from typing import Any, Dict, List from unittest import mock from django.utils.timezone import now as timezone_now from zerver.lib.cache import cache_delete, to_dict_cache_key_id from zerver.lib.display_recipient import get_display_recipient from zerver.lib.markdown import version as markdown_version from zerver.lib.message import messages_for_ids from zerver.lib.message_cache import MessageDict, sew_messages_and_reactions from zerver.lib.per_request_cache import flush_per_request_caches from zerver.lib.test_classes import ZulipTestCase from zerver.lib.test_helpers import make_client from zerver.lib.topic import TOPIC_LINKS from zerver.lib.types import DisplayRecipientT, UserDisplayRecipient from zerver.models import Message, Reaction, Realm, RealmFilter, Recipient, Stream, UserProfile from zerver.models.realms import get_realm from zerver.models.streams import get_stream class MessageDictTest(ZulipTestCase): def test_both_codepaths(self) -> None: """ We have two different codepaths that extract a particular shape of dictionary for messages to send to clients: events: These are the events we send to MANY clients when a message is originally sent. fetch: These are the messages we send to ONE client when they fetch messages via some narrow/search in the UI. Different clients have different needs when it comes to things like generating avatar hashes or including both rendered and unrendered Markdown, so that explains the different shapes. And then the two codepaths have different performance needs. In the events codepath, we have the Django view generate a single "wide" dictionary that gets put on the event queue, and then we send events to multiple clients, finalizing the payload for each of them depending on the "shape" they want. (We also avoid doing extra work for any two clients who want the same shape dictionary, but that's out of the scope of this particular test). In the fetch scenario, the single client only needs a dictionary of one shape, but we need to re-hydrate the sender information, since the sender details may have changed since the message was originally sent. This test simply verifies that the two codepaths ultimately provide the same result. """ def reload_message(msg_id: int) -> Message: # Get a clean copy of the message, and # clear the cache. cache_delete(to_dict_cache_key_id(msg_id)) msg = Message.objects.get(id=msg_id) return msg def get_send_message_payload( msg_id: int, apply_markdown: bool, client_gravatar: bool ) -> Dict[str, Any]: msg = reload_message(msg_id) wide_dict = MessageDict.wide_dict(msg) narrow_dict = MessageDict.finalize_payload( wide_dict, apply_markdown=apply_markdown, client_gravatar=client_gravatar, ) return narrow_dict def get_fetch_payload( msg_id: int, apply_markdown: bool, client_gravatar: bool ) -> Dict[str, Any]: msg = reload_message(msg_id) unhydrated_dict = MessageDict.messages_to_encoded_cache_helper([msg])[0] # The next step mutates the dict in place # for performance reasons. MessageDict.post_process_dicts( [unhydrated_dict], apply_markdown=apply_markdown, client_gravatar=client_gravatar, realm=get_realm("zulip"), ) final_dict = unhydrated_dict return final_dict def test_message_id() -> int: hamlet = self.example_user("hamlet") self.login_user(hamlet) msg_id = self.send_stream_message( hamlet, "Denmark", topic_name="editing", content="before edit", ) return msg_id flag_setups = [ [False, False], [False, True], [True, False], [True, True], ] msg_id = test_message_id() for apply_markdown, client_gravatar in flag_setups: send_message_payload = get_send_message_payload( msg_id, apply_markdown=apply_markdown, client_gravatar=client_gravatar, ) fetch_payload = get_fetch_payload( msg_id, apply_markdown=apply_markdown, client_gravatar=client_gravatar, ) self.assertEqual(send_message_payload, fetch_payload) def test_bulk_message_fetching(self) -> None: sender = self.example_user("othello") receiver = self.example_user("hamlet") realm = get_realm("zulip") pm_recipient = Recipient.objects.get(type_id=receiver.id, type=Recipient.PERSONAL) stream_name = "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, realm=realm, content=f"whatever {i}", rendered_content="DOES NOT MATTER", rendered_content_version=markdown_version, date_sent=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) with self.assert_database_query_count(7): objs = MessageDict.ids_to_dict(ids) MessageDict.post_process_dicts( objs, apply_markdown=False, client_gravatar=False, realm=realm ) self.assert_length(objs, 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, realm=receiver.realm, content="hello **world**", date_sent=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". dct = MessageDict.ids_to_dict([message.id])[0] 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, markdown_version) @mock.patch("zerver.lib.message_cache.render_message_markdown") 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, realm=receiver.realm, content="hello **world**", date_sent=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". dct = MessageDict.ids_to_dict([message.id])[0] error_content = ( "[Zulip note: Sorry, we could not understand the formatting of your message]
" ) self.assertEqual(dct["rendered_content"], error_content) def test_topic_links_use_stream_realm(self) -> None: # Set up a realm filter on 'zulip' and assert that messages # sent to a stream on 'zulip' have the topic linkified, # and not linkified when sent to a stream in 'lear'. zulip_realm = get_realm("zulip") lear_realm = get_realm("lear") url_template = r"https://trac.example.com/ticket/{id}" links = {"url": "https://trac.example.com/ticket/123", "text": "#123"} topic_name = "test #123" linkifier = RealmFilter( realm=zulip_realm, pattern=r"#(?Pfoo
") self.assertEqual(old_message["flags"], ["read", "historical"]) self.assertIn('class="user-mention"', new_message["content"]) self.assertEqual(new_message["flags"], ["mentioned"]) def test_message_for_ids_for_restricted_user_access(self) -> None: self.set_up_db_for_testing_user_access() hamlet = self.example_user("hamlet") self.send_stream_message( hamlet, "test_stream1", topic_name="test", content="test message again", ) realm = get_realm("zulip") stream = get_stream("test_stream1", realm) assert stream.recipient_id is not None message_ids = Message.objects.filter( recipient_id=stream.recipient_id, realm=realm ).values_list("id", flat=True) self.assert_length(message_ids, 2) user_message_flags = { message_ids[0]: ["read", "historical"], message_ids[1]: ["read"], } messages = messages_for_ids( message_ids=list(message_ids), user_message_flags=user_message_flags, search_fields={}, apply_markdown=True, client_gravatar=True, allow_edit_history=False, user_profile=self.example_user("polonius"), realm=realm, ) (inaccessible_sender_msg,) = (msg for msg in messages if msg["sender_id"] != hamlet.id) self.assertEqual(inaccessible_sender_msg["sender_id"], self.example_user("othello").id) self.assertEqual(inaccessible_sender_msg["sender_full_name"], "Unknown user") self.assertTrue( inaccessible_sender_msg["avatar_url"].endswith("images/unknown-user-avatar.png") ) def test_display_recipient_up_to_date(self) -> None: """ This is a test for a bug where due to caching of message_dicts, after updating a user's information, fetching those cached messages via messages_for_ids would return message_dicts with display_recipient still having the old information. The returned message_dicts should have up-to-date display_recipients and we check for that here. """ hamlet = self.example_user("hamlet") cordelia = self.example_user("cordelia") message_id = self.send_personal_message(hamlet, cordelia, "test") cordelia_recipient = cordelia.recipient # Cause the display_recipient to get cached: assert cordelia_recipient is not None get_display_recipient(cordelia_recipient) # Change cordelia's email: cordelia_new_email = "new-cordelia@zulip.com" cordelia.email = cordelia_new_email cordelia.save() # Local display_recipient cache needs to be flushed. # flush_per_request_caches() is called after every request, # so it makes sense to run it here. flush_per_request_caches() messages = messages_for_ids( message_ids=[message_id], user_message_flags={message_id: ["read"]}, search_fields={}, apply_markdown=True, client_gravatar=True, allow_edit_history=False, user_profile=cordelia, realm=cordelia.realm, ) message = messages[0] # Find which display_recipient in the list is cordelia: for display_recipient in message["display_recipient"]: if display_recipient["id"] == cordelia.id: cordelia_display_recipient = display_recipient # Make sure the email is up-to-date. self.assertEqual(cordelia_display_recipient["email"], cordelia_new_email) class TestMessageForIdsDisplayRecipientFetching(ZulipTestCase): def _verify_display_recipient( self, display_recipient: DisplayRecipientT, expected_recipient_objects: List[UserProfile], ) -> None: for user_profile in expected_recipient_objects: recipient_dict: UserDisplayRecipient = { "email": user_profile.email, "full_name": user_profile.full_name, "id": user_profile.id, "is_mirror_dummy": user_profile.is_mirror_dummy, } self.assertTrue(recipient_dict in display_recipient) def test_display_recipient_personal(self) -> None: hamlet = self.example_user("hamlet") cordelia = self.example_user("cordelia") othello = self.example_user("othello") message_ids = [ self.send_personal_message(hamlet, cordelia, "test"), self.send_personal_message(cordelia, othello, "test"), ] messages = messages_for_ids( message_ids=message_ids, user_message_flags={message_id: ["read"] for message_id in message_ids}, search_fields={}, apply_markdown=True, client_gravatar=True, allow_edit_history=False, user_profile=cordelia, realm=cordelia.realm, ) self._verify_display_recipient(messages[0]["display_recipient"], [hamlet, cordelia]) self._verify_display_recipient(messages[1]["display_recipient"], [cordelia, othello]) def test_display_recipient_stream(self) -> None: cordelia = self.example_user("cordelia") self.subscribe(cordelia, "Denmark") message_ids = [ self.send_stream_message(cordelia, "Verona", content="test"), self.send_stream_message(cordelia, "Denmark", content="test"), ] messages = messages_for_ids( message_ids=message_ids, user_message_flags={message_id: ["read"] for message_id in message_ids}, search_fields={}, apply_markdown=True, client_gravatar=True, allow_edit_history=False, user_profile=cordelia, realm=cordelia.realm, ) self.assertEqual(messages[0]["display_recipient"], "Verona") self.assertEqual(messages[1]["display_recipient"], "Denmark") def test_display_recipient_direct_message_group(self) -> None: hamlet = self.example_user("hamlet") cordelia = self.example_user("cordelia") othello = self.example_user("othello") iago = self.example_user("iago") message_ids = [ self.send_group_direct_message(hamlet, [cordelia, othello], "test"), self.send_group_direct_message(cordelia, [hamlet, othello, iago], "test"), ] messages = messages_for_ids( message_ids=message_ids, user_message_flags={message_id: ["read"] for message_id in message_ids}, search_fields={}, apply_markdown=True, client_gravatar=True, allow_edit_history=False, user_profile=cordelia, realm=cordelia.realm, ) self._verify_display_recipient( messages[0]["display_recipient"], [hamlet, cordelia, othello] ) self._verify_display_recipient( messages[1]["display_recipient"], [hamlet, cordelia, othello, iago] ) def test_display_recipient_various_types(self) -> None: hamlet = self.example_user("hamlet") cordelia = self.example_user("cordelia") othello = self.example_user("othello") iago = self.example_user("iago") self.subscribe(cordelia, "Denmark") self.subscribe(hamlet, "Scotland") message_ids = [ self.send_group_direct_message(hamlet, [cordelia, othello], "test"), self.send_stream_message(cordelia, "Verona", content="test"), self.send_personal_message(hamlet, cordelia, "test"), self.send_stream_message(cordelia, "Denmark", content="test"), self.send_group_direct_message(cordelia, [hamlet, othello, iago], "test"), self.send_personal_message(cordelia, othello, "test"), ] messages = messages_for_ids( message_ids=message_ids, user_message_flags={message_id: ["read"] for message_id in message_ids}, search_fields={}, apply_markdown=True, client_gravatar=True, allow_edit_history=False, user_profile=cordelia, realm=cordelia.realm, ) self._verify_display_recipient( messages[0]["display_recipient"], [hamlet, cordelia, othello] ) self.assertEqual(messages[1]["display_recipient"], "Verona") self._verify_display_recipient(messages[2]["display_recipient"], [hamlet, cordelia]) self.assertEqual(messages[3]["display_recipient"], "Denmark") self._verify_display_recipient( messages[4]["display_recipient"], [hamlet, cordelia, othello, iago] ) self._verify_display_recipient(messages[5]["display_recipient"], [cordelia, othello]) class SewMessageAndReactionTest(ZulipTestCase): def test_sew_messages_and_reaction(self) -> None: sender = self.example_user("othello") receiver = self.example_user("hamlet") realm = get_realm("zulip") pm_recipient = Recipient.objects.get(type_id=receiver.id, type=Recipient.PERSONAL) stream_name = "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, realm=realm, content=f"whatever {i}", date_sent=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.assert_length(data["reactions"], 1) self.assertEqual(data["reactions"][0]["emoji_name"], "simple_smile") self.assertTrue(data["id"]) self.assertTrue(data["content"])