Is it possible to bind and listen to multiple ports in Linux in one application?

  • 1
    yes that is possible, you need to use select or threads though
    – perreal
    Mar 21, 2013 at 23:58
  • 8
    Yes. The best answer to these types of questions is for you to write up a small test application and try it yourself. As you become more experienced, you'll find yourself more often writing these little "test programs" to figure things out. Mar 21, 2013 at 23:58
  • How is it possible with select? I'm not sure how to do many binds for one socket Mar 21, 2013 at 23:59
  • 2
    It's not one socket. It's multiple sockets. Mar 21, 2013 at 23:59
  • 1
    Thx Jonathon. Your explanation (kind of) makes sense.
    – tink
    Mar 22, 2013 at 0:11

3 Answers 3


For each port that you want to listen to, you:

  1. Create a separate socket with socket.
  2. Bind it to the appropriate port with bind.
  3. Call listen on the socket so that it's set up with a listen queue.

At that point, your program is listening on multiple sockets. In order to accept connections on those sockets, you need to know which socket a client is connecting to. That's where select comes in. As it happens, I have code that does exactly this sitting around, so here's a complete tested example of waiting for connections on multiple sockets and returning the file descriptor of a connection. The remote address is returned in additional parameters (the buffer must be provided by the caller, just like accept).

(socket_type here is a typedef for int on Linux systems, and INVALID_SOCKET is -1. Those are there because this code has been ported to Windows as well.)

network_accept_any(socket_type fds[], unsigned int count,
                   struct sockaddr *addr, socklen_t *addrlen)
    fd_set readfds;
    socket_type maxfd, fd;
    unsigned int i;
    int status;

    maxfd = -1;
    for (i = 0; i < count; i++) {
        FD_SET(fds[i], &readfds);
        if (fds[i] > maxfd)
            maxfd = fds[i];
    status = select(maxfd + 1, &readfds, NULL, NULL, NULL);
    if (status < 0)
        return INVALID_SOCKET;
    for (i = 0; i < count; i++)
        if (FD_ISSET(fds[i], &readfds)) {
            fd = fds[i];
    if (fd == INVALID_SOCKET)
        return INVALID_SOCKET;
        return accept(fd, addr, addrlen);

This code doesn't tell the caller which port the client connected to, but you could easily add an int * parameter that would get the file descriptor that saw the incoming connection.

  • I was wondering if this can happen without select / poll, but probably no way.
    – Nick
    Jan 18, 2017 at 21:30

You only bind() to a single socket, then listen() and accept() -- the socket for the bind is for the server, the fd from the accept() is for the client. You do your select on the latter looking for any client socket that has data pending on the input.

  • btw, did you delete your answer to my question or did a mod do it? Kind of crazy that they did if so, the comments attached were useful info that someone else could have used. Mar 22, 2013 at 0:16
  • nope... wasn't me. I thought that was a pretty good conversation myself. :-/ Mar 22, 2013 at 0:20
  • yeah, it was helpful, even to know what doesn't work...mods are crazy here; maybe you can edit it to incorporate some of our discussion and ask for it to be undeleted? you could even say that we've tried all this and that doing a magic number is the best alternative to all of that, so it'd be a legit answer that i could accept (since that looks to be the real answer anyway) up to you, I don't really mind either way. I was probably just going to write my own answer anyway to that effect, because the one given so far doesn't address my issue really. Mar 22, 2013 at 0:21
  • if you can't undelete you could write a new answer too and I'll accept it unless/until a better one shows up...kind of sucks to lose the comments though...you're probably in a better spot to write the answer too since I don't have the comments to view anymore (forgot what all was covered) Mar 22, 2013 at 0:28

In such a situation, you may be interested by libevent. It will do the work of the select() for you, probably using a much better interface such as epoll().

The huge drawback with select() is the use of the FD_... macros that limit the socket number to the maximum number of bits in the fd_set variable (from about 100 to 256). If you have a small server with 2 or 3 connections, you'll be fine. If you intend to work on a much larger server, then the fd_set could easily get overflown.

Also, the use of the select() or poll() allows you to avoid threads in the server (i.e. you can poll() your socket and know whether you can accept(), read(), or write() to them.)

But if you really want to do it Unix like, then you want to consider fork()-ing before you call accept(). In this case you do not absolutely need the select() or poll() (unless you are listening on many IPs/ports and want all children to be capable of answering any incoming connections, but you have drawbacks with those... the kernel may send you another request while you are already handling a request, whereas, with just an accept(), the kernel knows that you are busy if not in the accept() call itself—well, it does not work exactly like that, but as a user, that's the way it works for you.)

With the fork() you prepare the socket in the main process and then call handle_request() in a child process to call the accept() function. That way you may have any number of ports and one or more children to listen on each. That's the best way to really very quickly respond to any incoming connection under Linux (i.e. as a user and as long as you have child processes wait for a client, this is instantaneous.)

void init_server(int port)
    int server_socket = socket();
    bind(server_socket, ...port...);
    for(int c = 0; c < 10; ++c)
        pid_t child_pid = fork();
        if(child_pid == 0)
            // here we are in a child

    // WARNING: this loop cannot be here, since it is blocking...
    //          you will want to wait and see which child died and
    //          create a new child for the same `server_socket`...
    //          but this loop should get you started
        // wait on children death (you'll need to do things with SIGCHLD too)
        // and create a new children as they die...
        pid_t child_pid = fork();
        if(child_pid == 0)

void handle_request(int server_socket)
    // here child blocks until a connection arrives on 'server_socket'
    int client_socket = accept(server_socket, ...);
    ...handle the request...

int create_servers()
    init_server(80);   // create a connection on port 80
    init_server(443);  // create a connection on port 443

Note that the handle_request() function is shown here as handling one request. The advantage of handling a single request is that you can do it the Unix way: allocate resources as required and once the request is answered, exit(0). The exit(0) will call the necessary close(), free(), etc. for you.

In contrast, if you want to handle multiple requests in a row, you want to make sure that resources get deallocated before you loop back to the accept() call. Also, the sbrk() function is pretty much never going to be called to reduce the memory footprint of your child. This means it will tend to grow a little bit every now and then. This is why a server such as Apache2 is setup to answer a certain number of requests per child before starting a new child (by default it is between 100 and 1,000 these days.)

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