I have a problem trying to learn about sockets for network communication. I have made a simple thread that listens for connections and creates processes for connecting clients, my problem though is that I can't get the thread to join properly as I haven't found a way to cancel the socket.accept()-call when I want to quit the program.

My code looks like this;

class ServerThread( threading.Thread ):

    def __init__(self, queue, host, port):
        self.queue = queue
        self.running = True
        self.hostname = host
        self.port = port

    def run(self):
        self.socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
        self.socket.bind((self.hostname, self.port))
        while self.running:
                conn, address = self.socket.accept()
                process = Process(target=server_slave, args=(conn, address, self.queue))
                process.daemon = True
            except socket.timeout:

    def stop(self):
        self.running = False

I have managed to get the program to close by setting self.setDaemon(True) and just exiting the main program, handing everything to the great garbage collector - but that seems like a bad solution. I've also tried setting a timeout for the socket but that results in getting [Errno 35] Resource temporarily unavailable (regardless of the actual timeout, even when I set it to years...).

What am I doing wrong? Have I designed the thread in a dumb way or have I missed something about accepting connections?

  • 'but that seems like a bad solution' - does it work? If you don't like having the OS terminate all your threads, you could try closing the listening socket from the main, or other, thread. That usually causes the accept() to return 'early' with an error. Works on most OS/languages, but not tried with Python, so not an answer. May 24, 2013 at 13:32
  • It works - but I get the feeling I might not be treating potential clients very well in doing that. I posted a solution that seems nicer as it allows the code to complete, but it still seems a bit odd since it ends by creating a new process that I'll have to join right away.
    – Norling
    May 24, 2013 at 13:36

5 Answers 5


One way to get the thread to close seems to be to make a connection to the socket, thus continuing the thread to completion.

def stop(self):
    self.running = False
                  socket.SOCK_STREAM).connect( (self.hostname, self.port))

This works, but it still feels like it might not be optimal...

  • 2
    Yes - 'artificially' satisfying the wait condition, (as here- opening a temporary local connection), is also in the 'stop blocked thread' bag of tricks. May 24, 2013 at 13:34
  • You seem to know this stuff! ^^ Thanks for the help! Any other tricks I might try?
    – Norling
    May 24, 2013 at 13:37
  • Currently trying to understand this issue / code - I would have done the same but I cannot get my head around the "socket,.socket(socket.AF_INET...) line - what is its purpose?
    – Kev1n91
    Apr 16, 2017 at 17:44
  • Kev1n91, the socket.socket( [...] ).connect( [...] ) line basically creates a temporary socket object, where AF_INET and SOCK_STREAM is the address family and socket type. This is used to create a connection to the process that is waiting for a connection, so that it can be told to stop waiting! Just telling it to close wouldn't work as it's set to wait forever for a connection before taking new instructions.
    – Norling
    Jun 15, 2017 at 8:48

A dirty solution which allows to exit your program is to use os._exit(0).

def stop(self):

note that sys.exit doesn't work/blocks as it tries to exit cleanly/release resources. But os._exit is the most low level way and it works, when nothing else does.

The operating system itself will release the resources (on any modern system) like when doing exit in a C program.

  • Yuuup, personally happy with this one, brute force is always an option :) Nov 28, 2023 at 18:54

In most cases you will open a new thread or process once a connection is accepted. To close the connection, break the while loop. Garbage collection will remove the thread or process but join will ensure none get left behind.

Persistent sockets close when the user closes them or they timeout. Non-persistent, like static webpages will close after they've sent the information.

Here's a good example of a persistent socket server in Python. It uses multiprocessing which means it can run across multiple cores for CPU-bound tasks. More commonly known as multithreading.

import socket
import multiprocessing

def run():
    host = ''
    port = 1212
    sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
    sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
    sock.bind(('', port))
    while True:
        p = multiprocessing.Process(target=worker, args=sock.accept()).start()
def worker(conn, addr):
    while True:
        if data == '':
            #remote connection closed
         if len(dataList) > 2:
            # do stuff
            print 'This code is untested'


The best way to do this is to have a single listening thread that has nothing to do with your connection threads and give it a reasonable length timeout. On timeout, check if this thread should shutdown and if not, loop again and go back to listening.

    def tcp_listen_handle(self, port=23, connects=5, timeout=2):
        """This is running in its own thread."""
        sock = socket.socket()
        sock.bind(('', port))
        sock.listen(connects)  # We accept more than one connection.
        while self.keep_running_the_listening_thread():
            connection = None
            addr = None
                connection, addr = sock.accept()
                print("Socket Connected: %s" % str(addr))
                # makes a thread deals with that stuff. We only do listening.
                self.handle_tcp_connection_in_another_thread(connection, addr)
            except socket.timeout:
            except OSError:
                # Some other error.
                print("Socket was killed: %s" % str(addr))
                if connection is not None:

The only thing this does is listen, timeout, checks if it should die during the timeout, and goes back to listening. The general rule of thumb is that threads should check whether they should die and try to do that themselves as fast as they can. And if you don't want to take the 2 second hit for timeout wait before the thread unblocks and checks. You can connect to it yourself.


Partially tested solution

  1. Put self.socket.settimeout(0.1) right before while
  2. Put conn.settimeout(None) right after accept
  • 9
    Following this advice was by far the worst decision I've made all day
    – Paradoxis
    Jul 23, 2016 at 14:49
  • I found settimeout() to work for me, see stackoverflow.com/a/41643863/143931. Jan 13, 2017 at 21:43
  • 1
    Paradoxis, can you expand (I know, 3.5 years later) on why it was a bad decision? I can imagine it fails in all sorts of fun ways but was hoping to avoid learning those myself.
    – Dan
    Dec 27, 2019 at 0:17

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