I have design problem: there is a global resource that cannot be accessed from multiple threads at once, and so I need a lock around it to serialize the access to it. However, Python's garbage collector can run a
__del__ method while I am doing some processing while holding the lock. If the destructor tries to access the resource, this ends up with a deadlock.
As an example, consider the following innocent-looking single-threaded code, which deadlocks if you run it:
import threading class Handle(object): def __init__(self): self.handle = do_stuff("get") def close(self): h = self.handle self.handle = None if h is not None: do_stuff("close %d" % h) def __del__(self): self.close() _resource_lock = threading.Lock() def do_stuff(what): _resource_lock.acquire() try: # GC can be invoked here -> deadlock! for j in range(20): list() return 1234 finally: _resource_lock.release() for j in range(1000): xs =  b = Handle() xs.append(b) xs.append(xs)
The resource can deal with several "handles" being open at the same time, and I'd need to deal with their life cycle. Abstracting this into a
Handle class and putting the cleanup in
__del__ seemed like a smart move, but the above issue breaks this.
One way to deal with the cleanup is to keep a "pending cleanup" list of handles, and if the lock is held when
__del__ is run, insert the handle there, and clean up the list later on.
The question is:
Is there a threadsafe version of
gc.enable()that would solve this in a cleaner way?
Other ideas how to deal with this?