zulip/zerver/tests/test_queue_worker.py

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import os
import time
import ujson
import smtplib
from django.conf import settings
from django.test import override_settings
from mock import patch, MagicMock
from typing import Any, Callable, Dict, List, Mapping, Tuple
from zerver.lib.email_mirror import RateLimitedRealmMirror
from zerver.lib.email_mirror_helpers import encode_email_address
from zerver.lib.queue import MAX_REQUEST_RETRIES
from zerver.lib.rate_limiter import RateLimiterLockingException
from zerver.lib.remote_server import PushNotificationBouncerRetryLaterError
from zerver.lib.send_email import FromAddress
from zerver.lib.test_helpers import simulated_queue_client
from zerver.lib.test_classes import ZulipTestCase
from zerver.models import get_client, UserActivity, PreregistrationUser, \
get_stream, get_realm
from zerver.tornado.event_queue import build_offline_notification
from zerver.worker import queue_processors
from zerver.worker.queue_processors import (
get_active_worker_queues,
QueueProcessingWorker,
EmailSendingWorker,
LoopQueueProcessingWorker,
MissedMessageWorker,
)
Event = Dict[str, Any]
# This is used for testing LoopQueueProcessingWorker, which
# would run forever if we don't mock time.sleep to abort the
# loop.
class AbortLoop(Exception):
pass
loopworker_sleep_mock = patch(
'zerver.worker.queue_processors.time.sleep',
side_effect=AbortLoop,
)
class WorkerTest(ZulipTestCase):
class FakeClient:
def __init__(self) -> None:
python: Convert assignment type annotations to Python 3.6 style. This commit was split by tabbott; this piece covers the vast majority of files in Zulip, but excludes scripts/, tools/, and puppet/ to help ensure we at least show the right error messages for Xenial systems. We can likely further refine the remaining pieces with some testing. Generated by com2ann, with whitespace fixes and various manual fixes for runtime issues: - invoiced_through: Optional[LicenseLedger] = models.ForeignKey( + invoiced_through: Optional["LicenseLedger"] = models.ForeignKey( -_apns_client: Optional[APNsClient] = None +_apns_client: Optional["APNsClient"] = None - notifications_stream: Optional[Stream] = models.ForeignKey('Stream', related_name='+', null=True, blank=True, on_delete=CASCADE) - signup_notifications_stream: Optional[Stream] = models.ForeignKey('Stream', related_name='+', null=True, blank=True, on_delete=CASCADE) + notifications_stream: Optional["Stream"] = models.ForeignKey('Stream', related_name='+', null=True, blank=True, on_delete=CASCADE) + signup_notifications_stream: Optional["Stream"] = models.ForeignKey('Stream', related_name='+', null=True, blank=True, on_delete=CASCADE) - author: Optional[UserProfile] = models.ForeignKey('UserProfile', blank=True, null=True, on_delete=CASCADE) + author: Optional["UserProfile"] = models.ForeignKey('UserProfile', blank=True, null=True, on_delete=CASCADE) - bot_owner: Optional[UserProfile] = models.ForeignKey('self', null=True, on_delete=models.SET_NULL) + bot_owner: Optional["UserProfile"] = models.ForeignKey('self', null=True, on_delete=models.SET_NULL) - default_sending_stream: Optional[Stream] = models.ForeignKey('zerver.Stream', null=True, related_name='+', on_delete=CASCADE) - default_events_register_stream: Optional[Stream] = models.ForeignKey('zerver.Stream', null=True, related_name='+', on_delete=CASCADE) + default_sending_stream: Optional["Stream"] = models.ForeignKey('zerver.Stream', null=True, related_name='+', on_delete=CASCADE) + default_events_register_stream: Optional["Stream"] = models.ForeignKey('zerver.Stream', null=True, related_name='+', on_delete=CASCADE) -descriptors_by_handler_id: Dict[int, ClientDescriptor] = {} +descriptors_by_handler_id: Dict[int, "ClientDescriptor"] = {} -worker_classes: Dict[str, Type[QueueProcessingWorker]] = {} -queues: Dict[str, Dict[str, Type[QueueProcessingWorker]]] = {} +worker_classes: Dict[str, Type["QueueProcessingWorker"]] = {} +queues: Dict[str, Dict[str, Type["QueueProcessingWorker"]]] = {} -AUTH_LDAP_REVERSE_EMAIL_SEARCH: Optional[LDAPSearch] = None +AUTH_LDAP_REVERSE_EMAIL_SEARCH: Optional["LDAPSearch"] = None Signed-off-by: Anders Kaseorg <anders@zulipchat.com>
2020-04-22 01:09:50 +02:00
self.consumers: Dict[str, Callable[[Dict[str, Any]], None]] = {}
self.queue: List[Tuple[str, Any]] = []
def register_json_consumer(self,
queue_name: str,
callback: Callable[[Dict[str, Any]], None]) -> None:
self.consumers[queue_name] = callback
def start_consuming(self) -> None:
for queue_name, data in self.queue:
callback = self.consumers[queue_name]
callback(data)
self.queue = []
def drain_queue(self, queue_name: str, json: bool) -> List[Event]:
assert json
events = [
dct
for (queue_name, dct)
in self.queue
]
# IMPORTANT!
# This next line prevents us from double draining
# queues, which was a bug at one point.
self.queue = []
return events
def queue_size(self) -> int:
return len(self.queue)
def test_UserActivityWorker(self) -> None:
fake_client = self.FakeClient()
user = self.example_user('hamlet')
UserActivity.objects.filter(
user_profile = user.id,
client = get_client('ios')
).delete()
data = dict(
user_profile_id = user.id,
client = 'ios',
time = time.time(),
query = 'send_message'
)
fake_client.queue.append(('user_activity', data))
with loopworker_sleep_mock:
with simulated_queue_client(lambda: fake_client):
worker = queue_processors.UserActivityWorker()
worker.setup()
try:
worker.start()
except AbortLoop:
pass
activity_records = UserActivity.objects.filter(
user_profile = user.id,
client = get_client('ios')
)
self.assertTrue(len(activity_records), 1)
self.assertTrue(activity_records[0].count, 1)
# Now process the event a second time and confirm count goes
# up to 2. Ideally, we'd use an event with a slightly never
# time, but it's not really important.
fake_client.queue.append(('user_activity', data))
with loopworker_sleep_mock:
with simulated_queue_client(lambda: fake_client):
worker = queue_processors.UserActivityWorker()
worker.setup()
try:
worker.start()
except AbortLoop:
pass
activity_records = UserActivity.objects.filter(
user_profile = user.id,
client = get_client('ios')
)
self.assertTrue(len(activity_records), 1)
self.assertTrue(activity_records[0].count, 2)
def test_missed_message_worker(self) -> None:
cordelia = self.example_user('cordelia')
hamlet = self.example_user('hamlet')
othello = self.example_user('othello')
hamlet1_msg_id = self.send_personal_message(
from_user=cordelia,
to_user=hamlet,
content='hi hamlet',
)
hamlet2_msg_id = self.send_personal_message(
from_user=cordelia,
to_user=hamlet,
content='goodbye hamlet',
)
hamlet3_msg_id = self.send_personal_message(
from_user=cordelia,
to_user=hamlet,
content='hello again hamlet',
)
othello_msg_id = self.send_personal_message(
from_user=cordelia,
to_user=othello,
content='where art thou, othello?',
)
events = [
dict(user_profile_id=hamlet.id, message_id=hamlet1_msg_id),
dict(user_profile_id=hamlet.id, message_id=hamlet2_msg_id),
dict(user_profile_id=othello.id, message_id=othello_msg_id),
]
fake_client = self.FakeClient()
for event in events:
fake_client.queue.append(('missedmessage_emails', event))
mmw = MissedMessageWorker()
class MockTimer():
is_running = False
def is_alive(self) -> bool:
return self.is_running
def start(self) -> None:
self.is_running = True
def cancel(self) -> None:
self.is_running = False
timer = MockTimer()
loopworker_sleep_mock = patch(
'zerver.worker.queue_processors.Timer',
return_value=timer,
)
send_mock = patch(
'zerver.lib.email_notifications.do_send_missedmessage_events_reply_in_zulip'
)
mmw.BATCH_DURATION = 0
bonus_event = dict(user_profile_id=hamlet.id, message_id=hamlet3_msg_id)
with send_mock as sm, loopworker_sleep_mock as tm:
with simulated_queue_client(lambda: fake_client):
self.assertFalse(timer.is_alive())
mmw.setup()
mmw.start()
self.assertTrue(timer.is_alive())
fake_client.queue.append(('missedmessage_emails', bonus_event))
# Double-calling start is our way to get it to run again
self.assertTrue(timer.is_alive())
mmw.start()
# Now, we actually send the emails.
mmw.maybe_send_batched_emails()
self.assertFalse(timer.is_alive())
self.assertEqual(tm.call_args[0][0], 5) # should sleep 5 seconds
args = [c[0] for c in sm.call_args_list]
arg_dict = {
arg[0].id: dict(
missed_messages=arg[1],
count=arg[2],
)
for arg in args
}
hamlet_info = arg_dict[hamlet.id]
self.assertEqual(hamlet_info['count'], 3)
self.assertEqual(
{m['message'].content for m in hamlet_info['missed_messages']},
{'hi hamlet', 'goodbye hamlet', 'hello again hamlet'},
)
othello_info = arg_dict[othello.id]
self.assertEqual(othello_info['count'], 1)
self.assertEqual(
{m['message'].content for m in othello_info['missed_messages']},
{'where art thou, othello?'}
)
def test_push_notifications_worker(self) -> None:
"""
The push notifications system has its own comprehensive test suite,
so we can limit ourselves to simple unit testing the queue processor,
without going deeper into the system - by mocking the handle_push_notification
functions to immediately produce the effect we want, to test its handling by the queue
processor.
"""
fake_client = self.FakeClient()
def fake_publish(queue_name: str,
event: Dict[str, Any],
processor: Callable[[Any], None]) -> None:
fake_client.queue.append((queue_name, event))
def generate_new_message_notification() -> Dict[str, Any]:
return build_offline_notification(1, 1)
def generate_remove_notification() -> Dict[str, Any]:
return {
"type": "remove",
"user_profile_id": 1,
"message_ids": [1],
}
with simulated_queue_client(lambda: fake_client):
worker = queue_processors.PushNotificationsWorker()
worker.setup()
with patch('zerver.worker.queue_processors.handle_push_notification') as mock_handle_new, \
patch('zerver.worker.queue_processors.handle_remove_push_notification') as mock_handle_remove, \
patch('zerver.worker.queue_processors.initialize_push_notifications'):
event_new = generate_new_message_notification()
event_remove = generate_remove_notification()
fake_client.queue.append(('missedmessage_mobile_notifications', event_new))
fake_client.queue.append(('missedmessage_mobile_notifications', event_remove))
worker.start()
mock_handle_new.assert_called_once_with(event_new['user_profile_id'], event_new)
mock_handle_remove.assert_called_once_with(event_remove['user_profile_id'],
event_remove['message_ids'])
with patch('zerver.worker.queue_processors.handle_push_notification',
side_effect=PushNotificationBouncerRetryLaterError("test")) as mock_handle_new, \
patch('zerver.worker.queue_processors.handle_remove_push_notification',
side_effect=PushNotificationBouncerRetryLaterError("test")) as mock_handle_remove, \
patch('zerver.worker.queue_processors.initialize_push_notifications'):
event_new = generate_new_message_notification()
event_remove = generate_remove_notification()
fake_client.queue.append(('missedmessage_mobile_notifications', event_new))
fake_client.queue.append(('missedmessage_mobile_notifications', event_remove))
with patch('zerver.lib.queue.queue_json_publish', side_effect=fake_publish):
worker.start()
self.assertEqual(mock_handle_new.call_count, 1 + MAX_REQUEST_RETRIES)
self.assertEqual(mock_handle_remove.call_count, 1 + MAX_REQUEST_RETRIES)
@patch('zerver.worker.queue_processors.mirror_email')
def test_mirror_worker(self, mock_mirror_email: MagicMock) -> None:
fake_client = self.FakeClient()
stream = get_stream('Denmark', get_realm('zulip'))
stream_to_address = encode_email_address(stream)
data = [
dict(
message='\xf3test',
time=time.time(),
rcpt_to=stream_to_address
)
] * 3
for element in data:
fake_client.queue.append(('email_mirror', element))
with simulated_queue_client(lambda: fake_client):
worker = queue_processors.MirrorWorker()
worker.setup()
worker.start()
self.assertEqual(mock_mirror_email.call_count, 3)
@patch('zerver.lib.rate_limiter.logger.warning')
@patch('zerver.worker.queue_processors.mirror_email')
@override_settings(RATE_LIMITING_MIRROR_REALM_RULES=[(10, 2)])
def test_mirror_worker_rate_limiting(self, mock_mirror_email: MagicMock,
mock_warn: MagicMock) -> None:
fake_client = self.FakeClient()
realm = get_realm('zulip')
RateLimitedRealmMirror(realm).clear_history()
stream = get_stream('Denmark', realm)
stream_to_address = encode_email_address(stream)
data = [
dict(
message='\xf3test',
time=time.time(),
rcpt_to=stream_to_address
)
] * 5
for element in data:
fake_client.queue.append(('email_mirror', element))
with simulated_queue_client(lambda: fake_client):
start_time = time.time()
with patch('time.time', return_value=start_time):
worker = queue_processors.MirrorWorker()
worker.setup()
worker.start()
# Of the first 5 messages, only 2 should be processed
# (the rest being rate-limited):
self.assertEqual(mock_mirror_email.call_count, 2)
# If a new message is sent into the stream mirror, it will get rejected:
fake_client.queue.append(('email_mirror', data[0]))
worker.start()
self.assertEqual(mock_mirror_email.call_count, 2)
# However, missed message emails don't get rate limited:
with self.settings(EMAIL_GATEWAY_PATTERN="%s@example.com"):
address = 'mm' + ('x' * 32) + '@example.com'
event = dict(
message='\xf3test',
time=time.time(),
rcpt_to=address
)
fake_client.queue.append(('email_mirror', event))
worker.start()
self.assertEqual(mock_mirror_email.call_count, 3)
# After some times passes, emails get accepted again:
with patch('time.time', return_value=(start_time + 11.0)):
fake_client.queue.append(('email_mirror', data[0]))
worker.start()
self.assertEqual(mock_mirror_email.call_count, 4)
# If RateLimiterLockingException is thrown, we rate-limit the new message:
with patch('zerver.lib.rate_limiter.RedisRateLimiterBackend.incr_ratelimit',
side_effect=RateLimiterLockingException):
fake_client.queue.append(('email_mirror', data[0]))
worker.start()
self.assertEqual(mock_mirror_email.call_count, 4)
mock_warn.assert_called_with(
"Deadlock trying to incr_ratelimit for %s",
"RateLimitedRealmMirror:%s" % (realm.string_id,),
)
def test_email_sending_worker_retries(self) -> None:
"""Tests the retry_send_email_failures decorator to make sure it
retries sending the email 3 times and then gives up."""
fake_client = self.FakeClient()
data = {
'template_prefix': 'zerver/emails/confirm_new_email',
'to_emails': [self.example_email("hamlet")],
'from_name': 'Zulip Account Security',
'from_address': FromAddress.NOREPLY,
'context': {}
}
fake_client.queue.append(('email_senders', data))
def fake_publish(queue_name: str,
event: Dict[str, Any],
processor: Callable[[Any], None]) -> None:
fake_client.queue.append((queue_name, event))
with simulated_queue_client(lambda: fake_client):
worker = queue_processors.EmailSendingWorker()
worker.setup()
with patch('zerver.lib.send_email.build_email',
side_effect=smtplib.SMTPServerDisconnected), \
patch('zerver.lib.queue.queue_json_publish',
side_effect=fake_publish), \
patch('logging.exception'):
worker.start()
self.assertEqual(data['failed_tries'], 1 + MAX_REQUEST_RETRIES)
def test_signups_worker_retries(self) -> None:
"""Tests the retry logic of signups queue."""
fake_client = self.FakeClient()
user_id = self.example_user('hamlet').id
data = {'user_id': user_id, 'id': 'test_missed'}
fake_client.queue.append(('signups', data))
def fake_publish(queue_name: str, event: Dict[str, Any], processor: Callable[[Any], None]) -> None:
fake_client.queue.append((queue_name, event))
fake_response = MagicMock()
fake_response.status_code = 400
fake_response.text = ujson.dumps({'title': ''})
with simulated_queue_client(lambda: fake_client):
worker = queue_processors.SignupWorker()
worker.setup()
with patch('zerver.worker.queue_processors.requests.post',
return_value=fake_response), \
patch('zerver.lib.queue.queue_json_publish',
side_effect=fake_publish), \
patch('logging.info'), \
self.settings(MAILCHIMP_API_KEY='one-two',
PRODUCTION=True,
ZULIP_FRIENDS_LIST_ID='id'):
worker.start()
self.assertEqual(data['failed_tries'], 1 + MAX_REQUEST_RETRIES)
def test_signups_worker_existing_member(self) -> None:
fake_client = self.FakeClient()
user_id = self.example_user('hamlet').id
data = {'user_id': user_id,
'id': 'test_missed',
'email_address': 'foo@bar.baz'}
fake_client.queue.append(('signups', data))
fake_response = MagicMock()
fake_response.status_code = 400
fake_response.text = ujson.dumps({'title': 'Member Exists'})
with simulated_queue_client(lambda: fake_client):
worker = queue_processors.SignupWorker()
worker.setup()
with patch('zerver.worker.queue_processors.requests.post',
return_value=fake_response), \
self.settings(MAILCHIMP_API_KEY='one-two',
PRODUCTION=True,
ZULIP_FRIENDS_LIST_ID='id'):
with patch('logging.warning') as logging_warning_mock:
worker.start()
logging_warning_mock.assert_called_once_with(
"Attempted to sign up already existing email to list: %s",
"foo@bar.baz",
)
def test_signups_bad_request(self) -> None:
fake_client = self.FakeClient()
user_id = self.example_user('hamlet').id
data = {'user_id': user_id, 'id': 'test_missed'}
fake_client.queue.append(('signups', data))
fake_response = MagicMock()
fake_response.status_code = 444 # Any non-400 bad request code.
fake_response.text = ujson.dumps({'title': 'Member Exists'})
with simulated_queue_client(lambda: fake_client):
worker = queue_processors.SignupWorker()
worker.setup()
with patch('zerver.worker.queue_processors.requests.post',
return_value=fake_response), \
self.settings(MAILCHIMP_API_KEY='one-two',
PRODUCTION=True,
ZULIP_FRIENDS_LIST_ID='id'):
worker.start()
fake_response.raise_for_status.assert_called_once()
def test_invites_worker(self) -> None:
fake_client = self.FakeClient()
inviter = self.example_user('iago')
prereg_alice = PreregistrationUser.objects.create(
email=self.nonreg_email('alice'), referred_by=inviter, realm=inviter.realm)
PreregistrationUser.objects.create(
email=self.nonreg_email('bob'), referred_by=inviter, realm=inviter.realm)
data = [
dict(prereg_id=prereg_alice.id, referrer_id=inviter.id, email_body=None),
# Nonexistent prereg_id, as if the invitation was deleted
dict(prereg_id=-1, referrer_id=inviter.id, email_body=None),
# Form with `email` is from versions up to Zulip 1.7.1
dict(email=self.nonreg_email('bob'), referrer_id=inviter.id, email_body=None),
]
for element in data:
fake_client.queue.append(('invites', element))
with simulated_queue_client(lambda: fake_client):
worker = queue_processors.ConfirmationEmailWorker()
worker.setup()
with patch('zerver.lib.actions.send_email'), \
patch('zerver.worker.queue_processors.send_future_email') \
as send_mock, \
patch('logging.info'):
worker.start()
self.assertEqual(send_mock.call_count, 2)
def test_error_handling(self) -> None:
processed = []
@queue_processors.assign_queue('unreliable_worker')
class UnreliableWorker(queue_processors.QueueProcessingWorker):
def consume(self, data: Mapping[str, Any]) -> None:
if data["type"] == 'unexpected behaviour':
raise Exception('Worker task not performing as expected!')
processed.append(data["type"])
fake_client = self.FakeClient()
for msg in ['good', 'fine', 'unexpected behaviour', 'back to normal']:
fake_client.queue.append(('unreliable_worker', {'type': msg}))
fn = os.path.join(settings.QUEUE_ERROR_DIR, 'unreliable_worker.errors')
try:
os.remove(fn)
except OSError: # nocoverage # error handling for the directory not existing
pass
with simulated_queue_client(lambda: fake_client):
worker = UnreliableWorker()
worker.setup()
with patch('logging.exception') as logging_exception_mock:
worker.start()
logging_exception_mock.assert_called_once_with(
"Problem handling data on queue unreliable_worker")
self.assertEqual(processed, ['good', 'fine', 'back to normal'])
with open(fn) as f:
line = f.readline().strip()
events = ujson.loads(line.split('\t')[1])
self.assert_length(events, 1)
event = events[0]
self.assertEqual(event["type"], 'unexpected behaviour')
processed = []
@queue_processors.assign_queue('unreliable_loopworker')
class UnreliableLoopWorker(queue_processors.LoopQueueProcessingWorker):
def consume_batch(self, events: List[Dict[str, Any]]) -> None:
for event in events:
if event["type"] == 'unexpected behaviour':
raise Exception('Worker task not performing as expected!')
processed.append(event["type"])
for msg in ['good', 'fine', 'unexpected behaviour', 'back to normal']:
fake_client.queue.append(('unreliable_loopworker', {'type': msg}))
fn = os.path.join(settings.QUEUE_ERROR_DIR, 'unreliable_loopworker.errors')
try:
os.remove(fn)
except OSError: # nocoverage # error handling for the directory not existing
pass
with loopworker_sleep_mock, simulated_queue_client(lambda: fake_client):
loopworker = UnreliableLoopWorker()
loopworker.setup()
with patch('logging.exception') as logging_exception_mock:
try:
loopworker.start()
except AbortLoop:
pass
logging_exception_mock.assert_called_once_with(
"Problem handling data on queue unreliable_loopworker")
self.assertEqual(processed, ['good', 'fine'])
with open(fn) as f:
line = f.readline().strip()
events = ujson.loads(line.split('\t')[1])
self.assert_length(events, 4)
self.assertEqual([event["type"] for event in events],
['good', 'fine', 'unexpected behaviour', 'back to normal'])
def test_worker_noname(self) -> None:
class TestWorker(queue_processors.QueueProcessingWorker):
def __init__(self) -> None:
super().__init__()
def consume(self, data: Mapping[str, Any]) -> None:
pass # nocoverage # this is intentionally not called
with self.assertRaises(queue_processors.WorkerDeclarationException):
TestWorker()
def test_get_active_worker_queues(self) -> None:
worker_queue_count = (len(QueueProcessingWorker.__subclasses__()) +
len(EmailSendingWorker.__subclasses__()) +
len(LoopQueueProcessingWorker.__subclasses__()) - 1)
self.assertEqual(worker_queue_count, len(get_active_worker_queues()))
self.assertEqual(1, len(get_active_worker_queues(queue_type='test')))