Reading http://bugs.python.org/msg160297, I can see a simple script written by Stephen White which demonstrates how python threading bugs up with this exception

Exception AttributeError: AttributeError("'_DummyThread' object has no attribute '_Thread__block'",) in <module 'threading' 

Given Stephen White's source code (http://bugs.python.org/file25511/bad-thread.py),

import os
import thread
import threading
import time

def t():
    threading.currentThread() # Populate threading._active with a DummyThread

thread.start_new_thread(t, ())


pid = os.fork()
if pid == 0:

os.waitpid(pid, 0)

how would we re-write it so that this error is resolved?

  • It seems to me you could rewrite it all as time.sleep(3). I think you should specify what the rewritten programs should actually do. – Janne Karila Nov 2 '12 at 10:36
  • 3
    @JanneKarila The program merely demonstrates a Python bug, which you'll see if you run it in Python 2.7. The request is to work around the bug without upgrading to a Python release that fixes it. – user4815162342 Nov 2 '12 at 10:52

The bug occurs because of a bad interaction between dummy thread objects created by the threading API when one calls threading.currentThread() on a foreign thread, and the threading._after_fork function, called to clean up resources after a call to os.fork().

To work around the bug without modifying Python's source, monkey-patch threading._DummyThread with a no-op implementation of __stop:

import threading
threading._DummyThread._Thread__stop = lambda x: 42

The cause of the bug is best narrowed down in comments by Richard Oudkerk and cooyeah. What happens is the following:

  1. The threading module allows threading.currentThread() to be called from a thread not created by the threading API calls. It then returns a "dummy thread" instance which supports a very limited subset of the Thread API, but is still useful for identifying the current thread.

  2. threading._DummyThread is implemented as a subclass of Thread. Thread instances normally contain an internal callable (self.__block) that keeps reference to an OS-level lock allocated for the instance. Since public Thread methods that might end up using self.__block are all overridden by _DummyThread, _DummyThread's constructor intentionally releases the OS-level lock by deleting self.__block.

  3. threading._after_fork breaks the encapsulation and calls the private Thread.__stop method on all registered threads, including the dummy ones, where __stop was never meant to be invoked. (They weren't started by Python, so their stopping is not managed by Python either.) As the dummy threads don't know about __stop, they inherit it from Thread, and that implementation happily accesses the private __block attribute that doesn't exist in _DummyThread instances. This access finally causes the error.

The bug is fixed in the 2.7 branch by modifying Thread.__stop not to break when __block is deleted. The 3.x branch, where __stop is spelled as _stop and therefore protected, fixes it by overriding _DummyThread's _stop to do nothing.

  • Ah... I get it now... Thanks! – Calvin Cheng Nov 2 '12 at 10:39

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