def test_subscription_worker_consistent(
subscription_data: SubscriptionData) -> None:
state.set_config("event_subscription_non_consistent_sample_rate", 1)
broker: Broker[SubscriptionTaskResult] = Broker(MemoryMessageStorage(),
TestingClock())
result_topic = Topic("subscription-results")
broker.create_topic(result_topic, partitions=1)
frequency = timedelta(minutes=1)
evaluations = 1
subscription = Subscription(
SubscriptionIdentifier(PartitionId(0), uuid1()),
subscription_data,
)
store = DummySubscriptionDataStore()
store.create(subscription.identifier.uuid, subscription.data)
metrics = TestingMetricsBackend()
dataset = get_dataset("events")
worker = SubscriptionWorker(
dataset,
ThreadPoolExecutor(),
{
0:
SubscriptionScheduler(store, PartitionId(0), timedelta(),
DummyMetricsBackend(strict=True))
},
broker.get_producer(),
result_topic,
metrics,
)
now = datetime(2000, 1, 1)
tick = Tick(
offsets=Interval(0, 1),
timestamps=Interval(now - (frequency * evaluations), now),
)
worker.process_message(Message(Partition(Topic("events"), 0), 0, tick,
now))
time.sleep(0.1)
assert (len([
m for m in metrics.calls
if isinstance(m, Increment) and m.name == "consistent"
]) == 1)
def test_subscription_worker(broker: Broker[SubscriptionTaskResult], ) -> None:
result_topic = Topic("subscription-results")
broker.create_topic(result_topic, partitions=1)
frequency = timedelta(minutes=1)
evaluations = 3
subscription = Subscription(
SubscriptionIdentifier(PartitionId(0), uuid1()),
SubscriptionData(
project_id=1,
conditions=[],
aggregations=[["count()", "", "count"]],
time_window=timedelta(minutes=60),
resolution=frequency,
),
)
store = DummySubscriptionDataStore()
store.create(subscription.identifier.uuid, subscription.data)
metrics = DummyMetricsBackend(strict=True)
dataset = get_dataset("events")
worker = SubscriptionWorker(
dataset,
ThreadPoolExecutor(),
{
0: SubscriptionScheduler(store, PartitionId(0), timedelta(),
metrics)
},
broker.get_producer(),
result_topic,
metrics,
)
now = datetime(2000, 1, 1)
tick = Tick(
offsets=Interval(0, 1),
timestamps=Interval(now - (frequency * evaluations), now),
)
result_futures = worker.process_message(
Message(Partition(Topic("events"), 0), 0, tick, now))
assert result_futures is not None and len(result_futures) == evaluations
# Publish the results.
worker.flush_batch([result_futures])
# Check to make sure the results were published.
# NOTE: This does not cover the ``SubscriptionTaskResultCodec``!
consumer = broker.get_consumer("group")
consumer.subscribe([result_topic])
for i in range(evaluations):
timestamp = now - frequency * (evaluations - i)
message = consumer.poll()
assert message is not None
assert message.partition.topic == result_topic
task, future = result_futures[i]
future_result = request, result = future.result()
assert message.payload.task.timestamp == timestamp
assert message.payload == SubscriptionTaskResult(task, future_result)
# NOTE: The time series extension is folded back into the request
# body, ideally this would reference the timeseries options in
# isolation.
assert (request.body.items() > {
"from_date":
(timestamp - subscription.data.time_window).isoformat(),
"to_date":
timestamp.isoformat(),
}.items())
assert result == {
"meta": [{
"name": "count",
"type": "UInt64"
}],
"data": [{
"count": 0
}],
}
def test_subscription_worker(subscription_data: SubscriptionData) -> None:
broker: Broker[SubscriptionTaskResult] = Broker(MemoryMessageStorage(),
TestingClock())
result_topic = Topic("subscription-results")
broker.create_topic(result_topic, partitions=1)
frequency = timedelta(minutes=1)
evaluations = 3
subscription = Subscription(
SubscriptionIdentifier(PartitionId(0), uuid1()),
subscription_data,
)
store = DummySubscriptionDataStore()
store.create(subscription.identifier.uuid, subscription.data)
metrics = DummyMetricsBackend(strict=True)
dataset = get_dataset("events")
worker = SubscriptionWorker(
dataset,
ThreadPoolExecutor(),
{
0: SubscriptionScheduler(store, PartitionId(0), timedelta(),
metrics)
},
broker.get_producer(),
result_topic,
metrics,
)
now = datetime(2000, 1, 1)
tick = Tick(
offsets=Interval(0, 1),
timestamps=Interval(now - (frequency * evaluations), now),
)
result_futures = worker.process_message(
Message(Partition(Topic("events"), 0), 0, tick, now))
assert result_futures is not None and len(result_futures) == evaluations
# Publish the results.
worker.flush_batch([result_futures])
# Check to make sure the results were published.
# NOTE: This does not cover the ``SubscriptionTaskResultCodec``!
consumer = broker.get_consumer("group")
consumer.subscribe([result_topic])
for i in range(evaluations):
timestamp = now - frequency * (evaluations - i)
message = consumer.poll()
assert message is not None
assert message.partition.topic == result_topic
task, future = result_futures[i]
future_result = request, result = future.result()
assert message.payload.task.timestamp == timestamp
assert message.payload == SubscriptionTaskResult(task, future_result)
# NOTE: The time series extension is folded back into the request
# body, ideally this would reference the timeseries options in
# isolation.
from_pattern = FunctionCall(
String(ConditionFunctions.GTE),
(
Column(None, String("timestamp")),
Literal(Datetime(timestamp - subscription.data.time_window)),
),
)
to_pattern = FunctionCall(
String(ConditionFunctions.LT),
(Column(None, String("timestamp")), Literal(Datetime(timestamp))),
)
condition = request.query.get_condition()
assert condition is not None
conditions = get_first_level_and_conditions(condition)
assert any([from_pattern.match(e) for e in conditions])
assert any([to_pattern.match(e) for e in conditions])
assert result == {
"meta": [{
"name": "count",
"type": "UInt64"
}],
"data": [{
"count": 0
}],
}