I am trying to simulate a network of applications that run using twisted. As part of my simulation I would like to synchronize certain events and be able to feed each process large amounts of data. I decided to use multiprocessing Events and Queues. However, my processes are getting hung.
I wrote the example code below to illustrate the problem. Specifically, (about 95% of the time on my sandy bridge machine), the 'run_in_thread' function finishes, however the 'print_done' callback is not called until after I press Ctrl-C.
Additionally, I can change several things in the example code to make this work more reliably such as: reducing the number of spawned processes, calling self.ready.set from reactor_ready, or changing the delay of deferLater.
I am guessing there is a race condition somewhere between the twisted reactor and blocking multiprocessing calls such as Queue.get() or Event.wait()?
What exactly is the problem I am running into? Is there a bug in my code that I am missing? Can I fix this or is twisted incompatible with multiprocessing events/queues?
Secondly, would something like spawnProcess or Ampoule be the recommended alternative? (as suggested in Mix Python Twisted with multiprocessing?)
Edits (as requested):
I've run into problems with all the reactors I've tried glib2reactor selectreactor, pollreactor, and epollreactor. The epollreactor seems to give the best results and seems to work fine for the example given below but still gives me the same (or a similar) problem in my application. I will continue investigating.
I'm running Gentoo Linux kernel 3.3 and 3.4, python 2.7, and I've tried Twisted 10.2.0, 11.0.0, 11.1.0, 12.0.0, and 12.1.0.
In addition to my sandy bridge machine, I see the same issue on my dual core amd machine.
#!/usr/bin/python # -*- coding: utf-8 *-* from twisted.internet import reactor from twisted.internet import threads from twisted.internet import task from multiprocessing import Process from multiprocessing import Event class TestA(Process): def __init__(self): super(TestA, self).__init__() self.ready = Event() self.ready.clear() self.start() def run(self): reactor.callWhenRunning(self.reactor_ready) reactor.run() def reactor_ready(self, *args): task.deferLater(reactor, 1, self.node_ready) return args def node_ready(self, *args): print 'node_ready' self.ready.set() return args def reactor_running(): print 'reactor_running' df = threads.deferToThread(run_in_thread) df.addCallback(print_done) def run_in_thread(): print 'run_in_thread' for n in processes: n.ready.wait() def print_done(dfResult=None): print 'print_done' reactor.stop() if __name__ == '__main__': processes = [TestA() for i in range(8)] reactor.callWhenRunning(reactor_running) reactor.run()