# -*- coding: utf-8 -*- from django.db import IntegrityError from django.db.models import Q from django.conf import settings from django.http import HttpResponse from django.test import TestCase, override_settings from django.utils.timezone import now as timezone_now from zerver.lib import bugdown from zerver.decorator import JsonableError from zerver.lib.test_runner import slow from zerver.lib.cache import get_stream_cache_key, cache_delete from zerver.lib.addressee import Addressee from zerver.lib.actions import ( check_message, check_send_stream_message, create_mirror_user_if_needed, do_add_alert_words, do_change_stream_invite_only, do_create_user, do_deactivate_user, do_send_messages, do_update_message, do_set_realm_property, extract_recipients, get_active_presence_idle_user_ids, get_client, get_last_message_id, get_user_info_for_message_updates, internal_prep_private_message, internal_prep_stream_message_by_name, internal_send_huddle_message, internal_send_message, internal_send_private_message, internal_send_stream_message, internal_send_stream_message_by_name, send_rate_limited_pm_notification_to_bot_owner, ) from zerver.lib.create_user import ( create_user_profile, ) from zerver.lib.message import ( MessageDict, bulk_access_messages, get_first_visible_message_id, get_raw_unread_data, get_recent_private_conversations, maybe_update_first_visible_message_id, messages_for_ids, sew_messages_and_reactions, update_first_visible_message_id, ) from zerver.lib.test_helpers import ( get_user_messages, make_client, message_stream_count, most_recent_message, most_recent_usermessage, queries_captured, get_subscription, ) from zerver.lib.test_classes import ( ZulipTestCase, ) from zerver.lib.topic import ( LEGACY_PREV_TOPIC, DB_TOPIC_NAME, ) from zerver.lib.soft_deactivation import ( add_missing_messages, do_soft_activate_users, do_soft_deactivate_users, reactivate_user_if_soft_deactivated, ) from zerver.models import ( MAX_MESSAGE_LENGTH, MAX_TOPIC_NAME_LENGTH, Message, Realm, Recipient, Stream, UserMessage, UserProfile, Attachment, RealmAuditLog, RealmDomain, get_realm, UserPresence, Subscription, get_stream, get_stream_recipient, get_system_bot, get_user, Reaction, flush_per_request_caches, ScheduledMessage, get_huddle_recipient ) from zerver.lib.timestamp import convert_to_UTC, datetime_to_timestamp from zerver.lib.timezone import get_timezone from zerver.lib.upload import create_attachment from zerver.lib.url_encoding import near_message_url from zerver.views.messages import create_mirrored_message_users, InvalidMirrorInput from analytics.lib.counts import COUNT_STATS from analytics.models import RealmCount import datetime import mock import time import ujson from typing import Any, Dict, List, Optional, Set from collections import namedtuple class MiscMessageTest(ZulipTestCase): def test_get_last_message_id(self) -> None: self.assertEqual( get_last_message_id(), Message.objects.latest('id').id ) Message.objects.all().delete() self.assertEqual(get_last_message_id(), -1) class TopicHistoryTest(ZulipTestCase): def test_topics_history_zephyr_mirror(self) -> None: user_profile = self.mit_user('sipbtest') stream_name = 'new_stream' # Send a message to this new stream from another user self.subscribe(self.mit_user("starnine"), stream_name) stream = get_stream(stream_name, user_profile.realm) self.send_stream_message(self.mit_email("starnine"), stream_name, topic_name="secret topic", sender_realm="zephyr") # Now subscribe this MIT user to the new stream and verify # that the new topic is not accessible self.login(user_profile.email, realm=user_profile.realm) self.subscribe(user_profile, stream_name) endpoint = '/json/users/me/%d/topics' % (stream.id,) result = self.client_get(endpoint, dict(), subdomain="zephyr") self.assert_json_success(result) history = result.json()['topics'] self.assertEqual(history, []) def test_topics_history(self) -> None: # verified: int(UserMessage.flags.read) == 1 user_profile = self.example_user('iago') email = user_profile.email stream_name = 'Verona' self.login(email) stream = get_stream(stream_name, user_profile.realm) recipient = get_stream_recipient(stream.id) def create_test_message(topic: str) -> int: # TODO: Clean this up to send messages the normal way. hamlet = self.example_user('hamlet') message = Message( sender=hamlet, recipient=recipient, content='whatever', pub_date=timezone_now(), sending_client=get_client('whatever'), ) message.set_topic_name(topic) message.save() UserMessage.objects.create( user_profile=user_profile, message=message, flags=0, ) return message.id # our most recent topics are topic0, topic1, topic2 # Create old messages with strange spellings. create_test_message('topic2') create_test_message('toPIc1') create_test_message('toPIc0') create_test_message('topic2') create_test_message('topic2') create_test_message('Topic2') # Create new messages topic2_msg_id = create_test_message('topic2') create_test_message('topic1') create_test_message('topic1') topic1_msg_id = create_test_message('topic1') topic0_msg_id = create_test_message('topic0') endpoint = '/json/users/me/%d/topics' % (stream.id,) result = self.client_get(endpoint, dict()) self.assert_json_success(result) history = result.json()['topics'] # We only look at the most recent three topics, because # the prior fixture data may be unreliable. history = history[:3] self.assertEqual([topic['name'] for topic in history], [ 'topic0', 'topic1', 'topic2', ]) self.assertEqual([topic['max_id'] for topic in history], [ topic0_msg_id, topic1_msg_id, topic2_msg_id, ]) # Now try as cordelia, who we imagine as a totally new user in # that she doesn't have UserMessage rows. We should see the # same results for a public stream. self.login(self.example_email("cordelia")) result = self.client_get(endpoint, dict()) self.assert_json_success(result) history = result.json()['topics'] # We only look at the most recent three topics, because # the prior fixture data may be unreliable. history = history[:3] self.assertEqual([topic['name'] for topic in history], [ 'topic0', 'topic1', 'topic2', ]) self.assertIn('topic0', [topic['name'] for topic in history]) self.assertEqual([topic['max_id'] for topic in history], [ topic0_msg_id, topic1_msg_id, topic2_msg_id, ]) # Now make stream private, but subscribe cordelia do_change_stream_invite_only(stream, True) self.subscribe(self.example_user("cordelia"), stream.name) result = self.client_get(endpoint, dict()) self.assert_json_success(result) history = result.json()['topics'] history = history[:3] # Cordelia doesn't have these recent history items when we # wasn't subscribed in her results. self.assertNotIn('topic0', [topic['name'] for topic in history]) self.assertNotIn('topic1', [topic['name'] for topic in history]) self.assertNotIn('topic2', [topic['name'] for topic in history]) def test_bad_stream_id(self) -> None: email = self.example_email("iago") self.login(email) # non-sensible stream id endpoint = '/json/users/me/9999999999/topics' result = self.client_get(endpoint, dict()) self.assert_json_error(result, 'Invalid stream id') # out of realm bad_stream = self.make_stream( 'mit_stream', realm=get_realm('zephyr') ) endpoint = '/json/users/me/%s/topics' % (bad_stream.id,) result = self.client_get(endpoint, dict()) self.assert_json_error(result, 'Invalid stream id') # private stream to which I am not subscribed private_stream = self.make_stream( 'private_stream', invite_only=True ) endpoint = '/json/users/me/%s/topics' % (private_stream.id,) result = self.client_get(endpoint, dict()) self.assert_json_error(result, 'Invalid stream id') class TopicDeleteTest(ZulipTestCase): def test_topic_delete(self) -> None: initial_last_msg_id = self.get_last_message().id stream_name = 'new_stream' topic_name = 'new topic 2' # NON-ADMIN USER user_profile = self.example_user('hamlet') self.subscribe(user_profile, stream_name) # Send message stream = get_stream(stream_name, user_profile.realm) self.send_stream_message(user_profile.email, stream_name, topic_name=topic_name) last_msg_id = self.send_stream_message(user_profile.email, stream_name, topic_name=topic_name) # Deleting the topic self.login(user_profile.email, realm=user_profile.realm) endpoint = '/json/streams/' + str(stream.id) + '/delete_topic' result = self.client_post(endpoint, { "topic_name": topic_name }) self.assert_json_error(result, "Must be an organization administrator") self.assertEqual(self.get_last_message().id, last_msg_id) # Make stream private with limited history do_change_stream_invite_only(stream, invite_only=True, history_public_to_subscribers=False) # ADMIN USER subscribed now user_profile = self.example_user('iago') self.subscribe(user_profile, stream_name) self.login(user_profile.email, realm=user_profile.realm) new_last_msg_id = self.send_stream_message(user_profile.email, stream_name, topic_name=topic_name) # Now admin deletes all messages in topic -- which should only # delete new_last_msg_id, i.e. the one sent since they joined. self.assertEqual(self.get_last_message().id, new_last_msg_id) result = self.client_post(endpoint, { "topic_name": topic_name }) self.assert_json_success(result) self.assertEqual(self.get_last_message().id, last_msg_id) # Make the stream's history public to subscribers do_change_stream_invite_only(stream, invite_only=True, history_public_to_subscribers=True) # Delete the topic should now remove all messages result = self.client_post(endpoint, { "topic_name": topic_name }) self.assert_json_success(result) self.assertEqual(self.get_last_message().id, initial_last_msg_id) class TestCrossRealmPMs(ZulipTestCase): def make_realm(self, domain: str) -> Realm: realm = Realm.objects.create(string_id=domain, invite_required=False) RealmDomain.objects.create(realm=realm, domain=domain) return realm def create_user(self, email: str) -> UserProfile: subdomain = email.split("@")[1] self.register(email, 'test', subdomain=subdomain) return get_user(email, get_realm(subdomain)) @slow("Sends a large number of messages") @override_settings(CROSS_REALM_BOT_EMAILS=['feedback@zulip.com', 'welcome-bot@zulip.com', 'support@3.example.com']) def test_realm_scenarios(self) -> None: self.make_realm('1.example.com') r2 = self.make_realm('2.example.com') self.make_realm('3.example.com') def assert_message_received(to_user: UserProfile, from_user: UserProfile) -> None: messages = get_user_messages(to_user) self.assertEqual(messages[-1].sender.id, from_user.id) def assert_invalid_email() -> Any: return self.assertRaisesRegex( JsonableError, 'Invalid email ') user1_email = 'user1@1.example.com' user1a_email = 'user1a@1.example.com' user2_email = 'user2@2.example.com' user3_email = 'user3@3.example.com' feedback_email = 'feedback@zulip.com' support_email = 'support@3.example.com' # note: not zulip.com user1 = self.create_user(user1_email) user1a = self.create_user(user1a_email) user2 = self.create_user(user2_email) self.create_user(user3_email) feedback_bot = get_system_bot(feedback_email) with self.settings(CROSS_REALM_BOT_EMAILS=['feedback@zulip.com', 'welcome-bot@zulip.com']): # HACK: We should probably be creating this "bot" user another # way, but since you can't register a user with a # cross-realm email, we need to hide this for now. support_bot = self.create_user(support_email) # Users can PM themselves self.send_personal_message(user1_email, user1_email, sender_realm="1.example.com") assert_message_received(user1, user1) # Users on the same realm can PM each other self.send_personal_message(user1_email, user1a_email, sender_realm="1.example.com") assert_message_received(user1a, user1) # Cross-realm bots in the zulip.com realm can PM any realm # (They need lower level APIs to do this.) internal_send_private_message( realm=r2, sender=get_system_bot(feedback_email), recipient_user=get_user(user2_email, r2), content='bla', ) assert_message_received(user2, feedback_bot) # All users can PM cross-realm bots in the zulip.com realm self.send_personal_message(user1_email, feedback_email, sender_realm="1.example.com") assert_message_received(feedback_bot, user1) # Users can PM cross-realm bots on non-zulip realms. # (The support bot represents some theoretical bot that we may # create in the future that does not have zulip.com as its realm.) self.send_personal_message(user1_email, support_email, sender_realm="1.example.com") assert_message_received(support_bot, user1) # Allow sending PMs to two different cross-realm bots simultaneously. # (We don't particularly need this feature, but since users can # already individually send PMs to cross-realm bots, we shouldn't # prevent them from sending multiple bots at once. We may revisit # this if it's a nuisance for huddles.) self.send_huddle_message(user1_email, [feedback_email, support_email], sender_realm="1.example.com") assert_message_received(feedback_bot, user1) assert_message_received(support_bot, user1) # Prevent old loophole where I could send PMs to other users as long # as I copied a cross-realm bot from the same realm. with assert_invalid_email(): self.send_huddle_message(user1_email, [user3_email, support_email], sender_realm="1.example.com") # Users on three different realms can't PM each other, # even if one of the users is a cross-realm bot. with assert_invalid_email(): self.send_huddle_message(user1_email, [user2_email, feedback_email], sender_realm="1.example.com") with assert_invalid_email(): self.send_huddle_message(feedback_email, [user1_email, user2_email]) # Users on the different realms cannot PM each other with assert_invalid_email(): self.send_personal_message(user1_email, user2_email, sender_realm="1.example.com") # Users on non-zulip realms can't PM "ordinary" Zulip users with assert_invalid_email(): self.send_personal_message(user1_email, "hamlet@zulip.com", sender_realm="1.example.com") # Users on three different realms cannot PM each other with assert_invalid_email(): self.send_huddle_message(user1_email, [user2_email, user3_email], sender_realm="1.example.com") class TestAddressee(ZulipTestCase): def test_addressee_for_user_ids(self) -> None: realm = get_realm('zulip') user_ids = [self.example_user('cordelia').id, self.example_user('hamlet').id, self.example_user('othello').id] result = Addressee.for_user_ids(user_ids=user_ids, realm=realm) user_profiles = result.user_profiles() result_user_ids = [user_profiles[0].id, user_profiles[1].id, user_profiles[2].id] self.assertEqual(set(result_user_ids), set(user_ids)) def test_addressee_for_user_ids_nonexistent_id(self) -> None: def assert_invalid_user_id() -> Any: return self.assertRaisesRegex( JsonableError, 'Invalid user ID ') with assert_invalid_user_id(): Addressee.for_user_ids(user_ids=[779], realm=get_realm('zulip')) def test_addressee_legacy_build_for_user_ids(self) -> None: realm = get_realm('zulip') self.login(self.example_email('hamlet')) user_ids = [self.example_user('cordelia').id, self.example_user('othello').id] result = Addressee.legacy_build( sender=self.example_user('hamlet'), message_type_name='private', message_to=user_ids, topic_name='random_topic', realm=realm ) user_profiles = result.user_profiles() result_user_ids = [user_profiles[0].id, user_profiles[1].id] self.assertEqual(set(result_user_ids), set(user_ids)) def test_addressee_legacy_build_for_stream_id(self) -> None: realm = get_realm('zulip') self.login(self.example_email('iago')) sender = self.example_user('iago') self.subscribe(sender, "Denmark") stream = get_stream('Denmark', realm) result = Addressee.legacy_build( sender=sender, message_type_name='stream', message_to=[stream.id], topic_name='random_topic', realm=realm ) stream_id = result.stream_id() self.assertEqual(stream.id, stream_id) class InternalPrepTest(ZulipTestCase): def test_returns_for_internal_sends(self) -> None: # For our internal_send_* functions we return # if the prep stages fail. This is mostly defensive # code, since we are generally creating the messages # ourselves, but we want to make sure that the functions # won't actually explode if we give them bad content. bad_content = '' realm = get_realm('zulip') cordelia = self.example_user('cordelia') hamlet = self.example_user('hamlet') othello = self.example_user('othello') stream = get_stream('Verona', realm) with mock.patch('logging.exception') as m: internal_send_private_message( realm=realm, sender=cordelia, recipient_user=hamlet, content=bad_content, ) arg = m.call_args_list[0][0][0] self.assertIn('Message must not be empty', arg) with mock.patch('logging.exception') as m: internal_send_huddle_message( realm=realm, sender=cordelia, emails=[hamlet.email, othello.email], content=bad_content, ) arg = m.call_args_list[0][0][0] self.assertIn('Message must not be empty', arg) with mock.patch('logging.exception') as m: internal_send_stream_message( realm=realm, sender=cordelia, topic='whatever', content=bad_content, stream=stream ) arg = m.call_args_list[0][0][0] self.assertIn('Message must not be empty', arg) with mock.patch('logging.exception') as m: internal_send_stream_message_by_name( realm=realm, sender=cordelia, stream_name=stream.name, topic='whatever', content=bad_content ) arg = m.call_args_list[0][0][0] self.assertIn('Message must not be empty', arg) with mock.patch('logging.exception') as m: internal_send_message( realm=realm, sender_email=settings.ERROR_BOT, recipient_type_name='stream', recipients=stream.name, topic_name='whatever', content=bad_content, ) arg = m.call_args_list[0][0][0] self.assertIn('Message must not be empty', arg) def test_error_handling(self) -> None: realm = get_realm('zulip') sender = self.example_user('cordelia') recipient_user = self.example_user('hamlet') content = 'x' * 15000 result = internal_prep_private_message( realm=realm, sender=sender, recipient_user=recipient_user, content=content) message = result['message'] self.assertIn('message was too long', message.content) with self.assertRaises(RuntimeError): internal_prep_private_message( realm=None, # should cause error sender=sender, recipient_user=recipient_user, content=content) # Simulate sending a message to somebody not in the # realm of the sender. recipient_user = self.mit_user('starnine') with mock.patch('logging.exception') as logging_mock: result = internal_prep_private_message( realm=realm, sender=sender, recipient_user=recipient_user, content=content) arg = logging_mock.call_args_list[0][0][0] prefix = "Error queueing internal message by cordelia@zulip.com: You can't send private messages outside of your organization." self.assertTrue(arg.startswith(prefix)) def test_ensure_stream_gets_called(self) -> None: realm = get_realm('zulip') sender = self.example_user('cordelia') stream_name = 'test_stream' topic = 'whatever' content = 'hello' internal_prep_stream_message_by_name( realm=realm, sender=sender, stream_name=stream_name, topic=topic, content=content) # This would throw an error if the stream # wasn't automatically created. Stream.objects.get(name=stream_name, realm_id=realm.id) class ExtractedRecipientsTest(TestCase): def test_extract_recipients_emails(self) -> None: # JSON list w/dups, empties, and trailing whitespace s = ujson.dumps([' alice@zulip.com ', ' bob@zulip.com ', ' ', 'bob@zulip.com']) # sorted() gets confused by extract_recipients' return type # For testing, ignorance here is better than manual casting result = sorted(extract_recipients(s)) # type: ignore self.assertEqual(result, ['alice@zulip.com', 'bob@zulip.com']) # simple string with one name s = 'alice@zulip.com ' self.assertEqual(extract_recipients(s), ['alice@zulip.com']) # JSON-encoded string s = '"alice@zulip.com"' self.assertEqual(extract_recipients(s), ['alice@zulip.com']) # bare comma-delimited string s = 'bob@zulip.com, alice@zulip.com' result = sorted(extract_recipients(s)) # type: ignore self.assertEqual(result, ['alice@zulip.com', 'bob@zulip.com']) # JSON-encoded, comma-delimited string s = '"bob@zulip.com,alice@zulip.com"' result = sorted(extract_recipients(s)) # type: ignore self.assertEqual(result, ['alice@zulip.com', 'bob@zulip.com']) # Invalid data s = ujson.dumps(dict(color='red')) with self.assertRaisesRegex(ValueError, 'Invalid data type for recipients'): extract_recipients(s) # Empty list self.assertEqual(extract_recipients([]), []) # Heterogeneous lists are not supported mixed = ujson.dumps(['eeshan@example.com', 3, 4]) with self.assertRaisesRegex(TypeError, 'Recipient lists may contain emails or user IDs, but not both.'): extract_recipients(mixed) def test_extract_recipient_ids(self) -> None: # JSON list w/dups s = ujson.dumps([3, 3, 12]) result = sorted(extract_recipients(s)) # type: ignore self.assertEqual(result, [3, 12]) # Invalid data ids = ujson.dumps(dict(recipient=12)) with self.assertRaisesRegex(ValueError, 'Invalid data type for recipients'): extract_recipients(ids) # Heterogeneous lists are not supported mixed = ujson.dumps([3, 4, 'eeshan@example.com']) with self.assertRaisesRegex(TypeError, 'Recipient lists may contain emails or user IDs, but not both.'): extract_recipients(mixed) class PersonalMessagesTest(ZulipTestCase): def test_near_pm_message_url(self) -> None: realm = get_realm('zulip') message = dict( type='personal', id=555, display_recipient=[ dict(id=77), dict(id=80), ], ) url = near_message_url( realm=realm, message=message, ) self.assertEqual(url, 'http://zulip.testserver/#narrow/pm-with/77,80-pm/near/555') def test_is_private_flag_not_leaked(self) -> None: """ Make sure `is_private` flag is not leaked to the API. """ self.login(self.example_email("hamlet")) self.send_personal_message(self.example_email("hamlet"), self.example_email("cordelia"), "test") for msg in self.get_messages(): self.assertNotIn('is_private', msg['flags']) def test_auto_subbed_to_personals(self) -> None: """ Newly created users are auto-subbed to the ability to receive personals. """ test_email = self.nonreg_email('test') self.register(test_email, "test") user_profile = self.nonreg_user('test') old_messages_count = message_stream_count(user_profile) self.send_personal_message(test_email, test_email) new_messages_count = message_stream_count(user_profile) self.assertEqual(new_messages_count, old_messages_count + 1) recipient = Recipient.objects.get(type_id=user_profile.id, type=Recipient.PERSONAL) message = most_recent_message(user_profile) self.assertEqual(message.recipient, recipient) with mock.patch('zerver.models.get_display_recipient', return_value='recip'): self.assertEqual(str(message), '>>') user_message = most_recent_usermessage(user_profile) self.assertEqual(str(user_message), '' ) @slow("checks several profiles") def test_personal_to_self(self) -> None: """ If you send a personal to yourself, only you see it. """ old_user_profiles = list(UserProfile.objects.all()) test_email = self.nonreg_email('test1') self.register(test_email, "test1") old_messages = [] for user_profile in old_user_profiles: old_messages.append(message_stream_count(user_profile)) self.send_personal_message(test_email, test_email) new_messages = [] for user_profile in old_user_profiles: new_messages.append(message_stream_count(user_profile)) self.assertEqual(old_messages, new_messages) user_profile = self.nonreg_user('test1') recipient = Recipient.objects.get(type_id=user_profile.id, type=Recipient.PERSONAL) self.assertEqual(most_recent_message(user_profile).recipient, recipient) def assert_personal(self, sender_email: str, receiver_email: str, content: str="testcontent") -> None: """ Send a private message from `sender_email` to `receiver_email` and check that only those two parties actually received the message. """ realm = get_realm('zulip') # Assume realm is always 'zulip' sender = get_user(sender_email, realm) receiver = get_user(receiver_email, realm) sender_messages = message_stream_count(sender) receiver_messages = message_stream_count(receiver) other_user_profiles = UserProfile.objects.filter(~Q(email=sender_email) & ~Q(email=receiver_email)) old_other_messages = [] for user_profile in other_user_profiles: old_other_messages.append(message_stream_count(user_profile)) self.send_personal_message(sender_email, receiver_email, content) # Users outside the conversation don't get the message. new_other_messages = [] for user_profile in other_user_profiles: new_other_messages.append(message_stream_count(user_profile)) self.assertEqual(old_other_messages, new_other_messages) # The personal message is in the streams of both the sender and receiver. self.assertEqual(message_stream_count(sender), sender_messages + 1) self.assertEqual(message_stream_count(receiver), receiver_messages + 1) recipient = Recipient.objects.get(type_id=receiver.id, type=Recipient.PERSONAL) self.assertEqual(most_recent_message(sender).recipient, recipient) self.assertEqual(most_recent_message(receiver).recipient, recipient) def test_personal(self) -> None: """ If you send a personal, only you and the recipient see it. """ self.login(self.example_email("hamlet")) self.assert_personal(self.example_email("hamlet"), self.example_email("othello")) def test_non_ascii_personal(self) -> None: """ Sending a PM containing non-ASCII characters succeeds. """ self.login(self.example_email("hamlet")) self.assert_personal(self.example_email("hamlet"), self.example_email("othello"), u"hümbüǵ") class StreamMessagesTest(ZulipTestCase): def assert_stream_message(self, stream_name: str, topic_name: str="test topic", content: str="test content") -> None: """ Check that messages sent to a stream reach all subscribers to that stream. """ realm = get_realm('zulip') subscribers = self.users_subscribed_to_stream(stream_name, realm) # Outgoing webhook bots don't store UserMessage rows; they will be processed later. subscribers = [subscriber for subscriber in subscribers if subscriber.bot_type != UserProfile.OUTGOING_WEBHOOK_BOT] old_subscriber_messages = [] for subscriber in subscribers: old_subscriber_messages.append(message_stream_count(subscriber)) non_subscribers = [user_profile for user_profile in UserProfile.objects.all() if user_profile not in subscribers] old_non_subscriber_messages = [] for non_subscriber in non_subscribers: old_non_subscriber_messages.append(message_stream_count(non_subscriber)) non_bot_subscribers = [user_profile for user_profile in subscribers if not user_profile.is_bot] a_subscriber_email = non_bot_subscribers[0].email self.login(a_subscriber_email) self.send_stream_message(a_subscriber_email, stream_name, content=content, topic_name=topic_name) # Did all of the subscribers get the message? new_subscriber_messages = [] for subscriber in subscribers: new_subscriber_messages.append(message_stream_count(subscriber)) # Did non-subscribers not get the message? new_non_subscriber_messages = [] for non_subscriber in non_subscribers: new_non_subscriber_messages.append(message_stream_count(non_subscriber)) self.assertEqual(old_non_subscriber_messages, new_non_subscriber_messages) self.assertEqual(new_subscriber_messages, [elt + 1 for elt in old_subscriber_messages]) def test_performance(self) -> None: ''' This test is part of the automated test suite, but it is more intended as an aid to measuring the performance of do_send_messages() with consistent data setup across different commits. You can modify the values below and run just this test, and then comment out the print statement toward the bottom. ''' num_messages = 2 num_extra_users = 10 sender = self.example_user('cordelia') realm = sender.realm message_content = 'whatever' stream = get_stream('Denmark', realm) topic_name = 'lunch' recipient = get_stream_recipient(stream.id) sending_client = make_client(name="test suite") for i in range(num_extra_users): # Make every other user be idle. long_term_idle = i % 2 > 0 email = 'foo%d@example.com' % (i,) user = UserProfile.objects.create( realm=realm, email=email, pointer=0, long_term_idle=long_term_idle, ) Subscription.objects.create( user_profile=user, recipient=recipient ) def send_test_message() -> None: message = Message( sender=sender, recipient=recipient, content=message_content, pub_date=timezone_now(), sending_client=sending_client, ) message.set_topic_name(topic_name) do_send_messages([dict(message=message)]) before_um_count = UserMessage.objects.count() t = time.time() for i in range(num_messages): send_test_message() delay = time.time() - t assert(delay) # quiet down lint # print(delay) after_um_count = UserMessage.objects.count() ums_created = after_um_count - before_um_count num_active_users = num_extra_users / 2 self.assertTrue(ums_created > (num_active_users * num_messages)) def test_not_too_many_queries(self) -> None: recipient_list = [self.example_user("hamlet"), self.example_user("iago"), self.example_user("cordelia"), self.example_user("othello")] for user_profile in recipient_list: self.subscribe(user_profile, "Denmark") sender = self.example_user('hamlet') sending_client = make_client(name="test suite") stream_name = 'Denmark' topic_name = 'foo' content = 'whatever' realm = sender.realm # To get accurate count of the queries, we should make sure that # caches don't come into play. If we count queries while caches are # filled, we will get a lower count. Caches are not supposed to be # persistent, so our test can also fail if cache is invalidated # during the course of the unit test. flush_per_request_caches() cache_delete(get_stream_cache_key(stream_name, realm.id)) with queries_captured() as queries: check_send_stream_message( sender=sender, client=sending_client, stream_name=stream_name, topic=topic_name, body=content, ) self.assert_length(queries, 14) def test_stream_message_dict(self) -> None: user_profile = self.example_user('iago') self.subscribe(user_profile, "Denmark") self.send_stream_message(self.example_email("hamlet"), "Denmark", content="whatever", topic_name="my topic") message = most_recent_message(user_profile) row = MessageDict.get_raw_db_rows([message.id])[0] dct = MessageDict.build_dict_from_raw_db_row(row) MessageDict.post_process_dicts([dct], apply_markdown=True, client_gravatar=False) self.assertEqual(dct['display_recipient'], 'Denmark') stream = get_stream('Denmark', user_profile.realm) self.assertEqual(dct['stream_id'], stream.id) def test_stream_message_unicode(self) -> None: user_profile = self.example_user('iago') self.subscribe(user_profile, "Denmark") self.send_stream_message(self.example_email("hamlet"), "Denmark", content="whatever", topic_name="my topic") message = most_recent_message(user_profile) self.assertEqual(str(message), u'>>') def test_message_mentions(self) -> None: user_profile = self.example_user('iago') self.subscribe(user_profile, "Denmark") self.send_stream_message(self.example_email("hamlet"), "Denmark", content="test @**Iago** rules") message = most_recent_message(user_profile) assert(UserMessage.objects.get(user_profile=user_profile, message=message).flags.mentioned.is_set) def test_is_private_flag(self) -> None: user_profile = self.example_user('iago') self.subscribe(user_profile, "Denmark") self.send_stream_message(self.example_email("hamlet"), "Denmark", content="test") message = most_recent_message(user_profile) self.assertFalse(UserMessage.objects.get(user_profile=user_profile, message=message).flags.is_private.is_set) self.send_personal_message(self.example_email("hamlet"), user_profile.email, content="test") message = most_recent_message(user_profile) self.assertTrue(UserMessage.objects.get(user_profile=user_profile, message=message).flags.is_private.is_set) def _send_stream_message(self, email: str, stream_name: str, content: str) -> Set[int]: with mock.patch('zerver.lib.actions.send_event') as m: self.send_stream_message( email, stream_name, content=content ) self.assertEqual(m.call_count, 1) users = m.call_args[0][2] user_ids = {u['id'] for u in users} return user_ids def test_unsub_mention(self) -> None: cordelia = self.example_user('cordelia') hamlet = self.example_user('hamlet') stream_name = 'Test Stream' self.subscribe(hamlet, stream_name) UserMessage.objects.filter( user_profile=cordelia ).delete() def mention_cordelia() -> Set[int]: content = 'test @**Cordelia Lear** rules' user_ids = self._send_stream_message( email=hamlet.email, stream_name=stream_name, content=content ) return user_ids def num_cordelia_messages() -> int: return UserMessage.objects.filter( user_profile=cordelia ).count() user_ids = mention_cordelia() self.assertEqual(0, num_cordelia_messages()) self.assertNotIn(cordelia.id, user_ids) # Make sure test isn't too brittle-subscribing # Cordelia and mentioning her should give her a # message. self.subscribe(cordelia, stream_name) user_ids = mention_cordelia() self.assertIn(cordelia.id, user_ids) self.assertEqual(1, num_cordelia_messages()) def test_message_bot_mentions(self) -> None: cordelia = self.example_user('cordelia') hamlet = self.example_user('hamlet') realm = hamlet.realm stream_name = 'Test Stream' self.subscribe(hamlet, stream_name) normal_bot = do_create_user( email='normal-bot@zulip.com', password='', realm=realm, full_name='Normal Bot', short_name='', bot_type=UserProfile.DEFAULT_BOT, bot_owner=cordelia, ) content = 'test @**Normal Bot** rules' user_ids = self._send_stream_message( email=hamlet.email, stream_name=stream_name, content=content ) self.assertIn(normal_bot.id, user_ids) user_message = most_recent_usermessage(normal_bot) self.assertEqual(user_message.message.content, content) self.assertTrue(user_message.flags.mentioned) def test_stream_message_mirroring(self) -> None: from zerver.lib.actions import do_change_is_admin user_profile = self.example_user('iago') email = user_profile.email do_change_is_admin(user_profile, True, 'api_super_user') result = self.api_post(email, "/api/v1/messages", {"type": "stream", "to": "Verona", "sender": self.example_email("cordelia"), "client": "test suite", "topic": "announcement", "content": "Everyone knows Iago rules", "forged": "true"}) self.assert_json_success(result) do_change_is_admin(user_profile, False, 'api_super_user') result = self.api_post(email, "/api/v1/messages", {"type": "stream", "to": "Verona", "sender": self.example_email("cordelia"), "client": "test suite", "topic": "announcement", "content": "Everyone knows Iago rules", "forged": "true"}) self.assert_json_error(result, "User not authorized for this query") def test_message_to_stream(self) -> None: """ If you send a message to a stream, everyone subscribed to the stream receives the messages. """ self.assert_stream_message("Scotland") def test_non_ascii_stream_message(self) -> None: """ Sending a stream message containing non-ASCII characters in the stream name, topic, or message body succeeds. """ self.login(self.example_email("hamlet")) # Subscribe everyone to a stream with non-ASCII characters. non_ascii_stream_name = u"hümbüǵ" realm = get_realm("zulip") stream = self.make_stream(non_ascii_stream_name) for user_profile in UserProfile.objects.filter(is_active=True, is_bot=False, realm=realm)[0:3]: self.subscribe(user_profile, stream.name) self.assert_stream_message(non_ascii_stream_name, topic_name=u"hümbüǵ", content=u"hümbüǵ") def test_get_raw_unread_data_for_huddle_messages(self) -> None: users = [ self.example_user('hamlet'), self.example_user('cordelia'), self.example_user('iago'), self.example_user('prospero'), self.example_user('othello'), ] message1_id = self.send_huddle_message(users[0].email, [user.email for user in users], "test content 1") message2_id = self.send_huddle_message(users[0].email, [user.email for user in users], "test content 2") msg_data = get_raw_unread_data(users[1]) # both the messages are present in msg_data self.assertIn(message1_id, msg_data["huddle_dict"].keys()) self.assertIn(message2_id, msg_data["huddle_dict"].keys()) # only these two messages are present in msg_data self.assertEqual(len(msg_data["huddle_dict"].keys()), 2) recent_conversations = get_recent_private_conversations(users[1]) self.assertEqual(len(recent_conversations), 1) recent_conversation = list(recent_conversations.values())[0] self.assertEqual(set(recent_conversation['user_ids']), set(user.id for user in users if user != users[1])) self.assertEqual(recent_conversation['max_message_id'], message2_id) class MessageDictTest(ZulipTestCase): @slow('builds lots of messages') def test_bulk_message_fetching(self) -> None: sender = self.example_user('othello') receiver = self.example_user('hamlet') pm_recipient = Recipient.objects.get(type_id=receiver.id, type=Recipient.PERSONAL) stream_name = u'Çiğdem' stream = self.make_stream(stream_name) stream_recipient = Recipient.objects.get(type_id=stream.id, type=Recipient.STREAM) sending_client = make_client(name="test suite") ids = [] for i in range(300): for recipient in [pm_recipient, stream_recipient]: message = Message( sender=sender, recipient=recipient, content='whatever %d' % (i,), rendered_content='DOES NOT MATTER', rendered_content_version=bugdown.version, pub_date=timezone_now(), sending_client=sending_client, last_edit_time=timezone_now(), edit_history='[]' ) message.set_topic_name('whatever') message.save() ids.append(message.id) Reaction.objects.create(user_profile=sender, message=message, emoji_name='simple_smile') num_ids = len(ids) self.assertTrue(num_ids >= 600) flush_per_request_caches() t = time.time() with queries_captured() as queries: rows = list(MessageDict.get_raw_db_rows(ids)) objs = [ MessageDict.build_dict_from_raw_db_row(row) for row in rows ] MessageDict.post_process_dicts(objs, apply_markdown=False, client_gravatar=False) delay = time.time() - t # Make sure we don't take longer than 1.5ms per message to # extract messages. Note that we increased this from 1ms to # 1.5ms to handle tests running in parallel being a bit # slower. error_msg = "Number of ids: {}. Time delay: {}".format(num_ids, delay) self.assertTrue(delay < 0.0015 * num_ids, error_msg) self.assert_length(queries, 7) self.assertEqual(len(rows), num_ids) def test_applying_markdown(self) -> None: sender = self.example_user('othello') receiver = self.example_user('hamlet') recipient = Recipient.objects.get(type_id=receiver.id, type=Recipient.PERSONAL) sending_client = make_client(name="test suite") message = Message( sender=sender, recipient=recipient, content='hello **world**', pub_date=timezone_now(), sending_client=sending_client, last_edit_time=timezone_now(), edit_history='[]' ) message.set_topic_name('whatever') message.save() # An important part of this test is to get the message through this exact code path, # because there is an ugly hack we need to cover. So don't just say "row = message". row = MessageDict.get_raw_db_rows([message.id])[0] dct = MessageDict.build_dict_from_raw_db_row(row) expected_content = '

hello world

' self.assertEqual(dct['rendered_content'], expected_content) message = Message.objects.get(id=message.id) self.assertEqual(message.rendered_content, expected_content) self.assertEqual(message.rendered_content_version, bugdown.version) @mock.patch("zerver.lib.message.bugdown.convert") def test_applying_markdown_invalid_format(self, convert_mock: Any) -> None: # pretend the converter returned an invalid message without raising an exception convert_mock.return_value = None sender = self.example_user('othello') receiver = self.example_user('hamlet') recipient = Recipient.objects.get(type_id=receiver.id, type=Recipient.PERSONAL) sending_client = make_client(name="test suite") message = Message( sender=sender, recipient=recipient, content='hello **world**', pub_date=timezone_now(), sending_client=sending_client, last_edit_time=timezone_now(), edit_history='[]' ) message.set_topic_name('whatever') message.save() # An important part of this test is to get the message through this exact code path, # because there is an ugly hack we need to cover. So don't just say "row = message". row = MessageDict.get_raw_db_rows([message.id])[0] dct = MessageDict.build_dict_from_raw_db_row(row) error_content = '

[Zulip note: Sorry, we could not understand the formatting of your message]

' self.assertEqual(dct['rendered_content'], error_content) def test_reaction(self) -> None: sender = self.example_user('othello') receiver = self.example_user('hamlet') recipient = Recipient.objects.get(type_id=receiver.id, type=Recipient.PERSONAL) sending_client = make_client(name="test suite") message = Message( sender=sender, recipient=recipient, content='hello **world**', pub_date=timezone_now(), sending_client=sending_client, last_edit_time=timezone_now(), edit_history='[]' ) message.set_topic_name('whatever') message.save() reaction = Reaction.objects.create( message=message, user_profile=sender, emoji_name='simple_smile') row = MessageDict.get_raw_db_rows([message.id])[0] msg_dict = MessageDict.build_dict_from_raw_db_row(row) self.assertEqual(msg_dict['reactions'][0]['emoji_name'], reaction.emoji_name) self.assertEqual(msg_dict['reactions'][0]['user']['id'], sender.id) self.assertEqual(msg_dict['reactions'][0]['user']['email'], sender.email) self.assertEqual(msg_dict['reactions'][0]['user']['full_name'], sender.full_name) def test_missing_anchor(self) -> None: self.login(self.example_email("hamlet")) result = self.client_get( '/json/messages?use_first_unread_anchor=false&num_before=1&num_after=1') self.assert_json_error( result, "Missing 'anchor' argument (or set 'use_first_unread_anchor'=True).") class SewMessageAndReactionTest(ZulipTestCase): def test_sew_messages_and_reaction(self) -> None: sender = self.example_user('othello') receiver = self.example_user('hamlet') pm_recipient = Recipient.objects.get(type_id=receiver.id, type=Recipient.PERSONAL) stream_name = u'Çiğdem' stream = self.make_stream(stream_name) stream_recipient = Recipient.objects.get(type_id=stream.id, type=Recipient.STREAM) sending_client = make_client(name="test suite") needed_ids = [] for i in range(5): for recipient in [pm_recipient, stream_recipient]: message = Message( sender=sender, recipient=recipient, content='whatever %d' % (i,), pub_date=timezone_now(), sending_client=sending_client, last_edit_time=timezone_now(), edit_history='[]' ) message.set_topic_name('whatever') message.save() needed_ids.append(message.id) reaction = Reaction(user_profile=sender, message=message, emoji_name='simple_smile') reaction.save() messages = Message.objects.filter(id__in=needed_ids).values( *['id', 'content']) reactions = Reaction.get_raw_db_rows(needed_ids) tied_data = sew_messages_and_reactions(messages, reactions) for data in tied_data: self.assertEqual(len(data['reactions']), 1) self.assertEqual(data['reactions'][0]['emoji_name'], 'simple_smile') self.assertTrue(data['id']) self.assertTrue(data['content']) class MessagePOSTTest(ZulipTestCase): def test_message_to_self(self) -> None: """ Sending a message to a stream to which you are subscribed is successful. """ self.login(self.example_email("hamlet")) result = self.client_post("/json/messages", {"type": "stream", "to": "Verona", "client": "test suite", "content": "Test message", "topic": "Test topic"}) self.assert_json_success(result) def test_api_message_to_self(self) -> None: """ Same as above, but for the API view """ email = self.example_email("hamlet") result = self.api_post(email, "/api/v1/messages", {"type": "stream", "to": "Verona", "client": "test suite", "content": "Test message", "topic": "Test topic"}) self.assert_json_success(result) def test_message_to_stream_with_nonexistent_id(self) -> None: cordelia = self.example_user('cordelia') bot = self.create_test_bot( short_name='whatever', user_profile=cordelia, ) result = self.api_post( bot.email, "/api/v1/messages", { "type": "stream", "to": ujson.dumps([99999]), "client": "test suite", "content": "Stream message by ID.", "topic": "Test topic for stream ID message" } ) self.assert_json_error(result, "Stream with ID '99999' does not exist") msg = self.get_last_message() expected = ("Hi there! We thought you'd like to know that your bot **{sender}** just " "tried to send a message to stream {stream_info}, but that stream does not " "yet exist. To create it, click the gear in the left-side stream list.") expected = expected.format(sender=bot.full_name, stream_info='with ID 99999') self.assertEqual(msg.content, expected) def test_message_to_stream_by_id(self) -> None: """ Sending a message to a stream (by stream ID) to which you are subscribed is successful. """ self.login(self.example_email("hamlet")) realm = get_realm('zulip') stream = get_stream('Verona', realm) result = self.client_post("/json/messages", {"type": "stream", "to": ujson.dumps([stream.id]), "client": "test suite", "content": "Stream message by ID.", "topic": "Test topic for stream ID message"}) self.assert_json_success(result) sent_message = self.get_last_message() self.assertEqual(sent_message.content, "Stream message by ID.") def test_message_to_announce(self) -> None: """ Sending a message to an announcement_only stream by a realm admin successful. """ user_profile = self.example_user("iago") self.login(user_profile.email) stream_name = "Verona" stream = get_stream(stream_name, user_profile.realm) stream.is_announcement_only = True stream.save() result = self.client_post("/json/messages", {"type": "stream", "to": stream_name, "client": "test suite", "content": "Test message", "topic": "Test topic"}) self.assert_json_success(result) # Cross realm bots should be allowed. notification_bot = get_system_bot("notification-bot@zulip.com") result = self.api_post(notification_bot.email, "/api/v1/messages", {"type": "stream", "to": stream_name, "client": "test suite", "content": "Test message", "topic": "Test topic"}) self.assert_json_success(result) admin_owned_bot = self.create_test_bot( short_name='whatever', user_profile=user_profile, ) result = self.api_post(admin_owned_bot.email, "/api/v1/messages", {"type": "stream", "to": stream_name, "client": "test suite", "content": "Test message", "topic": "Test topic"}) self.assert_json_success(result) def test_message_fail_to_announce(self) -> None: """ Sending a message to an announcement_only stream not by a realm admin fails. """ user_profile = self.example_user("hamlet") self.login(user_profile.email) stream_name = "Verona" stream = get_stream(stream_name, user_profile.realm) stream.is_announcement_only = True stream.save() result = self.client_post("/json/messages", {"type": "stream", "to": stream_name, "client": "test suite", "content": "Test message", "topic": "Test topic"}) self.assert_json_error(result, "Only organization administrators can send to this stream.") # Non admin owned bot fail to send to announcement only stream non_admin_owned_bot = self.create_test_bot( short_name='whatever', user_profile=user_profile, ) result = self.api_post(non_admin_owned_bot.email, "/api/v1/messages", {"type": "stream", "to": stream_name, "client": "test suite", "content": "Test message", "topic": "Test topic"}) self.assert_json_error(result, "Only organization administrators can send to this stream.") # Bots without owner (except cross realm bot) fail to send to announcement only stream bot_without_owner = do_create_user( email='free-bot@zulip.testserver', password='', realm=user_profile.realm, full_name='freebot', short_name='freebot', bot_type=UserProfile.DEFAULT_BOT, ) result = self.api_post(bot_without_owner.email, "/api/v1/messages", {"type": "stream", "to": stream_name, "client": "test suite", "content": "Test message", "topic": "Test topic"}) self.assert_json_error(result, "Only organization administrators can send to this stream.") def test_api_message_with_default_to(self) -> None: """ Sending messages without a to field should be sent to the default stream for the user_profile. """ user_profile = self.example_user('hamlet') email = user_profile.email user_profile.default_sending_stream_id = get_stream('Verona', user_profile.realm).id user_profile.save() result = self.api_post(email, "/api/v1/messages", {"type": "stream", "client": "test suite", "content": "Test message no to", "topic": "Test topic"}) self.assert_json_success(result) sent_message = self.get_last_message() self.assertEqual(sent_message.content, "Test message no to") def test_message_to_nonexistent_stream(self) -> None: """ Sending a message to a nonexistent stream fails. """ self.login(self.example_email("hamlet")) self.assertFalse(Stream.objects.filter(name="nonexistent_stream")) result = self.client_post("/json/messages", {"type": "stream", "to": "nonexistent_stream", "client": "test suite", "content": "Test message", "topic": "Test topic"}) self.assert_json_error(result, "Stream 'nonexistent_stream' does not exist") def test_message_to_nonexistent_stream_with_bad_characters(self) -> None: """ Nonexistent stream name with bad characters should be escaped properly. """ self.login(self.example_email("hamlet")) self.assertFalse(Stream.objects.filter(name="""&<"'>""")) result = self.client_post("/json/messages", {"type": "stream", "to": """&<"'>""", "client": "test suite", "content": "Test message", "topic": "Test topic"}) self.assert_json_error(result, "Stream '&<"'><non-existent>' does not exist") def test_personal_message(self) -> None: """ Sending a personal message to a valid username is successful. """ user_profile = self.example_user("hamlet") self.login(user_profile.email) result = self.client_post("/json/messages", {"type": "private", "content": "Test message", "client": "test suite", "to": self.example_email("othello")}) self.assert_json_success(result) message_id = ujson.loads(result.content.decode())['id'] recent_conversations = get_recent_private_conversations(user_profile) self.assertEqual(len(recent_conversations), 1) recent_conversation = list(recent_conversations.values())[0] recipient_id = list(recent_conversations.keys())[0] self.assertEqual(set(recent_conversation['user_ids']), set([self.example_user("othello").id])) self.assertEqual(recent_conversation['max_message_id'], message_id) # Now send a message to yourself and see how that interacts with the data structure result = self.client_post("/json/messages", {"type": "private", "content": "Test message", "client": "test suite", "to": self.example_email("hamlet")}) self.assert_json_success(result) self_message_id = ujson.loads(result.content.decode())['id'] recent_conversations = get_recent_private_conversations(user_profile) self.assertEqual(len(recent_conversations), 2) recent_conversation = recent_conversations[recipient_id] self.assertEqual(set(recent_conversation['user_ids']), set([self.example_user("othello").id])) self.assertEqual(recent_conversation['max_message_id'], message_id) # Now verify we have the appropriate self-pm data structure del recent_conversations[recipient_id] recent_conversation = list(recent_conversations.values())[0] recipient_id = list(recent_conversations.keys())[0] self.assertEqual(set(recent_conversation['user_ids']), set([])) self.assertEqual(recent_conversation['max_message_id'], self_message_id) def test_personal_message_by_id(self) -> None: """ Sending a personal message to a valid user ID is successful. """ self.login(self.example_email("hamlet")) result = self.client_post( "/json/messages", { "type": "private", "content": "Test message", "client": "test suite", "to": ujson.dumps([self.example_user("othello").id]) } ) self.assert_json_success(result) msg = self.get_last_message() self.assertEqual("Test message", msg.content) self.assertEqual(msg.recipient_id, self.example_user("othello").id) def test_group_personal_message_by_id(self) -> None: """ Sending a personal message to a valid user ID is successful. """ self.login(self.example_email("hamlet")) result = self.client_post( "/json/messages", { "type": "private", "content": "Test message", "client": "test suite", "to": ujson.dumps([self.example_user("othello").id, self.example_user("cordelia").id]) } ) self.assert_json_success(result) msg = self.get_last_message() self.assertEqual("Test message", msg.content) self.assertEqual(msg.recipient_id, get_huddle_recipient( {self.example_user("hamlet").id, self.example_user("othello").id, self.example_user("cordelia").id}).id ) def test_personal_message_copying_self(self) -> None: """ Sending a personal message to yourself plus another user is successful, and counts as a message just to that user. """ self.login(self.example_email("hamlet")) result = self.client_post("/json/messages", { "type": "private", "content": "Test message", "client": "test suite", "to": ujson.dumps([self.example_email("othello"), self.example_email("hamlet")])}) self.assert_json_success(result) msg = self.get_last_message() # Verify that we're not actually on the "recipient list" self.assertNotIn("Hamlet", str(msg.recipient)) def test_personal_message_to_nonexistent_user(self) -> None: """ Sending a personal message to an invalid email returns error JSON. """ self.login(self.example_email("hamlet")) result = self.client_post("/json/messages", {"type": "private", "content": "Test message", "client": "test suite", "to": "nonexistent"}) self.assert_json_error(result, "Invalid email 'nonexistent'") def test_personal_message_to_deactivated_user(self) -> None: """ Sending a personal message to a deactivated user returns error JSON. """ target_user_profile = self.example_user("othello") do_deactivate_user(target_user_profile) self.login(self.example_email("hamlet")) result = self.client_post("/json/messages", { "type": "private", "content": "Test message", "client": "test suite", "to": self.example_email("othello")}) self.assert_json_error(result, "'othello@zulip.com' is no longer using Zulip.") result = self.client_post("/json/messages", { "type": "private", "content": "Test message", "client": "test suite", "to": ujson.dumps([self.example_email("othello"), self.example_email("cordelia")])}) self.assert_json_error(result, "'othello@zulip.com' is no longer using Zulip.") def test_invalid_type(self) -> None: """ Sending a message of unknown type returns error JSON. """ self.login(self.example_email("hamlet")) result = self.client_post("/json/messages", {"type": "invalid type", "content": "Test message", "client": "test suite", "to": self.example_email("othello")}) self.assert_json_error(result, "Invalid message type") def test_empty_message(self) -> None: """ Sending a message that is empty or only whitespace should fail """ self.login(self.example_email("hamlet")) result = self.client_post("/json/messages", {"type": "private", "content": " ", "client": "test suite", "to": self.example_email("othello")}) self.assert_json_error(result, "Message must not be empty") def test_empty_string_topic(self) -> None: """ Sending a message that has empty string topic should fail """ self.login(self.example_email("hamlet")) result = self.client_post("/json/messages", {"type": "stream", "to": "Verona", "client": "test suite", "content": "Test message", "topic": ""}) self.assert_json_error(result, "Topic can't be empty") def test_missing_topic(self) -> None: """ Sending a message without topic should fail """ self.login(self.example_email("hamlet")) result = self.client_post("/json/messages", {"type": "stream", "to": "Verona", "client": "test suite", "content": "Test message"}) self.assert_json_error(result, "Missing topic") def test_invalid_message_type(self) -> None: """ Messages other than the type of "private" or "stream" are considered as invalid """ self.login(self.example_email("hamlet")) result = self.client_post("/json/messages", {"type": "invalid", "to": "Verona", "client": "test suite", "content": "Test message", "topic": "Test topic"}) self.assert_json_error(result, "Invalid message type") def test_private_message_without_recipients(self) -> None: """ Sending private message without recipients should fail """ self.login(self.example_email("hamlet")) result = self.client_post("/json/messages", {"type": "private", "content": "Test content", "client": "test suite", "to": ""}) self.assert_json_error(result, "Message must have recipients") def test_mirrored_huddle(self) -> None: """ Sending a mirrored huddle message works """ self.login(self.mit_email("starnine"), realm=get_realm("zephyr")) result = self.client_post("/json/messages", {"type": "private", "sender": self.mit_email("sipbtest"), "content": "Test message", "client": "zephyr_mirror", "to": ujson.dumps([self.mit_email("starnine"), self.mit_email("espuser")])}, subdomain="zephyr") self.assert_json_success(result) def test_mirrored_personal(self) -> None: """ Sending a mirrored personal message works """ self.login(self.mit_email("starnine"), realm=get_realm("zephyr")) result = self.client_post("/json/messages", {"type": "private", "sender": self.mit_email("sipbtest"), "content": "Test message", "client": "zephyr_mirror", "to": self.mit_email("starnine")}, subdomain="zephyr") self.assert_json_success(result) def test_mirrored_personal_to_someone_else(self) -> None: """ Sending a mirrored personal message to someone else is not allowed. """ self.login(self.mit_email("starnine"), realm=get_realm("zephyr")) result = self.client_post("/json/messages", {"type": "private", "sender": self.mit_email("sipbtest"), "content": "Test message", "client": "zephyr_mirror", "to": self.mit_email("espuser")}, subdomain="zephyr") self.assert_json_error(result, "User not authorized for this query") def test_duplicated_mirrored_huddle(self) -> None: """ Sending two mirrored huddles in the row return the same ID """ msg = {"type": "private", "sender": self.mit_email("sipbtest"), "content": "Test message", "client": "zephyr_mirror", "to": ujson.dumps([self.mit_email("espuser"), self.mit_email("starnine")])} with mock.patch('DNS.dnslookup', return_value=[['starnine:*:84233:101:Athena Consulting Exchange User,,,:/mit/starnine:/bin/bash']]): self.login(self.mit_email("starnine"), realm=get_realm("zephyr")) result1 = self.client_post("/json/messages", msg, subdomain="zephyr") with mock.patch('DNS.dnslookup', return_value=[['espuser:*:95494:101:Esp Classroom,,,:/mit/espuser:/bin/athena/bash']]): self.login(self.mit_email("espuser"), realm=get_realm("zephyr")) result2 = self.client_post("/json/messages", msg, subdomain="zephyr") self.assertEqual(ujson.loads(result1.content)['id'], ujson.loads(result2.content)['id']) def test_message_with_null_bytes(self) -> None: """ A message with null bytes in it is handled. """ self.login(self.example_email("hamlet")) post_data = {"type": "stream", "to": "Verona", "client": "test suite", "content": u" I like null bytes \x00 in my content", "topic": "Test topic"} result = self.client_post("/json/messages", post_data) self.assert_json_error(result, "Message must not contain null bytes") def test_strip_message(self) -> None: """ A message with mixed whitespace at the end is cleaned up. """ self.login(self.example_email("hamlet")) post_data = {"type": "stream", "to": "Verona", "client": "test suite", "content": " I like whitespace at the end! \n\n \n", "topic": "Test topic"} result = self.client_post("/json/messages", post_data) self.assert_json_success(result) sent_message = self.get_last_message() self.assertEqual(sent_message.content, " I like whitespace at the end!") def test_long_message(self) -> None: """ Sending a message longer than the maximum message length succeeds but is truncated. """ self.login(self.example_email("hamlet")) long_message = "A" * (MAX_MESSAGE_LENGTH + 1) post_data = {"type": "stream", "to": "Verona", "client": "test suite", "content": long_message, "topic": "Test topic"} result = self.client_post("/json/messages", post_data) self.assert_json_success(result) sent_message = self.get_last_message() self.assertEqual(sent_message.content, "A" * (MAX_MESSAGE_LENGTH - 20) + "\n[message truncated]") def test_long_topic(self) -> None: """ Sending a message with a topic longer than the maximum topic length succeeds, but the topic is truncated. """ self.login(self.example_email("hamlet")) long_topic = "A" * (MAX_TOPIC_NAME_LENGTH + 1) post_data = {"type": "stream", "to": "Verona", "client": "test suite", "content": "test content", "topic": long_topic} result = self.client_post("/json/messages", post_data) self.assert_json_success(result) sent_message = self.get_last_message() self.assertEqual(sent_message.topic_name(), "A" * (MAX_TOPIC_NAME_LENGTH - 3) + "...") def test_send_forged_message_as_not_superuser(self) -> None: self.login(self.example_email("hamlet")) result = self.client_post("/json/messages", {"type": "stream", "to": "Verona", "client": "test suite", "content": "Test message", "topic": "Test topic", "forged": True}) self.assert_json_error(result, "User not authorized for this query") def test_send_message_as_not_superuser_to_different_domain(self) -> None: self.login(self.example_email("hamlet")) result = self.client_post("/json/messages", {"type": "stream", "to": "Verona", "client": "test suite", "content": "Test message", "topic": "Test topic", "realm_str": "mit"}) self.assert_json_error(result, "User not authorized for this query") def test_send_message_as_superuser_to_domain_that_dont_exist(self) -> None: user = get_system_bot(settings.EMAIL_GATEWAY_BOT) password = "test_password" user.set_password(password) user.is_api_super_user = True user.save() result = self.api_post(user.email, "/api/v1/messages", {"type": "stream", "to": "Verona", "client": "test suite", "content": "Test message", "topic": "Test topic", "realm_str": "non-existing"}) user.is_api_super_user = False user.save() self.assert_json_error(result, "Unknown organization 'non-existing'") def test_send_message_when_sender_is_not_set(self) -> None: self.login(self.mit_email("starnine"), realm=get_realm("zephyr")) result = self.client_post("/json/messages", {"type": "private", "content": "Test message", "client": "zephyr_mirror", "to": self.mit_email("starnine")}, subdomain="zephyr") self.assert_json_error(result, "Missing sender") def test_send_message_as_not_superuser_when_type_is_not_private(self) -> None: self.login(self.mit_email("starnine"), realm=get_realm("zephyr")) result = self.client_post("/json/messages", {"type": "not-private", "sender": self.mit_email("sipbtest"), "content": "Test message", "client": "zephyr_mirror", "to": self.mit_email("starnine")}, subdomain="zephyr") self.assert_json_error(result, "User not authorized for this query") @mock.patch("zerver.views.messages.create_mirrored_message_users") def test_send_message_create_mirrored_message_user_returns_invalid_input( self, create_mirrored_message_users_mock: Any) -> None: create_mirrored_message_users_mock.side_effect = InvalidMirrorInput() self.login(self.mit_email("starnine"), realm=get_realm("zephyr")) result = self.client_post("/json/messages", {"type": "private", "sender": self.mit_email("sipbtest"), "content": "Test message", "client": "zephyr_mirror", "to": self.mit_email("starnine")}, subdomain="zephyr") self.assert_json_error(result, "Invalid mirrored message") @mock.patch("zerver.views.messages.create_mirrored_message_users") def test_send_message_when_client_is_zephyr_mirror_but_string_id_is_not_zephyr( self, create_mirrored_message_users_mock: Any) -> None: create_mirrored_message_users_mock.return_value = mock.Mock() user = self.mit_user("starnine") email = user.email user.realm.string_id = 'notzephyr' user.realm.save() self.login(email, realm=get_realm("notzephyr")) result = self.client_post("/json/messages", {"type": "private", "sender": self.mit_email("sipbtest"), "content": "Test message", "client": "zephyr_mirror", "to": email}, subdomain="notzephyr") self.assert_json_error(result, "Zephyr mirroring is not allowed in this organization") @mock.patch("zerver.views.messages.create_mirrored_message_users") def test_send_message_when_client_is_zephyr_mirror_but_recipient_is_user_id( self, create_mirrored_message_users_mock: Any) -> None: create_mirrored_message_users_mock.return_value = mock.Mock() user = self.mit_user("starnine") user_id = user.id user_email = user.email self.login(user_email, realm=get_realm("zephyr")) result = self.client_post("/json/messages", {"type": "private", "sender": self.mit_email("sipbtest"), "content": "Test message", "client": "zephyr_mirror", "to": ujson.dumps([user_id])}, subdomain="zephyr") self.assert_json_error(result, "Mirroring not allowed with recipient user IDs") def test_send_message_irc_mirror(self) -> None: self.login(self.example_email('hamlet')) bot_info = { 'full_name': 'IRC bot', 'short_name': 'irc', } result = self.client_post("/json/bots", bot_info) self.assert_json_success(result) email = "irc-bot@zulip.testserver" user = get_user(email, get_realm('zulip')) user.is_api_super_user = True user.save() user = get_user(email, get_realm('zulip')) self.subscribe(user, "IRCland") # Simulate a mirrored message with a slightly old timestamp. fake_pub_date = timezone_now() - datetime.timedelta(minutes=37) fake_pub_time = datetime_to_timestamp(fake_pub_date) result = self.api_post(email, "/api/v1/messages", {"type": "stream", "forged": "true", "time": fake_pub_time, "sender": "irc-user@irc.zulip.com", "content": "Test message", "client": "irc_mirror", "topic": "from irc", "to": "IRCLand"}) self.assert_json_success(result) msg = self.get_last_message() self.assertEqual(int(datetime_to_timestamp(msg.pub_date)), int(fake_pub_time)) def test_unsubscribed_api_super_user(self) -> None: cordelia = self.example_user('cordelia') stream_name = 'private_stream' self.make_stream(stream_name, invite_only=True) self.unsubscribe(cordelia, stream_name) # As long as Cordelia is a super_user, she can send messages # to ANY stream, even one she is not unsubscribed to, and # she can do it for herself or on behalf of a mirrored user. def test_with(sender_email: str, client: str, forged: bool) -> None: payload = dict( type="stream", to=stream_name, sender=sender_email, client=client, topic='whatever', content='whatever', forged=ujson.dumps(forged), ) cordelia.is_api_super_user = False cordelia.save() result = self.api_post(cordelia.email, "/api/v1/messages", payload) self.assert_json_error_contains(result, 'authorized') cordelia.is_api_super_user = True cordelia.save() result = self.api_post(cordelia.email, "/api/v1/messages", payload) self.assert_json_success(result) test_with( sender_email=cordelia.email, client='test suite', forged=False, ) test_with( sender_email='irc_person@zulip.com', client='irc_mirror', forged=True, ) def test_bot_can_send_to_owner_stream(self) -> None: cordelia = self.example_user('cordelia') bot = self.create_test_bot( short_name='whatever', user_profile=cordelia, ) stream_name = 'private_stream' self.make_stream(stream_name, invite_only=True) payload = dict( type="stream", to=stream_name, sender=bot.email, client='test suite', topic='whatever', content='whatever', ) result = self.api_post(bot.email, "/api/v1/messages", payload) self.assert_json_error_contains(result, 'Not authorized to send') # We subscribe the bot owner! (aka cordelia) self.subscribe(bot.bot_owner, stream_name) result = self.api_post(bot.email, "/api/v1/messages", payload) self.assert_json_success(result) def test_notification_bot(self) -> None: sender = self.notification_bot() stream_name = 'private_stream' self.make_stream(stream_name, invite_only=True) payload = dict( type="stream", to=stream_name, sender=sender.email, client='test suite', topic='whatever', content='whatever', ) result = self.api_post(sender.email, "/api/v1/messages", payload) self.assert_json_success(result) def test_create_mirror_user_despite_race(self) -> None: realm = get_realm('zulip') email = 'fred@example.com' email_to_full_name = lambda email: 'fred' def create_user(**kwargs: Any) -> UserProfile: self.assertEqual(kwargs['full_name'], 'fred') self.assertEqual(kwargs['email'], email) self.assertEqual(kwargs['active'], False) self.assertEqual(kwargs['is_mirror_dummy'], True) # We create an actual user here to simulate a race. # We use the minimal, un-mocked function. kwargs['bot_type'] = None kwargs['bot_owner'] = None kwargs['tos_version'] = None kwargs['timezone'] = timezone_now() create_user_profile(**kwargs).save() raise IntegrityError() with mock.patch('zerver.lib.actions.create_user', side_effect=create_user) as m: mirror_fred_user = create_mirror_user_if_needed( realm, email, email_to_full_name, ) self.assertEqual(mirror_fred_user.email, email) m.assert_called() def test_guest_user(self) -> None: sender = self.example_user('polonius') stream_name = 'public stream' self.make_stream(stream_name, invite_only=False) payload = dict( type="stream", to=stream_name, sender=sender.email, client='test suite', topic='whatever', content='whatever', ) # Guest user can't send message to unsubscribed public streams result = self.api_post(sender.email, "/api/v1/messages", payload) self.assert_json_error(result, "Not authorized to send to stream 'public stream'") self.subscribe(sender, stream_name) # Guest user can send message to subscribed public streams result = self.api_post(sender.email, "/api/v1/messages", payload) self.assert_json_success(result) class ScheduledMessageTest(ZulipTestCase): def last_scheduled_message(self) -> ScheduledMessage: return ScheduledMessage.objects.all().order_by('-id')[0] def do_schedule_message(self, msg_type: str, to: str, msg: str, defer_until: str='', tz_guess: str='', delivery_type: str='send_later', realm_str: str='zulip') -> HttpResponse: self.login(self.example_email("hamlet")) topic_name = '' if msg_type == 'stream': topic_name = 'Test topic' payload = {"type": msg_type, "to": to, "client": "test suite", "content": msg, "topic": topic_name, "realm_str": realm_str, "delivery_type": delivery_type, "tz_guess": tz_guess} if defer_until: payload["deliver_at"] = defer_until result = self.client_post("/json/messages", payload) return result def test_schedule_message(self) -> None: content = "Test message" defer_until = timezone_now().replace(tzinfo=None) + datetime.timedelta(days=1) defer_until_str = str(defer_until) # Scheduling a message to a stream you are subscribed is successful. result = self.do_schedule_message('stream', 'Verona', content + ' 1', defer_until_str) message = self.last_scheduled_message() self.assert_json_success(result) self.assertEqual(message.content, 'Test message 1') self.assertEqual(message.topic_name(), 'Test topic') self.assertEqual(message.scheduled_timestamp, convert_to_UTC(defer_until)) self.assertEqual(message.delivery_type, ScheduledMessage.SEND_LATER) # Scheduling a message for reminders. result = self.do_schedule_message('stream', 'Verona', content + ' 2', defer_until_str, delivery_type='remind') message = self.last_scheduled_message() self.assert_json_success(result) self.assertEqual(message.delivery_type, ScheduledMessage.REMIND) # Scheduling a private message is successful. result = self.do_schedule_message('private', self.example_email("othello"), content + ' 3', defer_until_str) message = self.last_scheduled_message() self.assert_json_success(result) self.assertEqual(message.content, 'Test message 3') self.assertEqual(message.scheduled_timestamp, convert_to_UTC(defer_until)) self.assertEqual(message.delivery_type, ScheduledMessage.SEND_LATER) # Setting a reminder in PM's to other users causes a error. result = self.do_schedule_message('private', self.example_email("othello"), content + ' 4', defer_until_str, delivery_type='remind') self.assert_json_error(result, 'Reminders can only be set for streams.') # Setting a reminder in PM's to ourself is successful. # Required by reminders from message actions popover caret feature. result = self.do_schedule_message('private', self.example_email("hamlet"), content + ' 5', defer_until_str, delivery_type='remind') message = self.last_scheduled_message() self.assert_json_success(result) self.assertEqual(message.content, 'Test message 5') self.assertEqual(message.delivery_type, ScheduledMessage.REMIND) # Scheduling a message while guessing timezone. tz_guess = 'Asia/Kolkata' result = self.do_schedule_message('stream', 'Verona', content + ' 6', defer_until_str, tz_guess=tz_guess) message = self.last_scheduled_message() self.assert_json_success(result) self.assertEqual(message.content, 'Test message 6') local_tz = get_timezone(tz_guess) # Since mypy is not able to recognize localize and normalize as attributes of tzinfo we use ignore. utz_defer_until = local_tz.normalize(local_tz.localize(defer_until)) # type: ignore # Reason in comment on previous line. self.assertEqual(message.scheduled_timestamp, convert_to_UTC(utz_defer_until)) self.assertEqual(message.delivery_type, ScheduledMessage.SEND_LATER) # Test with users timezone setting as set to some timezone rather than # empty. This will help interpret timestamp in users local timezone. user = self.example_user("hamlet") user.timezone = 'US/Pacific' user.save(update_fields=['timezone']) result = self.do_schedule_message('stream', 'Verona', content + ' 7', defer_until_str) message = self.last_scheduled_message() self.assert_json_success(result) self.assertEqual(message.content, 'Test message 7') local_tz = get_timezone(user.timezone) # Since mypy is not able to recognize localize and normalize as attributes of tzinfo we use ignore. utz_defer_until = local_tz.normalize(local_tz.localize(defer_until)) # type: ignore # Reason in comment on previous line. self.assertEqual(message.scheduled_timestamp, convert_to_UTC(utz_defer_until)) self.assertEqual(message.delivery_type, ScheduledMessage.SEND_LATER) def test_scheduling_in_past(self) -> None: # Scheduling a message in past should fail. content = "Test message" defer_until = timezone_now() defer_until_str = str(defer_until) result = self.do_schedule_message('stream', 'Verona', content + ' 1', defer_until_str) self.assert_json_error(result, 'Time must be in the future.') def test_invalid_timestamp(self) -> None: # Scheduling a message from which timestamp couldn't be parsed # successfully should fail. content = "Test message" defer_until = 'Missed the timestamp' result = self.do_schedule_message('stream', 'Verona', content + ' 1', defer_until) self.assert_json_error(result, 'Invalid time format') def test_missing_deliver_at(self) -> None: content = "Test message" result = self.do_schedule_message('stream', 'Verona', content + ' 1') self.assert_json_error(result, 'Missing deliver_at in a request for delayed message delivery') class EditMessageTest(ZulipTestCase): def check_message(self, msg_id: int, topic_name: Optional[str]=None, content: Optional[str]=None) -> Message: msg = Message.objects.get(id=msg_id) cached = MessageDict.wide_dict(msg) MessageDict.finalize_payload(cached, apply_markdown=False, client_gravatar=False) uncached = MessageDict.to_dict_uncached_helper(msg) MessageDict.post_process_dicts([uncached], apply_markdown=False, client_gravatar=False) self.assertEqual(cached, uncached) if topic_name: self.assertEqual(msg.topic_name(), topic_name) if content: self.assertEqual(msg.content, content) return msg def test_save_message(self) -> None: """This is also tested by a client test, but here we can verify the cache against the database""" self.login(self.example_email("hamlet")) msg_id = self.send_stream_message(self.example_email("hamlet"), "Scotland", topic_name="editing", content="before edit") result = self.client_patch("/json/messages/" + str(msg_id), { 'message_id': msg_id, 'content': 'after edit' }) self.assert_json_success(result) self.check_message(msg_id, content="after edit") result = self.client_patch("/json/messages/" + str(msg_id), { 'message_id': msg_id, 'topic': 'edited' }) self.assert_json_success(result) self.check_message(msg_id, topic_name="edited") def test_fetch_raw_message(self) -> None: self.login(self.example_email("hamlet")) msg_id = self.send_personal_message( from_email=self.example_email("hamlet"), to_email=self.example_email("cordelia"), content="**before** edit", ) result = self.client_get('/json/messages/' + str(msg_id)) self.assert_json_success(result) self.assertEqual(result.json()['raw_content'], '**before** edit') # Test error cases result = self.client_get('/json/messages/999999') self.assert_json_error(result, 'Invalid message(s)') self.login(self.example_email("cordelia")) result = self.client_get('/json/messages/' + str(msg_id)) self.assert_json_success(result) self.login(self.example_email("othello")) result = self.client_get('/json/messages/' + str(msg_id)) self.assert_json_error(result, 'Invalid message(s)') def test_fetch_raw_message_stream_wrong_realm(self) -> None: user_profile = self.example_user("hamlet") self.login(user_profile.email) stream = self.make_stream('public_stream') self.subscribe(user_profile, stream.name) msg_id = self.send_stream_message(user_profile.email, stream.name, topic_name="test", content="test") result = self.client_get('/json/messages/' + str(msg_id)) self.assert_json_success(result) self.login(self.mit_email("sipbtest"), realm=get_realm("zephyr")) result = self.client_get('/json/messages/' + str(msg_id), subdomain="zephyr") self.assert_json_error(result, 'Invalid message(s)') def test_fetch_raw_message_private_stream(self) -> None: user_profile = self.example_user("hamlet") self.login(user_profile.email) stream = self.make_stream('private_stream', invite_only=True) self.subscribe(user_profile, stream.name) msg_id = self.send_stream_message(user_profile.email, stream.name, topic_name="test", content="test") result = self.client_get('/json/messages/' + str(msg_id)) self.assert_json_success(result) self.login(self.example_email("othello")) result = self.client_get('/json/messages/' + str(msg_id)) self.assert_json_error(result, 'Invalid message(s)') def test_edit_message_no_permission(self) -> None: self.login(self.example_email("hamlet")) msg_id = self.send_stream_message(self.example_email("iago"), "Scotland", topic_name="editing", content="before edit") result = self.client_patch("/json/messages/" + str(msg_id), { 'message_id': msg_id, 'content': 'content after edit', }) self.assert_json_error(result, "You don't have permission to edit this message") def test_edit_message_no_changes(self) -> None: self.login(self.example_email("hamlet")) msg_id = self.send_stream_message(self.example_email("hamlet"), "Scotland", topic_name="editing", content="before edit") result = self.client_patch("/json/messages/" + str(msg_id), { 'message_id': msg_id, }) self.assert_json_error(result, "Nothing to change") def test_edit_message_no_topic(self) -> None: self.login(self.example_email("hamlet")) msg_id = self.send_stream_message(self.example_email("hamlet"), "Scotland", topic_name="editing", content="before edit") result = self.client_patch("/json/messages/" + str(msg_id), { 'message_id': msg_id, 'topic': ' ' }) self.assert_json_error(result, "Topic can't be empty") def test_edit_message_no_content(self) -> None: self.login(self.example_email("hamlet")) msg_id = self.send_stream_message(self.example_email("hamlet"), "Scotland", topic_name="editing", content="before edit") result = self.client_patch("/json/messages/" + str(msg_id), { 'message_id': msg_id, 'content': ' ' }) self.assert_json_success(result) content = Message.objects.filter(id=msg_id).values_list('content', flat = True)[0] self.assertEqual(content, "(deleted)") def test_edit_message_history_disabled(self) -> None: user_profile = self.example_user("hamlet") do_set_realm_property(user_profile.realm, "allow_edit_history", False) self.login(self.example_email("hamlet")) # Single-line edit msg_id_1 = self.send_stream_message(self.example_email("hamlet"), "Denmark", topic_name="editing", content="content before edit") new_content_1 = 'content after edit' result_1 = self.client_patch("/json/messages/" + str(msg_id_1), { 'message_id': msg_id_1, 'content': new_content_1 }) self.assert_json_success(result_1) result = self.client_get( "/json/messages/" + str(msg_id_1) + "/history") self.assert_json_error(result, "Message edit history is disabled in this organization") # Now verify that if we fetch the message directly, there's no # edit history data attached. messages_result = self.client_get("/json/messages", {"anchor": msg_id_1, "num_before": 0, "num_after": 10}) self.assert_json_success(messages_result) json_messages = ujson.loads( messages_result.content.decode('utf-8')) for msg in json_messages['messages']: self.assertNotIn("edit_history", msg) def test_edit_message_history(self) -> None: self.login(self.example_email("hamlet")) # Single-line edit msg_id_1 = self.send_stream_message( self.example_email("hamlet"), "Scotland", topic_name="editing", content="content before edit") new_content_1 = 'content after edit' result_1 = self.client_patch("/json/messages/" + str(msg_id_1), { 'message_id': msg_id_1, 'content': new_content_1 }) self.assert_json_success(result_1) message_edit_history_1 = self.client_get( "/json/messages/" + str(msg_id_1) + "/history") json_response_1 = ujson.loads( message_edit_history_1.content.decode('utf-8')) message_history_1 = json_response_1['message_history'] # Check content of message after edit. self.assertEqual(message_history_1[0]['rendered_content'], '

content before edit

') self.assertEqual(message_history_1[1]['rendered_content'], '

content after edit

') self.assertEqual(message_history_1[1]['content_html_diff'], ('

content ' 'after ' 'before' ' edit

')) # Check content of message before edit. self.assertEqual(message_history_1[1]['prev_rendered_content'], '

content before edit

') # Edits on new lines msg_id_2 = self.send_stream_message( self.example_email("hamlet"), "Scotland", topic_name="editing", content=('content before edit, line 1\n' '\n' 'content before edit, line 3')) new_content_2 = ('content before edit, line 1\n' 'content after edit, line 2\n' 'content before edit, line 3') result_2 = self.client_patch("/json/messages/" + str(msg_id_2), { 'message_id': msg_id_2, 'content': new_content_2 }) self.assert_json_success(result_2) message_edit_history_2 = self.client_get( "/json/messages/" + str(msg_id_2) + "/history") json_response_2 = ujson.loads( message_edit_history_2.content.decode('utf-8')) message_history_2 = json_response_2['message_history'] self.assertEqual(message_history_2[0]['rendered_content'], ('

content before edit, line 1

\n' '

content before edit, line 3

')) self.assertEqual(message_history_2[1]['rendered_content'], ('

content before edit, line 1
\n' 'content after edit, line 2
\n' 'content before edit, line 3

')) self.assertEqual(message_history_2[1]['content_html_diff'], ('

content before edit, line 1
' 'content after edit, line 2
' 'content before edit, line 3

')) self.assertEqual(message_history_2[1]['prev_rendered_content'], ('

content before edit, line 1

\n' '

content before edit, line 3

')) def test_edit_link(self) -> None: # Link editing self.login(self.example_email("hamlet")) msg_id_1 = self.send_stream_message( self.example_email("hamlet"), "Scotland", topic_name="editing", content="Here is a link to [zulip](www.zulip.org).") new_content_1 = 'Here is a link to [zulip](www.zulipchat.com).' result_1 = self.client_patch("/json/messages/" + str(msg_id_1), { 'message_id': msg_id_1, 'content': new_content_1 }) self.assert_json_success(result_1) message_edit_history_1 = self.client_get( "/json/messages/" + str(msg_id_1) + "/history") json_response_1 = ujson.loads( message_edit_history_1.content.decode('utf-8')) message_history_1 = json_response_1['message_history'] # Check content of message after edit. self.assertEqual(message_history_1[0]['rendered_content'], '

Here is a link to ' 'zulip.

') self.assertEqual(message_history_1[1]['rendered_content'], '

Here is a link to ' 'zulip.

') self.assertEqual(message_history_1[1]['content_html_diff'], ('

Here is a link to zulip ' ' Link: http://www.zulipchat.com .' ' Link: http://www.zulip.org .' '

')) def test_edit_history_unedited(self) -> None: self.login(self.example_email('hamlet')) msg_id = self.send_stream_message( self.example_email('hamlet'), 'Scotland', topic_name='editing', content='This message has not been edited.') result = self.client_get('/json/messages/{}/history'.format(msg_id)) self.assert_json_success(result) message_history = result.json()['message_history'] self.assert_length(message_history, 1) def test_user_info_for_updates(self) -> None: hamlet = self.example_user('hamlet') cordelia = self.example_user('cordelia') self.login(hamlet.email) self.subscribe(hamlet, 'Scotland') self.subscribe(cordelia, 'Scotland') msg_id = self.send_stream_message(hamlet.email, 'Scotland', content='@**Cordelia Lear**') user_info = get_user_info_for_message_updates(msg_id) message_user_ids = user_info['message_user_ids'] self.assertIn(hamlet.id, message_user_ids) self.assertIn(cordelia.id, message_user_ids) mention_user_ids = user_info['mention_user_ids'] self.assertEqual(mention_user_ids, {cordelia.id}) def test_edit_cases(self) -> None: """This test verifies the accuracy of construction of Zulip's edit history data structures.""" self.login(self.example_email("hamlet")) hamlet = self.example_user('hamlet') msg_id = self.send_stream_message(self.example_email("hamlet"), "Scotland", topic_name="topic 1", content="content 1") result = self.client_patch("/json/messages/" + str(msg_id), { 'message_id': msg_id, 'content': 'content 2', }) self.assert_json_success(result) history = ujson.loads(Message.objects.get(id=msg_id).edit_history) self.assertEqual(history[0]['prev_content'], 'content 1') self.assertEqual(history[0]['user_id'], hamlet.id) self.assertEqual(set(history[0].keys()), {u'timestamp', u'prev_content', u'user_id', u'prev_rendered_content', u'prev_rendered_content_version'}) result = self.client_patch("/json/messages/" + str(msg_id), { 'message_id': msg_id, 'topic': 'topic 2', }) self.assert_json_success(result) history = ujson.loads(Message.objects.get(id=msg_id).edit_history) self.assertEqual(history[0][LEGACY_PREV_TOPIC], 'topic 1') self.assertEqual(history[0]['user_id'], hamlet.id) self.assertEqual(set(history[0].keys()), {'timestamp', LEGACY_PREV_TOPIC, 'user_id'}) result = self.client_patch("/json/messages/" + str(msg_id), { 'message_id': msg_id, 'content': 'content 3', 'topic': 'topic 3', }) self.assert_json_success(result) history = ujson.loads(Message.objects.get(id=msg_id).edit_history) self.assertEqual(history[0]['prev_content'], 'content 2') self.assertEqual(history[0][LEGACY_PREV_TOPIC], 'topic 2') self.assertEqual(history[0]['user_id'], hamlet.id) self.assertEqual(set(history[0].keys()), {'timestamp', LEGACY_PREV_TOPIC, 'prev_content', 'user_id', 'prev_rendered_content', 'prev_rendered_content_version'}) result = self.client_patch("/json/messages/" + str(msg_id), { 'message_id': msg_id, 'content': 'content 4', }) self.assert_json_success(result) history = ujson.loads(Message.objects.get(id=msg_id).edit_history) self.assertEqual(history[0]['prev_content'], 'content 3') self.assertEqual(history[0]['user_id'], hamlet.id) self.login(self.example_email("iago")) result = self.client_patch("/json/messages/" + str(msg_id), { 'message_id': msg_id, 'topic': 'topic 4', }) self.assert_json_success(result) history = ujson.loads(Message.objects.get(id=msg_id).edit_history) self.assertEqual(history[0][LEGACY_PREV_TOPIC], 'topic 3') self.assertEqual(history[0]['user_id'], self.example_user('iago').id) history = ujson.loads(Message.objects.get(id=msg_id).edit_history) self.assertEqual(history[0][LEGACY_PREV_TOPIC], 'topic 3') self.assertEqual(history[2][LEGACY_PREV_TOPIC], 'topic 2') self.assertEqual(history[3][LEGACY_PREV_TOPIC], 'topic 1') self.assertEqual(history[1]['prev_content'], 'content 3') self.assertEqual(history[2]['prev_content'], 'content 2') self.assertEqual(history[4]['prev_content'], 'content 1') # Now, we verify that the edit history data sent back has the # correct filled-out fields message_edit_history = self.client_get("/json/messages/" + str(msg_id) + "/history") json_response = ujson.loads(message_edit_history.content.decode('utf-8')) # We reverse the message history view output so that the IDs line up with the above. message_history = list(reversed(json_response['message_history'])) i = 0 for entry in message_history: expected_entries = {u'content', u'rendered_content', u'topic', u'timestamp', u'user_id'} if i in {0, 2, 3}: expected_entries.add('prev_topic') if i in {1, 2, 4}: expected_entries.add('prev_content') expected_entries.add('prev_rendered_content') expected_entries.add('content_html_diff') i += 1 self.assertEqual(expected_entries, set(entry.keys())) self.assertEqual(len(message_history), 6) self.assertEqual(message_history[0]['prev_topic'], 'topic 3') self.assertEqual(message_history[0]['topic'], 'topic 4') self.assertEqual(message_history[1]['topic'], 'topic 3') self.assertEqual(message_history[2]['topic'], 'topic 3') self.assertEqual(message_history[2]['prev_topic'], 'topic 2') self.assertEqual(message_history[3]['topic'], 'topic 2') self.assertEqual(message_history[3]['prev_topic'], 'topic 1') self.assertEqual(message_history[4]['topic'], 'topic 1') self.assertEqual(message_history[0]['content'], 'content 4') self.assertEqual(message_history[1]['content'], 'content 4') self.assertEqual(message_history[1]['prev_content'], 'content 3') self.assertEqual(message_history[2]['content'], 'content 3') self.assertEqual(message_history[2]['prev_content'], 'content 2') self.assertEqual(message_history[3]['content'], 'content 2') self.assertEqual(message_history[4]['content'], 'content 2') self.assertEqual(message_history[4]['prev_content'], 'content 1') self.assertEqual(message_history[5]['content'], 'content 1') self.assertEqual(message_history[5]['topic'], 'topic 1') def test_edit_message_content_limit(self) -> None: def set_message_editing_params(allow_message_editing: bool, message_content_edit_limit_seconds: int, allow_community_topic_editing: bool) -> None: result = self.client_patch("/json/realm", { 'allow_message_editing': ujson.dumps(allow_message_editing), 'message_content_edit_limit_seconds': message_content_edit_limit_seconds, 'allow_community_topic_editing': ujson.dumps(allow_community_topic_editing), }) self.assert_json_success(result) def do_edit_message_assert_success(id_: int, unique_str: str, topic_only: bool=False) -> None: new_topic = 'topic' + unique_str new_content = 'content' + unique_str params_dict = {'message_id': id_, 'topic': new_topic} if not topic_only: params_dict['content'] = new_content result = self.client_patch("/json/messages/" + str(id_), params_dict) self.assert_json_success(result) if topic_only: self.check_message(id_, topic_name=new_topic) else: self.check_message(id_, topic_name=new_topic, content=new_content) def do_edit_message_assert_error(id_: int, unique_str: str, error: str, topic_only: bool=False) -> None: message = Message.objects.get(id=id_) old_topic = message.topic_name() old_content = message.content new_topic = 'topic' + unique_str new_content = 'content' + unique_str params_dict = {'message_id': id_, 'topic': new_topic} if not topic_only: params_dict['content'] = new_content result = self.client_patch("/json/messages/" + str(id_), params_dict) message = Message.objects.get(id=id_) self.assert_json_error(result, error) self.check_message(id_, topic_name=old_topic, content=old_content) self.login(self.example_email("iago")) # send a message in the past id_ = self.send_stream_message(self.example_email("iago"), "Scotland", content="content", topic_name="topic") message = Message.objects.get(id=id_) message.pub_date = message.pub_date - datetime.timedelta(seconds=180) message.save() # test the various possible message editing settings # high enough time limit, all edits allowed set_message_editing_params(True, 240, False) do_edit_message_assert_success(id_, 'A') # out of time, only topic editing allowed set_message_editing_params(True, 120, False) do_edit_message_assert_success(id_, 'B', True) do_edit_message_assert_error(id_, 'C', "The time limit for editing this message has passed") # infinite time, all edits allowed set_message_editing_params(True, 0, False) do_edit_message_assert_success(id_, 'D') # without allow_message_editing, nothing is allowed set_message_editing_params(False, 240, False) do_edit_message_assert_error(id_, 'E', "Your organization has turned off message editing", True) set_message_editing_params(False, 120, False) do_edit_message_assert_error(id_, 'F', "Your organization has turned off message editing", True) set_message_editing_params(False, 0, False) do_edit_message_assert_error(id_, 'G', "Your organization has turned off message editing", True) def test_allow_community_topic_editing(self) -> None: def set_message_editing_params(allow_message_editing, message_content_edit_limit_seconds, allow_community_topic_editing): # type: (bool, int, bool) -> None result = self.client_patch("/json/realm", { 'allow_message_editing': ujson.dumps(allow_message_editing), 'message_content_edit_limit_seconds': message_content_edit_limit_seconds, 'allow_community_topic_editing': ujson.dumps(allow_community_topic_editing), }) self.assert_json_success(result) def do_edit_message_assert_success(id_, unique_str): # type: (int, str) -> None new_topic = 'topic' + unique_str params_dict = {'message_id': id_, 'topic': new_topic} result = self.client_patch("/json/messages/" + str(id_), params_dict) self.assert_json_success(result) self.check_message(id_, topic_name=new_topic) def do_edit_message_assert_error(id_, unique_str, error): # type: (int, str, str) -> None message = Message.objects.get(id=id_) old_topic = message.topic_name() old_content = message.content new_topic = 'topic' + unique_str params_dict = {'message_id': id_, 'topic': new_topic} result = self.client_patch("/json/messages/" + str(id_), params_dict) message = Message.objects.get(id=id_) self.assert_json_error(result, error) self.check_message(id_, topic_name=old_topic, content=old_content) self.login(self.example_email("iago")) # send a message in the past id_ = self.send_stream_message(self.example_email("hamlet"), "Scotland", content="content", topic_name="topic") message = Message.objects.get(id=id_) message.pub_date = message.pub_date - datetime.timedelta(seconds=180) message.save() # any user can edit the topic of a message set_message_editing_params(True, 0, True) # log in as a new user self.login(self.example_email("cordelia")) do_edit_message_assert_success(id_, 'A') # only admins can edit the topics of messages self.login(self.example_email("iago")) set_message_editing_params(True, 0, False) do_edit_message_assert_success(id_, 'B') self.login(self.example_email("cordelia")) do_edit_message_assert_error(id_, 'C', "You don't have permission to edit this message") # users cannot edit topics if allow_message_editing is False self.login(self.example_email("iago")) set_message_editing_params(False, 0, True) self.login(self.example_email("cordelia")) do_edit_message_assert_error(id_, 'D', "Your organization has turned off message editing") # non-admin users cannot edit topics sent > 24 hrs ago message.pub_date = message.pub_date - datetime.timedelta(seconds=90000) message.save() self.login(self.example_email("iago")) set_message_editing_params(True, 0, True) do_edit_message_assert_success(id_, 'E') self.login(self.example_email("cordelia")) do_edit_message_assert_error(id_, 'F', "The time limit for editing this message has passed") # anyone should be able to edit "no topic" indefinitely message.set_topic_name("(no topic)") message.save() self.login(self.example_email("cordelia")) do_edit_message_assert_success(id_, 'D') @mock.patch("zerver.lib.actions.send_event") def test_edit_topic_public_history_stream(self, mock_send_event: mock.MagicMock) -> None: stream_name = "Macbeth" hamlet = self.example_user("hamlet") cordelia = self.example_user("cordelia") self.make_stream(stream_name, history_public_to_subscribers=True) self.subscribe(hamlet, stream_name) self.login(hamlet.email) message_id = self.send_stream_message(hamlet.email, stream_name, "Where am I?") self.login(cordelia.email) self.subscribe(cordelia, stream_name) message = Message.objects.get(id=message_id) def do_update_message_topic_success(user_profile: UserProfile, message: Message, topic_name: str, users_to_be_notified: List[Dict[str, Any]]) -> None: do_update_message( user_profile=user_profile, message=message, topic_name=topic_name, propagate_mode="change_later", content=None, rendered_content=None, prior_mention_user_ids=set(), mention_user_ids=set() ) mock_send_event.assert_called_with(mock.ANY, mock.ANY, users_to_be_notified) # Returns the users that need to be notified when a message topic is changed def notify(user_id: int) -> Dict[str, Any]: um = UserMessage.objects.get(message=message_id) if um.user_profile_id == user_id: return { "id": user_id, "flags": um.flags_list() } else: return { "id": user_id, "flags": ["read"] } users_to_be_notified = list(map(notify, [hamlet.id, cordelia.id])) # Edit topic of a message sent before Cordelia subscribed the stream do_update_message_topic_success(cordelia, message, "Othello eats apple", users_to_be_notified) # If Cordelia is long-term idle, she doesn't get a notification. cordelia.long_term_idle = True cordelia.save() users_to_be_notified = list(map(notify, [hamlet.id])) do_update_message_topic_success(cordelia, message, "Another topic idle", users_to_be_notified) cordelia.long_term_idle = False cordelia.save() # Even if Hamlet unsubscribes the stream, he should be notified when the topic is changed # because he has a UserMessage row. self.unsubscribe(hamlet, stream_name) users_to_be_notified = list(map(notify, [hamlet.id, cordelia.id])) do_update_message_topic_success(cordelia, message, "Another topic", users_to_be_notified) # Hamlet subscribes to the stream again and Cordelia unsubscribes, then Hamlet changes # the message topic. Cordelia won't receive any updates when a message on that stream is # changed because she is not a subscriber and doesn't have a UserMessage row. self.subscribe(hamlet, stream_name) self.unsubscribe(cordelia, stream_name) self.login(hamlet.email) users_to_be_notified = list(map(notify, [hamlet.id])) do_update_message_topic_success(hamlet, message, "Change again", users_to_be_notified) def test_propagate_topic_forward(self) -> None: self.login(self.example_email("hamlet")) id1 = self.send_stream_message(self.example_email("hamlet"), "Scotland", topic_name="topic1") id2 = self.send_stream_message(self.example_email("iago"), "Scotland", topic_name="topic1") id3 = self.send_stream_message(self.example_email("iago"), "Rome", topic_name="topic1") id4 = self.send_stream_message(self.example_email("hamlet"), "Scotland", topic_name="topic2") id5 = self.send_stream_message(self.example_email("iago"), "Scotland", topic_name="topic1") result = self.client_patch("/json/messages/" + str(id1), { 'message_id': id1, 'topic': 'edited', 'propagate_mode': 'change_later' }) self.assert_json_success(result) self.check_message(id1, topic_name="edited") self.check_message(id2, topic_name="edited") self.check_message(id3, topic_name="topic1") self.check_message(id4, topic_name="topic2") self.check_message(id5, topic_name="edited") def test_propagate_all_topics(self) -> None: self.login(self.example_email("hamlet")) id1 = self.send_stream_message(self.example_email("hamlet"), "Scotland", topic_name="topic1") id2 = self.send_stream_message(self.example_email("hamlet"), "Scotland", topic_name="topic1") id3 = self.send_stream_message(self.example_email("iago"), "Rome", topic_name="topic1") id4 = self.send_stream_message(self.example_email("hamlet"), "Scotland", topic_name="topic2") id5 = self.send_stream_message(self.example_email("iago"), "Scotland", topic_name="topic1") id6 = self.send_stream_message(self.example_email("iago"), "Scotland", topic_name="topic3") result = self.client_patch("/json/messages/" + str(id2), { 'message_id': id2, 'topic': 'edited', 'propagate_mode': 'change_all' }) self.assert_json_success(result) self.check_message(id1, topic_name="edited") self.check_message(id2, topic_name="edited") self.check_message(id3, topic_name="topic1") self.check_message(id4, topic_name="topic2") self.check_message(id5, topic_name="edited") self.check_message(id6, topic_name="topic3") class MirroredMessageUsersTest(ZulipTestCase): def test_invalid_sender(self) -> None: user = self.example_user('hamlet') recipients = [] # type: List[str] Request = namedtuple('Request', ['POST']) request = Request(POST=dict()) # no sender with self.assertRaises(InvalidMirrorInput): create_mirrored_message_users(request, user, recipients) def test_invalid_client(self) -> None: client = get_client(name='banned_mirror') # Invalid!!! user = self.example_user('hamlet') sender = user recipients = [] # type: List[str] Request = namedtuple('Request', ['POST', 'client']) request = Request(POST = dict(sender=sender.email, type='private'), client = client) with self.assertRaises(InvalidMirrorInput): create_mirrored_message_users(request, user, recipients) def test_invalid_email(self) -> None: invalid_email = 'alice AT example.com' recipients = [invalid_email] # We use an MIT user here to maximize code coverage user = self.mit_user('starnine') sender = user Request = namedtuple('Request', ['POST', 'client']) for client_name in ['zephyr_mirror', 'irc_mirror', 'jabber_mirror']: client = get_client(name=client_name) request = Request(POST = dict(sender=sender.email, type='private'), client = client) with self.assertRaises(InvalidMirrorInput): create_mirrored_message_users(request, user, recipients) @mock.patch('DNS.dnslookup', return_value=[['sipbtest:*:20922:101:Fred Sipb,,,:/mit/sipbtest:/bin/athena/tcsh']]) def test_zephyr_mirror_new_recipient(self, ignored: Any) -> None: """Test mirror dummy user creation for PM recipients""" client = get_client(name='zephyr_mirror') user = self.mit_user('starnine') sender = self.mit_user('sipbtest') new_user_email = 'bob_the_new_user@mit.edu' new_user_realm = get_realm("zephyr") recipients = [user.email, new_user_email] # Now make the request. Request = namedtuple('Request', ['POST', 'client']) request = Request(POST = dict(sender=sender.email, type='private'), client = client) mirror_sender = create_mirrored_message_users(request, user, recipients) self.assertEqual(mirror_sender, sender) realm_users = UserProfile.objects.filter(realm=sender.realm) realm_emails = {user.email for user in realm_users} self.assertIn(user.email, realm_emails) self.assertIn(new_user_email, realm_emails) bob = get_user(new_user_email, new_user_realm) self.assertTrue(bob.is_mirror_dummy) @mock.patch('DNS.dnslookup', return_value=[['sipbtest:*:20922:101:Fred Sipb,,,:/mit/sipbtest:/bin/athena/tcsh']]) def test_zephyr_mirror_new_sender(self, ignored: Any) -> None: """Test mirror dummy user creation for sender when sending to stream""" client = get_client(name='zephyr_mirror') user = self.mit_user('starnine') sender_email = 'new_sender@mit.edu' recipients = ['stream_name'] # Now make the request. Request = namedtuple('Request', ['POST', 'client']) request = Request(POST = dict(sender=sender_email, type='stream'), client = client) mirror_sender = create_mirrored_message_users(request, user, recipients) assert(mirror_sender is not None) self.assertEqual(mirror_sender.email, sender_email) self.assertTrue(mirror_sender.is_mirror_dummy) def test_irc_mirror(self) -> None: client = get_client(name='irc_mirror') sender = self.example_user('hamlet') user = sender recipients = [self.nonreg_email('alice'), 'bob@irc.zulip.com', self.nonreg_email('cordelia')] # Now make the request. Request = namedtuple('Request', ['POST', 'client']) request = Request(POST = dict(sender=sender.email, type='private'), client = client) mirror_sender = create_mirrored_message_users(request, user, recipients) self.assertEqual(mirror_sender, sender) realm_users = UserProfile.objects.filter(realm=sender.realm) realm_emails = {user.email for user in realm_users} self.assertIn(self.nonreg_email('alice'), realm_emails) self.assertIn('bob@irc.zulip.com', realm_emails) bob = get_user('bob@irc.zulip.com', sender.realm) self.assertTrue(bob.is_mirror_dummy) def test_jabber_mirror(self) -> None: client = get_client(name='jabber_mirror') sender = self.example_user('hamlet') user = sender recipients = [self.nonreg_email('alice'), self.nonreg_email('bob'), self.nonreg_email('cordelia')] # Now make the request. Request = namedtuple('Request', ['POST', 'client']) request = Request(POST = dict(sender=sender.email, type='private'), client = client) mirror_sender = create_mirrored_message_users(request, user, recipients) self.assertEqual(mirror_sender, sender) realm_users = UserProfile.objects.filter(realm=sender.realm) realm_emails = {user.email for user in realm_users} self.assertIn(self.nonreg_email('alice'), realm_emails) self.assertIn(self.nonreg_email('bob'), realm_emails) bob = get_user(self.nonreg_email('bob'), sender.realm) self.assertTrue(bob.is_mirror_dummy) class MessageAccessTests(ZulipTestCase): def test_update_invalid_flags(self) -> None: message = self.send_personal_message( self.example_email("cordelia"), self.example_email("hamlet"), "hello", ) self.login(self.example_email("hamlet")) result = self.client_post("/json/messages/flags", {"messages": ujson.dumps([message]), "op": "add", "flag": "invalid"}) self.assert_json_error(result, "Invalid flag: 'invalid'") result = self.client_post("/json/messages/flags", {"messages": ujson.dumps([message]), "op": "add", "flag": "is_private"}) self.assert_json_error(result, "Invalid flag: 'is_private'") result = self.client_post("/json/messages/flags", {"messages": ujson.dumps([message]), "op": "add", "flag": "active_mobile_push_notification"}) self.assert_json_error(result, "Invalid flag: 'active_mobile_push_notification'") result = self.client_post("/json/messages/flags", {"messages": ujson.dumps([message]), "op": "add", "flag": "mentioned"}) self.assert_json_error(result, "Flag not editable: 'mentioned'") def change_star(self, messages: List[int], add: bool=True, **kwargs: Any) -> HttpResponse: return self.client_post("/json/messages/flags", {"messages": ujson.dumps(messages), "op": "add" if add else "remove", "flag": "starred"}, **kwargs) def test_change_star(self) -> None: """ You can set a message as starred/un-starred through POST /json/messages/flags. """ self.login(self.example_email("hamlet")) message_ids = [self.send_personal_message(self.example_email("hamlet"), self.example_email("hamlet"), "test")] # Star a message. result = self.change_star(message_ids) self.assert_json_success(result) for msg in self.get_messages(): if msg['id'] in message_ids: self.assertEqual(msg['flags'], ['starred']) else: self.assertEqual(msg['flags'], ['read']) result = self.change_star(message_ids, False) self.assert_json_success(result) # Remove the stars. for msg in self.get_messages(): if msg['id'] in message_ids: self.assertEqual(msg['flags'], []) def test_change_star_public_stream_historical(self) -> None: """ You can set a message as starred/un-starred through POST /json/messages/flags. """ stream_name = "new_stream" self.subscribe(self.example_user("hamlet"), stream_name) self.login(self.example_email("hamlet")) message_ids = [ self.send_stream_message(self.example_email("hamlet"), stream_name, "test"), ] # Send a second message so we can verify it isn't modified other_message_ids = [ self.send_stream_message(self.example_email("hamlet"), stream_name, "test_unused"), ] received_message_ids = [ self.send_personal_message( self.example_email("hamlet"), self.example_email("cordelia"), "test_received" ), ] # Now login as another user who wasn't on that stream self.login(self.example_email("cordelia")) # Send a message to yourself to make sure we have at least one with the read flag sent_message_ids = [ self.send_personal_message( self.example_email("cordelia"), self.example_email("cordelia"), "test_read_message", ), ] result = self.client_post("/json/messages/flags", {"messages": ujson.dumps(sent_message_ids), "op": "add", "flag": "read"}) # We can't change flags other than "starred" on historical messages: result = self.client_post("/json/messages/flags", {"messages": ujson.dumps(message_ids), "op": "add", "flag": "read"}) self.assert_json_error(result, 'Invalid message(s)') # Trying to change a list of more than one historical message fails result = self.change_star(message_ids * 2) self.assert_json_error(result, 'Invalid message(s)') # Confirm that one can change the historical flag now result = self.change_star(message_ids) self.assert_json_success(result) for msg in self.get_messages(): if msg['id'] in message_ids: self.assertEqual(set(msg['flags']), {'starred', 'historical', 'read'}) elif msg['id'] in received_message_ids: self.assertEqual(msg['flags'], []) else: self.assertEqual(msg['flags'], ['read']) self.assertNotIn(msg['id'], other_message_ids) result = self.change_star(message_ids, False) self.assert_json_success(result) # But it still doesn't work if you're in another realm self.login(self.mit_email("sipbtest"), realm=get_realm("zephyr")) result = self.change_star(message_ids, subdomain="zephyr") self.assert_json_error(result, 'Invalid message(s)') def test_change_star_private_message_security(self) -> None: """ You can set a message as starred/un-starred through POST /json/messages/flags. """ self.login(self.example_email("hamlet")) message_ids = [ self.send_personal_message( self.example_email("hamlet"), self.example_email("hamlet"), "test", ), ] # Starring private messages you didn't receive fails. self.login(self.example_email("cordelia")) result = self.change_star(message_ids) self.assert_json_error(result, 'Invalid message(s)') def test_change_star_private_stream_security(self) -> None: stream_name = "private_stream" self.make_stream(stream_name, invite_only=True) self.subscribe(self.example_user("hamlet"), stream_name) self.login(self.example_email("hamlet")) message_ids = [ self.send_stream_message(self.example_email("hamlet"), stream_name, "test"), ] # Starring private stream messages you received works result = self.change_star(message_ids) self.assert_json_success(result) # Starring private stream messages you didn't receive fails. self.login(self.example_email("cordelia")) result = self.change_star(message_ids) self.assert_json_error(result, 'Invalid message(s)') stream_name = "private_stream_2" self.make_stream(stream_name, invite_only=True, history_public_to_subscribers=True) self.subscribe(self.example_user("hamlet"), stream_name) self.login(self.example_email("hamlet")) message_ids = [ self.send_stream_message(self.example_email("hamlet"), stream_name, "test"), ] # With stream.history_public_to_subscribers = True, you still # can't see it if you didn't receive the message and are # not subscribed. self.login(self.example_email("cordelia")) result = self.change_star(message_ids) self.assert_json_error(result, 'Invalid message(s)') # But if you subscribe, then you can star the message self.subscribe(self.example_user("cordelia"), stream_name) result = self.change_star(message_ids) self.assert_json_success(result) def test_new_message(self) -> None: """ New messages aren't starred. """ test_email = self.example_email('hamlet') self.login(test_email) content = "Test message for star" self.send_stream_message(test_email, "Verona", content=content) sent_message = UserMessage.objects.filter( user_profile=self.example_user('hamlet') ).order_by("id").reverse()[0] self.assertEqual(sent_message.message.content, content) self.assertFalse(sent_message.flags.starred) def test_change_star_public_stream_security_for_guest_user(self) -> None: # Guest user can't access(star) unsubscribed public stream messages normal_user = self.example_user("hamlet") stream_name = "public_stream" self.make_stream(stream_name) self.subscribe(normal_user, stream_name) self.login(normal_user.email) message_id = [ self.send_stream_message(normal_user.email, stream_name, "test 1") ] guest_user = self.example_user('polonius') self.login(guest_user.email) result = self.change_star(message_id) self.assert_json_error(result, 'Invalid message(s)') # Subscribed guest users can access public stream messages sent before they join self.subscribe(guest_user, stream_name) result = self.change_star(message_id) self.assert_json_success(result) # And messages sent after they join self.login(normal_user.email) message_id = [ self.send_stream_message(normal_user.email, stream_name, "test 2") ] self.login(guest_user.email) result = self.change_star(message_id) self.assert_json_success(result) def test_change_star_private_stream_security_for_guest_user(self) -> None: # Guest users can't access(star) unsubscribed private stream messages normal_user = self.example_user("hamlet") stream_name = "private_stream" stream = self.make_stream(stream_name, invite_only=True) self.subscribe(normal_user, stream_name) self.login(normal_user.email) message_id = [ self.send_stream_message(normal_user.email, stream_name, "test 1") ] guest_user = self.example_user('polonius') self.login(guest_user.email) result = self.change_star(message_id) self.assert_json_error(result, 'Invalid message(s)') # Guest user can't access messages of subscribed private streams if # history is not public to subscribers self.subscribe(guest_user, stream_name) result = self.change_star(message_id) self.assert_json_error(result, 'Invalid message(s)') # Guest user can access messages of subscribed private streams if # history is public to subscribers do_change_stream_invite_only(stream, True, history_public_to_subscribers=True) result = self.change_star(message_id) self.assert_json_success(result) # With history not public to subscribers, they can still see new messages do_change_stream_invite_only(stream, True, history_public_to_subscribers=False) self.login(normal_user.email) message_id = [ self.send_stream_message(normal_user.email, stream_name, "test 2") ] self.login(guest_user.email) result = self.change_star(message_id) self.assert_json_success(result) def test_bulk_access_messages_private_stream(self) -> None: user = self.example_user("hamlet") self.login(user.email) stream_name = "private_stream" stream = self.make_stream(stream_name, invite_only=True, history_public_to_subscribers=False) self.subscribe(user, stream_name) # Send a message before subscribing a new user to stream message_one_id = self.send_stream_message(user.email, stream_name, "Message one") later_subscribed_user = self.example_user("cordelia") # Subscribe a user to private-protected history stream self.subscribe(later_subscribed_user, stream_name) # Send a message after subscribing a new user to stream message_two_id = self.send_stream_message(user.email, stream_name, "Message two") message_ids = [message_one_id, message_two_id] messages = [Message.objects.select_related().get(id=message_id) for message_id in message_ids] filtered_messages = bulk_access_messages(later_subscribed_user, messages) # Message sent before subscribing wouldn't be accessible by later # subscribed user as stream has protected history self.assertEqual(len(filtered_messages), 1) self.assertEqual(filtered_messages[0].id, message_two_id) do_change_stream_invite_only(stream, True, history_public_to_subscribers=True) filtered_messages = bulk_access_messages(later_subscribed_user, messages) # Message sent before subscribing are accessible by 8user as stream # don't have protected history self.assertEqual(len(filtered_messages), 2) # Testing messages accessiblity for an unsubscribed user unsubscribed_user = self.example_user("ZOE") filtered_messages = bulk_access_messages(unsubscribed_user, messages) self.assertEqual(len(filtered_messages), 0) def test_bulk_access_messages_public_stream(self) -> None: user = self.example_user("hamlet") self.login(user.email) # Testing messages accessiblity including a public stream message stream_name = "public_stream" self.subscribe(user, stream_name) message_one_id = self.send_stream_message(user.email, stream_name, "Message one") later_subscribed_user = self.example_user("cordelia") self.subscribe(later_subscribed_user, stream_name) # Send a message after subscribing a new user to stream message_two_id = self.send_stream_message(user.email, stream_name, "Message two") message_ids = [message_one_id, message_two_id] messages = [Message.objects.select_related().get(id=message_id) for message_id in message_ids] # All public stream messages are always accessible filtered_messages = bulk_access_messages(later_subscribed_user, messages) self.assertEqual(len(filtered_messages), 2) unsubscribed_user = self.example_user("ZOE") filtered_messages = bulk_access_messages(unsubscribed_user, messages) self.assertEqual(len(filtered_messages), 2) class AttachmentTest(ZulipTestCase): def test_basics(self) -> None: self.assertFalse(Message.content_has_attachment('whatever')) self.assertFalse(Message.content_has_attachment('yo http://foo.com')) self.assertTrue(Message.content_has_attachment('yo\n https://staging.zulip.com/user_uploads/')) self.assertTrue(Message.content_has_attachment('yo\n /user_uploads/1/wEAnI-PEmVmCjo15xxNaQbnj/photo-10.jpg foo')) self.assertFalse(Message.content_has_image('whatever')) self.assertFalse(Message.content_has_image('yo http://foo.com')) self.assertFalse(Message.content_has_image('yo\n /user_uploads/1/wEAnI-PEmVmCjo15xxNaQbnj/photo-10.pdf foo')) for ext in [".bmp", ".gif", ".jpg", "jpeg", ".png", ".webp", ".JPG"]: content = 'yo\n /user_uploads/1/wEAnI-PEmVmCjo15xxNaQbnj/photo-10.%s foo' % (ext,) self.assertTrue(Message.content_has_image(content)) self.assertFalse(Message.content_has_link('whatever')) self.assertTrue(Message.content_has_link('yo\n http://foo.com')) self.assertTrue(Message.content_has_link('yo\n https://example.com?spam=1&eggs=2')) self.assertTrue(Message.content_has_link('yo /user_uploads/1/wEAnI-PEmVmCjo15xxNaQbnj/photo-10.pdf foo')) def test_claim_attachment(self) -> None: # Create dummy DB entry user_profile = self.example_user('hamlet') sample_size = 10 dummy_files = [ ('zulip.txt', '1/31/4CBjtTLYZhk66pZrF8hnYGwc/zulip.txt', sample_size), ('temp_file.py', '1/31/4CBjtTLYZhk66pZrF8hnYGwc/temp_file.py', sample_size), ('abc.py', '1/31/4CBjtTLYZhk66pZrF8hnYGwc/abc.py', sample_size) ] for file_name, path_id, size in dummy_files: create_attachment(file_name, path_id, user_profile, size) # Send message referring the attachment self.subscribe(user_profile, "Denmark") body = "Some files here ...[zulip.txt](http://localhost:9991/user_uploads/1/31/4CBjtTLYZhk66pZrF8hnYGwc/zulip.txt)" + \ "http://localhost:9991/user_uploads/1/31/4CBjtTLYZhk66pZrF8hnYGwc/temp_file.py.... Some more...." + \ "http://localhost:9991/user_uploads/1/31/4CBjtTLYZhk66pZrF8hnYGwc/abc.py" self.send_stream_message(user_profile.email, "Denmark", body, "test") for file_name, path_id, size in dummy_files: attachment = Attachment.objects.get(path_id=path_id) self.assertTrue(attachment.is_claimed()) class MissedMessageTest(ZulipTestCase): def test_presence_idle_user_ids(self) -> None: UserPresence.objects.all().delete() sender = self.example_user('cordelia') realm = sender.realm hamlet = self.example_user('hamlet') othello = self.example_user('othello') recipient_ids = {hamlet.id, othello.id} message_type = 'stream' user_flags = {} # type: Dict[int, List[str]] def assert_missing(user_ids: List[int]) -> None: presence_idle_user_ids = get_active_presence_idle_user_ids( realm=realm, sender_id=sender.id, message_type=message_type, active_user_ids=recipient_ids, user_flags=user_flags, ) self.assertEqual(sorted(user_ids), sorted(presence_idle_user_ids)) def set_presence(user_id: int, client_name: str, ago: int) -> None: when = timezone_now() - datetime.timedelta(seconds=ago) UserPresence.objects.create( user_profile_id=user_id, client=get_client(client_name), timestamp=when, ) message_type = 'private' assert_missing([hamlet.id, othello.id]) message_type = 'stream' user_flags[hamlet.id] = ['mentioned'] assert_missing([hamlet.id]) set_presence(hamlet.id, 'iPhone', ago=5000) assert_missing([hamlet.id]) set_presence(hamlet.id, 'webapp', ago=15) assert_missing([]) message_type = 'private' assert_missing([othello.id]) class LogDictTest(ZulipTestCase): def test_to_log_dict(self) -> None: email = self.example_email('hamlet') stream_name = 'Denmark' topic_name = 'Copenhagen' content = 'find me some good coffee shops' # self.login(self.example_email("hamlet")) message_id = self.send_stream_message(email, stream_name, topic_name=topic_name, content=content) message = Message.objects.get(id=message_id) dct = message.to_log_dict() self.assertTrue('timestamp' in dct) self.assertEqual(dct['content'], 'find me some good coffee shops') self.assertEqual(dct['id'], message.id) self.assertEqual(dct['recipient'], 'Denmark') self.assertEqual(dct['sender_realm_str'], 'zulip') self.assertEqual(dct['sender_email'], self.example_email("hamlet")) self.assertEqual(dct['sender_full_name'], 'King Hamlet') self.assertEqual(dct['sender_id'], self.example_user('hamlet').id) self.assertEqual(dct['sender_short_name'], 'hamlet') self.assertEqual(dct['sending_client'], 'test suite') self.assertEqual(dct[DB_TOPIC_NAME], 'Copenhagen') self.assertEqual(dct['type'], 'stream') class CheckMessageTest(ZulipTestCase): def test_basic_check_message_call(self) -> None: sender = self.example_user('othello') client = make_client(name="test suite") stream_name = u'España y Francia' self.make_stream(stream_name) topic_name = 'issue' message_content = 'whatever' addressee = Addressee.for_stream_name(stream_name, topic_name) ret = check_message(sender, client, addressee, message_content) self.assertEqual(ret['message'].sender.email, self.example_email("othello")) def test_bot_pm_feature(self) -> None: """We send a PM to a bot's owner if their bot sends a message to an unsubscribed stream""" parent = self.example_user('othello') bot = do_create_user( email='othello-bot@zulip.com', password='', realm=parent.realm, full_name='', short_name='', bot_type=UserProfile.DEFAULT_BOT, bot_owner=parent ) bot.last_reminder = None sender = bot client = make_client(name="test suite") stream_name = u'Россия' topic_name = 'issue' addressee = Addressee.for_stream_name(stream_name, topic_name) message_content = 'whatever' old_count = message_stream_count(parent) # Try sending to stream that doesn't exist sends a reminder to # the sender with self.assertRaises(JsonableError): check_message(sender, client, addressee, message_content) new_count = message_stream_count(parent) self.assertEqual(new_count, old_count + 1) self.assertIn("that stream does not yet exist.", most_recent_message(parent).content) # Try sending to stream that exists with no subscribers soon # after; due to rate-limiting, this should send nothing. self.make_stream(stream_name) ret = check_message(sender, client, addressee, message_content) new_count = message_stream_count(parent) self.assertEqual(new_count, old_count + 1) # Try sending to stream that exists with no subscribers longer # after; this should send an error to the bot owner that the # stream doesn't exist assert(sender.last_reminder is not None) sender.last_reminder = sender.last_reminder - datetime.timedelta(hours=1) sender.save(update_fields=["last_reminder"]) ret = check_message(sender, client, addressee, message_content) new_count = message_stream_count(parent) self.assertEqual(new_count, old_count + 2) self.assertEqual(ret['message'].sender.email, 'othello-bot@zulip.com') self.assertIn("there are no subscribers to that stream", most_recent_message(parent).content) def test_bot_pm_error_handling(self) -> None: # This just test some defensive code. cordelia = self.example_user('cordelia') test_bot = self.create_test_bot( short_name='test', user_profile=cordelia, ) content = 'whatever' good_realm = test_bot.realm wrong_realm = get_realm("zephyr") wrong_sender = cordelia send_rate_limited_pm_notification_to_bot_owner(test_bot, wrong_realm, content) self.assertEqual(test_bot.last_reminder, None) send_rate_limited_pm_notification_to_bot_owner(wrong_sender, good_realm, content) self.assertEqual(test_bot.last_reminder, None) test_bot.realm.deactivated = True send_rate_limited_pm_notification_to_bot_owner(test_bot, good_realm, content) self.assertEqual(test_bot.last_reminder, None) class DeleteMessageTest(ZulipTestCase): def test_delete_message_by_user(self) -> None: def set_message_deleting_params(allow_message_deleting: bool, message_content_delete_limit_seconds: int) -> None: self.login("iago@zulip.com") result = self.client_patch("/json/realm", { 'allow_message_deleting': ujson.dumps(allow_message_deleting), 'message_content_delete_limit_seconds': message_content_delete_limit_seconds }) self.assert_json_success(result) def test_delete_message_by_admin(msg_id: int) -> HttpResponse: self.login("iago@zulip.com") result = self.client_delete('/json/messages/{msg_id}'.format(msg_id=msg_id)) return result def test_delete_message_by_owner(msg_id: int) -> HttpResponse: self.login("hamlet@zulip.com") result = self.client_delete('/json/messages/{msg_id}'.format(msg_id=msg_id)) return result def test_delete_message_by_other_user(msg_id: int) -> HttpResponse: self.login("cordelia@zulip.com") result = self.client_delete('/json/messages/{msg_id}'.format(msg_id=msg_id)) return result # Test if message deleting is not allowed(default). set_message_deleting_params(False, 0) self.login("hamlet@zulip.com") msg_id = self.send_stream_message("hamlet@zulip.com", "Scotland") result = test_delete_message_by_owner(msg_id=msg_id) self.assert_json_error(result, "You don't have permission to delete this message") result = test_delete_message_by_other_user(msg_id=msg_id) self.assert_json_error(result, "You don't have permission to delete this message") result = test_delete_message_by_admin(msg_id=msg_id) self.assert_json_success(result) # Test if message deleting is allowed. # Test if time limit is zero(no limit). set_message_deleting_params(True, 0) msg_id = self.send_stream_message("hamlet@zulip.com", "Scotland") message = Message.objects.get(id=msg_id) message.pub_date = message.pub_date - datetime.timedelta(seconds=600) message.save() result = test_delete_message_by_other_user(msg_id=msg_id) self.assert_json_error(result, "You don't have permission to delete this message") result = test_delete_message_by_owner(msg_id=msg_id) self.assert_json_success(result) # Test if time limit is non-zero. set_message_deleting_params(True, 240) msg_id_1 = self.send_stream_message("hamlet@zulip.com", "Scotland") message = Message.objects.get(id=msg_id_1) message.pub_date = message.pub_date - datetime.timedelta(seconds=120) message.save() msg_id_2 = self.send_stream_message("hamlet@zulip.com", "Scotland") message = Message.objects.get(id=msg_id_2) message.pub_date = message.pub_date - datetime.timedelta(seconds=360) message.save() result = test_delete_message_by_other_user(msg_id=msg_id_1) self.assert_json_error(result, "You don't have permission to delete this message") result = test_delete_message_by_owner(msg_id=msg_id_1) self.assert_json_success(result) result = test_delete_message_by_owner(msg_id=msg_id_2) self.assert_json_error(result, "The time limit for deleting this message has passed") # No limit for admin. result = test_delete_message_by_admin(msg_id=msg_id_2) self.assert_json_success(result) # Test mulitple delete requests with no latency issues msg_id = self.send_stream_message("hamlet@zulip.com", "Scotland") result = test_delete_message_by_owner(msg_id=msg_id) self.assert_json_success(result) result = test_delete_message_by_owner(msg_id=msg_id) self.assert_json_error(result, "Invalid message(s)") # Test handling of 500 error caused by mulitple delete requests due to latency. # see issue #11219. with mock.patch("zerver.views.messages.do_delete_messages") as m, \ mock.patch("zerver.views.messages.validate_can_delete_message", return_value=None), \ mock.patch("zerver.views.messages.access_message", return_value=(None, None)): m.side_effect = IntegrityError() result = test_delete_message_by_owner(msg_id=msg_id) self.assert_json_error(result, "Message already deleted") m.side_effect = Message.DoesNotExist() result = test_delete_message_by_owner(msg_id=msg_id) self.assert_json_error(result, "Message already deleted") 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_email('iago') stream_name = 'Denmark' topic_name = 'foo' def last_realm_audit_log_entry(event_type: str) -> 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.email, stream_name) do_soft_deactivate_users([long_term_idle_user]) 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 queries_captured() as queries: reactivate_user_if_soft_deactivated(long_term_idle_user) self.assert_length(queries, 8) self.assertFalse(long_term_idle_user.long_term_idle) self.assertEqual(last_realm_audit_log_entry( RealmAuditLog.USER_SOFT_ACTIVATED).modified_user, long_term_idle_user) idle_user_msg_list = get_user_messages(long_term_idle_user) self.assertEqual(len(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: recipient = get_stream_recipient(stream.id) message = Message(sender = sender, recipient = recipient, content = message_content, pub_date = 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.email, stream_name) do_soft_deactivate_users([long_term_idle_user]) # 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 queries_captured() as queries: add_missing_messages(long_term_idle_user) self.assert_length(queries, 6) idle_user_msg_list = get_user_messages(long_term_idle_user) self.assertEqual(len(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 queries_captured() as queries: add_missing_messages(long_term_idle_user) self.assert_length(queries, 6) idle_user_msg_list = get_user_messages(long_term_idle_user) self.assertEqual(len(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 queries_captured() as queries: add_missing_messages(long_term_idle_user) self.assert_length(queries, 6) idle_user_msg_list = get_user_messages(long_term_idle_user) self.assertEqual(len(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 queries_captured() as queries: add_missing_messages(long_term_idle_user) self.assert_length(queries, 6) idle_user_msg_list = get_user_messages(long_term_idle_user) self.assertEqual(len(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.email, stream_name, 'Test Message 9') self.unsubscribe(long_term_idle_user, stream_name) # Soft deactivate and send another message to the unsubscribed stream. do_soft_deactivate_users([long_term_idle_user]) 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) with queries_captured() as queries: add_missing_messages(long_term_idle_user) # There are no streams to fetch missing messages from, so # the Message.objects query will be avoided. self.assert_length(queries, 4) idle_user_msg_list = get_user_messages(long_term_idle_user) # No new UserMessage rows should have been created. self.assertEqual(len(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 queries_captured() as queries: add_missing_messages(long_term_idle_user) self.assert_length(queries, 6) idle_user_msg_list = get_user_messages(long_term_idle_user) self.assertEqual(len(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.email, stream_name) do_soft_deactivate_users([long_term_idle_user]) num_new_messages = 5 message_ids = [] for _ in range(num_new_messages): message_id = self.send_stream_message(sender.email, 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 queries_captured() as queries: add_missing_messages(long_term_idle_user) self.assert_length(queries, 10) idle_user_msg_list = get_user_messages(long_term_idle_user) self.assertEqual(len(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. recipient_list = [ self.example_user("hamlet"), self.example_user("iago"), self.example_user('cordelia') ] for user_profile in recipient_list: self.subscribe(user_profile, "Denmark") cordelia = self.example_user('cordelia') sender = self.example_email('iago') stream_name = 'Denmark' topic_name = 'foo' 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_email("hamlet"), content) long_term_idle_user = self.example_user('hamlet') self.send_stream_message(long_term_idle_user.email, stream_name) do_soft_deactivate_users([long_term_idle_user]) def assert_um_count(user: UserProfile, count: int) -> None: user_messages = get_user_messages(user) self.assertEqual(len(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) # Test that sending a message to a stream with soft deactivated user # doesn't end up creating UserMessage row for deactivated user. general_user_msg_count = len(get_user_messages(cordelia)) soft_deactivated_user_msg_count = len(get_user_messages(long_term_idle_user)) message = 'Test Message 1' send_stream_message(message) assert_last_um_content(long_term_idle_user, message, negate=True) 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(cordelia, message) # Test that sending a message to a stream with soft deactivated user # and push/email notifications on creates a UserMessage row for the # deactivated user. sub = get_subscription(stream_name, long_term_idle_user) sub.push_notifications = True sub.save() general_user_msg_count = len(get_user_messages(cordelia)) soft_deactivated_user_msg_count = len(get_user_messages(long_term_idle_user)) message = 'Test private stream message' send_stream_message(message) assert_um_count(long_term_idle_user, soft_deactivated_user_msg_count + 1) assert_last_um_content(long_term_idle_user, message) sub.push_notifications = False sub.save() # Test sending a private message to soft deactivated user creates # UserMessage row. soft_deactivated_user_msg_count = len(get_user_messages(long_term_idle_user)) message = 'Test PM' 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. general_user_msg_count = len(get_user_messages(cordelia)) soft_deactivated_user_msg_count = len(get_user_messages(long_term_idle_user)) message = 'Test @**King Hamlet** mention' send_stream_message(message) assert_last_um_content(long_term_idle_user, message) 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(cordelia, message) # Test UserMessage row is not created while user is deactivated if # anyone is mentioned but the user. general_user_msg_count = len(get_user_messages(cordelia)) soft_deactivated_user_msg_count = len(get_user_messages(long_term_idle_user)) message = 'Test @**Cordelia Lear** mention' send_stream_message(message) assert_last_um_content(long_term_idle_user, message, negate=True) 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(cordelia, message) # Test UserMessage row is created while user is deactivated if # there is a wildcard mention such as @all or @everyone general_user_msg_count = len(get_user_messages(cordelia)) soft_deactivated_user_msg_count = len(get_user_messages(long_term_idle_user)) message = 'Test @**all** mention' send_stream_message(message) assert_last_um_content(long_term_idle_user, message) 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(cordelia, message) general_user_msg_count = len(get_user_messages(cordelia)) soft_deactivated_user_msg_count = len(get_user_messages(long_term_idle_user)) message = 'Test @**everyone** mention' send_stream_message(message) assert_last_um_content(long_term_idle_user, message) 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(cordelia, message) general_user_msg_count = len(get_user_messages(cordelia)) soft_deactivated_user_msg_count = len(get_user_messages(long_term_idle_user)) message = 'Test @**stream** mention' send_stream_message(message) assert_last_um_content(long_term_idle_user, message) 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(cordelia, message) # Test UserMessage row is not created while user is deactivated if there # is a alert word in message. do_add_alert_words(long_term_idle_user, ['test_alert_word']) general_user_msg_count = len(get_user_messages(cordelia)) soft_deactivated_user_msg_count = len(get_user_messages(long_term_idle_user)) message = 'Testing test_alert_word' send_stream_message(message) assert_last_um_content(long_term_idle_user, message) 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(cordelia, message) # Test UserMessage row is created while user is deactivated if # message is a me message. general_user_msg_count = len(get_user_messages(cordelia)) soft_deactivated_user_msg_count = len(get_user_messages(long_term_idle_user)) message = '/me says test' send_stream_message(message) assert_last_um_content(long_term_idle_user, message, negate=True) 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(cordelia, message) class MessageHydrationTest(ZulipTestCase): def test_hydrate_stream_recipient_info(self) -> None: realm = get_realm('zulip') cordelia = self.example_user('cordelia') stream_id = get_stream('Verona', realm).id obj = dict( raw_display_recipient='Verona', recipient_type=Recipient.STREAM, recipient_type_id=stream_id, sender_is_mirror_dummy=False, sender_email=cordelia.email, sender_full_name=cordelia.full_name, sender_short_name=cordelia.short_name, sender_id=cordelia.id, ) MessageDict.hydrate_recipient_info(obj) self.assertEqual(obj['display_recipient'], 'Verona') self.assertEqual(obj['type'], 'stream') def test_hydrate_pm_recipient_info(self) -> None: cordelia = self.example_user('cordelia') obj = dict( raw_display_recipient=[ dict( email='aaron@example.com', full_name='Aaron Smith', ), ], recipient_type=Recipient.PERSONAL, recipient_type_id=None, sender_is_mirror_dummy=False, sender_email=cordelia.email, sender_full_name=cordelia.full_name, sender_short_name=cordelia.short_name, sender_id=cordelia.id, ) MessageDict.hydrate_recipient_info(obj) self.assertEqual( obj['display_recipient'], [ dict( email='aaron@example.com', full_name='Aaron Smith', ), dict( email=cordelia.email, full_name=cordelia.full_name, id=cordelia.id, short_name=cordelia.short_name, is_mirror_dummy=False, ), ], ) self.assertEqual(obj['type'], 'private') def test_messages_for_ids(self) -> None: hamlet = self.example_user('hamlet') cordelia = self.example_user('cordelia') stream_name = 'test stream' self.subscribe(cordelia, stream_name) old_message_id = self.send_stream_message(cordelia.email, stream_name, content='foo') self.subscribe(hamlet, stream_name) content = 'hello @**King Hamlet**' new_message_id = self.send_stream_message(cordelia.email, stream_name, content=content) user_message_flags = { old_message_id: ['read', 'historical'], new_message_id: ['mentioned'], } messages = messages_for_ids( message_ids=[old_message_id, new_message_id], user_message_flags=user_message_flags, search_fields={}, apply_markdown=True, client_gravatar=True, allow_edit_history=False, ) self.assertEqual(len(messages), 2) for message in messages: if message['id'] == old_message_id: old_message = message elif message['id'] == new_message_id: new_message = message self.assertEqual(old_message['content'], '

foo

') self.assertEqual(old_message['flags'], ['read', 'historical']) self.assertIn('class="user-mention"', new_message['content']) self.assertEqual(new_message['flags'], ['mentioned']) class MessageVisibilityTest(ZulipTestCase): def test_update_first_visible_message_id(self) -> None: Message.objects.all().delete() message_ids = [self.send_stream_message(self.example_email("othello"), "Scotland") for i in range(15)] # If message_visibility_limit is None update_first_visible_message_id # should set first_visible_message_id to 0 realm = get_realm("zulip") realm.message_visibility_limit = None # Setting to a random value other than 0 as the default value of # first_visible_message_id is 0 realm.first_visible_message_id = 5 realm.save() update_first_visible_message_id(realm) self.assertEqual(get_first_visible_message_id(realm), 0) realm.message_visibility_limit = 10 realm.save() expected_message_id = message_ids[5] update_first_visible_message_id(realm) self.assertEqual(get_first_visible_message_id(realm), expected_message_id) # If the message_visibility_limit is greater than number of messages # get_first_visible_message_id should return 0 realm.message_visibility_limit = 50 realm.save() update_first_visible_message_id(realm) self.assertEqual(get_first_visible_message_id(realm), 0) def test_maybe_update_first_visible_message_id(self) -> None: realm = get_realm("zulip") lookback_hours = 30 realm.message_visibility_limit = None realm.save() end_time = timezone_now() - datetime.timedelta(hours=lookback_hours - 5) stat = COUNT_STATS['messages_sent:is_bot:hour'] RealmCount.objects.create(realm=realm, property=stat.property, end_time=end_time, value=5) with mock.patch("zerver.lib.message.update_first_visible_message_id") as m: maybe_update_first_visible_message_id(realm, lookback_hours) m.assert_not_called() realm.message_visibility_limit = 10 realm.save() RealmCount.objects.all().delete() with mock.patch("zerver.lib.message.update_first_visible_message_id") as m: maybe_update_first_visible_message_id(realm, lookback_hours) m.assert_not_called() RealmCount.objects.create(realm=realm, property=stat.property, end_time=end_time, value=5) with mock.patch("zerver.lib.message.update_first_visible_message_id") as m: maybe_update_first_visible_message_id(realm, lookback_hours) m.assert_called_once_with(realm)