def test_push(self):
"""Test if PushConsumer works properly."""
with self.app.test_request_context():
user_hub = EventHub("TestPush", self.celery)
user_hub_id = user_hub.hub_id
push_function = PushConsumer(self.backend, user_hub_id)
# The notifier that push notifications to the client via SSE
sse_notifier = self.notifications.sse_notifier_for(user_hub_id)
push_function.consume(self.event_json)
# Popping subscribe message. Somehow, if the option
# ignore_subscribe_messages is True, the other messages
# are not detected.
propagated_messages = sse_notifier.backend.listen()
message = next(propagated_messages)
# Getting expected message and checking it with the sent one
message = next(propagated_messages)
assert message['data'].decode("utf-8") == self.event_json
def create_hub(self, hub_alias):
"""Create an EventHub to aggregate certain types of events."""
hub = EventHub(hub_alias, self.celery)
self._hubs[hub.hub_id] = hub
return hub
def setUp(self):
super(EventHubAndFiltersTest, self).setUp()
self.event_hub = EventHub("TestFilters", self.celery)
self.event_hub_id = self.event_hub.hub_id
class EventHubAndFiltersTest(NotificationsFlaskTestCase):
def setUp(self):
super(EventHubAndFiltersTest, self).setUp()
self.event_hub = EventHub("TestFilters", self.celery)
self.event_hub_id = self.event_hub.hub_id
def test_register_consumer(self):
"""
The client can register consumers using a decorator or
calling directly :method register_consumer:. The client also
can deregister consumers.
"""
@self.event_hub.register_consumer
def write_to_file(event_json, *args, **kwargs):
f = open("events.log", "a+w")
f.write(event_json)
push_consumer = PushConsumer(self.backend, self.event_hub_id)
self.event_hub.register_consumer(push_consumer)
# The previous consumers are indeed registered
assert self.event_hub.is_registered(push_consumer) is True
assert self.event_hub.is_registered(write_to_file) is True
# Registering the same PushConsumer as a sequence of consumers
repeated_push_consumer = PushConsumer(self.backend, self.event_hub_id)
self.event_hub.register_consumer(repeated_push_consumer)
# The previous operation has no effect as the consumer has
# been previously registered
registered = list(self.event_hub.registered_consumers)
assert len(list(filter(self.event_hub.is_registered, registered))) == 2
# Deregister previous consumers
for consumer in [write_to_file, push_consumer]:
self.event_hub.deregister_consumer(consumer)
assert len(self.event_hub.registered_consumers) == 0
def test_and_filters(self):
f1 = WithEventType("user")
f2 = WithSender("system")
f3 = WithRecipients(["jvican"])
f1f2 = f1 & f2
f1f2f3 = f1 & f2 & f3
assert f1f2f3(self.event) is True
assert f1(self.event) is True
self.event["event_type"] = "info"
assert f1(self.event) is False
assert f1f2(self.event) is False
assert f1f2f3(self.event) is False
assert f2(self.event) is True
self.event["sender"] = "antisystem"
assert f2(self.event) is False
assert f1f2f3(self.event) is False
assert f3(self.event) is True
self.event["recipients"] = ["johndoe"]
assert f3(self.event) is False
assert f1f2f3(self.event) is False
def test_or_filters(self):
f1 = BeforeDate(self.tomorrow)
f2 = WithId("1234")
f3 = Not(Expired())
f1f2f3 = f1 | f2 | f3
assert f1f2f3(self.event) is True
assert f1(self.event) is True
self.event["timestamp"] = self.next_to_tomorrow_tm
assert f1(self.event) is False
assert f1f2f3(self.event) is True
assert f2(self.event) is True
self.event["event_id"] = "123"
assert f2(self.event) is False
assert f1f2f3(self.event) is True
assert f3(self.event) is True
self.event["expiration_datetime"] = datetime.now()
assert f3(self.event) is False
assert f1f2f3(self.event) is False
def test_xor_filters(self):
# f1 is false in the beginning
f1 = AfterDate(self.next_to_tomorrow)
f2 = WithId("1234")
f1f2 = f1 ^ f2
assert f1f2(self.event) is True
self.event["timestamp"] = self.next_to_next_to_tomorrow_tm
assert f1f2(self.event) is False
self.event["event_id"] = "123"
assert f1f2(self.event) is True
self.event["timestamp"] = self.next_to_tomorrow_tm
assert f1f2(self.event) is False
