def test_lock(self): threads = [] names = ["contender" + str(i) for i in range(5)] contender_bits = {} for name in names: c = get_client_or_skip() c.connect() e = threading.Event() l = ZooLock(c, self.lockpath, name) t = threading.Thread(target=self._thread_lock_acquire_til_event, args=(name, l, e)) contender_bits[name] = (t, e) threads.append(t) # acquire the lock ourselves first to make the others line up lock = ZooLock(self._c, self.lockpath, "test") lock.acquire() for t in threads: t.start() contenders = None # wait for everyone to line up on the lock for _ in until_timeout(5): contenders = lock.get_contenders() if len(contenders) == 6: break self.assertEqual(contenders[0], "test") contenders = contenders[1:] remaining = list(contenders) # release the lock and contenders should claim it in order lock.release() for contender in contenders: thread, event = contender_bits[contender] with self.condition: while not self.active_thread: self.condition.wait() self.assertEqual(self.active_thread, contender) self.assertEqual(lock.get_contenders(), remaining) remaining = remaining[1:] event.set() with self.condition: while self.active_thread: self.condition.wait() thread.join()
def test_lock(self): threads = [] names = ["contender"+str(i) for i in range(5)] contender_bits = {} for name in names: c = get_client_or_skip() c.connect() e = threading.Event() l = ZooLock(c, self.lockpath, name) t = threading.Thread(target=self._thread_lock_acquire_til_event, args=(name, l, e)) contender_bits[name] = (t, e) threads.append(t) # acquire the lock ourselves first to make the others line up lock = ZooLock(self._c, self.lockpath, "test") lock.acquire() for t in threads: t.start() contenders = None # wait for everyone to line up on the lock for _ in until_timeout(5): contenders = lock.get_contenders() if len(contenders) == 6: break self.assertEqual(contenders[0], "test") contenders = contenders[1:] remaining = list(contenders) # release the lock and contenders should claim it in order lock.release() for contender in contenders: thread, event = contender_bits[contender] with self.condition: while not self.active_thread: self.condition.wait() self.assertEqual(self.active_thread, contender) self.assertEqual(lock.get_contenders(), remaining) remaining = remaining[1:] event.set() with self.condition: while self.active_thread: self.condition.wait() thread.join()
def test_lock_one(self): c = get_client_or_skip() c.connect() contender_name = uuid.uuid4().hex lock = ZooLock(c, self.lockpath, contender_name) event = threading.Event() thread = threading.Thread(target=self._thread_lock_acquire_til_event, args=(contender_name, lock, event)) thread.start() anotherlock = ZooLock(c, self.lockpath, contender_name) contenders = None for _ in until_timeout(5): contenders = anotherlock.get_contenders() if contenders: break time.sleep(0) self.assertEqual(contenders, [contender_name]) with self.condition: while self.active_thread != contender_name: self.condition.wait() # release the lock event.set() with self.condition: while self.active_thread: self.condition.wait()
def test_lock_cancel(self): client1 = get_client_or_skip() client1.connect() event1 = threading.Event() lock1 = ZooLock(client1, self.lockpath, "one") thread1 = threading.Thread(target=self._thread_lock_acquire_til_event, args=("one", lock1, event1)) thread1.start() # wait for this thread to acquire the lock with self.condition: if not self.active_thread: self.condition.wait(5) self.assertEqual(self.active_thread, "one") client2 = get_client_or_skip() client2.connect() event2 = threading.Event() lock2 = ZooLock(client2, self.lockpath, "two") thread2 = threading.Thread(target=self._thread_lock_acquire_til_event, args=("two", lock2, event2)) thread2.start() # this one should block in acquire. check that it is a contender self.assertEqual(lock2.get_contenders(), ["one", "two"]) lock2.cancel() with self.condition: if not "two" in self.cancelled_threads: self.condition.wait() self.assertIn("two", self.cancelled_threads) self.assertEqual(lock2.get_contenders(), ["one"]) thread2.join() event1.set() thread1.join()