import _thread import contextlib import functools import sys import threading import time from test import support #======================================================================= # Threading support to prevent reporting refleaks when running regrtest.py -R # NOTE: we use thread._count() rather than threading.enumerate() (or the # moral equivalent thereof) because a threading.Thread object is still alive # until its __bootstrap() method has returned, even after it has been # unregistered from the threading module. # thread._count(), on the other hand, only gets decremented *after* the # __bootstrap() method has returned, which gives us reliable reference counts # at the end of a test run. def threading_setup(): return _thread._count(), threading._dangling.copy() def threading_cleanup(*original_values): _MAX_COUNT = 100 for count in range(_MAX_COUNT): values = _thread._count(), threading._dangling if values == original_values: break if not count: # Display a warning at the first iteration support.environment_altered = True dangling_threads = values[1] support.print_warning(f"threading_cleanup() failed to cleanup " f"{values[0] - original_values[0]} threads " f"(count: {values[0]}, " f"dangling: {len(dangling_threads)})") for thread in dangling_threads: support.print_warning(f"Dangling thread: {thread!r}") # Don't hold references to threads dangling_threads = None values = None time.sleep(0.01) support.gc_collect() def reap_threads(func): """Use this function when threads are being used. This will ensure that the threads are cleaned up even when the test fails. """ @functools.wraps(func) def decorator(*args): key = threading_setup() try: return func(*args) finally: threading_cleanup(*key) return decorator @contextlib.contextmanager def wait_threads_exit(timeout=None): """ bpo-31234: Context manager to wait until all threads created in the with statement exit. Use _thread.count() to check if threads exited. Indirectly, wait until threads exit the internal t_bootstrap() C function of the _thread module. threading_setup() and threading_cleanup() are designed to emit a warning if a test leaves running threads in the background. This context manager is designed to cleanup threads started by the _thread.start_new_thread() which doesn't allow to wait for thread exit, whereas thread.Thread has a join() method. """ if timeout is None: timeout = support.SHORT_TIMEOUT old_count = _thread._count() try: yield finally: start_time = time.monotonic() deadline = start_time + timeout while True: count = _thread._count() if count <= old_count: break if time.monotonic() > deadline: dt = time.monotonic() - start_time msg = (f"wait_threads() failed to cleanup {count - old_count} " f"threads after {dt:.1f} seconds " f"(count: {count}, old count: {old_count})") raise AssertionError(msg) time.sleep(0.010) support.gc_collect() def join_thread(thread, timeout=None): """Join a thread. Raise an AssertionError if the thread is still alive after timeout seconds. """ if timeout is None: timeout = support.SHORT_TIMEOUT thread.join(timeout) if thread.is_alive(): msg = f"failed to join the thread in {timeout:.1f} seconds" raise AssertionError(msg) @contextlib.contextmanager def start_threads(threads, unlock=None): import faulthandler threads = list(threads) started = [] try: try: for t in threads: t.start() started.append(t) except: if support.verbose: print("Can't start %d threads, only %d threads started" % (len(threads), len(started))) raise yield finally: try: if unlock: unlock() endtime = time.monotonic() for timeout in range(1, 16): endtime += 60 for t in started: t.join(max(endtime - time.monotonic(), 0.01)) started = [t for t in started if t.is_alive()] if not started: break if support.verbose: print('Unable to join %d threads during a period of ' '%d minutes' % (len(started), timeout)) finally: started = [t for t in started if t.is_alive()] if started: faulthandler.dump_traceback(sys.stdout) raise AssertionError('Unable to join %d threads' % len(started)) class catch_threading_exception: """ Context manager catching threading.Thread exception using threading.excepthook. Attributes set when an exception is catched: * exc_type * exc_value * exc_traceback * thread See threading.excepthook() documentation for these attributes. These attributes are deleted at the context manager exit. Usage: with threading_helper.catch_threading_exception() as cm: # code spawning a thread which raises an exception ... # check the thread exception, use cm attributes: # exc_type, exc_value, exc_traceback, thread ... # exc_type, exc_value, exc_traceback, thread attributes of cm no longer # exists at this point # (to avoid reference cycles) """ def __init__(self): self.exc_type = None self.exc_value = None self.exc_traceback = None self.thread = None self._old_hook = None def _hook(self, args): self.exc_type = args.exc_type self.exc_value = args.exc_value self.exc_traceback = args.exc_traceback self.thread = args.thread def __enter__(self): self._old_hook = threading.excepthook threading.excepthook = self._hook return self def __exit__(self, *exc_info): threading.excepthook = self._old_hook del self.exc_type del self.exc_value del self.exc_traceback del self.thread