from __future__ import absolute_import, unicode_literals import pickle from decimal import Decimal from itertools import count from random import shuffle from time import time from case import Mock, patch, skip from celery import states, uuid from celery.events import Event from celery.events.state import (HEARTBEAT_DRIFT_MAX, HEARTBEAT_EXPIRE_WINDOW, State, Task, Worker, heartbeat_expires) from celery.five import range class replay(object): def __init__(self, state): self.state = state self.rewind() self.setup() self.current_clock = 0 def setup(self): pass def next_event(self): ev = self.events[next(self.position)] ev['local_received'] = ev['timestamp'] try: self.current_clock = ev['clock'] except KeyError: ev['clock'] = self.current_clock = self.current_clock + 1 return ev def __iter__(self): return self def __next__(self): try: self.state.event(self.next_event()) except IndexError: raise StopIteration() next = __next__ def rewind(self): self.position = count(0) return self def play(self): for _ in self: pass class ev_worker_online_offline(replay): def setup(self): self.events = [ Event('worker-online', hostname='utest1'), Event('worker-offline', hostname='utest1'), ] class ev_worker_heartbeats(replay): def setup(self): self.events = [ Event('worker-heartbeat', hostname='utest1', timestamp=time() - HEARTBEAT_EXPIRE_WINDOW * 2), Event('worker-heartbeat', hostname='utest1'), ] class ev_task_states(replay): def setup(self): tid = self.tid = uuid() tid2 = self.tid2 = uuid() self.events = [ Event('task-received', uuid=tid, name='task1', args='(2, 2)', kwargs="{'foo': 'bar'}", retries=0, eta=None, hostname='utest1'), Event('task-started', uuid=tid, hostname='utest1'), Event('task-revoked', uuid=tid, hostname='utest1'), Event('task-retried', uuid=tid, exception="KeyError('bar')", traceback='line 2 at main', hostname='utest1'), Event('task-failed', uuid=tid, exception="KeyError('foo')", traceback='line 1 at main', hostname='utest1'), Event('task-succeeded', uuid=tid, result='4', runtime=0.1234, hostname='utest1'), Event('foo-bar'), Event('task-received', uuid=tid2, name='task2', args='(4, 4)', kwargs="{'foo': 'bar'}", retries=0, eta=None, parent_id=tid, root_id=tid, hostname='utest1'), ] def QTEV(type, uuid, hostname, clock, name=None, timestamp=None): """Quick task event.""" return Event('task-{0}'.format(type), uuid=uuid, hostname=hostname, clock=clock, name=name, timestamp=timestamp or time()) class ev_logical_clock_ordering(replay): def __init__(self, state, offset=0, uids=None): self.offset = offset or 0 self.uids = self.setuids(uids) super(ev_logical_clock_ordering, self).__init__(state) def setuids(self, uids): uids = self.tA, self.tB, self.tC = uids or [uuid(), uuid(), uuid()] return uids def setup(self): offset = self.offset tA, tB, tC = self.uids self.events = [ QTEV('received', tA, 'w1', name='tA', clock=offset + 1), QTEV('received', tB, 'w2', name='tB', clock=offset + 1), QTEV('started', tA, 'w1', name='tA', clock=offset + 3), QTEV('received', tC, 'w2', name='tC', clock=offset + 3), QTEV('started', tB, 'w2', name='tB', clock=offset + 5), QTEV('retried', tA, 'w1', name='tA', clock=offset + 7), QTEV('succeeded', tB, 'w2', name='tB', clock=offset + 9), QTEV('started', tC, 'w2', name='tC', clock=offset + 10), QTEV('received', tA, 'w3', name='tA', clock=offset + 13), QTEV('succeded', tC, 'w2', name='tC', clock=offset + 12), QTEV('started', tA, 'w3', name='tA', clock=offset + 14), QTEV('succeeded', tA, 'w3', name='TA', clock=offset + 16), ] def rewind_with_offset(self, offset, uids=None): self.offset = offset self.uids = self.setuids(uids or self.uids) self.setup() self.rewind() class ev_snapshot(replay): def setup(self): self.events = [ Event('worker-online', hostname='utest1'), Event('worker-online', hostname='utest2'), Event('worker-online', hostname='utest3'), ] for i in range(20): worker = not i % 2 and 'utest2' or 'utest1' type = not i % 2 and 'task2' or 'task1' self.events.append(Event('task-received', name=type, uuid=uuid(), hostname=worker)) class test_Worker: def test_equality(self): assert Worker(hostname='foo').hostname == 'foo' assert Worker(hostname='foo') == Worker(hostname='foo') assert Worker(hostname='foo') != Worker(hostname='bar') assert hash(Worker(hostname='foo')) == hash(Worker(hostname='foo')) assert hash(Worker(hostname='foo')) != hash(Worker(hostname='bar')) def test_heartbeat_expires__Decimal(self): assert heartbeat_expires( Decimal(344313.37), freq=60, expire_window=200) == 344433.37 def test_compatible_with_Decimal(self): w = Worker('george@vandelay.com') timestamp, local_received = Decimal(time()), time() w.event('worker-online', timestamp, local_received, fields={ 'hostname': 'george@vandelay.com', 'timestamp': timestamp, 'local_received': local_received, 'freq': Decimal(5.6335431), }) assert w.alive def test_eq_ne_other(self): assert Worker('a@b.com') == Worker('a@b.com') assert Worker('a@b.com') != Worker('b@b.com') assert Worker('a@b.com') != object() def test_reduce_direct(self): w = Worker('george@vandelay.com') w.event('worker-online', 10.0, 13.0, fields={ 'hostname': 'george@vandelay.com', 'timestamp': 10.0, 'local_received': 13.0, 'freq': 60, }) fun, args = w.__reduce__() w2 = fun(*args) assert w2.hostname == w.hostname assert w2.pid == w.pid assert w2.freq == w.freq assert w2.heartbeats == w.heartbeats assert w2.clock == w.clock assert w2.active == w.active assert w2.processed == w.processed assert w2.loadavg == w.loadavg assert w2.sw_ident == w.sw_ident def test_update(self): w = Worker('george@vandelay.com') w.update({'idx': '301'}, foo=1, clock=30, bah='foo') assert w.idx == '301' assert w.foo == 1 assert w.clock == 30 assert w.bah == 'foo' def test_survives_missing_timestamp(self): worker = Worker(hostname='foo') worker.event('heartbeat') assert worker.heartbeats == [] def test_repr(self): assert repr(Worker(hostname='foo')) def test_drift_warning(self): worker = Worker(hostname='foo') with patch('celery.events.state.warn') as warn: worker.event(None, time() + (HEARTBEAT_DRIFT_MAX * 2), time()) warn.assert_called() assert 'Substantial drift' in warn.call_args[0][0] def test_updates_heartbeat(self): worker = Worker(hostname='foo') worker.event(None, time(), time()) assert len(worker.heartbeats) == 1 h1 = worker.heartbeats[0] worker.event(None, time(), time() - 10) assert len(worker.heartbeats) == 2 assert worker.heartbeats[-1] == h1 class test_Task: def test_equality(self): assert Task(uuid='foo').uuid == 'foo' assert Task(uuid='foo') == Task(uuid='foo') assert Task(uuid='foo') != Task(uuid='bar') assert hash(Task(uuid='foo')) == hash(Task(uuid='foo')) assert hash(Task(uuid='foo')) != hash(Task(uuid='bar')) def test_info(self): task = Task(uuid='abcdefg', name='tasks.add', args='(2, 2)', kwargs='{}', retries=2, result=42, eta=1, runtime=0.0001, expires=1, parent_id='bdefc', root_id='dedfef', foo=None, exception=1, received=time() - 10, started=time() - 8, exchange='celery', routing_key='celery', succeeded=time()) assert sorted(list(task._info_fields)) == sorted(task.info().keys()) assert (sorted(list(task._info_fields + ('received',))) == sorted(task.info(extra=('received',)))) assert (sorted(['args', 'kwargs']) == sorted(task.info(['args', 'kwargs']).keys())) assert not list(task.info('foo')) def test_reduce_direct(self): task = Task(uuid='uuid', name='tasks.add', args='(2, 2)') fun, args = task.__reduce__() task2 = fun(*args) assert task == task2 def test_ready(self): task = Task(uuid='abcdefg', name='tasks.add') task.event('received', time(), time()) assert not task.ready task.event('succeeded', time(), time()) assert task.ready def test_sent(self): task = Task(uuid='abcdefg', name='tasks.add') task.event('sent', time(), time()) assert task.state == states.PENDING def test_merge(self): task = Task() task.event('failed', time(), time()) task.event('started', time(), time()) task.event('received', time(), time(), { 'name': 'tasks.add', 'args': (2, 2), }) assert task.state == states.FAILURE assert task.name == 'tasks.add' assert task.args == (2, 2) task.event('retried', time(), time()) assert task.state == states.RETRY def test_repr(self): assert repr(Task(uuid='xxx', name='tasks.add')) class test_State: def test_repr(self): assert repr(State()) def test_pickleable(self): state = State() r = ev_logical_clock_ordering(state) r.play() assert pickle.loads(pickle.dumps(state)) def test_task_logical_clock_ordering(self): state = State() r = ev_logical_clock_ordering(state) tA, tB, tC = r.uids r.play() now = list(state.tasks_by_time()) assert now[0][0] == tA assert now[1][0] == tC assert now[2][0] == tB for _ in range(1000): shuffle(r.uids) tA, tB, tC = r.uids r.rewind_with_offset(r.current_clock + 1, r.uids) r.play() now = list(state.tasks_by_time()) assert now[0][0] == tA assert now[1][0] == tC assert now[2][0] == tB @skip.todo(reason='not working') def test_task_descending_clock_ordering(self): state = State() r = ev_logical_clock_ordering(state) tA, tB, tC = r.uids r.play() now = list(state.tasks_by_time(reverse=False)) assert now[0][0] == tA assert now[1][0] == tB assert now[2][0] == tC for _ in range(1000): shuffle(r.uids) tA, tB, tC = r.uids r.rewind_with_offset(r.current_clock + 1, r.uids) r.play() now = list(state.tasks_by_time(reverse=False)) assert now[0][0] == tB assert now[1][0] == tC assert now[2][0] == tA def test_get_or_create_task(self): state = State() task, created = state.get_or_create_task('id1') assert task.uuid == 'id1' assert created task2, created2 = state.get_or_create_task('id1') assert task2 is task assert not created2 def test_get_or_create_worker(self): state = State() worker, created = state.get_or_create_worker('george@vandelay.com') assert worker.hostname == 'george@vandelay.com' assert created worker2, created2 = state.get_or_create_worker('george@vandelay.com') assert worker2 is worker assert not created2 def test_get_or_create_worker__with_defaults(self): state = State() worker, created = state.get_or_create_worker( 'george@vandelay.com', pid=30, ) assert worker.hostname == 'george@vandelay.com' assert worker.pid == 30 assert created worker2, created2 = state.get_or_create_worker( 'george@vandelay.com', pid=40, ) assert worker2 is worker assert worker2.pid == 40 assert not created2 def test_worker_online_offline(self): r = ev_worker_online_offline(State()) next(r) assert list(r.state.alive_workers()) assert r.state.workers['utest1'].alive r.play() assert not list(r.state.alive_workers()) assert not r.state.workers['utest1'].alive def test_itertasks(self): s = State() s.tasks = {'a': 'a', 'b': 'b', 'c': 'c', 'd': 'd'} assert len(list(s.itertasks(limit=2))) == 2 def test_worker_heartbeat_expire(self): r = ev_worker_heartbeats(State()) next(r) assert not list(r.state.alive_workers()) assert not r.state.workers['utest1'].alive r.play() assert list(r.state.alive_workers()) assert r.state.workers['utest1'].alive def test_task_states(self): r = ev_task_states(State()) # RECEIVED next(r) assert r.tid in r.state.tasks task = r.state.tasks[r.tid] assert task.state == states.RECEIVED assert task.received assert task.timestamp == task.received assert task.worker.hostname == 'utest1' # STARTED next(r) assert r.state.workers['utest1'].alive assert task.state == states.STARTED assert task.started assert task.timestamp == task.started assert task.worker.hostname == 'utest1' # REVOKED next(r) assert task.state == states.REVOKED assert task.revoked assert task.timestamp == task.revoked assert task.worker.hostname == 'utest1' # RETRY next(r) assert task.state == states.RETRY assert task.retried assert task.timestamp == task.retried assert task.worker.hostname, 'utest1' assert task.exception == "KeyError('bar')" assert task.traceback == 'line 2 at main' # FAILURE next(r) assert task.state == states.FAILURE assert task.failed assert task.timestamp == task.failed assert task.worker.hostname == 'utest1' assert task.exception == "KeyError('foo')" assert task.traceback == 'line 1 at main' # SUCCESS next(r) assert task.state == states.SUCCESS assert task.succeeded assert task.timestamp == task.succeeded assert task.worker.hostname == 'utest1' assert task.result == '4' assert task.runtime == 0.1234 # children, parent, root r.play() assert r.tid2 in r.state.tasks task2 = r.state.tasks[r.tid2] assert task2.parent is task assert task2.root is task assert task2 in task.children def test_task_children_set_if_received_in_wrong_order(self): r = ev_task_states(State()) r.events.insert(0, r.events.pop()) r.play() assert r.state.tasks[r.tid2] in r.state.tasks[r.tid].children assert r.state.tasks[r.tid2].root is r.state.tasks[r.tid] assert r.state.tasks[r.tid2].parent is r.state.tasks[r.tid] def assertStateEmpty(self, state): assert not state.tasks assert not state.workers assert not state.event_count assert not state.task_count def assertState(self, state): assert state.tasks assert state.workers assert state.event_count assert state.task_count def test_freeze_while(self): s = State() r = ev_snapshot(s) r.play() def work(): pass s.freeze_while(work, clear_after=True) assert not s.event_count s2 = State() r = ev_snapshot(s2) r.play() s2.freeze_while(work, clear_after=False) assert s2.event_count def test_clear_tasks(self): s = State() r = ev_snapshot(s) r.play() assert s.tasks s.clear_tasks(ready=False) assert not s.tasks def test_clear(self): r = ev_snapshot(State()) r.play() assert r.state.event_count assert r.state.workers assert r.state.tasks assert r.state.task_count r.state.clear() assert not r.state.event_count assert not r.state.workers assert r.state.tasks assert not r.state.task_count r.state.clear(False) assert not r.state.tasks def test_task_types(self): r = ev_snapshot(State()) r.play() assert sorted(r.state.task_types()) == ['task1', 'task2'] def test_tasks_by_time(self): r = ev_snapshot(State()) r.play() assert len(list(r.state.tasks_by_time())) == 20 assert len(list(r.state.tasks_by_time(reverse=False))) == 20 def test_tasks_by_type(self): r = ev_snapshot(State()) r.play() assert len(list(r.state.tasks_by_type('task1'))) == 10 assert len(list(r.state.tasks_by_type('task2'))) == 10 assert len(r.state.tasks_by_type['task1']) == 10 assert len(r.state.tasks_by_type['task2']) == 10 def test_alive_workers(self): r = ev_snapshot(State()) r.play() assert len(list(r.state.alive_workers())) == 3 def test_tasks_by_worker(self): r = ev_snapshot(State()) r.play() assert len(list(r.state.tasks_by_worker('utest1'))) == 10 assert len(list(r.state.tasks_by_worker('utest2'))) == 10 assert len(r.state.tasks_by_worker['utest1']) == 10 assert len(r.state.tasks_by_worker['utest2']) == 10 def test_survives_unknown_worker_event(self): s = State() s.event({ 'type': 'worker-unknown-event-xxx', 'foo': 'bar', }) s.event({ 'type': 'worker-unknown-event-xxx', 'hostname': 'xxx', 'foo': 'bar', }) def test_survives_unknown_worker_leaving(self): s = State(on_node_leave=Mock(name='on_node_leave')) (worker, created), subject = s.event({ 'type': 'worker-offline', 'hostname': 'unknown@vandelay.com', 'timestamp': time(), 'local_received': time(), 'clock': 301030134894833, }) assert worker == Worker('unknown@vandelay.com') assert not created assert subject == 'offline' assert 'unknown@vandelay.com' not in s.workers s.on_node_leave.assert_called_with(worker) def test_on_node_join_callback(self): s = State(on_node_join=Mock(name='on_node_join')) (worker, created), subject = s.event({ 'type': 'worker-online', 'hostname': 'george@vandelay.com', 'timestamp': time(), 'local_received': time(), 'clock': 34314, }) assert worker assert created assert subject == 'online' assert 'george@vandelay.com' in s.workers s.on_node_join.assert_called_with(worker) def test_survives_unknown_task_event(self): s = State() s.event({ 'type': 'task-unknown-event-xxx', 'foo': 'bar', 'uuid': 'x', 'hostname': 'y', 'timestamp': time(), 'local_received': time(), 'clock': 0, }) def test_limits_maxtasks(self): s = State(max_tasks_in_memory=1) s.heap_multiplier = 2 s.event({ 'type': 'task-unknown-event-xxx', 'foo': 'bar', 'uuid': 'x', 'hostname': 'y', 'clock': 3, 'timestamp': time(), 'local_received': time(), }) s.event({ 'type': 'task-unknown-event-xxx', 'foo': 'bar', 'uuid': 'y', 'hostname': 'y', 'clock': 4, 'timestamp': time(), 'local_received': time(), }) s.event({ 'type': 'task-unknown-event-xxx', 'foo': 'bar', 'uuid': 'z', 'hostname': 'y', 'clock': 5, 'timestamp': time(), 'local_received': time(), }) assert len(s._taskheap) == 2 assert s._taskheap[0].clock == 4 assert s._taskheap[1].clock == 5 s._taskheap.append(s._taskheap[0]) assert list(s.tasks_by_time()) def test_callback(self): scratch = {} def callback(state, event): scratch['recv'] = True s = State(callback=callback) s.event({'type': 'worker-online'}) assert scratch.get('recv')