Question

Is it possible to unlisten on a socket after you have called listen(fd, backlog)?

Edit: My mistake for not making myself clear. I'd like to be able to temporarily unlisten on the socket. Calling close() will leave the socket in the M2LS state and prevent me from reopening it (or worse, some nefarious program could bind to that socket)

Temporarily unlistening would be a way (maybe not the best way) to signal to an upstream load balancer that this app couldn't accept any more requests for the moment

Answer 1

Some socket libraries allow you to specifically reject incoming connections. For example: GNU's CommonC++: TCPsocket Class has a reject method.

BSD Sockets doesn't have this functionality. You can accept the connection and then immediately close it, while leaving the socket open:

while (running) {

  int i32ConnectFD = accept(i32SocketFD, NULL, NULL);
  while (noConnectionsPlease) {
    shutdown(i32ConnectFD, 2);
    close(i32ConnectFD);
    break;
  }

}

Answer 2

Close it. As I recall;

close(fd);

Answer 3

After closing the socket, your programs may still tell you that the socket is "in use", this is because of some weirdiness I don't know exactly about. But the manpage about sockets shows you there is a flag to re-use the same socket, lazily called: "SO_REUSEADDR". Set it using "setsockopt()".

Answer 4

There is no explicit method to unlisten!

You can either close(fd) or shutdown(fd, how)

fd is the socket file descriptor you want to shutdown, and how is one of the following:

0 Further receives are disallowed

1 Further sends are disallowed

2 Further sends and receives are disallowed (like close())

Answer 5

Based on your edited version of the question, I'm not sure you have to "unlisten" or close(). Two options come to mind:

1) After you invoke listen(), connections are not actually accepted until (logically enough) you call accept(). You can "unlisten" by simply ignoring socket activity and deferring any accept()'s until you are ready for them. Any inbound connection attempts backlog onto the queue that was created when the port was opened in listen mode. Once the backlog queue is full in the stack, further connection attempts are simply dropped on the floor. When you resume with accepts(), you'll quickly dequeue the backlog and be ready for more connections.

2) If you really want the port to appear completely closed temporarily, you might dynamically apply the kernel level packet filter to the port to prevent the inbound connection attempts from reaching the network stack. For example, you could use Berkeley Packet Filter (BPF) on most *nix platforms. That is you want to drop inbound packets coming in to the port of interest using the platform's firewall features. This, of course, varies by platform, but is a possible approach.

Answer 6

At a basic level, sockets are either open or closed (we'll ignore the niceties of the TCP/IP state diagram here).

If your socket is closed, then nothing can send data to it. If it's open, then incoming data will be accepted and acknowledged by the TCP/IP stack until it's buffering algorithm cries "enough!". At that point, further data will not be acknowledged.

You have two choices that I can see. Either close() the socket when you want to "unlisten", and reopen it later - Use setsockopt() with the SO_REUSEADDR flag to allow you to rebind to the well-known port before TIME_WAIT2 expires.

The other choice is to keep the socket open but simply not accept() from it while you're 'busy'. Assuming you have an application-level acknowledge to requests, You load balancer would realise it's not getting a response and act accordingly.

Answer 7

Here's a rather ugly approach based on your edited question:

Open a socket for listening with a normal backlog. Proceed.

When you want to "shut down", open a 2nd one with a backlog of 1 and SO_REUSEADDR. Close the first one. When ready to resume, do another socket juggle to one with a normal backlog.

Picky details around draining the accept queue from the socket that you're closing will be the killer here. Probably enough of a killer to make this approach nonviable.

Answer 8

I don't necessarily think this is a good idea, but...

You might be able to call listen a second time. The POSIX spec doesn't say not to. Perhaps you could call it a second time with a backlog parameter of 0 when you want to "unlisten".

What happens when listen is called with a backlog of 0 seems to be implementation defined. The POSIX spec says it may allow connections to be accepted, which implies some implementations may choose to reject all connections if the backlog parameter is 0. More likely though, your implementation will choose some positive value when you pass in 0 (probably either 1 or SOMAXCONN).