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I've got an event-driven network server program. This program accepts connections from other processes on other hosts. There may be many short-lived connections from different ports on the same remote IP.

Currently, I've got a while(1) loop which calls accept() and then spawns a thread to process the new connection. Each connection is closed after the message is read. On the remote end, the connection is closed after a message is sent.

I want to eliminate the overhead of setting up and tearing down connections by caching the open socket FDs. On the sender side, this is easy - I just don't close the connections, and keep them around.

On the receiver side, it's a bit harder. I know I can store the FD returned by accept() in a structure and listen for messages across all such sockets using poll() or select(), but I want to simultaneously both listen for new connections via accept() and listen on all the cached connections.

If I use two threads, one on poll() and one on accept(), then when the accept() call returns (a new connection is opened), I have to wake up the other thread waiting on the old set of connections. I know I can do this with a signal and pselect(), but this whole mess seems like way too much work for something so simple.

Is there a call or superior methodology that will let me simultaneously handle new connections being opened and data being sent on old connections?

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3 Answers 3

up vote 11 down vote accepted

Last time I checked, you could just listen on a socket and then select or poll to see if a connection came in. If so, accept it; it will not block (but you may want to really should set O_NONBLOCK just to be sure)

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4  
Hmm, that's a well-known race condition - the accept(2) will block if client drops connection attempt between two syscalls. You need the listening socket to be non-blocking. –  Nikolai N Fetissov Aug 10 '10 at 0:35
4  
This is correct - you can add your listening file descriptor to the readfds in your select() call, and select() will tell you the file descriptor is "readable" if it has a connection ready to accept(). @Nikolai is correct too - the listening socket should be nonblocking and the accept() call prepared to handle EAGAIN. –  caf Aug 10 '10 at 0:35

you could use listen then use select or poll then accept

    if (listen (socket_fd, Number_connection) <0 )
{
perror("listen");
return 1;
}
fd_set set;
    struct timeval timeout;
    int rv;
    FD_ZERO(&set); /* clear the set */
    FD_SET(socket_fd, &set); /* add our file descriptor to the set */

    timeout.tv_sec = 20;
    timeout.tv_usec = 0;

    rv = select(socket_fd + 1, &set, NULL, NULL, &timeout);
    if(rv == -1)
    {
        perror("select"); /* an error accured */
        return 1;
    }
    else if(rv == 0)
    {
        printf("timeout occurred (20 second) \n"); /* a timeout occured */
        return 1;
    }
    else
        client_socket_fd = accept (socket_fd,(struct sockaddr *) &client_name, &client_name_len);
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What if the fd_set also has fds on which data might be coming to read, and not listening? –  Abhishek Apr 9 '14 at 7:11

I'd put a listener in separate process(thread) not to mess things up. And run a worker process on another to handle existing sockets. There's no need for non-blocking listener really. And no thread overhead running 2 threads.

It should work like that: you accept on your listener thread till it returns you a descriptor of client socket and pass it to worker which is doing all dirty read/write job on it.

If you want to listen several ports and don't want to hold one process per listener I suggest you set your socket in O_NONBLOCK and do someth like:

// loop through listeners here and poll'em for read, when read is successful call accept, get descriptor, pass it to worker and continue listen
    while(1){
        foreach( serverSocket in ServerSockets ){
             if( serverSocket.Poll( 10, SelectRead ) ){
                  clientSocket = serverSocket.Accept();
                  // pass to worker here and release
             }

        }
    }
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That's spinning you've got there; no good. And one thread per socket is way too many threads. –  Borealid Aug 11 '10 at 14:13
    
what's so bad about this spinning? :) it won't eat any CPU, besides it allows you to listen many ports in one thread. –  hoodoos Aug 23 '10 at 12:22
    
This is bad, you're busywaiting with a 10usec timeout on each listening socket one at a time, this WILL eat CPU. It'd be better to use select on all the listening sockets at the same time, which will block until at least one has a incoming connection, AND then try to accept from each of them (making sure, obviously that each is marked O_NONBLOCK and being prepared for accept to return EAGAIN or EWOULDBLOCK for those sockets without a connection). –  Ezequiel Muns Jun 28 '12 at 0:50

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