again.
When a receive operation returns 0, you're supposed to complete the graceful closure (with a call to Shutdown() and Close()) that the remote endpoint started. Do not try to receive again. You'll just keep getting the same result.
I strongly recommend you do more homework. A good place to start would be the Winsock Programmer's FAQ. It is a fairly old resource and doesn't address .NET at all. But for the most part, the things that novice network programmers are getting wrong in .NET are the same things that novice Winsock programmers were getting wrong twenty years ago. The document is still just as relevant today as it was then.
By the way, your client-side code has some issues as well. First, when the Connect() method returns successfully, the socket is connected. You don't have to check the Connected property (and in fact, should never have to check that property). Second, the Disconnect() method doesn't do anything useful. It's used when you want to re-use the underlying socket handle, but you should be disposing the Socket object here. Just use Shutdown() and Close(), per the usual socket API idioms. Third, any code that receives from a TCP socket must do that in a loop, and make use of the received byte-count value to determine what data has been read and whether enough has been read to do anything useful. TCP can return any positive number of bytes on a successful read, and it's your program's job to identify the start and end of any particular blocks of data that were sent.
You missed this in the documentation for EndReceive() and Receive():
If the remote host shuts down the Socket connection with the Shutdown method, and all available data has been received, the Receive method will complete immediately and return zero bytes.
When you read zero bytes, you still start another BeginReceive(), instead of shutting down:
if (bytesRead > 0)
{
var buffer_data = new byte[bytesRead];
Array.Copy(state.Buffer, buffer_data, bytesRead);
state.BufferBlock.Post(buffer_data);
}
Array.Clear(state.Buffer, 0, state.Buffer.Length);
handler.BeginReceive(state.Buffer, 0, TStateObject.BufferSize, 0, new AsyncCallback(on_receive), state);
Since you keep calling BeginReceive on a socket that's 'shutdown', you're going to keep getting callbacks to receive zero bytes.
Compare with the example from Microsoft in the documentation for EndReceive():
public static void Read_Callback(IAsyncResult ar){
StateObject so = (StateObject) ar.AsyncState;
Socket s = so.workSocket;
int read = s.EndReceive(ar);
if (read > 0) {
so.sb.Append(Encoding.ASCII.GetString(so.buffer, 0, read));
s.BeginReceive(so.buffer, 0, StateObject.BUFFER_SIZE, 0,
new AsyncCallback(Async_Send_Receive.Read_Callback), so);
}
else{
if (so.sb.Length > 1) {
//All of the data has been read, so displays it to the console
string strContent;
strContent = so.sb.ToString();
Console.WriteLine(String.Format("Read {0} byte from socket" +
"data = {1} ", strContent.Length, strContent));
}
s.Close();
}
}
I feel, that I am misunderstanding something about async sockets in .Net. The situation is as follows : I have 1 async socket client and 1 async socket server. They communicate without any visible problems, but when I close listener and disconnect clients, the "OnConnectRequest" which is bound to "BeginAccept" as a callback, still gets called at least once. The "BeginReceive", "OnConnectRequest", "Disconnect" and "Dispose" methods are :
public void BeginReceive()
{
_listener.Bind(_endpoint);
_listener.Listen(_maxConnections);
try
{
_listener.BeginAccept(new AsyncCallback(OnConnectRequest), _listener);
}
catch (SocketException se)
{
OnListeningError(this, new Exception("Server cannot accept connections due to network shutdown or some fatal failure", se));
}
}
protected void OnConnectRequest(IAsyncResult ar)
{
Socket listener = (Socket)ar.AsyncState;
Socket client = listener.EndAccept(ar);
var remoteEndpoint = client.RemoteEndPoint;
IDuplexStateObject state = new DuplexStateObject();
state.WorkSocket = client;
if (_clients.Count <= _maxConnections)
{
lock (_clients)
{
_clients.Add(state);
}
OnConnected(this, state);
}
else
{
//denying connection
client.Close();
AcceptingError(this, null, new Exception(string.Format("Maximal connection count reached, connection attempt {0} has been denied", (remoteEndpoint != null) ? remoteEndpoint.ToString() : null)));
}
//accept connections from other clients
try
{
listener.BeginAccept(new AsyncCallback(OnConnectRequest), listener);
}
catch (SocketException se)
{
if (se.SocketErrorCode == SocketError.TooManyOpenSockets)
{
OnListeningError(this, new Exception("Maximal connection count reached, not possible to create any more connections"));
}
else
{
OnListeningError(this, new Exception("Server cannot accept connections due to network shutdown or some fatal failure"));
}
}
}
public void Disconnect(IStateObject state)
{
if (state.WorkSocket == null)
{
//OnDisconnectError(this, state.ClientInfo,
// new Exception("No underlying work socket found for client. Already disconnected, disposing connection..."));
OnDisconnected(this, state.ClientInfo);
return;
}
try
{
if (state.WorkSocket.Connected)
{
state.WorkSocket.Shutdown(SocketShutdown.Both);
}
state.WorkSocket.Close();
}
catch (SocketException se)
{
OnDisconnectError(this, state.ClientInfo, se);
}
OnDisconnected(this, state.ClientInfo);
lock (_clients)
{
_clients.Remove(state);
}
}
public void Dispose()
{
_listener.Close();
//keys are cloned before disconnecting
foreach (var client in _clients.ToList())
{
Disconnect(client);
}
}
What I am doing is calling "Dispose" to closes listener and shut down all client sockets. The client is then still active, and it tries to reconnect, but what I expected to happen was server being completely unavailable on corresponding IP and port. What I see instead is "OnConnectRequest" callback being called, which crashes because of attempt to use already disposed socket. Can you please explain, what is wrong here, and how graceful shutdown of a listener and all accepted connections should look like ?
No, this is correct -- the callback you specify in a Begin... operation will always be called, even if you close the socket (if you close the socket, it will be called because of that). You should be catching the ObjectDisposedException you get on the EndAccept and then return without further action. Closing/disposing a socket/listener is the only way to cancel an asynchronous operation on it. (EndAccept can also produce SocketException, which should be handled normally.)
Using a flag you maintain yourself to check if the listener is still available is asking for trouble, because you're introducing shared state that needs to be synchronized (volatile reads and the like). You can easily introduce race conditions that way. The listener already maintains such a flag for you internally, which it uses to throw ObjectDisposedException, so I'd just use that. It's true that under normal circumstances catching ObjectDisposedException is a possible sign of a coding error (since you're supposed to know when an object is disposed), but with asynchronous code it's pretty standard.
How can I detect that a client has disconnected from my server?
I have the following code in my AcceptCallBack method
static Socket handler = null;
public static void AcceptCallback(IAsyncResult ar)
{
//Accept incoming connection
Socket listener = (Socket)ar.AsyncState;
handler = listener.EndAccept(ar);
}
I need to find a way to discover as soon as possible that the client has disconnected from the handler Socket.
I've tried:
handler.Available;
handler.Send(new byte[1], 0,
SocketFlags.None);
handler.Receive(new byte[1], 0,
SocketFlags.None);
The above approaches work when you are connecting to a server and want to detect when the server disconnects but they do not work when you are the server and want to detect client disconnection.
Any help will be appreciated.
Since there are no events available to signal when the socket is disconnected, you will have to poll it at a frequency that is acceptable to you.
Using this extension method, you can have a reliable method to detect if a socket is disconnected.
static class SocketExtensions
{
public static bool IsConnected(this Socket socket)
{
try
{
return !(socket.Poll(1, SelectMode.SelectRead) && socket.Available == 0);
}
catch (SocketException) { return false; }
}
}
Someone mentioned keepAlive capability of TCP Socket.
Here it is nicely described:
http://tldp.org/HOWTO/TCP-Keepalive-HOWTO/overview.html
I'm using it this way: after the socket is connected, I'm calling this function, which sets keepAlive on. The keepAliveTime parameter specifies the timeout, in milliseconds, with no activity until the first keep-alive packet is sent. The keepAliveInterval parameter specifies the interval, in milliseconds, between when successive keep-alive packets are sent if no acknowledgement is received.
void SetKeepAlive(bool on, uint keepAliveTime, uint keepAliveInterval)
{
int size = Marshal.SizeOf(new uint());
var inOptionValues = new byte[size * 3];
BitConverter.GetBytes((uint)(on ? 1 : 0)).CopyTo(inOptionValues, 0);
BitConverter.GetBytes((uint)keepAliveTime).CopyTo(inOptionValues, size);
BitConverter.GetBytes((uint)keepAliveInterval).CopyTo(inOptionValues, size * 2);
socket.IOControl(IOControlCode.KeepAliveValues, inOptionValues, null);
}
I'm also using asynchronous reading:
socket.BeginReceive(packet.dataBuffer, 0, 128,
SocketFlags.None, new AsyncCallback(OnDataReceived), packet);
And in callback, here is caught timeout SocketException, which raises when socket doesn't get ACK signal after keep-alive packet.
public void OnDataReceived(IAsyncResult asyn)
{
try
{
SocketPacket theSockId = (SocketPacket)asyn.AsyncState;
int iRx = socket.EndReceive(asyn);
}
catch (SocketException ex)
{
SocketExceptionCaught(ex);
}
}
This way, I'm able to safely detect disconnection between TCP client and server.
This is simply not possible. There is no physical connection between you and the server (except in the extremely rare case where you are connecting between two compuers with a loopback cable).
When the connection is closed gracefully, the other side is notified. But if the connection is disconnected some other way (say the users connection is dropped) then the server won't know until it times out (or tries to write to the connection and the ack times out). That's just the way TCP works and you have to live with it.
Therefore, "instantly" is unrealistic. The best you can do is within the timeout period, which depends on the platform the code is running on.
EDIT:
If you are only looking for graceful connections, then why not just send a "DISCONNECT" command to the server from your client?
"That's just the way TCP works and you have to live with it."
Yup, you're right. It's a fact of life I've come to realize. You will see the same behavior exhibited even in professional applications utilizing this protocol (and even others). I've even seen it occur in online games; you're buddy says "goodbye", and he appears to be online for another 1-2 minutes until the server "cleans house".
You can use the suggested methods here, or implement a "heartbeat", as also suggested. I choose the former. But if I did choose the latter, I'd simply have the server "ping" each client every so often with a single byte, and see if we have a timeout or no response. You could even use a background thread to achieve this with precise timing. Maybe even a combination could be implemented in some sort of options list (enum flags or something) if you're really worried about it. But it's no so big a deal to have a little delay in updating the server, as long as you DO update. It's the internet, and no one expects it to be magic! :)
Implementing heartbeat into your system might be a solution. This is only possible if both client and server are under your control. You can have a DateTime object keeping track of the time when the last bytes were received from the socket. And assume that the socket not responded over a certain interval are lost. This will only work if you have heartbeat/custom keep alive implemented.
I've found quite useful, another workaround for that!
If you use asynchronous methods for reading data from the network socket (I mean, use BeginReceive - EndReceive methods), whenever a connection is terminated; one of these situations appear: Either a message is sent with no data (you can see it with Socket.Available - even though BeginReceive is triggered, its value will be zero) or Socket.Connected value becomes false in this call (don't try to use EndReceive then).
I'm posting the function I used, I think you can see what I meant from it better:
private void OnRecieve(IAsyncResult parameter)
{
Socket sock = (Socket)parameter.AsyncState;
if(!sock.Connected || sock.Available == 0)
{
// Connection is terminated, either by force or willingly
return;
}
sock.EndReceive(parameter);
sock.BeginReceive(..., ... , ... , ..., new AsyncCallback(OnRecieve), sock);
// To handle further commands sent by client.
// "..." zones might change in your code.
}
This worked for me, the key is you need a separate thread to analyze the socket state with polling. doing it in the same thread as the socket fails detection.
//open or receive a server socket - TODO your code here
socket = new Socket(....);
//enable the keep alive so we can detect closure
socket.SetSocketOption(SocketOptionLevel.Socket, SocketOptionName.KeepAlive, true);
//create a thread that checks every 5 seconds if the socket is still connected. TODO add your thread starting code
void MonitorSocketsForClosureWorker() {
DateTime nextCheckTime = DateTime.Now.AddSeconds(5);
while (!exitSystem) {
if (nextCheckTime < DateTime.Now) {
try {
if (socket!=null) {
if(socket.Poll(5000, SelectMode.SelectRead) && socket.Available == 0) {
//socket not connected, close it if it's still running
socket.Close();
socket = null;
} else {
//socket still connected
}
}
} catch {
socket.Close();
} finally {
nextCheckTime = DateTime.Now.AddSeconds(5);
}
}
Thread.Sleep(1000);
}
}
The example code here
http://msdn.microsoft.com/en-us/library/system.net.sockets.socket.connected.aspx
shows how to determine whether the Socket is still connected without sending any data.
If you called Socket.BeginReceive() on the server program and then the client closed the connection "gracefully", your receive callback will be called and EndReceive() will return 0 bytes. These 0 bytes mean that the client "may" have disconnected. You can then use the technique shown in the MSDN example code to determine for sure whether the connection was closed.
Expanding on comments by mbargiel and mycelo on the accepted answer, the following can be used with a non-blocking socket on the server end to inform whether the client has shut down.
This approach does not suffer the race condition that affects the Poll method in the accepted answer.
// Determines whether the remote end has called Shutdown
public bool HasRemoteEndShutDown
{
get
{
try
{
int bytesRead = socket.Receive(new byte[1], SocketFlags.Peek);
if (bytesRead == 0)
return true;
}
catch
{
// For a non-blocking socket, a SocketException with
// code 10035 (WSAEWOULDBLOCK) indicates no data available.
}
return false;
}
}
The approach is based on the fact that the Socket.Receive method returns zero immediately after the remote end shuts down its socket and we've read all of the data from it. From Socket.Receive documentation:
If the remote host shuts down the Socket connection with the Shutdown method, and all available data has been received, the Receive method will complete immediately and return zero bytes.
If you are in non-blocking mode, and there is no data available in the protocol stack buffer, the Receive method will complete immediately and throw a SocketException.
The second point explains the need for the try-catch.
Use of the SocketFlags.Peek flag leaves any received data untouched for a separate receive mechanism to read.
The above will work with a blocking socket as well, but be aware that the code will block on the Receive call (until data is received or the receive timeout elapses, again resulting in a SocketException).
Above answers can be summarized as follow :
Socket.Connected properity determine socket state depend on last read or receive state so it can't detect current disconnection state until you manually close the connection or remote end gracefully close of socket (shutdown).
So we can use the function below to check connection state:
bool IsConnected(Socket socket)
{
try
{
if (socket == null) return false;
return !((socket.Poll(5000, SelectMode.SelectRead) && socket.Available == 0) || !socket.Connected);
}
catch (SocketException)
{
return false;
}
//the above code is short exp to :
/* try
{
bool state1 = socket.Poll(5000, SelectMode.SelectRead);
bool state2 = (socket.Available == 0);
if ((state1 && state2) || !socket.Connected)
return false;
else
return true;
}
catch (SocketException)
{
return false;
}
*/
}
Also the above check need to care about poll respone time(block time)
Also as said by Microsoft Documents : this poll method "can't detect proplems like a broken netwrok cable or that remote host was shut down ungracefuuly".
also as said above there is race condition between socket.poll and socket.avaiable which may give false disconnect.
The best way as said by Microsoft Documents is to attempt to send or recive data to detect these kinds of errors as MS docs said.
The below code is from Microsoft Documents :
// This is how you can determine whether a socket is still connected.
bool IsConnected(Socket client)
{
bool blockingState = client.Blocking; //save socket blocking state.
bool isConnected = true;
try
{
byte [] tmp = new byte[1];
client.Blocking = false;
client.Send(tmp, 0, 0); //make a nonblocking, zero-byte Send call (dummy)
//Console.WriteLine("Connected!");
}
catch (SocketException e)
{
// 10035 == WSAEWOULDBLOCK
if (e.NativeErrorCode.Equals(10035))
{
//Console.WriteLine("Still Connected, but the Send would block");
}
else
{
//Console.WriteLine("Disconnected: error code {0}!", e.NativeErrorCode);
isConnected = false;
}
}
finally
{
client.Blocking = blockingState;
}
//Console.WriteLine("Connected: {0}", client.Connected);
return isConnected ;
}
//and heres comments from microsoft docs*
The socket.Connected property gets the connection state of the Socket as of the last I/O operation. When it returns false, the Socket was either never connected, or is no longer connected.
Connected is not thread-safe; it may return true after an operation is aborted when the Socket is disconnected from another thread.
The value of the Connected property reflects the state of the connection as of the most recent operation.
If you need to determine the current state of the connection, make a nonblocking, zero-byte Send call. If the call returns successfully or throws a WAEWOULDBLOCK error code (10035), then the socket is still connected; //otherwise, the socket is no longer connected .
Can't you just use Select?
Use select on a connected socket. If the select returns with your socket as Ready but the subsequent Receive returns 0 bytes that means the client disconnected the connection. AFAIK, that is the fastest way to determine if the client disconnected.
I do not know C# so just ignore if my solution does not fit in C# (C# does provide select though) or if I had misunderstood the context.
Using the method SetSocketOption, you will be able to set KeepAlive that will let you know whenever a Socket gets disconnected
Socket _connectedSocket = this._sSocketEscucha.EndAccept(asyn);
_connectedSocket.SetSocketOption(SocketOptionLevel.Socket, SocketOptionName.KeepAlive, 1);
http://msdn.microsoft.com/en-us/library/1011kecd(v=VS.90).aspx
Hope it helps!
Ramiro Rinaldi
i had same problem , try this :
void client_handler(Socket client) // set 'KeepAlive' true
{
while (true)
{
try
{
if (client.Connected)
{
}
else
{ // client disconnected
break;
}
}
catch (Exception)
{
client.Poll(4000, SelectMode.SelectRead);// try to get state
}
}
}
This is in VB, but it seems to work well for me. It looks for a 0 byte return like the previous post.
Private Sub RecData(ByVal AR As IAsyncResult)
Dim Socket As Socket = AR.AsyncState
If Socket.Connected = False And Socket.Available = False Then
Debug.Print("Detected Disconnected Socket - " + Socket.RemoteEndPoint.ToString)
Exit Sub
End If
Dim BytesRead As Int32 = Socket.EndReceive(AR)
If BytesRead = 0 Then
Debug.Print("Detected Disconnected Socket - Bytes Read = 0 - " + Socket.RemoteEndPoint.ToString)
UpdateText("Client " + Socket.RemoteEndPoint.ToString + " has disconnected from Server.")
Socket.Close()
Exit Sub
End If
Dim msg As String = System.Text.ASCIIEncoding.ASCII.GetString(ByteData)
Erase ByteData
ReDim ByteData(1024)
ClientSocket.BeginReceive(ByteData, 0, ByteData.Length, SocketFlags.None, New AsyncCallback(AddressOf RecData), ClientSocket)
UpdateText(msg)
End Sub
You can also check the .IsConnected property of the socket if you were to poll.
I'm trying to code a basic game, where when one player makes a move, the other receives the packet and vice versa. The problem is, only every second packet is being received. I know it's not the connection because it's consistently the same pattern of missed packets.
My code is as follows:
Socket serverSocket
private void Window_Loaded(object sender, RoutedEventArgs e)
{
//Take socket from another window that created it and start receiving
serverSocket = Welcome.MainSocket;
serverSocket.BeginReceive(Buffer, 0, Buffer.Length, SocketFlags.None, new AsyncCallback(OnReceive), null);
//The initial definition of the socket was this (in the Welcome window)
//MainSocket = new Socket(AddressFamily.InterNetwork, SocketType.Stream, ProtocolType.Tcp);
//MainSocket.SetSocketOption(SocketOptionLevel.Socket, SocketOptionName.ReuseAddress, true);
//MainSocket.Bind(new IPEndPoint(OwnLocal, OwnPort));
//MainSocket.Connect(Address, OppositePort);
}
private void OnReceive(IAsyncResult ar)
{
OnlineData Data = OnlineData.FromByte(Buffer);
//Do stuff with data on UI thread
if (Data is MoveData)
{ App.Current.Dispatcher.Invoke((Action)delegate
{
((MoveData)Data).Sync(Game, Me == Game.PlayerOne ? 1 : 2);
});
}
//End receive and start receiving again
serverSocket.EndReceive(ar);
serverSocket.BeginReceive(Buffer, 0, Buffer.Length, SocketFlags.None, new AsyncCallback(OnReceive), null);
}
//Called each time the player makes a move
void SocketSend(OnlineData Data)
{
serverSocket.Send(Data.ToByte());
}
Any ideas why this would ever happen in my case or in any other situation? Thanks!
The immediate thing I can see is that you aren't calling EndReceive, which means you aren't processing the critical return value from that method: the number of bytes received. I expect your data is being combined and multiple messages are being received in a single "receive" call (TCP is stream based, not message based).
This also means you aren't seeing any exceptions that you should know about.
Additionally, not calling End* methods can cause leak issues - you are very much meant to call End* methods. Or switch to the newer async IO API.
What was happening was that I had two different AsyncCallbacks for BeginRecieve, one from the original window ("Welcome") in which the socket was created, and one for this window. Each time the other computer sent a message, the AsyncCallback that receieved the data was alternating between the two.
Moral of this story: Only have one AsyncCallback for a socket unless you want to only receive every second packet.
I have this problem where, one part of the code process faster than it was meant to. i some situations when i call client.BeginConnect and it is connected before any other code is treated.
example:
client.BeginConnect(remoteEP, new AsyncCallback(ConnectCallback), client);
// this code below is preformed later because ConnectCallback is called to quickly
Debug.WriteLine(client.LocalEndPoint.ToString());
Problem here is that method ConnectCallback is sometimes performed faster than the code Debug.Writeline(....)
I only need to block or enable ConnectCallback function so Debug.Writeline would perform faster than ConnectCallback.
Thanks for help.
Here is a great MSDN article: Using an Asynchronous Client Socket:
private static void ConnectCallback(IAsyncResult ar) {
try {
// Retrieve the socket from the state object.
Socket client = (Socket) ar.AsyncState;
// Complete the connection.
client.EndConnect(ar);
Console.WriteLine("Socket connected to {0}",
client.RemoteEndPoint.ToString());
// Signal that the connection has been made.
connectDone.Set();
} catch (Exception e) {
Console.WriteLine(e.ToString());
}
}
So, just move the Debug.WriteLine() call into your ConnectCallback() method.