from collections.abc import Set as AbstractSet from unittest import mock from django.utils.timezone import now as timezone_now from zerver.actions.alert_words import do_add_alert_words from zerver.lib.mention import stream_wildcards from zerver.lib.soft_deactivation import ( add_missing_messages, do_auto_soft_deactivate_users, do_catch_up_soft_deactivated_users, do_soft_activate_users, do_soft_deactivate_user, do_soft_deactivate_users, get_soft_deactivated_users_for_catch_up, get_users_for_soft_deactivation, reactivate_user_if_soft_deactivated, ) from zerver.lib.stream_subscription import get_subscriptions_for_send_message from zerver.lib.test_classes import ZulipTestCase from zerver.lib.test_helpers import get_subscription, get_user_messages, make_client from zerver.models import ( AlertWord, Client, Message, RealmAuditLog, Stream, UserActivity, UserMessage, UserProfile, ) from zerver.models.realm_audit_logs import AuditLogEventType from zerver.models.realms import get_realm from zerver.models.streams import get_stream logger_string = "zulip.soft_deactivation" class UserSoftDeactivationTests(ZulipTestCase): def test_do_soft_deactivate_user(self) -> None: user = self.example_user("hamlet") self.assertFalse(user.long_term_idle) with self.assertLogs(logger_string, level="INFO") as m: do_soft_deactivate_user(user) self.assertEqual(m.output, [f"INFO:{logger_string}:Soft deactivated user {user.id}"]) user.refresh_from_db() self.assertTrue(user.long_term_idle) def test_do_soft_deactivate_users(self) -> None: users = [ self.example_user("hamlet"), self.example_user("iago"), self.example_user("cordelia"), ] for user in users: self.assertFalse(user.long_term_idle) # We are sending this message to ensure that users have at least # one UserMessage row. self.send_group_direct_message(users[0], users) with self.assertLogs(logger_string, level="INFO") as m: do_soft_deactivate_users(users) log_output = [ *(f"INFO:{logger_string}:Soft deactivated user {user.id}" for user in users), f"INFO:{logger_string}:Soft-deactivated batch of {len(users[:100])} users; {len(users[100:])} remain to process", ] self.assertEqual(m.output, log_output) for user in users: user.refresh_from_db() self.assertTrue(user.long_term_idle) def test_get_users_for_soft_deactivation(self) -> None: users = [ self.example_user("hamlet"), self.example_user("iago"), self.example_user("cordelia"), self.example_user("ZOE"), self.example_user("othello"), self.example_user("prospero"), self.example_user("aaron"), self.example_user("polonius"), self.example_user("desdemona"), self.example_user("shiva"), ] client, _ = Client.objects.get_or_create(name="website") query = "/some/random/endpoint" last_visit = timezone_now() count = 150 for user_profile in UserProfile.objects.all(): UserActivity.objects.get_or_create( user_profile=user_profile, client=client, query=query, count=count, last_visit=last_visit, ) filter_kwargs = dict(user_profile__realm=get_realm("zulip")) users_to_deactivate = get_users_for_soft_deactivation(-1, filter_kwargs) self.assert_length(users_to_deactivate, 10) for user in users_to_deactivate: self.assertTrue(user in users) def test_do_soft_activate_users(self) -> None: users = [ self.example_user("hamlet"), self.example_user("iago"), self.example_user("cordelia"), ] self.send_group_direct_message(users[0], users) with self.assertLogs(logger_string, level="INFO") as m: do_soft_deactivate_users(users) log_output = [ *(f"INFO:{logger_string}:Soft deactivated user {user.id}" for user in users), f"INFO:{logger_string}:Soft-deactivated batch of {len(users[:100])} users; {len(users[100:])} remain to process", ] self.assertEqual(m.output, log_output) for user in users: self.assertTrue(user.long_term_idle) with self.assertLogs(logger_string, level="INFO") as m: do_soft_activate_users(users) log_output = [f"INFO:{logger_string}:Soft reactivated user {user.id}" for user in users] self.assertEqual(m.output, log_output) for user in users: user.refresh_from_db() self.assertFalse(user.long_term_idle) def test_get_users_for_catch_up(self) -> None: users = [ self.example_user("hamlet"), self.example_user("iago"), self.example_user("cordelia"), self.example_user("ZOE"), self.example_user("othello"), self.example_user("prospero"), self.example_user("aaron"), self.example_user("polonius"), self.example_user("desdemona"), self.example_user("shiva"), ] for user_profile in UserProfile.objects.all(): user_profile.long_term_idle = True user_profile.save(update_fields=["long_term_idle"]) filter_kwargs = dict(realm=get_realm("zulip")) users_to_catch_up = get_soft_deactivated_users_for_catch_up(filter_kwargs) self.assert_length(users_to_catch_up, 10) for user in users_to_catch_up: self.assertTrue(user in users) def test_do_catch_up_users(self) -> None: stream = "Verona" hamlet = self.example_user("hamlet") users = [ self.example_user("iago"), self.example_user("cordelia"), ] all_users = [*users, hamlet] for user in all_users: self.subscribe(user, stream) with self.assertLogs(logger_string, level="INFO") as m: do_soft_deactivate_users(users) log_output = [ *(f"INFO:{logger_string}:Soft deactivated user {user.id}" for user in users), f"INFO:{logger_string}:Soft-deactivated batch of {len(users[:100])} users; {len(users[100:])} remain to process", ] self.assertEqual(m.output, log_output) for user in users: self.assertTrue(user.long_term_idle) message_id = self.send_stream_message(hamlet, stream, "Hello world!") already_received = UserMessage.objects.filter(message_id=message_id).count() with self.assertLogs(logger_string, level="INFO") as m: do_catch_up_soft_deactivated_users(users) self.assertEqual( m.output, [f"INFO:{logger_string}:Caught up {len(users)} soft-deactivated users"] ) catch_up_received = UserMessage.objects.filter(message_id=message_id).count() self.assertEqual(already_received + len(users), catch_up_received) for user in users: user.refresh_from_db() self.assertTrue(user.long_term_idle) self.assertEqual(user.last_active_message_id, message_id) def test_do_auto_soft_deactivate_users(self) -> None: users = [ self.example_user("iago"), self.example_user("cordelia"), self.example_user("ZOE"), self.example_user("othello"), self.example_user("prospero"), self.example_user("aaron"), self.example_user("polonius"), self.example_user("desdemona"), ] sender = self.example_user("hamlet") realm = get_realm("zulip") stream_name = "announce" for user in [*users, sender]: self.subscribe(user, stream_name) client, _ = Client.objects.get_or_create(name="website") query = "/some/random/endpoint" last_visit = timezone_now() count = 150 for user_profile in users: UserActivity.objects.get_or_create( user_profile=user_profile, client=client, query=query, count=count, last_visit=last_visit, ) with self.assertLogs(logger_string, level="INFO") as m: users_deactivated = do_auto_soft_deactivate_users(-1, realm) log_output = [ *(f"INFO:{logger_string}:Soft deactivated user {user.id}" for user in users), f"INFO:{logger_string}:Soft-deactivated batch of {len(users[:100])} users; {len(users[100:])} remain to process", f"INFO:{logger_string}:Caught up {len(users)} soft-deactivated users", ] self.assertEqual(set(m.output), set(log_output)) self.assert_length(users_deactivated, len(users)) for user in users: self.assertTrue(user in users_deactivated) # Verify that deactivated users are caught up automatically message_id = self.send_stream_message(sender, stream_name) received_count = UserMessage.objects.filter( user_profile__in=users, message_id=message_id ).count() self.assertEqual(0, received_count) with self.assertLogs(logger_string, level="INFO") as m: users_deactivated = do_auto_soft_deactivate_users(-1, realm) log_output = [f"INFO:{logger_string}:Caught up {len(users)} soft-deactivated users"] self.assertEqual(set(m.output), set(log_output)) self.assert_length(users_deactivated, 0) # all users are already deactivated received_count = UserMessage.objects.filter( user_profile__in=users, message_id=message_id ).count() self.assert_length(users, received_count) # Verify that deactivated users are NOT caught up if # AUTO_CATCH_UP_SOFT_DEACTIVATED_USERS is off message_id = self.send_stream_message(sender, stream_name) received_count = UserMessage.objects.filter( user_profile__in=users, message_id=message_id ).count() self.assertEqual(0, received_count) with ( self.settings(AUTO_CATCH_UP_SOFT_DEACTIVATED_USERS=False), self.assertLogs(logger_string, level="INFO") as m, ): users_deactivated = do_auto_soft_deactivate_users(-1, realm) self.assertEqual( m.output, [ f"INFO:{logger_string}:Not catching up users since AUTO_CATCH_UP_SOFT_DEACTIVATED_USERS is off" ], ) self.assert_length(users_deactivated, 0) # all users are already deactivated received_count = UserMessage.objects.filter( user_profile__in=users, message_id=message_id ).count() self.assertEqual(0, received_count) class SoftDeactivationMessageTest(ZulipTestCase): def test_reactivate_user_if_soft_deactivated(self) -> None: recipient_list = [self.example_user("hamlet"), self.example_user("iago")] for user_profile in recipient_list: self.subscribe(user_profile, "Denmark") sender = self.example_user("iago") stream_name = "Denmark" topic_name = "foo" def last_realm_audit_log_entry(event_type: int) -> RealmAuditLog: return RealmAuditLog.objects.filter(event_type=event_type).order_by("-event_time")[0] long_term_idle_user = self.example_user("hamlet") # We are sending this message to ensure that long_term_idle_user has # at least one UserMessage row. self.send_stream_message(long_term_idle_user, stream_name) with self.assertLogs(logger_string, level="INFO") as info_logs: do_soft_deactivate_users([long_term_idle_user]) self.assertEqual( info_logs.output, [ f"INFO:{logger_string}:Soft deactivated user {long_term_idle_user.id}", f"INFO:{logger_string}:Soft-deactivated batch of 1 users; 0 remain to process", ], ) message = "Test message 1" message_id = self.send_stream_message(sender, stream_name, message, topic_name) idle_user_msg_list = get_user_messages(long_term_idle_user) idle_user_msg_count = len(idle_user_msg_list) self.assertNotEqual(idle_user_msg_list[-1].content, message) with self.assert_database_query_count(7): reactivate_user_if_soft_deactivated(long_term_idle_user) self.assertFalse(long_term_idle_user.long_term_idle) self.assertEqual( last_realm_audit_log_entry(AuditLogEventType.USER_SOFT_ACTIVATED).modified_user, long_term_idle_user, ) idle_user_msg_list = get_user_messages(long_term_idle_user) self.assert_length(idle_user_msg_list, idle_user_msg_count + 1) self.assertEqual(idle_user_msg_list[-1].content, message) long_term_idle_user.refresh_from_db() self.assertEqual(long_term_idle_user.last_active_message_id, message_id) def test_add_missing_messages(self) -> None: recipient_list = [self.example_user("hamlet"), self.example_user("iago")] for user_profile in recipient_list: self.subscribe(user_profile, "Denmark") sender = self.example_user("iago") realm = sender.realm sending_client = make_client(name="test suite") stream_name = "Denmark" stream = get_stream(stream_name, realm) topic_name = "foo" def send_fake_message(message_content: str, stream: Stream) -> Message: """ The purpose of this helper is to create a Message object without corresponding UserMessage rows being created. """ recipient = stream.recipient message = Message( sender=sender, realm=realm, recipient=recipient, content=message_content, date_sent=timezone_now(), sending_client=sending_client, ) message.set_topic_name(topic_name) message.save() return message long_term_idle_user = self.example_user("hamlet") self.send_stream_message(long_term_idle_user, stream_name) with self.assertLogs(logger_string, level="INFO") as info_logs: do_soft_deactivate_users([long_term_idle_user]) self.assertEqual( info_logs.output, [ f"INFO:{logger_string}:Soft deactivated user {long_term_idle_user.id}", f"INFO:{logger_string}:Soft-deactivated batch of 1 users; 0 remain to process", ], ) # Test that add_missing_messages() in simplest case of adding a # message for which UserMessage row doesn't exist for this user. sent_message = send_fake_message("Test message 1", stream) idle_user_msg_list = get_user_messages(long_term_idle_user) idle_user_msg_count = len(idle_user_msg_list) self.assertNotEqual(idle_user_msg_list[-1], sent_message) with self.assert_database_query_count(5): add_missing_messages(long_term_idle_user) idle_user_msg_list = get_user_messages(long_term_idle_user) self.assert_length(idle_user_msg_list, idle_user_msg_count + 1) self.assertEqual(idle_user_msg_list[-1], sent_message) long_term_idle_user.refresh_from_db() self.assertEqual(long_term_idle_user.last_active_message_id, sent_message.id) # Test that add_missing_messages() only adds messages that aren't # already present in the UserMessage table. This test works on the # fact that previous test just above this added a message but didn't # updated the last_active_message_id field for the user. sent_message = send_fake_message("Test message 2", stream) idle_user_msg_list = get_user_messages(long_term_idle_user) idle_user_msg_count = len(idle_user_msg_list) self.assertNotEqual(idle_user_msg_list[-1], sent_message) with self.assert_database_query_count(5): add_missing_messages(long_term_idle_user) idle_user_msg_list = get_user_messages(long_term_idle_user) self.assert_length(idle_user_msg_list, idle_user_msg_count + 1) self.assertEqual(idle_user_msg_list[-1], sent_message) long_term_idle_user.refresh_from_db() self.assertEqual(long_term_idle_user.last_active_message_id, sent_message.id) # Test UserMessage rows are created correctly in case of stream # Subscription was altered by admin while user was away. # Test for a public stream. sent_message_list = [] sent_message_list.append(send_fake_message("Test message 3", stream)) # Alter subscription to stream. self.unsubscribe(long_term_idle_user, stream_name) send_fake_message("Test message 4", stream) self.subscribe(long_term_idle_user, stream_name) sent_message_list.append(send_fake_message("Test message 5", stream)) sent_message_list.reverse() idle_user_msg_list = get_user_messages(long_term_idle_user) idle_user_msg_count = len(idle_user_msg_list) for sent_message in sent_message_list: self.assertNotEqual(idle_user_msg_list.pop(), sent_message) with self.assert_database_query_count(5): add_missing_messages(long_term_idle_user) idle_user_msg_list = get_user_messages(long_term_idle_user) self.assert_length(idle_user_msg_list, idle_user_msg_count + 2) for sent_message in sent_message_list: self.assertEqual(idle_user_msg_list.pop(), sent_message) long_term_idle_user.refresh_from_db() self.assertEqual(long_term_idle_user.last_active_message_id, sent_message_list[0].id) # Test consecutive subscribe/unsubscribe in a public stream sent_message_list = [] sent_message_list.append(send_fake_message("Test message 6", stream)) # Unsubscribe from stream and then immediately subscribe back again. self.unsubscribe(long_term_idle_user, stream_name) self.subscribe(long_term_idle_user, stream_name) sent_message_list.append(send_fake_message("Test message 7", stream)) # Again unsubscribe from stream and send a message. # This will make sure that if initially in a unsubscribed state # a consecutive subscribe/unsubscribe doesn't misbehave. self.unsubscribe(long_term_idle_user, stream_name) send_fake_message("Test message 8", stream) # Do a subscribe and unsubscribe immediately. self.subscribe(long_term_idle_user, stream_name) self.unsubscribe(long_term_idle_user, stream_name) sent_message_list.reverse() idle_user_msg_list = get_user_messages(long_term_idle_user) idle_user_msg_count = len(idle_user_msg_list) for sent_message in sent_message_list: self.assertNotEqual(idle_user_msg_list.pop(), sent_message) with self.assert_database_query_count(5): add_missing_messages(long_term_idle_user) idle_user_msg_list = get_user_messages(long_term_idle_user) self.assert_length(idle_user_msg_list, idle_user_msg_count + 2) for sent_message in sent_message_list: self.assertEqual(idle_user_msg_list.pop(), sent_message) long_term_idle_user.refresh_from_db() self.assertEqual(long_term_idle_user.last_active_message_id, sent_message_list[0].id) # Test for when user unsubscribes before soft deactivation # (must reactivate them in order to do this). do_soft_activate_users([long_term_idle_user]) self.subscribe(long_term_idle_user, stream_name) # Send a real message to update last_active_message_id sent_message_id = self.send_stream_message(sender, stream_name, "Test message 9") self.unsubscribe(long_term_idle_user, stream_name) # Soft deactivate and send another message to the unsubscribed stream. with self.assertLogs(logger_string, level="INFO") as info_logs: do_soft_deactivate_users([long_term_idle_user]) self.assertEqual( info_logs.output, [ f"INFO:{logger_string}:Soft deactivated user {long_term_idle_user.id}", f"INFO:{logger_string}:Soft-deactivated batch of 1 users; 0 remain to process", ], ) send_fake_message("Test message 10", stream) idle_user_msg_list = get_user_messages(long_term_idle_user) idle_user_msg_count = len(idle_user_msg_list) self.assertEqual(idle_user_msg_list[-1].id, sent_message_id) # There are no streams to fetch missing messages from, so # the Message.objects query will be avoided. with self.assert_database_query_count(3): add_missing_messages(long_term_idle_user) idle_user_msg_list = get_user_messages(long_term_idle_user) # No new UserMessage rows should have been created. self.assert_length(idle_user_msg_list, idle_user_msg_count) # Note: At this point in this test we have long_term_idle_user # unsubscribed from the 'Denmark' stream. # Test for a private stream. stream_name = "Core" private_stream = self.make_stream("Core", invite_only=True) self.subscribe(self.example_user("iago"), stream_name) sent_message_list = [] send_fake_message("Test message 11", private_stream) self.subscribe(self.example_user("hamlet"), stream_name) sent_message_list.append(send_fake_message("Test message 12", private_stream)) self.unsubscribe(long_term_idle_user, stream_name) send_fake_message("Test message 13", private_stream) self.subscribe(long_term_idle_user, stream_name) sent_message_list.append(send_fake_message("Test message 14", private_stream)) sent_message_list.reverse() idle_user_msg_list = get_user_messages(long_term_idle_user) idle_user_msg_count = len(idle_user_msg_list) for sent_message in sent_message_list: self.assertNotEqual(idle_user_msg_list.pop(), sent_message) with self.assert_database_query_count(5): add_missing_messages(long_term_idle_user) idle_user_msg_list = get_user_messages(long_term_idle_user) self.assert_length(idle_user_msg_list, idle_user_msg_count + 2) for sent_message in sent_message_list: self.assertEqual(idle_user_msg_list.pop(), sent_message) long_term_idle_user.refresh_from_db() self.assertEqual(long_term_idle_user.last_active_message_id, sent_message_list[0].id) @mock.patch("zerver.lib.soft_deactivation.BULK_CREATE_BATCH_SIZE", 2) def test_add_missing_messages_pagination(self) -> None: recipient_list = [self.example_user("hamlet"), self.example_user("iago")] stream_name = "Denmark" for user_profile in recipient_list: self.subscribe(user_profile, stream_name) sender = self.example_user("iago") long_term_idle_user = self.example_user("hamlet") self.send_stream_message(long_term_idle_user, stream_name) with self.assertLogs(logger_string, level="INFO") as info_logs: do_soft_deactivate_users([long_term_idle_user]) self.assertEqual( info_logs.output, [ f"INFO:{logger_string}:Soft deactivated user {long_term_idle_user.id}", f"INFO:{logger_string}:Soft-deactivated batch of 1 users; 0 remain to process", ], ) num_new_messages = 5 message_ids = [] for _ in range(num_new_messages): message_id = self.send_stream_message(sender, stream_name) message_ids.append(message_id) idle_user_msg_list = get_user_messages(long_term_idle_user) idle_user_msg_count = len(idle_user_msg_list) with self.assert_database_query_count(9): add_missing_messages(long_term_idle_user) idle_user_msg_list = get_user_messages(long_term_idle_user) self.assert_length(idle_user_msg_list, idle_user_msg_count + num_new_messages) long_term_idle_user.refresh_from_db() self.assertEqual(long_term_idle_user.last_active_message_id, message_ids[-1]) def test_user_message_filter(self) -> None: # In this test we are basically testing out the logic used out in # do_send_messages() in action.py for filtering the messages for which # UserMessage rows should be created for a soft-deactivated user. AlertWord.objects.all().delete() long_term_idle_user = self.example_user("hamlet") cordelia = self.example_user("cordelia") sender = self.example_user("iago") stream_name = "Brand New Stream" topic_name = "foo" realm_id = cordelia.realm_id self.subscribe(long_term_idle_user, stream_name) self.subscribe(cordelia, stream_name) self.subscribe(sender, stream_name) stream_id = get_stream(stream_name, cordelia.realm).id def send_stream_message(content: str) -> None: self.send_stream_message(sender, stream_name, content, topic_name) def send_personal_message(content: str) -> None: self.send_personal_message(sender, self.example_user("hamlet"), content) self.send_stream_message(long_term_idle_user, stream_name) with self.assertLogs(logger_string, level="INFO") as info_logs: do_soft_deactivate_users([long_term_idle_user]) self.assertEqual( info_logs.output, [ f"INFO:{logger_string}:Soft deactivated user {long_term_idle_user.id}", f"INFO:{logger_string}:Soft-deactivated batch of 1 users; 0 remain to process", ], ) def assert_um_count(user: UserProfile, count: int) -> None: user_messages = get_user_messages(user) self.assert_length(user_messages, count) def assert_last_um_content(user: UserProfile, content: str, negate: bool = False) -> None: user_messages = get_user_messages(user) if negate: self.assertNotEqual(user_messages[-1].content, content) else: self.assertEqual(user_messages[-1].content, content) def assert_num_possible_users( expected_count: int, *, possible_stream_wildcard_mention: bool = False, topic_participant_user_ids: AbstractSet[int] = set(), possibly_mentioned_user_ids: AbstractSet[int] = set(), ) -> None: self.assertEqual( len( get_subscriptions_for_send_message( realm_id=realm_id, stream_id=stream_id, topic_name=topic_name, possible_stream_wildcard_mention=possible_stream_wildcard_mention, topic_participant_user_ids=topic_participant_user_ids, possibly_mentioned_user_ids=possibly_mentioned_user_ids, ) ), expected_count, ) def assert_stream_message_sent_to_idle_user( content: str, *, possible_stream_wildcard_mention: bool = False, topic_participant_user_ids: AbstractSet[int] = set(), possibly_mentioned_user_ids: AbstractSet[int] = set(), ) -> None: assert_num_possible_users( expected_count=3, possible_stream_wildcard_mention=possible_stream_wildcard_mention, topic_participant_user_ids=topic_participant_user_ids, possibly_mentioned_user_ids=possibly_mentioned_user_ids, ) general_user_msg_count = len(get_user_messages(cordelia)) soft_deactivated_user_msg_count = len(get_user_messages(long_term_idle_user)) send_stream_message(content) assert_um_count(long_term_idle_user, soft_deactivated_user_msg_count + 1) assert_um_count(cordelia, general_user_msg_count + 1) assert_last_um_content(long_term_idle_user, content) assert_last_um_content(cordelia, content) def assert_stream_message_not_sent_to_idle_user( content: str, *, possibly_mentioned_user_ids: AbstractSet[int] = set(), false_alarm_row: bool = False, ) -> None: if false_alarm_row: # We will query for our idle user if he has **ANY** alert # words, but we won't actually write a UserMessage row until # we truly parse the message. We also get false alarms for # messages with quoted mentions. assert_num_possible_users( 3, possibly_mentioned_user_ids=possibly_mentioned_user_ids ) else: assert_num_possible_users(2) general_user_msg_count = len(get_user_messages(cordelia)) soft_deactivated_user_msg_count = len(get_user_messages(long_term_idle_user)) send_stream_message(content) assert_um_count(long_term_idle_user, soft_deactivated_user_msg_count) assert_um_count(cordelia, general_user_msg_count + 1) assert_last_um_content(long_term_idle_user, content, negate=True) assert_last_um_content(cordelia, content) # Test that sending a message to a stream with soft deactivated user # doesn't end up creating UserMessage row for deactivated user. assert_stream_message_not_sent_to_idle_user("Test message 1") sub = get_subscription(stream_name, long_term_idle_user) # Sub settings override user settings. sub.push_notifications = True sub.save() assert_stream_message_sent_to_idle_user("Sub push") sub.push_notifications = False sub.save() assert_stream_message_not_sent_to_idle_user("Sub no push") # Let user defaults take over sub.push_notifications = None sub.save() long_term_idle_user.enable_stream_push_notifications = True long_term_idle_user.save() assert_stream_message_sent_to_idle_user("User push") long_term_idle_user.enable_stream_push_notifications = False long_term_idle_user.save() assert_stream_message_not_sent_to_idle_user("User no push") # Sub settings override user settings. sub.email_notifications = True sub.save() assert_stream_message_sent_to_idle_user("Sub email") sub.email_notifications = False sub.save() assert_stream_message_not_sent_to_idle_user("Sub no email") # Let user defaults take over sub.email_notifications = None sub.save() long_term_idle_user.enable_stream_email_notifications = True long_term_idle_user.save() assert_stream_message_sent_to_idle_user("User email") long_term_idle_user.enable_stream_email_notifications = False long_term_idle_user.save() assert_stream_message_not_sent_to_idle_user("User no email") # Test sending a direct message to soft deactivated user creates # UserMessage row. soft_deactivated_user_msg_count = len(get_user_messages(long_term_idle_user)) message = "Test direct message" send_personal_message(message) assert_um_count(long_term_idle_user, soft_deactivated_user_msg_count + 1) assert_last_um_content(long_term_idle_user, message) # Test UserMessage row is created while user is deactivated if # user itself is mentioned. assert_stream_message_sent_to_idle_user( "Test @**King Hamlet** mention", possibly_mentioned_user_ids={long_term_idle_user.id}, ) assert_stream_message_not_sent_to_idle_user( "Test `@**King Hamlet**` mention", possibly_mentioned_user_ids={long_term_idle_user.id}, false_alarm_row=True, ) # Test UserMessage row is not created while user is deactivated if # anyone is mentioned but the user. assert_stream_message_not_sent_to_idle_user("Test @**Cordelia, Lear's daughter** mention") # Test UserMessage row is created while user is deactivated if # there is a stream wildcard mention such as @all or @everyone for stream_wildcard in stream_wildcards: assert_stream_message_sent_to_idle_user( f"Test @**{stream_wildcard}** mention", possible_stream_wildcard_mention=True ) assert_stream_message_not_sent_to_idle_user("Test @**bogus** mention") # Test UserMessage row is created while user is deactivated if # there is a topic wildcard mention i.e. @topic do_soft_activate_users([long_term_idle_user]) self.send_stream_message(long_term_idle_user, stream_name, "Hi", topic_name) topic_participant_user_ids = {long_term_idle_user.id} do_soft_deactivate_users([long_term_idle_user]) assert_stream_message_sent_to_idle_user( "Test @**topic** mention", topic_participant_user_ids=topic_participant_user_ids ) # Test UserMessage row is created while user is deactivated if there # is a alert word in message. do_add_alert_words(long_term_idle_user, ["test_alert_word"]) assert_stream_message_sent_to_idle_user("Testing test_alert_word") do_add_alert_words(cordelia, ["cordelia"]) assert_stream_message_not_sent_to_idle_user("cordelia", false_alarm_row=True) # Test UserMessage row is not created while user is deactivated if # message is a me message. assert_stream_message_not_sent_to_idle_user("/me says test", false_alarm_row=True) # Sanity check after removing the alert word for Hamlet. AlertWord.objects.filter(user_profile=long_term_idle_user).delete() assert_stream_message_not_sent_to_idle_user("no alert words")