Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I'm writing a server in C ++ for both Windows and Unix systems.

A key feature of this server is that it must be able to receive and send network packets at any time. Specifically, the server must be able to send data to the client not only in response to their messages, but also be able to send packets to them asynch in push.

I'm having difficulty in implementing a solution that uses the select() function in the scenario described above. The solution I have currently implemented does not convince me at all and I think it can be implemented with better patterns/solutions.

I currently have a dedicated thread (selector) that performs the select by listening on events in the reading for the server socket (to accept new connections) and for the sockets connected to the server.

This is the main select() loop:

    if((sel_res_ = select(nfds_+1, &read_FDs_, NULL, &excep_FDs_, &sel_timeout)) > 0){
    if(FD_ISSET(serv_socket, &read_FDs_)){
        //we have to handle a newly connection.
        if(sel_res_ > 1){
            //in addition to the newly connection, there is also some other message incoming on client sockets.
        //we have to handle incoming messages on client sockets

This solution works well for receiving the data and to respond to client requests in synchronous form. However, the server must also be able to send asynchronous data, and send when necessary, packets in push.

To do this I currently use separate threads that perform directly the send() on the client sockets.

This solution does not convince me, and I would like to centralize the packets receiving and sending on the selector thread.

The main difficulty is that the select() by its nature is blocking and I have no control until a client does not send any packet or the timeout is triggered. The solution to set a timeout very low does not convince me; I see it as an easy solution that is actually doing active wait, and not only, however, the worst case I would pay the price of the timeout before sending the push packet.

I thought a more 'elegant' solution; I think, will work well, but only for a Unix/Linux platform. I thought to use an anonymous pipe and insert into the select() read_FDs_ the anonymous pipe read descriptor. In this way, when a thread wants to send a data in push, it writes something on this pipe, interrupting the select() and returning control to the selector that can then predispose to send the data to the client, without significant loss of time. I think that this solution, unfortunately, cannot be implemented on Windows because the select() function on that system works only with fds that are actually sockets.

So the question is: Is there some well known solution that can be used to address this kind of scenario (both Linux and Windows)?

share|improve this question
Use two threads, one for reading and one for writing. – alk Jun 16 '14 at 10:07

You can create a self connected UDP socket, this works equally well on Windows and Linux.

Basically, you create a UDP socket, bind() it to INADDR_LOOPBACK and port 0, and connect() it to itself (with the address taken from getsockname()).

At this point, you can send yourself a single byte message (or something more specific) to wake yourself up.

share|improve this answer
this is a nice solution, thanks. – Giuseppe Jun 16 '14 at 12:20

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.