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Is there a way to implement a socket server that services clients serially.
Generally the practice is to dispatch connected clients to a new thread that services requests and response however amounting to one thread per client on the server side.

I don't want to do this because I later want to port this app to Java ME that may have a limit on the number of concurrent threads running at a point of time.

I was wondering how to solve this problem?

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5 Answers

up vote 4 down vote accepted

Sure, just don't fire off a background thread to handle the client.

EDIT

It seems like what you really want is for a large number of clients to be able to connect, but not create a load of threads. Since NIO doesn't appear to be supported how about using two threads:

  • One thread loops accepting connections, passing the connected Socket to the second thread which just adds it to a list of connected sockets (this needs to be synchronized)
  • A second thread which loops through its internal list of live connections, and does "some work" with each in turn.

Calling socket.setSoTimeout() with a reasonably small value should prevent the second thread waiting for too long on one connection.

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How do I handle request and responses, and what do I implement a mechanism when other clients want to connect. Will the server be able to push data to clients or will this facility be unavailable to it in this mechanism. –  Kevin Boyd Jan 16 '10 at 0:40
    
You said you wanted to handle the connections serially - the other clients won't be able to connect. Isn't this what you wanted? –  Draemon Jan 16 '10 at 0:44
    
I was under the impression that once you listen clients will queue up to the limit of the local tcp stack, and that using accept just pulls them off the stack. Other clients will be able to connect but will receive no data till the server processes everyone ahead of them. –  Jherico Jan 16 '10 at 0:48
    
So what's the problem? –  Draemon Jan 16 '10 at 0:50
    
Yes in way, Lets say there is Server S and three clients A, B and C. I want A, B and C all connected to S but being serviced in the same thread. I don't want thread's to build up in S per client. This way I could implement some sort of Server Push. –  Kevin Boyd Jan 16 '10 at 0:51
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Normally server handling looks something like this:

    ServerSocket s;
    Socket newSocket;
    while (newSocket = s.accept()) {
        new SocketHandlingThread(newSocket).start();
    }

where the SocketHandlingThread() is a class you created to do whatever the server side of the socket conversation should be.

There are two basic ways to do what you're asking (which is to handle the sockets synchronously). The first is to simply join on the handler thread before moving back on to accept() again, like this

    while (newSocket = s.accept()) {
        SocketHandlingThread thread = new SocketHandlingThread(newSocket);
        thread.start();
        thread.join();
    }

As pointed out in the comments below, you can avoid a join by just calling the thread's run method like so

 thread.run(); 

in place of the start and join calls.

The other method is to take whatever code is in the SocketHandlingThread's run method and move it into the loop directly.

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I think you mean thread.start() not thread.run(), and you can implement your second method by calling thread.run() - no need for thread.join() –  Draemon Jan 16 '10 at 0:43
    
fixed errors pointed out. –  Jherico Jan 16 '10 at 0:46
    
Join causes the calling process to wait till the thread you are joining on completes before returning. Its basically a 'wait till this other thing finishes' function. –  Jherico Jan 16 '10 at 0:47
    
Can the server push data to clients in this way? Or will only one client be connected to the server at any point of time. I have given a A,B,C example to Draemon. –  Kevin Boyd Jan 16 '10 at 0:54
    
it sounds like what you want is a pool of threads each handling X clients and using Polling to determine whether there's any traffic to transfer for a given socket. –  Jherico Jan 16 '10 at 1:26
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There is a great example of server side socket handling including pooling that can be found here.

However consider that you might not actually need pooling - I have had no problem serving 800 simultaneous clients from one server each with their own dedicated socket thread.

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Will check out the link, wow 800 threads seems quite good, the issue here is I want to port the code to Java ME and it may have issues with even 5 concurrent threads. I'm trying to play safe here with all the phone stuff. –  Kevin Boyd Jan 16 '10 at 1:49
1  
Ah, sorry, I thought you meant you had many ME clients connecting to a server which you had control of. A quick Google of minimum supported threads on ME found the following: discussion.forum.nokia.com/forum/showthread.php?t=79232 Have you thought of passing all communication through a central server? I would have thought it would have to be done that way due to sandbox restrictions but it's a long time since I've touched Java ME! –  Pool Jan 16 '10 at 1:58
    
I had given it a thought but for now I can't go through with that implementation, many thanks for the link that was very useful indeed, it gives me some leads on what new docs to dig out and check for new thread specs. Well there are some limitations to the J2ME platform but it has improved a lot. Wish I could give you +2. Cheers! –  Kevin Boyd Jan 16 '10 at 2:16
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You could use non-blocking sockets. If you do this, then you don't need a thread for each client. Java has supported this for a while now via NIO. I'm not sure if this is supported by Java ME. Java ME is growing up these days such that it includes many of the features of JSE. It is probably a little unusual that you have server-side functionality in a Java ME environment that needs to service many client connections.

In your situation, is the traffic still not routed through a server? If so, there is no reason that the J2ME environment cannot receive messages from many other clients or peers (if you want to call them that) via a single socket connection to the server.

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For a p2p chat application I need to implement this mechanism. Sorry to say that J2ME does not support NIO. –  Kevin Boyd Jan 16 '10 at 0:47
    
There is no server in this case one phone is acting as the server. –  Kevin Boyd Jan 16 '10 at 2:43
    
How do your clients discover the ip address and port of the phone? –  Todd Stout Jan 16 '10 at 2:47
    
Unless you are operating your own private net for phones, I don't see how you can truly host a TCP/UDP server that is publicly routable, without having a server in the middle. –  Todd Stout Jan 16 '10 at 3:13
    
@Todd: All phones are connected to a WLAN network. –  Kevin Boyd Jan 16 '10 at 3:32
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You can set a SO_TIMEOUT on your accepting socket. This will force the accept call to be non-blocking. That way you can wait for a little bit of time, then serve one of the previously accepted connections, then back to accepting new ones, and so on and so forth. The code would vaguely look like this:

do(
  try{
    socket.setSoTimeout(200);
    Socket connected = socket.accept()
  } catch (SocketTimeoutException e){//just ignore}
  //handle your other threads/connections here
} while (!shutDown)
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Could you elaborate a bit? –  Kevin Boyd Jan 16 '10 at 0:53
    
Added code to the original post to illustrate –  malaverdiere Jan 29 '10 at 13:54
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