def test_with_scheduled_call_none(self, mock_increment_failure,
mock_request):
exc = Exception()
task_id = str(uuid.uuid4())
args = [1, 'b', 'iii']
kwargs = {
'1': 'for the money',
'tags': ['test_tags'],
'scheduled_call_id': None
}
class EInfo(object):
"""
on_failure handler expects an instance of celery's ExceptionInfo class
as one of the attributes. It stores string representation of traceback
in it's traceback instance variable. This is a stub to imitate that behavior.
"""
def __init__(self):
self.traceback = "string_repr_of_traceback"
einfo = EInfo()
mock_request.called_directly = False
TaskStatus(task_id).save()
task = tasks.Task()
task.on_failure(exc, task_id, args, kwargs, einfo)
self.assertFalse(mock_increment_failure.called)
def test_async_result(self, mock_request):
retval = AsyncResult('foo-id')
task_id = str(uuid.uuid4())
args = [1, 'b', 'iii']
kwargs = {
'1': 'for the money',
'tags': ['test_tags'],
'routing_key': WORKER_2
}
mock_request.called_directly = False
task_status = TaskStatus(task_id).save()
self.assertEqual(task_status['state'], 'waiting')
self.assertEqual(task_status['finish_time'], None)
task = tasks.Task()
task.on_success(retval, task_id, args, kwargs)
new_task_status = TaskStatus.objects(task_id=task_id).first()
self.assertEqual(new_task_status['state'], 'finished')
self.assertEqual(new_task_status['result'], None)
self.assertFalse(new_task_status['finish_time'] is None)
# Make sure that parse_iso8601_datetime is able to parse the finish_time without errors
dateutils.parse_iso8601_datetime(new_task_status['finish_time'])
self.assertEqual(new_task_status['spawned_tasks'], ['foo-id'])
def test_updates_task_status_correctly(self, mock_request):
exc = Exception()
task_id = str(uuid.uuid4())
args = [1, 'b', 'iii']
kwargs = {'1': 'for the money', 'tags': ['test_tags']}
class EInfo(object):
"""
on_failure handler expects an instance of celery's ExceptionInfo class
as one of the attributes. It stores string representation of traceback
in it's traceback instance variable. This is a stub to imitate that behavior.
"""
def __init__(self):
self.traceback = "string_repr_of_traceback"
einfo = EInfo()
mock_request.called_directly = False
task_status = TaskStatus(task_id).save()
self.assertEqual(task_status['state'], 'waiting')
self.assertEqual(task_status['finish_time'], None)
self.assertEqual(task_status['traceback'], None)
task = tasks.Task()
task.on_failure(exc, task_id, args, kwargs, einfo)
new_task_status = TaskStatus.objects(task_id=task_id).first()
self.assertEqual(new_task_status['state'], 'error')
self.assertFalse(new_task_status['finish_time'] is None)
# Make sure that parse_iso8601_datetime is able to parse the finish_time without errors
dateutils.parse_iso8601_datetime(new_task_status['finish_time'])
self.assertEqual(new_task_status['traceback'], einfo.traceback)
def test_apply_async_task_status(self, apply_async):
"""
Assert that apply_async() creates new task status.
"""
args = [1, 'b', 'iii']
kwargs = {
'1': 'for the money',
'tags': ['test_tags'],
'queue': WORKER_1_QUEUE
}
apply_async.return_value = celery.result.AsyncResult('test_task_id')
task = tasks.Task()
task.apply_async(*args, **kwargs)
task_statuses = list(TaskStatusManager.find_all())
self.assertEqual(len(task_statuses), 1)
new_task_status = task_statuses[0]
self.assertEqual(new_task_status['task_id'], 'test_task_id')
self.assertEqual(new_task_status['queue'], WORKER_1_QUEUE)
self.assertEqual(new_task_status['tags'], kwargs['tags'])
self.assertEqual(new_task_status['state'], 'waiting')
self.assertEqual(new_task_status['error'], None)
self.assertEqual(new_task_status['spawned_tasks'], [])
self.assertEqual(new_task_status['progress_report'], {})
self.assertEqual(new_task_status['task_type'],
'pulp.server.async.tasks.Task')
self.assertEqual(new_task_status['start_time'], None)
self.assertEqual(new_task_status['finish_time'], None)
self.assertEqual(new_task_status['result'], None)
def test_creates_task_status_with_group_id(self, apply_async):
args = [1, 'b', 'iii']
group_id = uuid.uuid4()
kwargs = {
'a': 'for the money',
'tags': ['test_tags'],
'routing_key': WORKER_1,
'group_id': group_id
}
apply_async.return_value = celery.result.AsyncResult('test_task_id')
task = tasks.Task()
task.apply_async(*args, **kwargs)
task_statuses = TaskStatus.objects()
self.assertEqual(task_statuses.count(), 1)
new_task_status = task_statuses[0]
self.assertEqual(new_task_status['task_id'], 'test_task_id')
self.assertEqual(new_task_status['group_id'], group_id)
self.assertEqual(new_task_status['worker_name'], WORKER_1)
self.assertEqual(new_task_status['tags'], kwargs['tags'])
self.assertEqual(new_task_status['state'], 'waiting')
self.assertEqual(new_task_status['error'], None)
self.assertEqual(new_task_status['spawned_tasks'], [])
self.assertEqual(new_task_status['progress_report'], {})
self.assertEqual(new_task_status['task_type'],
'pulp.server.async.tasks.Task')
self.assertEqual(new_task_status['start_time'], None)
self.assertEqual(new_task_status['finish_time'], None)
self.assertEqual(new_task_status['result'], None)
def test_on_success_handler_async_result(self, mock_request):
"""
Make sure that overridden on_success handler updates task status correctly
"""
retval = AsyncResult('foo-id')
task_id = str(uuid.uuid4())
args = [1, 'b', 'iii']
kwargs = {
'1': 'for the money',
'tags': ['test_tags'],
'queue': WORKER_2_QUEUE
}
mock_request.called_directly = False
task_status = TaskStatusManager.create_task_status(
task_id, 'some_queue')
self.assertEqual(task_status['state'], 'waiting')
self.assertEqual(task_status['finish_time'], None)
task = tasks.Task()
task.on_success(retval, task_id, args, kwargs)
new_task_status = TaskStatusManager.find_by_task_id(task_id)
self.assertEqual(new_task_status['state'], 'finished')
self.assertEqual(new_task_status['result'], None)
self.assertFalse(new_task_status['finish_time'] is None)
# Make sure that parse_iso8601_datetime is able to parse the finish_time without errors
dateutils.parse_iso8601_datetime(new_task_status['finish_time'])
self.assertEqual(new_task_status['spawned_tasks'], ['foo-id'])
def test_on_success_with_canceled_task(self, mock_request):
"""
Make sure on_success() does not move a canceled Task to 'finished' state.
"""
retval = 'random_return_value'
task_id = str(uuid.uuid4())
args = [1, 'b', 'iii']
kwargs = {
'1': 'for the money',
'tags': ['test_tags'],
'queue': WORKER_2_QUEUE
}
mock_request.called_directly = False
task_status = TaskStatusManager.create_task_status(
task_id, 'some_queue', state=CALL_CANCELED_STATE)
task = tasks.Task()
# This should not update the task status to finished, since this task was canceled.
task.on_success(retval, task_id, args, kwargs)
updated_task_status = TaskStatusManager.find_by_task_id(task_id)
# Make sure the task is still canceled.
self.assertEqual(updated_task_status['state'], CALL_CANCELED_STATE)
self.assertEqual(updated_task_status['result'], retval)
self.assertFalse(updated_task_status['finish_time'] is None)
# Make sure that parse_iso8601_datetime is able to parse the finish_time without errors
dateutils.parse_iso8601_datetime(updated_task_status['finish_time'])
def test_apply_async_with_reservation_calls_apply_async(
self, apply_async, _reserve_resource, _queue_release_resource):
"""
Assert that apply_async_with_reservation() calls Celery's apply_async.
"""
class MockAsyncResult(object):
def __init__(self):
self.id = 'some_task_id'
# Let's make up the return value from Celery
mock_async_result = MockAsyncResult()
apply_async.return_value = mock_async_result
some_args = [1, 'b', 'iii']
some_kwargs = {
'1': 'for the money',
'2': 'for the show',
'queue': WORKER_1_QUEUE
}
resource_id = 'three_to_get_ready'
resource_type = 'reserve_me'
task = tasks.Task()
async_result = task.apply_async_with_reservation(
resource_type, resource_id, *some_args, **some_kwargs)
self.assertEqual(async_result, mock_async_result)
expected_resource_id = ":".join([resource_type, resource_id])
_reserve_resource.assert_called_once_with(
(expected_resource_id, ), queue=tasks.RESOURCE_MANAGER_QUEUE)
apply_async.assert_called_once_with(task, *some_args, **some_kwargs)
_queue_release_resource.apply_async.assert_called_once_with(
(expected_resource_id, ), queue=WORKER_1_QUEUE)
def test_on_success_handler_spawned_task_dict(self, mock_request):
"""
Make sure that overridden on_success handler updates task status correctly
"""
retval = tasks.TaskResult(spawned_tasks=[{
'task_id': 'foo-id'
}],
result='bar')
task_id = str(uuid.uuid4())
args = [1, 'b', 'iii']
kwargs = {
'1': 'for the money',
'tags': ['test_tags'],
'queue': WORKER_2_QUEUE
}
mock_request.called_directly = False
task_status = TaskStatusManager.create_task_status(
task_id, 'some_queue')
self.assertEqual(task_status['state'], 'waiting')
self.assertEqual(task_status['finish_time'], None)
task = tasks.Task()
task.on_success(retval, task_id, args, kwargs)
new_task_status = TaskStatusManager.find_by_task_id(task_id)
self.assertEqual(new_task_status['state'], 'finished')
self.assertEqual(new_task_status['result'], 'bar')
self.assertFalse(new_task_status['finish_time'] is None)
self.assertEqual(new_task_status['spawned_tasks'], ['foo-id'])
def test_spawned_task_status(self, mock_request):
async_result = AsyncResult('foo-id')
retval = tasks.TaskResult(error=PulpException('error-foo'),
result='bar')
retval.spawned_tasks = [async_result]
task_id = str(uuid.uuid4())
args = [1, 'b', 'iii']
kwargs = {
'1': 'for the money',
'tags': ['test_tags'],
'routing_key': WORKER_2
}
mock_request.called_directly = False
task_status = TaskStatusManager.create_task_status(task_id)
self.assertEqual(task_status['state'], 'waiting')
self.assertEqual(task_status['finish_time'], None)
task = tasks.Task()
task.on_success(retval, task_id, args, kwargs)
new_task_status = TaskStatusManager.find_by_task_id(task_id)
self.assertEqual(new_task_status['state'], 'finished')
self.assertEqual(new_task_status['result'], 'bar')
self.assertEqual(new_task_status['error']['description'], 'error-foo')
self.assertFalse(new_task_status['finish_time'] is None)
# Make sure that parse_iso8601_datetime is able to parse the finish_time without errors
dateutils.parse_iso8601_datetime(new_task_status['finish_time'])
self.assertEqual(new_task_status['spawned_tasks'], ['foo-id'])
def test_task_status_not_modified_when_task_status_exists(
self, apply_async):
args = [1, 'b', 'iii']
kwargs = {'a': 'for the money', 'tags': ['test_tags']}
task_id = 'test_task_id'
# This simulates the case where a task had already completed
# prior to apply_sync attempting to create a TaskStatus.
# https://pulp.plan.io/issues/2959
TaskStatus(task_id,
'test-worker',
state=CALL_FINISHED_STATE,
result='any_result',
start_time='2017-09-20T10:00:00Z',
finish_time='2017-09-20T11:00:00Z').save()
apply_async.return_value = celery.result.AsyncResult(task_id)
task = tasks.Task()
task.apply_async(*args, **kwargs)
task_status = TaskStatus.objects(task_id=task_id).first()
# Fields which were missing on the object have been added
self.assertEqual(task_status['task_type'],
'pulp.server.async.tasks.Task')
self.assertEqual(task_status['tags'], ['test_tags'])
# Fields which already existed on the object are retained
self.assertEqual(task_status['state'], 'finished')
self.assertEqual(task_status['start_time'], '2017-09-20T10:00:00Z')
self.assertEqual(task_status['finish_time'], '2017-09-20T11:00:00Z')
self.assertEqual(task_status['result'], 'any_result')
def test_spawned_task_dict(self, mock_request):
retval = tasks.TaskResult(spawned_tasks=[{
'task_id': 'foo-id'
}],
result='bar')
task_id = str(uuid.uuid4())
args = [1, 'b', 'iii']
kwargs = {
'1': 'for the money',
'tags': ['test_tags'],
'routing_key': WORKER_2
}
mock_request.called_directly = False
task_status = TaskStatus(task_id).save()
self.assertEqual(task_status['state'], 'waiting')
self.assertEqual(task_status['finish_time'], None)
task = tasks.Task()
task.on_success(retval, task_id, args, kwargs)
new_task_status = TaskStatus.objects(task_id=task_id).first()
self.assertEqual(new_task_status['state'], 'finished')
self.assertEqual(new_task_status['result'], 'bar')
self.assertFalse(new_task_status['finish_time'] is None)
self.assertEqual(new_task_status['spawned_tasks'], ['foo-id'])
def test_exception_task_status_with_bad_group_id(self, apply_async):
args = [1, 'b', 'iii']
kwargs = {'a': 'for the money', 'tags': ['test_tags'], 'routing_key': WORKER_1,
'group_id': 'string-id'}
apply_async.return_value = celery.result.AsyncResult('test_task_id')
task = tasks.Task()
self.assertRaises(ValidationError, task.apply_async, *args, **kwargs)
def test_calls_parent_apply_async(self, apply_async):
args = [1, 'b', 'iii']
kwargs = {'a': 'for the money', 'tags': ['test_tags'], 'routing_key': 'asdf'}
apply_async.return_value = celery.result.AsyncResult('test_task_id')
task = tasks.Task()
task.apply_async(*args, **kwargs)
apply_async.assert_called_once_with(1, 'b', 'iii', a='for the money', routing_key='asdf')
def test_returns_apply_async_result_including_tags(self, apply_async):
args = [1, 'b', 'iii']
kwargs = {'a': 'for the money', 'tags': ['test_tags']}
async_result = celery.result.AsyncResult('test_task_id')
apply_async.return_value = async_result
task = tasks.Task()
result = task.apply_async(*args, **kwargs)
self.assertEqual(result.tags, ['test_tags'])
def test_with_scheduled_call(self, mock_reset_failure, mock_request):
retval = 'random_return_value'
task_id = str(uuid.uuid4())
args = [1, 'b', 'iii']
kwargs = {'1': 'for the money', 'tags': ['test_tags'], 'routing_key': WORKER_2,
'scheduled_call_id': '12345'}
mock_request.called_directly = False
TaskStatus(task_id).save()
task = tasks.Task()
task.on_success(retval, task_id, args, kwargs)
mock_reset_failure.assert_called_once_with('12345')
def test_task_status_not_modified_when_task_status_exists(self, apply_async):
args = [1, 'b', 'iii']
kwargs = {'a': 'for the money', 'tags': ['test_tags']}
task_id = 'test_task_id'
TaskStatus(task_id, 'test-worker', state=CALL_CANCELED_STATE).save()
apply_async.return_value = celery.result.AsyncResult(task_id)
task = tasks.Task()
task.apply_async(*args, **kwargs)
task_status = TaskStatus.objects(task_id=task_id).first()
self.assertEqual(task_status['state'], 'canceled')
self.assertEqual(task_status['start_time'], None)
def test_with_scheduled_call_none(self, mock_reset_failure, mock_request):
"""
Ensure that if scheduled_call_id exists but is `None`, do not fail.
"""
retval = 'random_return_value'
task_id = str(uuid.uuid4())
args = [1, 'b', 'iii']
kwargs = {'1': 'for the money', 'tags': ['test_tags'], 'routing_key': WORKER_2,
'scheduled_call_id': None}
mock_request.called_directly = False
TaskStatus(task_id).save()
task = tasks.Task()
task.on_success(retval, task_id, args, kwargs)
self.assertFalse(mock_reset_failure.called)
def test_saves_passed_in_routing_key_as_worker_name(self, apply_async):
args = [1, 'b', 'iii']
kwargs = {'a': 'for the money', 'tags': ['test_tags'], 'routing_key': 'othername'}
apply_async.return_value = celery.result.AsyncResult('test_task_id')
task = tasks.Task()
task.apply_async(*args, **kwargs)
task_statuses = TaskStatus.objects()
self.assertEqual(len(task_statuses), 1)
new_task_status = task_statuses[0]
self.assertEqual(new_task_status['task_id'], 'test_task_id')
self.assertEqual(new_task_status['worker_name'], 'othername')
self.assertEqual(new_task_status['tags'], kwargs['tags'])
self.assertEqual(new_task_status['state'], 'waiting')
def test_saves_default_routing_key_as_worker_name(self, apply_async):
args = [1, 'b', 'iii']
kwargs = {'a': 'for the money', 'tags': ['test_tags']}
apply_async.return_value = celery.result.AsyncResult('test_task_id')
task = tasks.Task()
task.apply_async(*args, **kwargs)
task_statuses = TaskStatus.objects()
self.assertEqual(len(task_statuses), 1)
new_task_status = task_statuses[0]
self.assertEqual(new_task_status['task_id'], 'test_task_id')
self.assertEqual(new_task_status['worker_name'],
defaults.NAMESPACES['CELERY']['DEFAULT_ROUTING_KEY'].default)
self.assertEqual(new_task_status['tags'], kwargs['tags'])
self.assertEqual(new_task_status['state'], 'waiting')
def test_with_canceled_task(self, mock_request):
retval = 'random_return_value'
task_id = str(uuid.uuid4())
args = [1, 'b', 'iii']
kwargs = {'1': 'for the money', 'tags': ['test_tags'], 'routing_key': WORKER_2}
mock_request.called_directly = False
TaskStatus(task_id, state=CALL_CANCELED_STATE).save()
task = tasks.Task()
# This should not update the task status to finished, since this task was canceled.
task.on_success(retval, task_id, args, kwargs)
updated_task_status = TaskStatus.objects(task_id=task_id).first()
# Make sure the task is still canceled.
self.assertEqual(updated_task_status['state'], CALL_CANCELED_STATE)
self.assertEqual(updated_task_status['result'], retval)
self.assertFalse(updated_task_status['finish_time'] is None)
# Make sure that parse_iso8601_datetime is able to parse the finish_time without errors
dateutils.parse_iso8601_datetime(updated_task_status['finish_time'])
def test_apply_async_task_canceled(self, apply_async):
"""
Assert that apply_async() honors 'canceled' task status.
"""
args = [1, 'b', 'iii']
kwargs = {'1': 'for the money', 'tags': ['test_tags']}
task_id = 'test_task_id'
now = datetime.utcnow()
TaskStatusManager.create_task_status(task_id,
Worker('test-worker', now),
state=CALL_CANCELED_STATE)
apply_async.return_value = celery.result.AsyncResult(task_id)
task = tasks.Task()
task.apply_async(*args, **kwargs)
task_status = TaskStatusManager.find_by_task_id(task_id)
self.assertEqual(task_status['state'], 'canceled')
self.assertEqual(task_status['start_time'], None)
def test_apply_async_task_status_default_queue(self, apply_async):
"""
Assert that apply_async() creates new task status when we do not pass the queue kwarg. It
default to the default Celery queue.
"""
args = [1, 'b', 'iii']
kwargs = {'1': 'for the money', 'tags': ['test_tags']}
apply_async.return_value = celery.result.AsyncResult('test_task_id')
task = tasks.Task()
task.apply_async(*args, **kwargs)
task_statuses = list(TaskStatusManager.find_all())
self.assertEqual(len(task_statuses), 1)
new_task_status = task_statuses[0]
self.assertEqual(new_task_status['task_id'], 'test_task_id')
self.assertEqual(
new_task_status['queue'],
defaults.NAMESPACES['CELERY']['DEFAULT_QUEUE'].default)
self.assertEqual(new_task_status['tags'], kwargs['tags'])
self.assertEqual(new_task_status['state'], 'waiting')
def test_updates_task_status_correctly(self, mock_request):
retval = 'random_return_value'
task_id = str(uuid.uuid4())
args = [1, 'b', 'iii']
kwargs = {
'1': 'for the money',
'tags': ['test_tags'],
'routing_key': WORKER_2
}
mock_request.called_directly = False
task_status = TaskStatusManager.create_task_status(task_id)
self.assertEqual(task_status['state'], 'waiting')
self.assertEqual(task_status['finish_time'], None)
task = tasks.Task()
task.on_success(retval, task_id, args, kwargs)
new_task_status = TaskStatusManager.find_by_task_id(task_id)
self.assertEqual(new_task_status['state'], 'finished')
self.assertEqual(new_task_status['result'], retval)
self.assertFalse(new_task_status['finish_time'] is None)
# Make sure that parse_iso8601_datetime is able to parse the finish_time without errors
dateutils.parse_iso8601_datetime(new_task_status['finish_time'])
