26

Suppose you are using a multiprocessing.Pool object, and you are using the initializer setting of the constructor to pass an initializer function that then creates a resource in the global namespace. Assume resource has a context manager. How would you handle the life-cycle of the context managed resource provided it has to live through the life of the process, but be properly cleaned up at the end?

So far, I have something somewhat like this:

resource_cm = None
resource = None


def _worker_init(args):
    global resource
    resource_cm = open_resource(args)
    resource = resource_cm.__enter__()

From here on, the pool processes can use the resource. So far so good. But handling clean up is a bit trickier, since the multiprocessing.Pool class does not provide a destructor or deinitializer argument.

One of my ideas is to use the atexit module, and register the clean up in the initializer. Something like this:

def _worker_init(args):
    global resource
    resource_cm = open_resource(args)
    resource = resource_cm.__enter__()

    def _clean_up():
        resource_cm.__exit__()

    import atexit
    atexit.register(_clean_up)

Is this a good approach? Is there an easier way of doing this?

EDIT: atexit does not seem to work. At least not in the way I am using it above, so as of right now I still do not have a solution for this problem.

3 Answers 3

39

First, this is a really great question! After digging around a bit in the multiprocessing code, I think I've found a way to do this:

When you start a multiprocessing.Pool, internally the Pool object creates a multiprocessing.Process object for each member of the pool. When those sub-processes are starting up, they call a _bootstrap function, which looks like this:

def _bootstrap(self):
    from . import util
    global _current_process
    try:
        # ... (stuff we don't care about)
        util._finalizer_registry.clear()
        util._run_after_forkers()
        util.info('child process calling self.run()')
        try:
            self.run()
            exitcode = 0 
        finally:
            util._exit_function()
        # ... (more stuff we don't care about)

The run method is what actually runs the target you gave the Process object. For a Pool process that's a method with a long-running while loop that waits for work items to come in over an internal queue. What's really interesting for us is what happened after self.run: util._exit_function() is called.

As it turns out, that function does some clean up that sounds a lot like what you're looking for:

def _exit_function(info=info, debug=debug, _run_finalizers=_run_finalizers,
                   active_children=active_children,
                   current_process=current_process):
    # NB: we hold on to references to functions in the arglist due to the
    # situation described below, where this function is called after this
    # module's globals are destroyed.

    global _exiting

    info('process shutting down')
    debug('running all "atexit" finalizers with priority >= 0')  # Very interesting!
    _run_finalizers(0)

Here's the docstring of _run_finalizers:

def _run_finalizers(minpriority=None):
    '''
    Run all finalizers whose exit priority is not None and at least minpriority

    Finalizers with highest priority are called first; finalizers with
    the same priority will be called in reverse order of creation.
    '''

The method actually runs through a list of finalizer callbacks and executes them:

items = [x for x in _finalizer_registry.items() if f(x)]
items.sort(reverse=True)

for key, finalizer in items:
    sub_debug('calling %s', finalizer)
    try:
        finalizer()
    except Exception:
        import traceback
        traceback.print_exc()

Perfect. So how do we get into the _finalizer_registry? There's an undocumented object called Finalize in multiprocessing.util that is responsible for adding a callback to the registry:

class Finalize(object):
    '''
    Class which supports object finalization using weakrefs
    '''
    def __init__(self, obj, callback, args=(), kwargs=None, exitpriority=None):
        assert exitpriority is None or type(exitpriority) is int

        if obj is not None:
            self._weakref = weakref.ref(obj, self)
        else:
            assert exitpriority is not None

        self._callback = callback
        self._args = args
        self._kwargs = kwargs or {}
        self._key = (exitpriority, _finalizer_counter.next())
        self._pid = os.getpid()

        _finalizer_registry[self._key] = self  # That's what we're looking for!

Ok, so putting it all together into an example:

import multiprocessing
from multiprocessing.util import Finalize

resource_cm = None
resource = None

class Resource(object):
    def __init__(self, args):
        self.args = args

    def __enter__(self):
        print("in __enter__ of %s" % multiprocessing.current_process())
        return self

    def __exit__(self, *args, **kwargs):
        print("in __exit__ of %s" % multiprocessing.current_process())

def open_resource(args):
    return Resource(args)

def _worker_init(args):
    global resource
    print("calling init")
    resource_cm = open_resource(args)
    resource = resource_cm.__enter__()
    # Register a finalizer
    Finalize(resource, resource.__exit__, exitpriority=16)

def hi(*args):
    print("we're in the worker")

if __name__ == "__main__":
    pool = multiprocessing.Pool(initializer=_worker_init, initargs=("abc",))
    pool.map(hi, range(pool._processes))
    pool.close()
    pool.join()

Output:

calling init
in __enter__ of <Process(PoolWorker-1, started daemon)>
calling init
calling init
in __enter__ of <Process(PoolWorker-2, started daemon)>
in __enter__ of <Process(PoolWorker-3, started daemon)>
calling init
in __enter__ of <Process(PoolWorker-4, started daemon)>
we're in the worker
we're in the worker
we're in the worker
we're in the worker
in __exit__ of <Process(PoolWorker-1, started daemon)>
in __exit__ of <Process(PoolWorker-2, started daemon)>
in __exit__ of <Process(PoolWorker-3, started daemon)>
in __exit__ of <Process(PoolWorker-4, started daemon)>

As you can see __exit__ gets called in all our workers when we join() the pool.

1
  • Would you be able to explain how to decide on the value for exitpriority? i.e. in your case it is exitpriority=16 Aug 5, 2021 at 18:18
4

You can subclass Process and override its run() method so that it performs cleanup before exit. Then you should subclass Pool so that it uses your subclassed process:

from multiprocessing import Process
from multiprocessing.pool import Pool

class SafeProcess(Process):
    """ Process that will cleanup before exit """
    def run(self, *args, **kw):
        result = super().run(*args, **kw)
        # cleanup however you want here
        return result


class SafePool(Pool):
    Process = SafeProcess


pool = SafePool(4)  # use it as standard Pool
3
  • @nattster I like this approach better than the previous one, even though it uses built-in machinery for this, because of the elegance. But when I try it, I get a TypeError: method expected 2 arguments, got 3 at the class SafePool(Pool): line. Any ideas?
    – Milind R
    Nov 23, 2018 at 15:10
  • @MilindR python version? I used Python 2.
    – nattster
    Nov 26, 2018 at 8:12
  • @MilindR, I think I figured out why you are getting that error. Check out my answer here: stackoverflow.com/a/70572544/3158248. Basically multiprocessing.Pool is a function so you will need to subclass multiprocessing.pool.Pool instead.
    – Vivek Seth
    Jan 3, 2022 at 23:32
0

Here is the solution I came up with. It uses billiard which is a fork of Python's multiprocessing package. This solution requires use of private API Worker._ensure_messages_consumed so I DO NOT recommend using this solution in production. I just need this for a side project so this is good enough for me. Use this at your own risk.

from billiard import pool
from billiard.pool import Pool, Worker

class SafeWorker(Worker):
    # this function is called just before a worker process exits
    def _ensure_messages_consumed(self, *args, **kwargs):
        # Not necessary, but you can move `Pool.initializer` logic here if you want.
        out = super()._ensure_messages_consumed(*args, **kwargs)
        # Do clean up work here
        return out

class SafePool(Pool):
    Worker = SafeWorker

Another solution I tried was to implement my clean up logic as a signal handler, but that does not work since both multiprocessing and billiard use exit() to kill their worker processes. I'm not sure how atexit works but this is probably the reason that approach does not work either.

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