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let's consider this code in python:

import socket
import threading
import sys
import select

class UDPServer:
    def __init__(self):
    def start(self,port=8888):
        if not self.s:
            self.s=socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
    def stop(self):
        if self.s:
    def run(self):
        while True:
                #receive data
    def onPacket(self,addr,data):
        print addr,data

while True:
    sys.stdout.write("UDP server> ")
    if cmd=="start\n":
        print "starting server..."
        print "done"
    elif cmd=="stop\n":
        print "stopping server..."
        print "done"
    elif cmd=="quit\n":
        print "Quitting ..."

print "bye bye"

It runs an interactive shell with which I can start and stop an UDP server. The server is implemented through a class which launches a thread in which there's a infinite loop of recv/*onPacket* callback inside a try/except block which should detect the error and the exits from the loop. What I expect is that when I type "stop" on the shell the socket is closed and an exception is raised by the recvfrom function because of the invalidation of the file descriptor. Instead, it seems that recvfrom still to block the thread waiting for data even after the close call. Why this strange behavior ? I've always used this patter to implements an UDP server in C++ and JAVA and it always worked.

I've tried also with a "select" passing a list with the socket to the xread argument, in order to get an event of file descriptor disruption from select instead that from recvfrom, but select seems to be "insensible" to the close too.

I need to have a unique code which maintain the same behavior on Linux and Windows with python 2.5 - 2.6.


share|improve this question
up vote 1 down vote accepted

The usual solution is to have a pipe tell the worker thread when to die.

  1. Create a pipe using os.pipe. This gives you a socket with both the reading and writing ends in the same program. It returns raw file descriptors, which you can use as-is ( and os.write) or turn into Python file objects using os.fdopen.

  2. The worker thread waits on both the network socket and the read end of the pipe using When the pipe becomes readable, the worker thread cleans up and exits. Don't read the data, ignore it: its arrival is the message.

  3. When the master thread wants to kill the worker, it writes a byte (any value) to the write end of the pipe. The master thread then joins the worker thread, then closes the pipe (remember to close both ends).

P.S. Closing an in-use socket is a bad idea in a multi-threaded program. The Linux close(2) manpage says:

It is probably unwise to close file descriptors while they may be in use by system calls in other threads in the same process. Since a file descriptor may be re-used, there are some obscure race conditions that may cause unintended side effects.

So it's lucky your first approach did not work!

share|improve this answer
Another way is to send a UDP datagram to yourself. – David Schwartz May 12 '14 at 4:55

This is not java. Good hints:

  • Don't use threads. Use asynchronous IO.
  • Use a higher level networking framework

Here's an example using twisted:

from twisted.internet.protocol import DatagramProtocol
from twisted.internet import reactor, stdio
from twisted.protocols.basic import LineReceiver

class UDPLogger(DatagramProtocol):    
    def datagramReceived(self, data, (host, port)):
        print "received %r from %s:%d" % (data, host, port)

class ConsoleCommands(LineReceiver):
    delimiter = '\n'
    prompt_string = 'myserver> '

    def connectionMade(self):
        self.sendLine('My Server Admin Console!')

    def lineReceived(self, line):
        line = line.strip()
        if line:
            if line == 'quit':
            elif line == 'start':
                reactor.listenUDP(8888, UDPLogger())
                self.sendLine('listening on udp 8888')
                self.sendLine('Unknown command: %r' % (line,))


Example session:

My Server Admin Console!
myserver> foo  
Unknown command: 'foo'
myserver> start
listening on udp 8888
myserver> quit
share|improve this answer
That's a good solution but I would prefer to maintain a low level component as the raw socket are. Is there a way to use the standard raw socket components ? It seems that the behavior of the recvfrom does not fit the equivalent function in C (posix and win32). If I close the socket the recvfrom must return asynchronously, while netstat command shows the port opened and used instead. I think that's quite strange, how can you still read from a socket that has been closed ? – alexroat May 26 '10 at 14:44
@alexroat: Twisted uses the same sockets behind the scenes - it is pure python. So you're still on the same sockets -- I'm curious, why don't you want to use code already written? That said, you could always read twisted's implementation and learn from it, because it seems to work fine. – nosklo May 27 '10 at 14:54

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