import errno import os import socket import tempfile from itertools import cycle from unittest.mock import Mock, patch import pytest from billiard.pool import ApplyResult from kombu.asynchronous import Hub import t.skip from celery.app.defaults import DEFAULTS from celery.concurrency.asynpool import iterate_file_descriptors_safely from celery.utils.collections import AttributeDict from celery.utils.functional import noop from celery.utils.objects import Bunch try: from celery.concurrency import asynpool from celery.concurrency import prefork as mp except ImportError: class _mp: RUN = 0x1 class TaskPool: _pool = Mock() def __init__(self, *args, **kwargs): pass def start(self): pass def stop(self): pass def apply_async(self, *args, **kwargs): pass mp = _mp() asynpool = None class MockResult: def __init__(self, value, pid): self.value = value self.pid = pid def worker_pids(self): return [self.pid] def get(self): return self.value @patch('celery.platforms.set_mp_process_title') class test_process_initializer: @staticmethod def Loader(*args, **kwargs): loader = Mock(*args, **kwargs) loader.conf = {} loader.override_backends = {} return loader @patch('celery.platforms.signals') def test_process_initializer(self, _signals, set_mp_process_title, restore_logging): from celery import signals from celery._state import _tls from celery.concurrency.prefork import WORKER_SIGIGNORE, WORKER_SIGRESET, process_initializer on_worker_process_init = Mock() signals.worker_process_init.connect(on_worker_process_init) with self.Celery(loader=self.Loader) as app: app.conf = AttributeDict(DEFAULTS) process_initializer(app, 'awesome.worker.com') _signals.ignore.assert_any_call(*WORKER_SIGIGNORE) _signals.reset.assert_any_call(*WORKER_SIGRESET) assert app.loader.init_worker.call_count on_worker_process_init.assert_called() assert _tls.current_app is app set_mp_process_title.assert_called_with( 'celeryd', hostname='awesome.worker.com', ) with patch('celery.app.trace.setup_worker_optimizations') as S: os.environ['FORKED_BY_MULTIPROCESSING'] = '1' try: process_initializer(app, 'luke.worker.com') S.assert_called_with(app, 'luke.worker.com') finally: os.environ.pop('FORKED_BY_MULTIPROCESSING', None) os.environ['CELERY_LOG_FILE'] = 'worker%I.log' app.log.setup = Mock(name='log_setup') try: process_initializer(app, 'luke.worker.com') finally: os.environ.pop('CELERY_LOG_FILE', None) @patch('celery.platforms.set_pdeathsig') def test_pdeath_sig(self, _set_pdeathsig, set_mp_process_title, restore_logging): from celery import signals on_worker_process_init = Mock() signals.worker_process_init.connect(on_worker_process_init) from celery.concurrency.prefork import process_initializer with self.Celery(loader=self.Loader) as app: app.conf = AttributeDict(DEFAULTS) process_initializer(app, 'awesome.worker.com') _set_pdeathsig.assert_called_once_with('SIGKILL') class test_process_destructor: @patch('celery.concurrency.prefork.signals') def test_process_destructor(self, signals): mp.process_destructor(13, -3) signals.worker_process_shutdown.send.assert_called_with( sender=None, pid=13, exitcode=-3, ) class MockPool: started = False closed = False joined = False terminated = False _state = None def __init__(self, *args, **kwargs): self.started = True self._timeout_handler = Mock() self._result_handler = Mock() self.maintain_pool = Mock() self._state = mp.RUN self._processes = kwargs.get('processes') self._proc_alive_timeout = kwargs.get('proc_alive_timeout') self._pool = [Bunch(pid=i, inqW_fd=1, outqR_fd=2) for i in range(self._processes)] self._current_proc = cycle(range(self._processes)) def close(self): self.closed = True self._state = 'CLOSE' def join(self): self.joined = True def terminate(self): self.terminated = True def terminate_job(self, *args, **kwargs): pass def restart(self, *args, **kwargs): pass def handle_result_event(self, *args, **kwargs): pass def flush(self): pass def grow(self, n=1): self._processes += n def shrink(self, n=1): self._processes -= n def apply_async(self, *args, **kwargs): pass def register_with_event_loop(self, loop): pass class ExeMockPool(MockPool): def apply_async(self, target, args=(), kwargs={}, callback=noop): from threading import Timer res = target(*args, **kwargs) Timer(0.1, callback, (res,)).start() return MockResult(res, next(self._current_proc)) class TaskPool(mp.TaskPool): Pool = BlockingPool = MockPool class ExeMockTaskPool(mp.TaskPool): Pool = BlockingPool = ExeMockPool @t.skip.if_win32 class test_AsynPool: def setup_method(self): pytest.importorskip('multiprocessing') def test_gen_not_started(self): def gen(): yield 1 assert not asynpool.gen_not_started(g) yield 2 g = gen() assert asynpool.gen_not_started(g) next(g) assert not asynpool.gen_not_started(g) list(g) assert not asynpool.gen_not_started(g) def gen2(): yield 1 raise RuntimeError('generator error') g = gen2() assert asynpool.gen_not_started(g) next(g) assert not asynpool.gen_not_started(g) with pytest.raises(RuntimeError): next(g) assert not asynpool.gen_not_started(g) @patch('select.select', create=True) def test_select(self, __select): ebadf = socket.error() ebadf.errno = errno.EBADF with patch('select.poll', create=True) as poller: poll = poller.return_value = Mock(name='poll.poll') poll.return_value = {3}, set(), 0 assert asynpool._select({3}, poll=poll) == ({3}, set(), 0) poll.return_value = {3}, set(), 0 assert asynpool._select({3}, None, {3}, poll=poll) == ( {3}, set(), 0, ) eintr = socket.error() eintr.errno = errno.EINTR poll.side_effect = eintr readers = {3} assert asynpool._select(readers, poll=poll) == (set(), set(), 1) assert 3 in readers with patch('select.poll', create=True) as poller: poll = poller.return_value = Mock(name='poll.poll') poll.side_effect = ebadf with patch('select.select') as selcheck: selcheck.side_effect = ebadf readers = {3} assert asynpool._select(readers, poll=poll) == ( set(), set(), 1, ) assert 3 not in readers with patch('select.poll', create=True) as poller: poll = poller.return_value = Mock(name='poll.poll') poll.side_effect = MemoryError() with pytest.raises(MemoryError): asynpool._select({1}, poll=poll) with patch('select.poll', create=True) as poller: poll = poller.return_value = Mock(name='poll.poll') with patch('select.select') as selcheck: def se(*args): selcheck.side_effect = MemoryError() raise ebadf poll.side_effect = se with pytest.raises(MemoryError): asynpool._select({3}, poll=poll) with patch('select.poll', create=True) as poller: poll = poller.return_value = Mock(name='poll.poll') with patch('select.select') as selcheck: def se2(*args): selcheck.side_effect = socket.error() selcheck.side_effect.errno = 1321 raise ebadf poll.side_effect = se2 with pytest.raises(socket.error): asynpool._select({3}, poll=poll) with patch('select.poll', create=True) as poller: poll = poller.return_value = Mock(name='poll.poll') poll.side_effect = socket.error() poll.side_effect.errno = 34134 with pytest.raises(socket.error): asynpool._select({3}, poll=poll) def test_select_unpatched(self): with tempfile.TemporaryFile('w') as f: _, writeable, _ = asynpool._select(writers={f, }, err={f, }) assert f.fileno() in writeable with tempfile.TemporaryFile('r') as f: readable, _, _ = asynpool._select(readers={f, }, err={f, }) assert f.fileno() in readable def test_promise(self): fun = Mock() x = asynpool.promise(fun, (1,), {'foo': 1}) x() assert x.ready fun.assert_called_with(1, foo=1) def test_Worker(self): w = asynpool.Worker(Mock(), Mock()) w.on_loop_start(1234) w.outq.put.assert_called_with((asynpool.WORKER_UP, (1234,))) def test_iterate_file_descriptors_safely_source_data_list(self): # Given: a list of integers that could be file descriptors fd_iter = [1, 2, 3, 4, 5] # Given: a mock hub method that does nothing to call def _fake_hub(*args, **kwargs): raise OSError # When Calling the helper to iterate_file_descriptors_safely iterate_file_descriptors_safely( fd_iter, fd_iter, _fake_hub, "arg1", "arg2", kw1="kw1", kw2="kw2", ) # Then: all items were removed from the managed data source assert fd_iter == [], "Expected all items removed from managed list" def test_iterate_file_descriptors_safely_source_data_set(self): # Given: a list of integers that could be file descriptors fd_iter = {1, 2, 3, 4, 5} # Given: a mock hub method that does nothing to call def _fake_hub(*args, **kwargs): raise OSError # When Calling the helper to iterate_file_descriptors_safely iterate_file_descriptors_safely( fd_iter, fd_iter, _fake_hub, "arg1", "arg2", kw1="kw1", kw2="kw2", ) # Then: all items were removed from the managed data source assert fd_iter == set(), "Expected all items removed from managed set" def test_iterate_file_descriptors_safely_source_data_dict(self): # Given: a list of integers that could be file descriptors fd_iter = {1: 1, 2: 2, 3: 3, 4: 4, 5: 5} # Given: a mock hub method that does nothing to call def _fake_hub(*args, **kwargs): raise OSError # When Calling the helper to iterate_file_descriptors_safely iterate_file_descriptors_safely( fd_iter, fd_iter, _fake_hub, "arg1", "arg2", kw1="kw1", kw2="kw2", ) # Then: all items were removed from the managed data source assert fd_iter == {}, "Expected all items removed from managed dict" def _get_hub(self): hub = Hub() hub.readers = {} hub.writers = {} hub.timer = Mock(name='hub.timer') hub.timer._queue = [Mock()] hub.fire_timers = Mock(name='hub.fire_timers') hub.fire_timers.return_value = 1.7 hub.poller = Mock(name='hub.poller') hub.close = Mock(name='hub.close()') return hub @t.skip.if_pypy def test_schedule_writes_hub_remove_writer_ready_fd_not_in_all_inqueues(self): pool = asynpool.AsynPool(threads=False) hub = self._get_hub() writer = Mock(name='writer') reader = Mock(name='reader') # add 2 fake fds with the same id hub.add_reader(6, reader, 6) hub.add_writer(6, writer, 6) pool._all_inqueues.clear() pool._create_write_handlers(hub) # check schedule_writes write fds remove not remove the reader one from the hub. hub.consolidate_callback(ready_fds=[6]) assert 6 in hub.readers assert 6 not in hub.writers @t.skip.if_pypy def test_schedule_writes_hub_remove_writers_from_active_writers_when_get_index_error(self): pool = asynpool.AsynPool(threads=False) hub = self._get_hub() writer = Mock(name='writer') reader = Mock(name='reader') # add 3 fake fds with the same id to reader and writer hub.add_reader(6, reader, 6) hub.add_reader(8, reader, 8) hub.add_reader(9, reader, 9) hub.add_writer(6, writer, 6) hub.add_writer(8, writer, 8) hub.add_writer(9, writer, 9) # add fake fd to pool _all_inqueues to make sure we try to read from outbound_buffer # set active_writes to 6 to make sure we remove all write fds except 6 pool._active_writes = {6} pool._all_inqueues = {2, 6, 8, 9} pool._create_write_handlers(hub) # clear outbound_buffer to get IndexError when trying to pop any message # in this case all active_writers fds will be removed from the hub pool.outbound_buffer.clear() hub.consolidate_callback(ready_fds=[2]) if {6, 8, 9} <= hub.readers.keys() and not {8, 9} <= hub.writers.keys(): assert True else: assert False assert 6 in hub.writers @t.skip.if_pypy def test_schedule_writes_hub_remove_fd_only_from_writers_when_write_job_is_done(self): pool = asynpool.AsynPool(threads=False) hub = self._get_hub() writer = Mock(name='writer') reader = Mock(name='reader') # add one writer and one reader with the same fd hub.add_writer(2, writer, 2) hub.add_reader(2, reader, 2) assert 2 in hub.writers # For test purposes to reach _write_job in schedule writes pool._all_inqueues = {2} worker = Mock("worker") # this lambda need to return a number higher than 4 # to pass the while loop in _write_job function and to reach the hub.remove_writer worker.send_job_offset = lambda header, HW: 5 pool._fileno_to_inq[2] = worker pool._create_write_handlers(hub) result = ApplyResult({}, lambda x: True) result._payload = [None, None, -1] pool.outbound_buffer.appendleft(result) hub.consolidate_callback(ready_fds=[2]) assert 2 not in hub.writers assert 2 in hub.readers @t.skip.if_pypy def test_register_with_event_loop__no_on_tick_dupes(self): """Ensure AsynPool's register_with_event_loop only registers on_poll_start in the event loop the first time it's called. This prevents a leak when the Consumer is restarted. """ pool = asynpool.AsynPool(threads=False) hub = Mock(name='hub') pool.register_with_event_loop(hub) pool.register_with_event_loop(hub) hub.on_tick.add.assert_called_once() @t.skip.if_pypy @patch('billiard.pool.Pool._create_worker_process') def test_before_create_process_signal(self, create_process): from celery import signals on_worker_before_create_process = Mock() signals.worker_before_create_process.connect(on_worker_before_create_process) pool = asynpool.AsynPool(processes=1, threads=False) create_process.assert_called_once_with(0) on_worker_before_create_process.assert_any_call( signal=signals.worker_before_create_process, sender=pool, ) @t.skip.if_win32 class test_ResultHandler: def setup_method(self): pytest.importorskip('multiprocessing') def test_process_result(self): x = asynpool.ResultHandler( Mock(), Mock(), {}, Mock(), Mock(), Mock(), Mock(), Mock(), fileno_to_outq={}, on_process_alive=Mock(), on_job_ready=Mock(), ) assert x hub = Mock(name='hub') recv = x._recv_message = Mock(name='recv_message') recv.return_value = iter([]) x.on_state_change = Mock() x.register_with_event_loop(hub) proc = x.fileno_to_outq[3] = Mock() reader = proc.outq._reader reader.poll.return_value = False x.handle_event(6) # KeyError x.handle_event(3) x._recv_message.assert_called_with( hub.add_reader, 3, x.on_state_change, ) class test_TaskPool: def test_start(self): pool = TaskPool(10) pool.start() assert pool._pool.started assert pool._pool._state == asynpool.RUN _pool = pool._pool pool.stop() assert _pool.closed assert _pool.joined pool.stop() pool.start() _pool = pool._pool pool.terminate() pool.terminate() assert _pool.terminated def test_restart(self): pool = TaskPool(10) pool._pool = Mock(name='pool') pool.restart() pool._pool.restart.assert_called_with() pool._pool.apply_async.assert_called_with(mp.noop) def test_did_start_ok(self): pool = TaskPool(10) pool._pool = Mock(name='pool') assert pool.did_start_ok() is pool._pool.did_start_ok() def test_register_with_event_loop(self): pool = TaskPool(10) pool._pool = Mock(name='pool') loop = Mock(name='loop') pool.register_with_event_loop(loop) pool._pool.register_with_event_loop.assert_called_with(loop) def test_on_close(self): pool = TaskPool(10) pool._pool = Mock(name='pool') pool._pool._state = mp.RUN pool.on_close() pool._pool.close.assert_called_with() def test_on_close__pool_not_running(self): pool = TaskPool(10) pool._pool = Mock(name='pool') pool._pool._state = mp.CLOSE pool.on_close() pool._pool.close.assert_not_called() def test_apply_async(self): pool = TaskPool(10) pool.start() pool.apply_async(lambda x: x, (2,), {}) def test_grow_shrink(self): pool = TaskPool(10) pool.start() assert pool._pool._processes == 10 pool.grow() assert pool._pool._processes == 11 pool.shrink(2) assert pool._pool._processes == 9 def test_info(self): pool = TaskPool(10) procs = [Bunch(pid=i) for i in range(pool.limit)] class _Pool: _pool = procs _maxtasksperchild = None timeout = 10 soft_timeout = 5 def human_write_stats(self, *args, **kwargs): return {} pool._pool = _Pool() info = pool.info assert info['max-concurrency'] == pool.limit assert info['max-tasks-per-child'] == 'N/A' assert info['timeouts'] == (5, 10) def test_num_processes(self): pool = TaskPool(7) pool.start() assert pool.num_processes == 7 @patch('billiard.forking_enable') def test_on_start_proc_alive_timeout_default(self, __forking_enable): app = Mock(conf=AttributeDict(DEFAULTS)) pool = TaskPool(4, app=app) pool.on_start() assert pool._pool._proc_alive_timeout == 4.0 @patch('billiard.forking_enable') def test_on_start_proc_alive_timeout_custom(self, __forking_enable): app = Mock(conf=AttributeDict(DEFAULTS)) app.conf.worker_proc_alive_timeout = 8.0 pool = TaskPool(4, app=app) pool.on_start() assert pool._pool._proc_alive_timeout == 8.0