"""\ @file coros_test.py @author Donovan Preston, Ryan Williams Copyright (c) 2000-2007, Linden Research, Inc. Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. """ from eventlet import tests from eventlet import timer from eventlet import coros, api import sys class TestEvent(tests.TestCase): mode = 'static' def setUp(self): # raise an exception if we're waiting forever self._cancel_timeout = api.exc_after(1, RuntimeError()) def tearDown(self): self._cancel_timeout.cancel() def test_waiting_for_event(self): evt = coros.event() value = 'some stuff' def send_to_event(): evt.send(value) api.spawn(send_to_event) self.assertEqual(evt.wait(), value) def test_multiple_waiters(self): evt = coros.event() value = 'some stuff' results = [] def wait_on_event(i_am_done): evt.wait() results.append(True) i_am_done.send() waiters = [] count = 5 for i in range(count): waiters.append(coros.event()) api.spawn(wait_on_event, waiters[-1]) evt.send() for w in waiters: w.wait() self.assertEqual(len(results), count) def test_cancel(self): evt = coros.event() # close over the current coro so we can cancel it explicitly current = api.getcurrent() def cancel_event(): evt.cancel(current) api.spawn(cancel_event) self.assertRaises(coros.Cancelled, evt.wait) def test_reset(self): evt = coros.event() # calling reset before send should throw self.assertRaises(AssertionError, evt.reset) value = 'some stuff' def send_to_event(): evt.send(value) api.spawn(send_to_event) self.assertEqual(evt.wait(), value) # now try it again, and we should get the same exact value, # and we shouldn't be allowed to resend without resetting value2 = 'second stuff' self.assertRaises(AssertionError, evt.send, value2) self.assertEqual(evt.wait(), value) # reset and everything should be happy evt.reset() def send_to_event2(): evt.send(value2) api.spawn(send_to_event2) self.assertEqual(evt.wait(), value2) def test_double_exception(self): evt = coros.event() # send an exception through the event evt.send(exc=RuntimeError()) self.assertRaises(RuntimeError, evt.wait) evt.reset() # shouldn't see the RuntimeError again api.exc_after(0.001, api.TimeoutError) self.assertRaises(api.TimeoutError, evt.wait) class TestCoroutinePool(tests.TestCase): mode = 'static' def setUp(self): # raise an exception if we're waiting forever self._cancel_timeout = api.exc_after(1, api.TimeoutError) def tearDown(self): self._cancel_timeout.cancel() def test_execute_async(self): done = coros.event() def some_work(): done.send() pool = coros.CoroutinePool(0, 2) pool.execute_async(some_work) done.wait() def test_execute(self): value = 'return value' def some_work(): return value pool = coros.CoroutinePool(0, 2) worker = pool.execute(some_work) self.assertEqual(value, worker.wait()) def test_multiple_coros(self): evt = coros.event() results = [] def producer(): results.append('prod') evt.send() def consumer(): results.append('cons1') evt.wait() results.append('cons2') pool = coros.CoroutinePool(0, 2) done = pool.execute(consumer) pool.execute_async(producer) done.wait() self.assertEquals(['cons1', 'prod', 'cons2'], results) def test_timer_cancel(self): def some_work(): t = timer.Timer(5, lambda: None) t.schedule() return t pool = coros.CoroutinePool(0, 2) worker = pool.execute(some_work) t = worker.wait() api.sleep(0) self.assertEquals(t.cancelled, True) def test_reentrant(self): pool = coros.CoroutinePool(0,1) def reenter(): waiter = pool.execute(lambda a: a, 'reenter') self.assertEqual('reenter', waiter.wait()) outer_waiter = pool.execute(reenter) outer_waiter.wait() evt = coros.event() def reenter_async(): pool.execute_async(lambda a: a, 'reenter') evt.send('done') pool.execute_async(reenter_async) evt.wait() def test_horrible_main_loop_death(self): # testing the case that causes the run_forever # method to exit unwantedly pool = coros.CoroutinePool(min_size=1, max_size=1) def crash(*args, **kw): raise RuntimeError("Whoa") class FakeFile(object): write = crash # we're going to do this by causing the traceback.print_exc in # safe_apply to raise an exception and thus exit _main_loop normal_err = sys.stderr try: sys.stderr = FakeFile() waiter = pool.execute(crash) self.assertRaises(RuntimeError, waiter.wait) # the pool should have something free at this point since the # waiter returned self.assertEqual(pool.free(), 1) # shouldn't block when trying to get t = api.exc_after(0.1, api.TimeoutError) self.assert_(pool.get()) t.cancel() finally: sys.stderr = normal_err def test_track_events(self): pool = coros.CoroutinePool(track_events=True) for x in range(6): pool.execute(lambda n: n, x) for y in range(6): pool.wait() def test_track_slow_event(self): pool = coros.CoroutinePool(track_events=True) def slow(): api.sleep(0.1) return 'ok' pool.execute(slow) self.assertEquals(pool.wait(), 'ok') class IncrActor(coros.Actor): def received(self, evt): self.value = getattr(self, 'value', 0) + 1 if evt: evt.send() class TestActor(tests.TestCase): mode = 'static' def setUp(self): # raise an exception if we're waiting forever self._cancel_timeout = api.exc_after(1, api.TimeoutError()) self.actor = IncrActor() def tearDown(self): self._cancel_timeout.cancel() api.kill(self.actor._killer) def test_cast(self): evt = coros.event() self.actor.cast(evt) evt.wait() evt.reset() self.assertEqual(self.actor.value, 1) self.actor.cast(evt) evt.wait() self.assertEqual(self.actor.value, 2) def test_cast_multi_1(self): # make sure that both messages make it in there evt = coros.event() evt1 = coros.event() self.actor.cast(evt) self.actor.cast(evt1) evt.wait() evt1.wait() self.assertEqual(self.actor.value, 2) def test_cast_multi_2(self): # the actor goes through a slightly different code path if it # is forced to enter its event loop prior to any cast()s api.sleep(0) self.test_cast_multi_1() def test_sleeping_during_received(self): # ensure that even if the received method cooperatively # yields, eventually all messages are delivered msgs = [] waiters = [] def received( (message, evt) ): api.sleep(0) msgs.append(message) evt.send() self.actor.received = received waiters.append(coros.event()) self.actor.cast( (1, waiters[-1])) api.sleep(0) waiters.append(coros.event()) self.actor.cast( (2, waiters[-1]) ) waiters.append(coros.event()) self.actor.cast( (3, waiters[-1]) ) api.sleep(0) waiters.append(coros.event()) self.actor.cast( (4, waiters[-1]) ) waiters.append(coros.event()) self.actor.cast( (5, waiters[-1]) ) for evt in waiters: evt.wait() self.assertEqual(msgs, [1,2,3,4,5]) def test_raising_received(self): msgs = [] def received( (message, evt) ): evt.send() if message == 'fail': raise RuntimeError() else: msgs.append(message) self.actor.received = received evt = coros.event() self.actor.cast( ('fail', evt) ) evt.wait() evt.reset() self.actor.cast( ('should_appear', evt) ) evt.wait() self.assertEqual(['should_appear'], msgs) def test_multiple(self): self.actor = IncrActor(concurrency=2) total = [0] def received( (func, ev, value) ): func() total[0] += value ev.send() self.actor.received = received def onemoment(): api.sleep(0.1) evt = coros.event() evt1 = coros.event() self.actor.cast( (onemoment, evt, 1) ) self.actor.cast( (lambda: None, evt1, 2) ) evt1.wait() self.assertEqual(total[0], 2) # both coroutines should have been used self.assertEqual(self.actor._pool.current_size, 2) self.assertEqual(self.actor._pool.free(), 1) evt.wait() self.assertEqual(total[0], 3) self.assertEqual(self.actor._pool.free(), 2) if __name__ == '__main__': tests.main()