import time from typing import Any, Callable, Dict, List, Mapping, Optional from unittest import mock import orjson from django.conf import settings from django.http import HttpRequest, HttpResponse from django.utils.timezone import now as timezone_now from version import API_FEATURE_LEVEL, ZULIP_MERGE_BASE, ZULIP_VERSION from zerver.lib.actions import ( check_send_message, do_change_user_role, do_set_realm_property, do_update_user_presence, ) from zerver.lib.event_schema import check_restart_event from zerver.lib.events import fetch_initial_state_data from zerver.lib.exceptions import AccessDeniedError from zerver.lib.test_classes import ZulipTestCase from zerver.lib.test_helpers import HostRequestMock, queries_captured, stub_event_queue_user_events from zerver.lib.users import get_api_key, get_raw_user_data from zerver.models import ( Realm, UserMessage, UserPresence, UserProfile, flush_per_request_caches, get_client, get_realm, get_stream, get_system_bot, ) from zerver.tornado.event_queue import ( allocate_client_descriptor, clear_client_event_queues_for_testing, get_client_info_for_message_event, process_message_event, send_restart_events, ) from zerver.tornado.views import get_events, get_events_backend from zerver.views.events_register import ( _default_all_public_streams, _default_narrow, events_register_backend, ) class EventsEndpointTest(ZulipTestCase): def test_events_register_endpoint(self) -> None: # This test is intended to get minimal coverage on the # events_register code paths user = self.example_user("hamlet") with mock.patch("zerver.views.events_register.do_events_register", return_value={}): result = self.api_post(user, "/json/register") self.assert_json_success(result) with mock.patch("zerver.lib.events.request_event_queue", return_value=None): result = self.api_post(user, "/json/register") self.assert_json_error(result, "Could not allocate event queue") return_event_queue = "15:11" return_user_events: List[Dict[str, Any]] = [] # We choose realm_emoji somewhat randomly--we want # a "boring" event type for the purpose of this test. event_type = "realm_emoji" test_event = dict(id=6, type=event_type, realm_emoji=[]) # Test that call is made to deal with a returning soft deactivated user. with mock.patch("zerver.lib.events.reactivate_user_if_soft_deactivated") as fa: with stub_event_queue_user_events(return_event_queue, return_user_events): result = self.api_post( user, "/json/register", dict(event_types=orjson.dumps([event_type]).decode()) ) self.assertEqual(fa.call_count, 1) with stub_event_queue_user_events(return_event_queue, return_user_events): result = self.api_post( user, "/json/register", dict(event_types=orjson.dumps([event_type]).decode()) ) self.assert_json_success(result) result_dict = result.json() self.assertEqual(result_dict["last_event_id"], -1) self.assertEqual(result_dict["queue_id"], "15:11") # Now start simulating returning actual data return_event_queue = "15:12" return_user_events = [test_event] with stub_event_queue_user_events(return_event_queue, return_user_events): result = self.api_post( user, "/json/register", dict(event_types=orjson.dumps([event_type]).decode()) ) self.assert_json_success(result) result_dict = result.json() self.assertEqual(result_dict["last_event_id"], 6) self.assertEqual(result_dict["queue_id"], "15:12") # sanity check the data relevant to our event self.assertEqual(result_dict["realm_emoji"], []) # Now test with `fetch_event_types` not matching the event return_event_queue = "15:13" with stub_event_queue_user_events(return_event_queue, return_user_events): result = self.api_post( user, "/json/register", dict( event_types=orjson.dumps([event_type]).decode(), fetch_event_types=orjson.dumps(["message"]).decode(), ), ) self.assert_json_success(result) result_dict = result.json() self.assertEqual(result_dict["last_event_id"], 6) # Check that the message event types data is in there self.assertIn("max_message_id", result_dict) # Check that our original event type is not there. self.assertNotIn(event_type, result_dict) self.assertEqual(result_dict["queue_id"], "15:13") # Now test with `fetch_event_types` matching the event with stub_event_queue_user_events(return_event_queue, return_user_events): result = self.api_post( user, "/json/register", dict( fetch_event_types=orjson.dumps([event_type]).decode(), event_types=orjson.dumps(["message"]).decode(), ), ) self.assert_json_success(result) result_dict = result.json() self.assertEqual(result_dict["last_event_id"], 6) # Check that we didn't fetch the messages data self.assertNotIn("max_message_id", result_dict) # Check that the realm_emoji data is in there. self.assertIn("realm_emoji", result_dict) self.assertEqual(result_dict["realm_emoji"], []) self.assertEqual(result_dict["queue_id"], "15:13") def test_events_register_endpoint_all_public_streams_access(self) -> None: guest_user = self.example_user("polonius") normal_user = self.example_user("hamlet") self.assertEqual(guest_user.role, UserProfile.ROLE_GUEST) self.assertEqual(normal_user.role, UserProfile.ROLE_MEMBER) with mock.patch("zerver.views.events_register.do_events_register", return_value={}): result = self.api_post(normal_user, "/json/register", dict(all_public_streams="true")) self.assert_json_success(result) with mock.patch("zerver.views.events_register.do_events_register", return_value={}): result = self.api_post(guest_user, "/json/register", dict(all_public_streams="true")) self.assert_json_error(result, "User not authorized for this query") def test_events_get_events_endpoint_guest_cant_use_all_public_streams_param(self) -> None: """ This test is meant to execute the very beginning of the codepath to ensure guest users are immediately disallowed to use the all_public_streams param. Deeper testing is hard (and not necessary for this case) due to the codepath expecting AsyncDjangoHandler to be attached to the request, which doesn't happen in our test setup. """ guest_user = self.example_user("polonius") self.assertEqual(guest_user.role, UserProfile.ROLE_GUEST) result = self.api_get(guest_user, "/api/v1/events", dict(all_public_streams="true")) self.assert_json_error(result, "User not authorized for this query") def test_tornado_endpoint(self) -> None: # This test is mostly intended to get minimal coverage on # the /notify_tornado endpoint, so we can have 100% URL coverage, # but it does exercise a little bit of the codepath. post_data = dict( data=orjson.dumps( dict( event=dict( type="other", ), users=[self.example_user("hamlet").id], ), ).decode(), ) req = HostRequestMock(post_data, user_profile=None) req.META["REMOTE_ADDR"] = "127.0.0.1" with self.assertRaises(AccessDeniedError) as context: result = self.client_post_request("/notify_tornado", req) self.assertEqual(str(context.exception), "Access denied") self.assertEqual(context.exception.http_status_code, 403) post_data["secret"] = settings.SHARED_SECRET req = HostRequestMock(post_data, user_profile=None) req.META["REMOTE_ADDR"] = "127.0.0.1" result = self.client_post_request("/notify_tornado", req) self.assert_json_success(result) class GetEventsTest(ZulipTestCase): def tornado_call( self, view_func: Callable[[HttpRequest, UserProfile], HttpResponse], user_profile: UserProfile, post_data: Dict[str, Any], ) -> HttpResponse: request = HostRequestMock(post_data, user_profile) return view_func(request, user_profile) def test_get_events(self) -> None: user_profile = self.example_user("hamlet") email = user_profile.email recipient_user_profile = self.example_user("othello") recipient_email = recipient_user_profile.email self.login_user(user_profile) result = self.tornado_call( get_events, user_profile, { "apply_markdown": orjson.dumps(True).decode(), "client_gravatar": orjson.dumps(True).decode(), "event_types": orjson.dumps(["message"]).decode(), "user_client": "website", "dont_block": orjson.dumps(True).decode(), }, ) self.assert_json_success(result) queue_id = orjson.loads(result.content)["queue_id"] recipient_result = self.tornado_call( get_events, recipient_user_profile, { "apply_markdown": orjson.dumps(True).decode(), "client_gravatar": orjson.dumps(True).decode(), "event_types": orjson.dumps(["message"]).decode(), "user_client": "website", "dont_block": orjson.dumps(True).decode(), }, ) self.assert_json_success(recipient_result) recipient_queue_id = orjson.loads(recipient_result.content)["queue_id"] result = self.tornado_call( get_events, user_profile, { "queue_id": queue_id, "user_client": "website", "last_event_id": -1, "dont_block": orjson.dumps(True).decode(), }, ) events = orjson.loads(result.content)["events"] self.assert_json_success(result) self.assert_length(events, 0) local_id = "10.01" check_send_message( sender=user_profile, client=get_client("whatever"), message_type_name="private", message_to=[recipient_email], topic_name=None, message_content="hello", local_id=local_id, sender_queue_id=queue_id, ) result = self.tornado_call( get_events, user_profile, { "queue_id": queue_id, "user_client": "website", "last_event_id": -1, "dont_block": orjson.dumps(True).decode(), }, ) events = orjson.loads(result.content)["events"] self.assert_json_success(result) self.assert_length(events, 1) self.assertEqual(events[0]["type"], "message") self.assertEqual(events[0]["message"]["sender_email"], email) self.assertEqual(events[0]["local_message_id"], local_id) self.assertEqual(events[0]["message"]["display_recipient"][0]["is_mirror_dummy"], False) self.assertEqual(events[0]["message"]["display_recipient"][1]["is_mirror_dummy"], False) last_event_id = events[0]["id"] local_id = "10.02" check_send_message( sender=user_profile, client=get_client("whatever"), message_type_name="private", message_to=[recipient_email], topic_name=None, message_content="hello", local_id=local_id, sender_queue_id=queue_id, ) result = self.tornado_call( get_events, user_profile, { "queue_id": queue_id, "user_client": "website", "last_event_id": last_event_id, "dont_block": orjson.dumps(True).decode(), }, ) events = orjson.loads(result.content)["events"] self.assert_json_success(result) self.assert_length(events, 1) self.assertEqual(events[0]["type"], "message") self.assertEqual(events[0]["message"]["sender_email"], email) self.assertEqual(events[0]["local_message_id"], local_id) # Test that the received message in the receiver's event queue # exists and does not contain a local id recipient_result = self.tornado_call( get_events, recipient_user_profile, { "queue_id": recipient_queue_id, "user_client": "website", "last_event_id": -1, "dont_block": orjson.dumps(True).decode(), }, ) recipient_events = orjson.loads(recipient_result.content)["events"] self.assert_json_success(recipient_result) self.assert_length(recipient_events, 2) self.assertEqual(recipient_events[0]["type"], "message") self.assertEqual(recipient_events[0]["message"]["sender_email"], email) self.assertTrue("local_message_id" not in recipient_events[0]) self.assertEqual(recipient_events[1]["type"], "message") self.assertEqual(recipient_events[1]["message"]["sender_email"], email) self.assertTrue("local_message_id" not in recipient_events[1]) def test_get_events_narrow(self) -> None: user_profile = self.example_user("hamlet") self.login_user(user_profile) def get_message(apply_markdown: bool, client_gravatar: bool) -> Dict[str, Any]: result = self.tornado_call( get_events, user_profile, dict( apply_markdown=orjson.dumps(apply_markdown).decode(), client_gravatar=orjson.dumps(client_gravatar).decode(), event_types=orjson.dumps(["message"]).decode(), narrow=orjson.dumps([["stream", "denmark"]]).decode(), user_client="website", dont_block=orjson.dumps(True).decode(), ), ) self.assert_json_success(result) queue_id = orjson.loads(result.content)["queue_id"] result = self.tornado_call( get_events, user_profile, { "queue_id": queue_id, "user_client": "website", "last_event_id": -1, "dont_block": orjson.dumps(True).decode(), }, ) events = orjson.loads(result.content)["events"] self.assert_json_success(result) self.assert_length(events, 0) self.send_personal_message(user_profile, self.example_user("othello"), "hello") self.send_stream_message(user_profile, "Denmark", "**hello**") result = self.tornado_call( get_events, user_profile, { "queue_id": queue_id, "user_client": "website", "last_event_id": -1, "dont_block": orjson.dumps(True).decode(), }, ) events = orjson.loads(result.content)["events"] self.assert_json_success(result) self.assert_length(events, 1) self.assertEqual(events[0]["type"], "message") return events[0]["message"] message = get_message(apply_markdown=False, client_gravatar=False) self.assertEqual(message["display_recipient"], "Denmark") self.assertEqual(message["content"], "**hello**") self.assertTrue(message["avatar_url"].startswith("https://secure.gravatar.com")) message = get_message(apply_markdown=True, client_gravatar=False) self.assertEqual(message["display_recipient"], "Denmark") self.assertEqual(message["content"], "
hello
") self.assertIn("gravatar.com", message["avatar_url"]) message = get_message(apply_markdown=False, client_gravatar=True) self.assertEqual(message["display_recipient"], "Denmark") self.assertEqual(message["content"], "**hello**") self.assertEqual(message["avatar_url"], None) message = get_message(apply_markdown=True, client_gravatar=True) self.assertEqual(message["display_recipient"], "Denmark") self.assertEqual(message["content"], "hello
") self.assertEqual(message["avatar_url"], None) class FetchInitialStateDataTest(ZulipTestCase): # Non-admin users don't have access to all bots def test_realm_bots_non_admin(self) -> None: user_profile = self.example_user("cordelia") self.assertFalse(user_profile.is_realm_admin) result = fetch_initial_state_data(user_profile) self.assert_length(result["realm_bots"], 0) # additionally the API key for a random bot is not present in the data api_key = get_api_key(self.notification_bot(user_profile.realm)) self.assertNotIn(api_key, str(result)) # Admin users have access to all bots in the realm_bots field def test_realm_bots_admin(self) -> None: user_profile = self.example_user("hamlet") do_change_user_role(user_profile, UserProfile.ROLE_REALM_ADMINISTRATOR, acting_user=None) self.assertTrue(user_profile.is_realm_admin) result = fetch_initial_state_data(user_profile) self.assertGreater(len(result["realm_bots"]), 2) def test_max_message_id_with_no_history(self) -> None: user_profile = self.example_user("aaron") # Delete all historical messages for this user UserMessage.objects.filter(user_profile=user_profile).delete() result = fetch_initial_state_data(user_profile) self.assertEqual(result["max_message_id"], -1) def test_delivery_email_presence_for_non_admins(self) -> None: user_profile = self.example_user("aaron") self.assertFalse(user_profile.is_realm_admin) do_set_realm_property( user_profile.realm, "email_address_visibility", Realm.EMAIL_ADDRESS_VISIBILITY_EVERYONE, acting_user=None, ) result = fetch_initial_state_data(user_profile) for key, value in result["raw_users"].items(): self.assertNotIn("delivery_email", value) do_set_realm_property( user_profile.realm, "email_address_visibility", Realm.EMAIL_ADDRESS_VISIBILITY_ADMINS, acting_user=None, ) result = fetch_initial_state_data(user_profile) for key, value in result["raw_users"].items(): self.assertNotIn("delivery_email", value) def test_delivery_email_presence_for_admins(self) -> None: user_profile = self.example_user("iago") self.assertTrue(user_profile.is_realm_admin) do_set_realm_property( user_profile.realm, "email_address_visibility", Realm.EMAIL_ADDRESS_VISIBILITY_EVERYONE, acting_user=None, ) result = fetch_initial_state_data(user_profile) for key, value in result["raw_users"].items(): self.assertNotIn("delivery_email", value) do_set_realm_property( user_profile.realm, "email_address_visibility", Realm.EMAIL_ADDRESS_VISIBILITY_ADMINS, acting_user=None, ) result = fetch_initial_state_data(user_profile) for key, value in result["raw_users"].items(): self.assertIn("delivery_email", value) def test_user_avatar_url_field_optional(self) -> None: hamlet = self.example_user("hamlet") users = [ self.example_user("iago"), self.example_user("cordelia"), self.example_user("ZOE"), self.example_user("othello"), ] for user in users: user.long_term_idle = True user.save() long_term_idle_users_ids = [user.id for user in users] result = fetch_initial_state_data( user_profile=hamlet, user_avatar_url_field_optional=True, ) raw_users = result["raw_users"] for user_dict in raw_users.values(): if user_dict["user_id"] in long_term_idle_users_ids: self.assertFalse("avatar_url" in user_dict) else: self.assertIsNotNone(user_dict["avatar_url"]) gravatar_users_id = [ user_dict["user_id"] for user_dict in raw_users.values() if "avatar_url" in user_dict and "gravatar.com" in user_dict["avatar_url"] ] # Test again with client_gravatar = True result = fetch_initial_state_data( user_profile=hamlet, client_gravatar=True, user_avatar_url_field_optional=True, ) raw_users = result["raw_users"] for user_dict in raw_users.values(): if user_dict["user_id"] in gravatar_users_id: self.assertIsNone(user_dict["avatar_url"]) else: self.assertFalse("avatar_url" in user_dict) def test_user_settings_based_on_client_capabilities(self) -> None: hamlet = self.example_user("hamlet") result = fetch_initial_state_data( user_profile=hamlet, user_settings_object=True, ) self.assertIn("user_settings", result) for prop in UserProfile.property_types: self.assertNotIn(prop, result) self.assertIn(prop, result["user_settings"]) result = fetch_initial_state_data( user_profile=hamlet, user_settings_object=False, ) self.assertIn("user_settings", result) for prop in UserProfile.property_types: if prop in { **UserProfile.display_settings_legacy, **UserProfile.notification_settings_legacy, }: # Only legacy settings are included in the top level. self.assertIn(prop, result) self.assertIn(prop, result["user_settings"]) class ClientDescriptorsTest(ZulipTestCase): def test_get_client_info_for_all_public_streams(self) -> None: hamlet = self.example_user("hamlet") realm = hamlet.realm queue_data = dict( all_public_streams=True, apply_markdown=True, client_gravatar=True, client_type_name="website", event_types=["message"], last_connection_time=time.time(), queue_timeout=0, realm_id=realm.id, user_profile_id=hamlet.id, ) client = allocate_client_descriptor(queue_data) message_event = dict( realm_id=realm.id, stream_name="whatever", ) client_info = get_client_info_for_message_event( message_event, users=[], ) self.assert_length(client_info, 1) dct = client_info[client.event_queue.id] self.assertEqual(dct["client"].apply_markdown, True) self.assertEqual(dct["client"].client_gravatar, True) self.assertEqual(dct["client"].user_profile_id, hamlet.id) self.assertEqual(dct["flags"], []) self.assertEqual(dct["is_sender"], False) message_event = dict( realm_id=realm.id, stream_name="whatever", sender_queue_id=client.event_queue.id, ) client_info = get_client_info_for_message_event( message_event, users=[], ) dct = client_info[client.event_queue.id] self.assertEqual(dct["is_sender"], True) def test_get_client_info_for_normal_users(self) -> None: hamlet = self.example_user("hamlet") cordelia = self.example_user("cordelia") realm = hamlet.realm def test_get_info(apply_markdown: bool, client_gravatar: bool) -> None: clear_client_event_queues_for_testing() queue_data = dict( all_public_streams=False, apply_markdown=apply_markdown, client_gravatar=client_gravatar, client_type_name="website", event_types=["message"], last_connection_time=time.time(), queue_timeout=0, realm_id=realm.id, user_profile_id=hamlet.id, ) client = allocate_client_descriptor(queue_data) message_event = dict( realm_id=realm.id, stream_name="whatever", ) client_info = get_client_info_for_message_event( message_event, users=[ dict(id=cordelia.id), ], ) self.assert_length(client_info, 0) client_info = get_client_info_for_message_event( message_event, users=[ dict(id=cordelia.id), dict(id=hamlet.id, flags=["mentioned"]), ], ) self.assert_length(client_info, 1) dct = client_info[client.event_queue.id] self.assertEqual(dct["client"].apply_markdown, apply_markdown) self.assertEqual(dct["client"].client_gravatar, client_gravatar) self.assertEqual(dct["client"].user_profile_id, hamlet.id) self.assertEqual(dct["flags"], ["mentioned"]) self.assertEqual(dct["is_sender"], False) test_get_info(apply_markdown=False, client_gravatar=False) test_get_info(apply_markdown=True, client_gravatar=False) test_get_info(apply_markdown=False, client_gravatar=True) test_get_info(apply_markdown=True, client_gravatar=True) def test_process_message_event_with_mocked_client_info(self) -> None: hamlet = self.example_user("hamlet") class MockClient: def __init__( self, user_profile_id: int, apply_markdown: bool, client_gravatar: bool ) -> None: self.user_profile_id = user_profile_id self.apply_markdown = apply_markdown self.client_gravatar = client_gravatar self.client_type_name = "whatever" self.events: List[Dict[str, Any]] = [] def accepts_messages(self) -> bool: return True def accepts_event(self, event: Dict[str, Any]) -> bool: assert event["type"] == "message" return True def add_event(self, event: Dict[str, Any]) -> None: self.events.append(event) client1 = MockClient( user_profile_id=hamlet.id, apply_markdown=True, client_gravatar=False, ) client2 = MockClient( user_profile_id=hamlet.id, apply_markdown=False, client_gravatar=False, ) client3 = MockClient( user_profile_id=hamlet.id, apply_markdown=True, client_gravatar=True, ) client4 = MockClient( user_profile_id=hamlet.id, apply_markdown=False, client_gravatar=True, ) client_info = { "client:1": dict( client=client1, flags=["starred"], ), "client:2": dict( client=client2, flags=["has_alert_word"], ), "client:3": dict( client=client3, flags=[], ), "client:4": dict( client=client4, flags=[], ), } sender = hamlet message_event = dict( message_dict=dict( id=999, content="**hello**", rendered_content="hello", sender_id=sender.id, type="stream", client="website", # NOTE: Some of these fields are clutter, but some # will be useful when we let clients specify # that they can compute their own gravatar URLs. sender_email=sender.email, sender_delivery_email=sender.delivery_email, sender_realm_id=sender.realm_id, sender_avatar_source=UserProfile.AVATAR_FROM_GRAVATAR, sender_avatar_version=1, sender_is_mirror_dummy=None, recipient_type=None, recipient_type_id=None, ), ) # Setting users to `[]` bypasses code we don't care about # for this test--we assume client_info is correct in our mocks, # and we are interested in how messages are put on event queue. users: List[Dict[str, Any]] = [] with mock.patch( "zerver.tornado.event_queue.get_client_info_for_message_event", return_value=client_info ): process_message_event(message_event, users) # We are not closely examining avatar_url at this point, so # just sanity check them and then delete the keys so that # upcoming comparisons work. for client in [client1, client2]: message = client.events[0]["message"] self.assertIn("gravatar.com", message["avatar_url"]) message.pop("avatar_url") self.assertEqual( client1.events, [ dict( type="message", message=dict( type="stream", sender_id=sender.id, sender_email=sender.email, id=999, content="hello", content_type="text/html", client="website", ), flags=["starred"], ), ], ) self.assertEqual( client2.events, [ dict( type="message", message=dict( type="stream", sender_id=sender.id, sender_email=sender.email, id=999, content="**hello**", content_type="text/x-markdown", client="website", ), flags=["has_alert_word"], ), ], ) self.assertEqual( client3.events, [ dict( type="message", message=dict( type="stream", sender_id=sender.id, sender_email=sender.email, avatar_url=None, id=999, content="hello", content_type="text/html", client="website", ), flags=[], ), ], ) self.assertEqual( client4.events, [ dict( type="message", message=dict( type="stream", sender_id=sender.id, sender_email=sender.email, avatar_url=None, id=999, content="**hello**", content_type="text/x-markdown", client="website", ), flags=[], ), ], ) class RestartEventsTest(ZulipTestCase): def tornado_call( self, view_func: Callable[[HttpRequest, UserProfile], HttpResponse], user_profile: UserProfile, post_data: Dict[str, Any], client_name: Optional[str] = None, ) -> HttpResponse: request = HostRequestMock(post_data, user_profile, client_name=client_name) return view_func(request, user_profile) def test_restart(self) -> None: hamlet = self.example_user("hamlet") realm = hamlet.realm clear_client_event_queues_for_testing() queue_data = dict( all_public_streams=False, apply_markdown=True, client_gravatar=True, client_type_name="website", event_types=None, last_connection_time=time.time(), queue_timeout=0, realm_id=realm.id, user_profile_id=hamlet.id, ) client = allocate_client_descriptor(queue_data) send_restart_events(immediate=True) # For now we only verify that a virtual event # gets added to the client's event_queue. We # may decide to write a deeper test in the future # that exercises the finish_handler. virtual_events = client.event_queue.virtual_events self.assert_length(virtual_events, 1) restart_event = virtual_events["restart"] check_restart_event("restart_event", restart_event) self.assertEqual( restart_event, dict( type="restart", zulip_version=ZULIP_VERSION, zulip_merge_base=ZULIP_MERGE_BASE, zulip_feature_level=API_FEATURE_LEVEL, server_generation=settings.SERVER_GENERATION, immediate=True, id=0, ), ) def test_restart_event_recursive_call_logic(self) -> None: # This is a test for a subtle corner case; see the comments # around RestartEventError for details. hamlet = self.example_user("hamlet") realm = hamlet.realm # Set up an empty event queue clear_client_event_queues_for_testing() queue_data = dict( all_public_streams=False, apply_markdown=True, client_gravatar=True, client_type_name="website", event_types=None, last_connection_time=time.time(), queue_timeout=0, realm_id=realm.id, user_profile_id=hamlet.id, ) client = allocate_client_descriptor(queue_data) # Add a restart event to it. send_restart_events(immediate=True) # Make a second queue after the restart events were sent. second_client = allocate_client_descriptor(queue_data) # Fetch the restart event just sent above, without removing it # from the queue. We will use this as a mock return value in # get_user_events. restart_event = orjson.loads( self.tornado_call( get_events_backend, hamlet, post_data={ "queue_id": client.event_queue.id, "last_event_id": -1, "dont_block": "true", "user_profile_id": hamlet.id, "secret": settings.SHARED_SECRET, "client": "internal", }, client_name="internal", ).content )["events"] # Now the tricky part: We call events_register_backend, # arranging it so that the first `get_user_events` call # returns our restart event (triggering the recursive # behavior), but the second (with a new queue) returns no # events. # # Because get_user_events always returns [] in tests, we need # to mock its return value as well; in an ideal world, we # would only need to mock client / second_client. with mock.patch( "zerver.lib.events.request_event_queue", side_effect=[client.event_queue.id, second_client.event_queue.id], ), mock.patch("zerver.lib.events.get_user_events", side_effect=[restart_event, []]): self.tornado_call( events_register_backend, hamlet, { "queue_id": client.event_queue.id, "user_client": "website", "last_event_id": -1, "dont_block": orjson.dumps(True).decode(), }, client_name="website", ) class FetchQueriesTest(ZulipTestCase): def test_queries(self) -> None: user = self.example_user("hamlet") self.login_user(user) flush_per_request_caches() with queries_captured() as queries: with mock.patch("zerver.lib.events.always_want") as want_mock: fetch_initial_state_data(user) self.assert_length(queries, 35) expected_counts = dict( alert_words=1, custom_profile_fields=1, default_streams=1, default_stream_groups=1, drafts=1, hotspots=0, message=1, muted_topics=1, muted_users=1, presence=1, realm=0, realm_bot=1, realm_domains=1, realm_embedded_bots=0, realm_incoming_webhook_bots=0, realm_emoji=1, realm_filters=1, realm_linkifiers=1, realm_playgrounds=1, realm_user=3, realm_user_groups=2, realm_user_settings_defaults=1, recent_private_conversations=1, starred_messages=1, stream=2, stop_words=0, subscription=4, update_display_settings=0, update_global_notifications=0, update_message_flags=5, user_settings=0, user_status=1, video_calls=0, giphy=0, ) wanted_event_types = {item[0][0] for item in want_mock.call_args_list} self.assertEqual(wanted_event_types, set(expected_counts)) for event_type in sorted(wanted_event_types): count = expected_counts[event_type] flush_per_request_caches() with queries_captured() as queries: if event_type == "update_message_flags": event_types = ["update_message_flags", "message"] else: event_types = [event_type] fetch_initial_state_data(user, event_types=event_types) self.assert_length(queries, count) class TestEventsRegisterAllPublicStreamsDefaults(ZulipTestCase): def setUp(self) -> None: super().setUp() self.user_profile = self.example_user("hamlet") self.email = self.user_profile.email def test_use_passed_all_public_true_default_false(self) -> None: self.user_profile.default_all_public_streams = False self.user_profile.save() result = _default_all_public_streams(self.user_profile, True) self.assertTrue(result) def test_use_passed_all_public_true_default(self) -> None: self.user_profile.default_all_public_streams = True self.user_profile.save() result = _default_all_public_streams(self.user_profile, True) self.assertTrue(result) def test_use_passed_all_public_false_default_false(self) -> None: self.user_profile.default_all_public_streams = False self.user_profile.save() result = _default_all_public_streams(self.user_profile, False) self.assertFalse(result) def test_use_passed_all_public_false_default_true(self) -> None: self.user_profile.default_all_public_streams = True self.user_profile.save() result = _default_all_public_streams(self.user_profile, False) self.assertFalse(result) def test_use_true_default_for_none(self) -> None: self.user_profile.default_all_public_streams = True self.user_profile.save() result = _default_all_public_streams(self.user_profile, None) self.assertTrue(result) def test_use_false_default_for_none(self) -> None: self.user_profile.default_all_public_streams = False self.user_profile.save() result = _default_all_public_streams(self.user_profile, None) self.assertFalse(result) class TestEventsRegisterNarrowDefaults(ZulipTestCase): def setUp(self) -> None: super().setUp() self.user_profile = self.example_user("hamlet") self.email = self.user_profile.email self.stream = get_stream("Verona", self.user_profile.realm) def test_use_passed_narrow_no_default(self) -> None: self.user_profile.default_events_register_stream_id = None self.user_profile.save() result = _default_narrow(self.user_profile, [["stream", "my_stream"]]) self.assertEqual(result, [["stream", "my_stream"]]) def test_use_passed_narrow_with_default(self) -> None: self.user_profile.default_events_register_stream_id = self.stream.id self.user_profile.save() result = _default_narrow(self.user_profile, [["stream", "my_stream"]]) self.assertEqual(result, [["stream", "my_stream"]]) def test_use_default_if_narrow_is_empty(self) -> None: self.user_profile.default_events_register_stream_id = self.stream.id self.user_profile.save() result = _default_narrow(self.user_profile, []) self.assertEqual(result, [["stream", "Verona"]]) def test_use_narrow_if_default_is_none(self) -> None: self.user_profile.default_events_register_stream_id = None self.user_profile.save() result = _default_narrow(self.user_profile, []) self.assertEqual(result, []) class TestGetRawUserDataSystemBotRealm(ZulipTestCase): def test_get_raw_user_data_on_system_bot_realm(self) -> None: realm = get_realm(settings.SYSTEM_BOT_REALM) result = get_raw_user_data( realm, self.example_user("hamlet"), client_gravatar=True, user_avatar_url_field_optional=True, ) for bot_email in settings.CROSS_REALM_BOT_EMAILS: bot_profile = get_system_bot(bot_email, realm.id) self.assertTrue(bot_profile.id in result) self.assertTrue(result[bot_profile.id]["is_system_bot"]) class TestUserPresenceUpdatesDisabled(ZulipTestCase): def test_presence_events_disabled_on_larger_realm(self) -> None: # First check that normally the mocked function gets called. events: List[Mapping[str, Any]] = [] with self.tornado_redirected_to_list(events, expected_num_events=1): do_update_user_presence( self.example_user("cordelia"), get_client("website"), timezone_now(), UserPresence.ACTIVE, ) # Now check that if the realm has more than the USER_LIMIT_FOR_SENDING_PRESENCE_UPDATE_EVENTS # amount of active users, send_event doesn't get called. with self.tornado_redirected_to_list(events, expected_num_events=0): with self.settings(USER_LIMIT_FOR_SENDING_PRESENCE_UPDATE_EVENTS=1): do_update_user_presence( self.example_user("hamlet"), get_client("website"), timezone_now(), UserPresence.ACTIVE, )