zulip/zerver/tests/test_message_flags.py

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from typing import Any, List, Mapping, Set
from unittest import mock
import orjson
from django.db import connection
from django.http import HttpResponse
2016-06-03 07:59:00 +02:00
from zerver.actions.message_flags import do_update_message_flags
from zerver.actions.streams import do_change_stream_permission
from zerver.lib.fix_unreads import fix, fix_unsubscribed
from zerver.lib.message import (
MessageDetailsDict,
MessageDict,
RawUnreadMessagesResult,
RawUnreadPrivateMessageDict,
UnreadMessagesResult,
add_message_to_unread_msgs,
aggregate_unread_data,
apply_unread_message_event,
bulk_access_messages,
format_unread_message_details,
get_raw_unread_data,
)
from zerver.lib.test_classes import ZulipTestCase
from zerver.lib.test_helpers import get_subscription, queries_captured
from zerver.lib.user_topics import add_topic_mute
from zerver.models import (
Message,
Recipient,
Stream,
Subscription,
UserMessage,
UserProfile,
get_realm,
get_stream,
)
def check_flags(flags: List[str], expected: Set[str]) -> None:
"""
The has_alert_word flag can be ignored for most tests.
"""
assert "has_alert_word" not in expected
flag_set = set(flags)
flag_set.discard("has_alert_word")
if flag_set != expected:
raise AssertionError(f"expected flags (ignoring has_alert_word) to be {expected}")
class FirstUnreadAnchorTests(ZulipTestCase):
"""
HISTORICAL NOTE:
The two tests in this class were originally written when
we had the concept of a "pointer", and they may be a bit
redundant in what they now check.
"""
def test_use_first_unread_anchor(self) -> None:
self.login("hamlet")
# Mark all existing messages as read
result = self.client_post("/json/mark_all_as_read")
self.assert_json_success(result)
# Send a new message (this will be unread)
new_message_id = self.send_stream_message(self.example_user("othello"), "Verona", "test")
# If we call get_messages with use_first_unread_anchor=True, we
# should get the message we just sent
messages_response = self.get_messages_response(
anchor="first_unread", num_before=0, num_after=1
)
self.assertEqual(messages_response["messages"][0]["id"], new_message_id)
self.assertEqual(messages_response["anchor"], new_message_id)
# Test with the old way of expressing use_first_unread_anchor=True
messages_response = self.get_messages_response(
anchor=0, num_before=0, num_after=1, use_first_unread_anchor=True
)
self.assertEqual(messages_response["messages"][0]["id"], new_message_id)
self.assertEqual(messages_response["anchor"], new_message_id)
# We want to get the message_id of an arbitrary old message. We can
# call get_messages with use_first_unread_anchor=False and simply
# save the first message we're returned.
messages = self.get_messages(
anchor=0, num_before=0, num_after=2, use_first_unread_anchor=False
)
old_message_id = messages[0]["id"]
# Verify the message is marked as read
user_message = UserMessage.objects.get(
message_id=old_message_id, user_profile=self.example_user("hamlet")
)
self.assertTrue(user_message.flags.read)
# Let's set this old message to be unread
result = self.client_post(
"/json/messages/flags",
{"messages": orjson.dumps([old_message_id]).decode(), "op": "remove", "flag": "read"},
)
# Verify it's now marked as unread
user_message = UserMessage.objects.get(
message_id=old_message_id, user_profile=self.example_user("hamlet")
)
self.assert_json_success(result)
self.assertFalse(user_message.flags.read)
# Now if we call get_messages with use_first_unread_anchor=True,
# we should get the old message we just set to unread
messages_response = self.get_messages_response(
anchor="first_unread", num_before=0, num_after=1
)
self.assertEqual(messages_response["messages"][0]["id"], old_message_id)
self.assertEqual(messages_response["anchor"], old_message_id)
def test_visible_messages_use_first_unread_anchor(self) -> None:
self.login("hamlet")
result = self.client_post("/json/mark_all_as_read")
self.assert_json_success(result)
new_message_id = self.send_stream_message(self.example_user("othello"), "Verona", "test")
messages_response = self.get_messages_response(
anchor="first_unread", num_before=0, num_after=1
)
self.assertEqual(messages_response["messages"][0]["id"], new_message_id)
self.assertEqual(messages_response["anchor"], new_message_id)
with mock.patch(
"zerver.views.message_fetch.get_first_visible_message_id", return_value=new_message_id
):
messages_response = self.get_messages_response(
anchor="first_unread", num_before=0, num_after=1
)
self.assertEqual(messages_response["messages"][0]["id"], new_message_id)
self.assertEqual(messages_response["anchor"], new_message_id)
with mock.patch(
"zerver.views.message_fetch.get_first_visible_message_id",
return_value=new_message_id + 1,
):
messages_reponse = self.get_messages_response(
anchor="first_unread", num_before=0, num_after=1
)
self.assert_length(messages_reponse["messages"], 0)
self.assertIn("anchor", messages_reponse)
with mock.patch(
"zerver.views.message_fetch.get_first_visible_message_id",
return_value=new_message_id - 1,
):
messages = self.get_messages(anchor="first_unread", num_before=0, num_after=1)
self.assert_length(messages, 1)
class UnreadCountTests(ZulipTestCase):
def setUp(self) -> None:
super().setUp()
with mock.patch(
"zerver.lib.push_notifications.push_notifications_enabled", return_value=True
) as mock_push_notifications_enabled:
self.unread_msg_ids = [
self.send_personal_message(
self.example_user("iago"), self.example_user("hamlet"), "hello"
),
self.send_personal_message(
self.example_user("iago"), self.example_user("hamlet"), "hello2"
),
]
mock_push_notifications_enabled.assert_called()
# Sending a new message results in unread UserMessages being created
def test_new_message(self) -> None:
self.login("hamlet")
content = "Test message for unset read bit"
last_msg = self.send_stream_message(self.example_user("hamlet"), "Verona", content)
user_messages = list(UserMessage.objects.filter(message=last_msg))
self.assertGreater(len(user_messages), 0)
for um in user_messages:
self.assertEqual(um.message.content, content)
if um.user_profile.email != self.example_email("hamlet"):
self.assertFalse(um.flags.read)
def test_update_flags(self) -> None:
self.login("hamlet")
result = self.client_post(
"/json/messages/flags",
{"messages": orjson.dumps(self.unread_msg_ids).decode(), "op": "add", "flag": "read"},
)
self.assert_json_success(result)
# Ensure we properly set the flags
found = 0
for msg in self.get_messages():
if msg["id"] in self.unread_msg_ids:
check_flags(msg["flags"], {"read"})
found += 1
self.assertEqual(found, 2)
result = self.client_post(
"/json/messages/flags",
{
"messages": orjson.dumps([self.unread_msg_ids[1]]).decode(),
"op": "remove",
"flag": "read",
},
)
self.assert_json_success(result)
# Ensure we properly remove just one flag
for msg in self.get_messages():
if msg["id"] == self.unread_msg_ids[0]:
check_flags(msg["flags"], {"read"})
elif msg["id"] == self.unread_msg_ids[1]:
check_flags(msg["flags"], set())
def test_mark_all_in_stream_read(self) -> None:
self.login("hamlet")
user_profile = self.example_user("hamlet")
stream = self.subscribe(user_profile, "test_stream")
self.subscribe(self.example_user("cordelia"), "test_stream")
message_id = self.send_stream_message(self.example_user("hamlet"), "test_stream", "hello")
unrelated_message_id = self.send_stream_message(
self.example_user("hamlet"), "Denmark", "hello"
)
python: Convert assignment type annotations to Python 3.6 style. This commit was split by tabbott; this piece covers the vast majority of files in Zulip, but excludes scripts/, tools/, and puppet/ to help ensure we at least show the right error messages for Xenial systems. We can likely further refine the remaining pieces with some testing. Generated by com2ann, with whitespace fixes and various manual fixes for runtime issues: - invoiced_through: Optional[LicenseLedger] = models.ForeignKey( + invoiced_through: Optional["LicenseLedger"] = models.ForeignKey( -_apns_client: Optional[APNsClient] = None +_apns_client: Optional["APNsClient"] = None - notifications_stream: Optional[Stream] = models.ForeignKey('Stream', related_name='+', null=True, blank=True, on_delete=CASCADE) - signup_notifications_stream: Optional[Stream] = models.ForeignKey('Stream', related_name='+', null=True, blank=True, on_delete=CASCADE) + notifications_stream: Optional["Stream"] = models.ForeignKey('Stream', related_name='+', null=True, blank=True, on_delete=CASCADE) + signup_notifications_stream: Optional["Stream"] = models.ForeignKey('Stream', related_name='+', null=True, blank=True, on_delete=CASCADE) - author: Optional[UserProfile] = models.ForeignKey('UserProfile', blank=True, null=True, on_delete=CASCADE) + author: Optional["UserProfile"] = models.ForeignKey('UserProfile', blank=True, null=True, on_delete=CASCADE) - bot_owner: Optional[UserProfile] = models.ForeignKey('self', null=True, on_delete=models.SET_NULL) + bot_owner: Optional["UserProfile"] = models.ForeignKey('self', null=True, on_delete=models.SET_NULL) - default_sending_stream: Optional[Stream] = models.ForeignKey('zerver.Stream', null=True, related_name='+', on_delete=CASCADE) - default_events_register_stream: Optional[Stream] = models.ForeignKey('zerver.Stream', null=True, related_name='+', on_delete=CASCADE) + default_sending_stream: Optional["Stream"] = models.ForeignKey('zerver.Stream', null=True, related_name='+', on_delete=CASCADE) + default_events_register_stream: Optional["Stream"] = models.ForeignKey('zerver.Stream', null=True, related_name='+', on_delete=CASCADE) -descriptors_by_handler_id: Dict[int, ClientDescriptor] = {} +descriptors_by_handler_id: Dict[int, "ClientDescriptor"] = {} -worker_classes: Dict[str, Type[QueueProcessingWorker]] = {} -queues: Dict[str, Dict[str, Type[QueueProcessingWorker]]] = {} +worker_classes: Dict[str, Type["QueueProcessingWorker"]] = {} +queues: Dict[str, Dict[str, Type["QueueProcessingWorker"]]] = {} -AUTH_LDAP_REVERSE_EMAIL_SEARCH: Optional[LDAPSearch] = None +AUTH_LDAP_REVERSE_EMAIL_SEARCH: Optional["LDAPSearch"] = None Signed-off-by: Anders Kaseorg <anders@zulipchat.com>
2020-04-22 01:09:50 +02:00
events: List[Mapping[str, Any]] = []
with self.tornado_redirected_to_list(events, expected_num_events=1):
result = self.client_post(
"/json/mark_stream_as_read",
{
"stream_id": stream.id,
},
)
self.assert_json_success(result)
event = events[0]["event"]
expected = dict(
operation="add",
messages=[message_id],
flag="read",
type="update_message_flags",
all=False,
)
differences = [key for key in expected if expected[key] != event[key]]
self.assert_length(differences, 0)
hamlet = self.example_user("hamlet")
um = list(UserMessage.objects.filter(message=message_id))
for msg in um:
if msg.user_profile.email == hamlet.email:
self.assertTrue(msg.flags.read)
else:
self.assertFalse(msg.flags.read)
unrelated_messages = list(UserMessage.objects.filter(message=unrelated_message_id))
for msg in unrelated_messages:
if msg.user_profile.email == hamlet.email:
self.assertFalse(msg.flags.read)
def test_mark_all_in_invalid_stream_read(self) -> None:
self.login("hamlet")
invalid_stream_id = "12345678"
result = self.client_post(
"/json/mark_stream_as_read",
{
"stream_id": invalid_stream_id,
},
)
self.assert_json_error(result, "Invalid stream id")
def test_mark_all_topics_unread_with_invalid_stream_name(self) -> None:
self.login("hamlet")
invalid_stream_id = "12345678"
result = self.client_post(
"/json/mark_topic_as_read",
{
"stream_id": invalid_stream_id,
"topic_name": "whatever",
},
)
self.assert_json_error(result, "Invalid stream id")
def test_mark_all_in_stream_topic_read(self) -> None:
self.login("hamlet")
user_profile = self.example_user("hamlet")
self.subscribe(user_profile, "test_stream")
message_id = self.send_stream_message(
self.example_user("hamlet"), "test_stream", "hello", "test_topic"
)
unrelated_message_id = self.send_stream_message(
self.example_user("hamlet"), "Denmark", "hello", "Denmark2"
)
python: Convert assignment type annotations to Python 3.6 style. This commit was split by tabbott; this piece covers the vast majority of files in Zulip, but excludes scripts/, tools/, and puppet/ to help ensure we at least show the right error messages for Xenial systems. We can likely further refine the remaining pieces with some testing. Generated by com2ann, with whitespace fixes and various manual fixes for runtime issues: - invoiced_through: Optional[LicenseLedger] = models.ForeignKey( + invoiced_through: Optional["LicenseLedger"] = models.ForeignKey( -_apns_client: Optional[APNsClient] = None +_apns_client: Optional["APNsClient"] = None - notifications_stream: Optional[Stream] = models.ForeignKey('Stream', related_name='+', null=True, blank=True, on_delete=CASCADE) - signup_notifications_stream: Optional[Stream] = models.ForeignKey('Stream', related_name='+', null=True, blank=True, on_delete=CASCADE) + notifications_stream: Optional["Stream"] = models.ForeignKey('Stream', related_name='+', null=True, blank=True, on_delete=CASCADE) + signup_notifications_stream: Optional["Stream"] = models.ForeignKey('Stream', related_name='+', null=True, blank=True, on_delete=CASCADE) - author: Optional[UserProfile] = models.ForeignKey('UserProfile', blank=True, null=True, on_delete=CASCADE) + author: Optional["UserProfile"] = models.ForeignKey('UserProfile', blank=True, null=True, on_delete=CASCADE) - bot_owner: Optional[UserProfile] = models.ForeignKey('self', null=True, on_delete=models.SET_NULL) + bot_owner: Optional["UserProfile"] = models.ForeignKey('self', null=True, on_delete=models.SET_NULL) - default_sending_stream: Optional[Stream] = models.ForeignKey('zerver.Stream', null=True, related_name='+', on_delete=CASCADE) - default_events_register_stream: Optional[Stream] = models.ForeignKey('zerver.Stream', null=True, related_name='+', on_delete=CASCADE) + default_sending_stream: Optional["Stream"] = models.ForeignKey('zerver.Stream', null=True, related_name='+', on_delete=CASCADE) + default_events_register_stream: Optional["Stream"] = models.ForeignKey('zerver.Stream', null=True, related_name='+', on_delete=CASCADE) -descriptors_by_handler_id: Dict[int, ClientDescriptor] = {} +descriptors_by_handler_id: Dict[int, "ClientDescriptor"] = {} -worker_classes: Dict[str, Type[QueueProcessingWorker]] = {} -queues: Dict[str, Dict[str, Type[QueueProcessingWorker]]] = {} +worker_classes: Dict[str, Type["QueueProcessingWorker"]] = {} +queues: Dict[str, Dict[str, Type["QueueProcessingWorker"]]] = {} -AUTH_LDAP_REVERSE_EMAIL_SEARCH: Optional[LDAPSearch] = None +AUTH_LDAP_REVERSE_EMAIL_SEARCH: Optional["LDAPSearch"] = None Signed-off-by: Anders Kaseorg <anders@zulipchat.com>
2020-04-22 01:09:50 +02:00
events: List[Mapping[str, Any]] = []
with self.tornado_redirected_to_list(events, expected_num_events=1):
result = self.client_post(
"/json/mark_topic_as_read",
{
"stream_id": get_stream("test_stream", user_profile.realm).id,
"topic_name": "test_topic",
},
)
self.assert_json_success(result)
event = events[0]["event"]
expected = dict(
operation="add",
messages=[message_id],
flag="read",
type="update_message_flags",
all=False,
)
differences = [key for key in expected if expected[key] != event[key]]
self.assert_length(differences, 0)
um = list(UserMessage.objects.filter(message=message_id))
for msg in um:
if msg.user_profile_id == user_profile.id:
self.assertTrue(msg.flags.read)
unrelated_messages = list(UserMessage.objects.filter(message=unrelated_message_id))
for msg in unrelated_messages:
if msg.user_profile_id == user_profile.id:
self.assertFalse(msg.flags.read)
def test_mark_all_in_invalid_topic_read(self) -> None:
self.login("hamlet")
invalid_topic_name = "abc"
result = self.client_post(
"/json/mark_topic_as_read",
{
"stream_id": get_stream("Denmark", get_realm("zulip")).id,
"topic_name": invalid_topic_name,
},
)
self.assert_json_error(result, "No such topic 'abc'")
class FixUnreadTests(ZulipTestCase):
def test_fix_unreads(self) -> None:
user = self.example_user("hamlet")
tests: Ensure stream senders get a UserMessage row. We now complain if a test author sends a stream message that does not result in the sender getting a UserMessage row for the message. This is basically 100% equivalent to complaining that the author failed to subscribe the sender to the stream as part of the test setup, as far as I can tell, so the AssertionError instructs the author to subscribe the sender to the stream. We exempt bots from this check, although it is plausible we should only exempt the system bots like the notification bot. I considered auto-subscribing the sender to the stream, but that can be a little more expensive than the current check, and we generally want test setup to be explicit. If there is some legitimate way than a subscribed human sender can't get a UserMessage, then we probably want an explicit test for that, or we may want to change the backend to just write a UserMessage row in that hypothetical situation. For most tests, including almost all the ones fixed here, the author just wants their test setup to realistically reflect normal operation, and often devs may not realize that Cordelia is not subscribed to Denmark or not realize that Hamlet is not subscribed to Scotland. Some of us don't remember our Shakespeare from high school, and our stream subscriptions don't even necessarily reflect which countries the Bard placed his characters in. There may also be some legitimate use case where an author wants to simulate sending a message to an unsubscribed stream, but for those edge cases, they can always set allow_unsubscribed_sender to True.
2021-12-10 13:55:48 +01:00
othello = self.example_user("othello")
realm = get_realm("zulip")
def send_message(stream_name: str, topic_name: str) -> int:
tests: Ensure stream senders get a UserMessage row. We now complain if a test author sends a stream message that does not result in the sender getting a UserMessage row for the message. This is basically 100% equivalent to complaining that the author failed to subscribe the sender to the stream as part of the test setup, as far as I can tell, so the AssertionError instructs the author to subscribe the sender to the stream. We exempt bots from this check, although it is plausible we should only exempt the system bots like the notification bot. I considered auto-subscribing the sender to the stream, but that can be a little more expensive than the current check, and we generally want test setup to be explicit. If there is some legitimate way than a subscribed human sender can't get a UserMessage, then we probably want an explicit test for that, or we may want to change the backend to just write a UserMessage row in that hypothetical situation. For most tests, including almost all the ones fixed here, the author just wants their test setup to realistically reflect normal operation, and often devs may not realize that Cordelia is not subscribed to Denmark or not realize that Hamlet is not subscribed to Scotland. Some of us don't remember our Shakespeare from high school, and our stream subscriptions don't even necessarily reflect which countries the Bard placed his characters in. There may also be some legitimate use case where an author wants to simulate sending a message to an unsubscribed stream, but for those edge cases, they can always set allow_unsubscribed_sender to True.
2021-12-10 13:55:48 +01:00
self.subscribe(othello, stream_name)
msg_id = self.send_stream_message(othello, stream_name, topic_name=topic_name)
um = UserMessage.objects.get(user_profile=user, message_id=msg_id)
return um.id
def assert_read(user_message_id: int) -> None:
um = UserMessage.objects.get(id=user_message_id)
self.assertTrue(um.flags.read)
def assert_unread(user_message_id: int) -> None:
um = UserMessage.objects.get(id=user_message_id)
self.assertFalse(um.flags.read)
def mute_stream(stream_name: str) -> None:
stream = get_stream(stream_name, realm)
recipient = stream.recipient
subscription = Subscription.objects.get(
user_profile=user,
recipient=recipient,
)
subscription.is_muted = True
subscription.save()
def mute_topic(stream_name: str, topic_name: str) -> None:
stream = get_stream(stream_name, realm)
recipient = stream.recipient
assert recipient is not None
add_topic_mute(
user_profile=user,
stream_id=stream.id,
recipient_id=recipient.id,
topic_name=topic_name,
)
def force_unsubscribe(stream_name: str) -> None:
"""
We don't want side effects here, since the eventual
unsubscribe path may mark messages as read, defeating
the test setup here.
"""
sub = get_subscription(stream_name, user)
sub.active = False
sub.save()
# The data setup here is kind of funny, because some of these
# conditions should not actually happen in practice going forward,
# but we may have had bad data from the past.
mute_stream("Denmark")
mute_topic("Verona", "muted_topic")
um_normal_id = send_message("Verona", "normal")
um_muted_topic_id = send_message("Verona", "muted_topic")
um_muted_stream_id = send_message("Denmark", "whatever")
self.subscribe(user, "temporary")
um_unsubscribed_id = send_message("temporary", "whatever")
force_unsubscribe("temporary")
# Verify the setup
assert_unread(um_normal_id)
assert_unread(um_muted_topic_id)
assert_unread(um_muted_stream_id)
assert_unread(um_unsubscribed_id)
# fix unsubscribed
with connection.cursor() as cursor, self.assertLogs(
"zulip.fix_unreads", "INFO"
) as info_logs:
fix_unsubscribed(cursor, user)
self.assertEqual(info_logs.output[0], "INFO:zulip.fix_unreads:get recipients")
self.assertTrue("INFO:zulip.fix_unreads:[" in info_logs.output[1])
self.assertTrue("INFO:zulip.fix_unreads:elapsed time:" in info_logs.output[2])
self.assertEqual(
info_logs.output[3],
"INFO:zulip.fix_unreads:finding unread messages for non-active streams",
)
self.assertEqual(info_logs.output[4], "INFO:zulip.fix_unreads:rows found: 1")
self.assertTrue("INFO:zulip.fix_unreads:elapsed time:" in info_logs.output[5])
self.assertEqual(
info_logs.output[6],
"INFO:zulip.fix_unreads:fixing unread messages for non-active streams",
)
self.assertTrue("INFO:zulip.fix_unreads:elapsed time:" in info_logs.output[7])
# Muted messages don't change.
assert_unread(um_muted_topic_id)
assert_unread(um_muted_stream_id)
assert_unread(um_normal_id)
# The unsubscribed entry should change.
assert_read(um_unsubscribed_id)
with self.assertLogs("zulip.fix_unreads", "INFO") as info_logs:
# test idempotency
fix(user)
self.assertEqual(info_logs.output[0], f"INFO:zulip.fix_unreads:\n---\nFixing {user.id}:")
self.assertEqual(info_logs.output[1], "INFO:zulip.fix_unreads:get recipients")
self.assertTrue("INFO:zulip.fix_unreads:[" in info_logs.output[2])
self.assertTrue("INFO:zulip.fix_unreads:elapsed time:" in info_logs.output[3])
self.assertEqual(
info_logs.output[4],
"INFO:zulip.fix_unreads:finding unread messages for non-active streams",
)
self.assertEqual(info_logs.output[5], "INFO:zulip.fix_unreads:rows found: 0")
self.assertTrue("INFO:zulip.fix_unreads:elapsed time:" in info_logs.output[6])
assert_unread(um_normal_id)
assert_unread(um_muted_topic_id)
assert_unread(um_muted_stream_id)
assert_read(um_unsubscribed_id)
class PushNotificationMarkReadFlowsTest(ZulipTestCase):
def get_mobile_push_notification_ids(self, user_profile: UserProfile) -> List[int]:
return list(
UserMessage.objects.filter(
user_profile=user_profile,
)
.extra(
where=[UserMessage.where_active_push_notification()],
)
.order_by("message_id")
.values_list("message_id", flat=True)
)
@mock.patch("zerver.lib.push_notifications.push_notifications_enabled", return_value=True)
def test_track_active_mobile_push_notifications(
self, mock_push_notifications: mock.MagicMock
) -> None:
mock_push_notifications.return_value = True
self.login("hamlet")
user_profile = self.example_user("hamlet")
tests: Ensure stream senders get a UserMessage row. We now complain if a test author sends a stream message that does not result in the sender getting a UserMessage row for the message. This is basically 100% equivalent to complaining that the author failed to subscribe the sender to the stream as part of the test setup, as far as I can tell, so the AssertionError instructs the author to subscribe the sender to the stream. We exempt bots from this check, although it is plausible we should only exempt the system bots like the notification bot. I considered auto-subscribing the sender to the stream, but that can be a little more expensive than the current check, and we generally want test setup to be explicit. If there is some legitimate way than a subscribed human sender can't get a UserMessage, then we probably want an explicit test for that, or we may want to change the backend to just write a UserMessage row in that hypothetical situation. For most tests, including almost all the ones fixed here, the author just wants their test setup to realistically reflect normal operation, and often devs may not realize that Cordelia is not subscribed to Denmark or not realize that Hamlet is not subscribed to Scotland. Some of us don't remember our Shakespeare from high school, and our stream subscriptions don't even necessarily reflect which countries the Bard placed his characters in. There may also be some legitimate use case where an author wants to simulate sending a message to an unsubscribed stream, but for those edge cases, they can always set allow_unsubscribed_sender to True.
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cordelia = self.example_user("cordelia")
stream = self.subscribe(user_profile, "test_stream")
tests: Ensure stream senders get a UserMessage row. We now complain if a test author sends a stream message that does not result in the sender getting a UserMessage row for the message. This is basically 100% equivalent to complaining that the author failed to subscribe the sender to the stream as part of the test setup, as far as I can tell, so the AssertionError instructs the author to subscribe the sender to the stream. We exempt bots from this check, although it is plausible we should only exempt the system bots like the notification bot. I considered auto-subscribing the sender to the stream, but that can be a little more expensive than the current check, and we generally want test setup to be explicit. If there is some legitimate way than a subscribed human sender can't get a UserMessage, then we probably want an explicit test for that, or we may want to change the backend to just write a UserMessage row in that hypothetical situation. For most tests, including almost all the ones fixed here, the author just wants their test setup to realistically reflect normal operation, and often devs may not realize that Cordelia is not subscribed to Denmark or not realize that Hamlet is not subscribed to Scotland. Some of us don't remember our Shakespeare from high school, and our stream subscriptions don't even necessarily reflect which countries the Bard placed his characters in. There may also be some legitimate use case where an author wants to simulate sending a message to an unsubscribed stream, but for those edge cases, they can always set allow_unsubscribed_sender to True.
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self.subscribe(cordelia, "test_stream")
second_stream = self.subscribe(user_profile, "second_stream")
tests: Ensure stream senders get a UserMessage row. We now complain if a test author sends a stream message that does not result in the sender getting a UserMessage row for the message. This is basically 100% equivalent to complaining that the author failed to subscribe the sender to the stream as part of the test setup, as far as I can tell, so the AssertionError instructs the author to subscribe the sender to the stream. We exempt bots from this check, although it is plausible we should only exempt the system bots like the notification bot. I considered auto-subscribing the sender to the stream, but that can be a little more expensive than the current check, and we generally want test setup to be explicit. If there is some legitimate way than a subscribed human sender can't get a UserMessage, then we probably want an explicit test for that, or we may want to change the backend to just write a UserMessage row in that hypothetical situation. For most tests, including almost all the ones fixed here, the author just wants their test setup to realistically reflect normal operation, and often devs may not realize that Cordelia is not subscribed to Denmark or not realize that Hamlet is not subscribed to Scotland. Some of us don't remember our Shakespeare from high school, and our stream subscriptions don't even necessarily reflect which countries the Bard placed his characters in. There may also be some legitimate use case where an author wants to simulate sending a message to an unsubscribed stream, but for those edge cases, they can always set allow_unsubscribed_sender to True.
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self.subscribe(cordelia, "second_stream")
property_name = "push_notifications"
result = self.api_post(
user_profile,
"/api/v1/users/me/subscriptions/properties",
{
"subscription_data": orjson.dumps(
[{"property": property_name, "value": True, "stream_id": stream.id}]
).decode()
},
)
result = self.api_post(
user_profile,
"/api/v1/users/me/subscriptions/properties",
{
"subscription_data": orjson.dumps(
[{"property": property_name, "value": True, "stream_id": second_stream.id}]
).decode()
},
)
self.assert_json_success(result)
self.assertEqual(self.get_mobile_push_notification_ids(user_profile), [])
tests: Ensure stream senders get a UserMessage row. We now complain if a test author sends a stream message that does not result in the sender getting a UserMessage row for the message. This is basically 100% equivalent to complaining that the author failed to subscribe the sender to the stream as part of the test setup, as far as I can tell, so the AssertionError instructs the author to subscribe the sender to the stream. We exempt bots from this check, although it is plausible we should only exempt the system bots like the notification bot. I considered auto-subscribing the sender to the stream, but that can be a little more expensive than the current check, and we generally want test setup to be explicit. If there is some legitimate way than a subscribed human sender can't get a UserMessage, then we probably want an explicit test for that, or we may want to change the backend to just write a UserMessage row in that hypothetical situation. For most tests, including almost all the ones fixed here, the author just wants their test setup to realistically reflect normal operation, and often devs may not realize that Cordelia is not subscribed to Denmark or not realize that Hamlet is not subscribed to Scotland. Some of us don't remember our Shakespeare from high school, and our stream subscriptions don't even necessarily reflect which countries the Bard placed his characters in. There may also be some legitimate use case where an author wants to simulate sending a message to an unsubscribed stream, but for those edge cases, they can always set allow_unsubscribed_sender to True.
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message_id = self.send_stream_message(cordelia, "test_stream", "hello", "test_topic")
second_message_id = self.send_stream_message(
tests: Ensure stream senders get a UserMessage row. We now complain if a test author sends a stream message that does not result in the sender getting a UserMessage row for the message. This is basically 100% equivalent to complaining that the author failed to subscribe the sender to the stream as part of the test setup, as far as I can tell, so the AssertionError instructs the author to subscribe the sender to the stream. We exempt bots from this check, although it is plausible we should only exempt the system bots like the notification bot. I considered auto-subscribing the sender to the stream, but that can be a little more expensive than the current check, and we generally want test setup to be explicit. If there is some legitimate way than a subscribed human sender can't get a UserMessage, then we probably want an explicit test for that, or we may want to change the backend to just write a UserMessage row in that hypothetical situation. For most tests, including almost all the ones fixed here, the author just wants their test setup to realistically reflect normal operation, and often devs may not realize that Cordelia is not subscribed to Denmark or not realize that Hamlet is not subscribed to Scotland. Some of us don't remember our Shakespeare from high school, and our stream subscriptions don't even necessarily reflect which countries the Bard placed his characters in. There may also be some legitimate use case where an author wants to simulate sending a message to an unsubscribed stream, but for those edge cases, they can always set allow_unsubscribed_sender to True.
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cordelia, "test_stream", "hello", "other_topic"
)
third_message_id = self.send_stream_message(
tests: Ensure stream senders get a UserMessage row. We now complain if a test author sends a stream message that does not result in the sender getting a UserMessage row for the message. This is basically 100% equivalent to complaining that the author failed to subscribe the sender to the stream as part of the test setup, as far as I can tell, so the AssertionError instructs the author to subscribe the sender to the stream. We exempt bots from this check, although it is plausible we should only exempt the system bots like the notification bot. I considered auto-subscribing the sender to the stream, but that can be a little more expensive than the current check, and we generally want test setup to be explicit. If there is some legitimate way than a subscribed human sender can't get a UserMessage, then we probably want an explicit test for that, or we may want to change the backend to just write a UserMessage row in that hypothetical situation. For most tests, including almost all the ones fixed here, the author just wants their test setup to realistically reflect normal operation, and often devs may not realize that Cordelia is not subscribed to Denmark or not realize that Hamlet is not subscribed to Scotland. Some of us don't remember our Shakespeare from high school, and our stream subscriptions don't even necessarily reflect which countries the Bard placed his characters in. There may also be some legitimate use case where an author wants to simulate sending a message to an unsubscribed stream, but for those edge cases, they can always set allow_unsubscribed_sender to True.
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cordelia, "second_stream", "hello", "test_topic"
)
self.assertEqual(
self.get_mobile_push_notification_ids(user_profile),
[message_id, second_message_id, third_message_id],
)
result = self.client_post(
"/json/mark_topic_as_read",
{
"stream_id": str(stream.id),
"topic_name": "test_topic",
},
)
self.assert_json_success(result)
self.assertEqual(
self.get_mobile_push_notification_ids(user_profile),
[second_message_id, third_message_id],
)
result = self.client_post(
"/json/mark_stream_as_read",
{
"stream_id": str(stream.id),
},
)
self.assertEqual(self.get_mobile_push_notification_ids(user_profile), [third_message_id])
fourth_message_id = self.send_stream_message(
self.example_user("cordelia"), "test_stream", "hello", "test_topic"
)
self.assertEqual(
self.get_mobile_push_notification_ids(user_profile),
[third_message_id, fourth_message_id],
)
result = self.client_post("/json/mark_all_as_read", {})
self.assertEqual(self.get_mobile_push_notification_ids(user_profile), [])
mock_push_notifications.assert_called()
class GetUnreadMsgsTest(ZulipTestCase):
def mute_stream(self, user_profile: UserProfile, stream: Stream) -> None:
recipient = Recipient.objects.get(type_id=stream.id, type=Recipient.STREAM)
subscription = Subscription.objects.get(
user_profile=user_profile,
recipient=recipient,
)
subscription.is_muted = True
subscription.save()
def mute_topic(self, user_profile: UserProfile, stream_name: str, topic_name: str) -> None:
realm = user_profile.realm
stream = get_stream(stream_name, realm)
recipient = stream.recipient
assert recipient is not None
add_topic_mute(
user_profile=user_profile,
stream_id=stream.id,
recipient_id=recipient.id,
topic_name=topic_name,
)
def test_raw_unread_stream(self) -> None:
cordelia = self.example_user("cordelia")
hamlet = self.example_user("hamlet")
realm = hamlet.realm
for stream_name in ["social", "devel", "test here"]:
self.subscribe(hamlet, stream_name)
self.subscribe(cordelia, stream_name)
all_message_ids: Set[int] = set()
message_ids = {}
tups = [
("social", "lunch"),
("test here", "bla"),
("devel", "python"),
("devel", "ruby"),
]
for stream_name, topic_name in tups:
message_ids[topic_name] = [
self.send_stream_message(
sender=cordelia,
stream_name=stream_name,
topic_name=topic_name,
)
for i in range(3)
]
all_message_ids |= set(message_ids[topic_name])
self.assert_length(all_message_ids, 12) # sanity check on test setup
self.mute_stream(
user_profile=hamlet,
stream=get_stream("test here", realm),
)
self.mute_topic(
user_profile=hamlet,
stream_name="devel",
topic_name="ruby",
)
raw_unread_data = get_raw_unread_data(
user_profile=hamlet,
)
stream_dict = raw_unread_data["stream_dict"]
self.assertEqual(
set(stream_dict.keys()),
all_message_ids,
)
self.assertEqual(
raw_unread_data["unmuted_stream_msgs"],
set(message_ids["python"]) | set(message_ids["lunch"]),
)
self.assertEqual(
stream_dict[message_ids["lunch"][0]],
dict(
stream_id=get_stream("social", realm).id,
topic="lunch",
),
)
def test_raw_unread_huddle(self) -> None:
cordelia = self.example_user("cordelia")
othello = self.example_user("othello")
hamlet = self.example_user("hamlet")
prospero = self.example_user("prospero")
huddle1_message_ids = [
self.send_huddle_message(
cordelia,
[hamlet, othello],
)
for i in range(3)
]
huddle2_message_ids = [
self.send_huddle_message(
cordelia,
[hamlet, prospero],
)
for i in range(3)
]
raw_unread_data = get_raw_unread_data(
user_profile=hamlet,
)
huddle_dict = raw_unread_data["huddle_dict"]
self.assertEqual(
set(huddle_dict.keys()),
set(huddle1_message_ids) | set(huddle2_message_ids),
)
huddle_string = ",".join(str(uid) for uid in sorted([cordelia.id, hamlet.id, othello.id]))
self.assertEqual(
huddle_dict[huddle1_message_ids[0]],
dict(user_ids_string=huddle_string),
)
def test_raw_unread_personal(self) -> None:
cordelia = self.example_user("cordelia")
othello = self.example_user("othello")
hamlet = self.example_user("hamlet")
cordelia_pm_message_ids = [self.send_personal_message(cordelia, hamlet) for i in range(3)]
othello_pm_message_ids = [self.send_personal_message(othello, hamlet) for i in range(3)]
raw_unread_data = get_raw_unread_data(
user_profile=hamlet,
)
pm_dict = raw_unread_data["pm_dict"]
self.assertEqual(
set(pm_dict.keys()),
set(cordelia_pm_message_ids) | set(othello_pm_message_ids),
)
self.assertEqual(
pm_dict[cordelia_pm_message_ids[0]],
dict(other_user_id=cordelia.id),
)
def test_raw_unread_personal_from_self(self) -> None:
hamlet = self.example_user("hamlet")
def send_unread_pm(other_user: UserProfile) -> Message:
# It is rare to send a message from Hamlet to Othello
# (or any other user) and have it be unread for
# Hamlet himself, but that is actually normal
# behavior for most API clients.
message_id = self.send_personal_message(
from_user=hamlet,
to_user=other_user,
sending_client_name="some_api_program",
)
# Check our test setup is correct--the message should
# not have looked like it was sent by a human.
message = Message.objects.get(id=message_id)
self.assertFalse(message.sent_by_human())
# And since it was not sent by a human, it should not
# be read, not even by the sender (Hamlet).
um = UserMessage.objects.get(
user_profile_id=hamlet.id,
message_id=message_id,
)
self.assertFalse(um.flags.read)
return message
othello = self.example_user("othello")
othello_msg = send_unread_pm(other_user=othello)
# And now check the unread data structure...
raw_unread_data = get_raw_unread_data(
user_profile=hamlet,
)
pm_dict = raw_unread_data["pm_dict"]
self.assertEqual(set(pm_dict.keys()), {othello_msg.id})
self.assertEqual(
pm_dict[othello_msg.id],
dict(other_user_id=othello.id),
)
cordelia = self.example_user("cordelia")
cordelia_msg = send_unread_pm(other_user=cordelia)
apply_unread_message_event(
user_profile=hamlet,
state=raw_unread_data,
message=MessageDict.wide_dict(cordelia_msg),
flags=[],
)
self.assertEqual(
set(pm_dict.keys()),
{othello_msg.id, cordelia_msg.id},
)
self.assertEqual(
pm_dict[cordelia_msg.id],
dict(other_user_id=cordelia.id),
)
# Send a message to ourself.
hamlet_msg = send_unread_pm(other_user=hamlet)
apply_unread_message_event(
user_profile=hamlet,
state=raw_unread_data,
message=MessageDict.wide_dict(hamlet_msg),
flags=[],
)
self.assertEqual(
set(pm_dict.keys()),
{othello_msg.id, cordelia_msg.id, hamlet_msg.id},
)
self.assertEqual(
pm_dict[hamlet_msg.id],
dict(other_user_id=hamlet.id),
)
# Call get_raw_unread_data again.
raw_unread_data = get_raw_unread_data(
user_profile=hamlet,
)
pm_dict = raw_unread_data["pm_dict"]
self.assertEqual(
set(pm_dict.keys()),
{othello_msg.id, cordelia_msg.id, hamlet_msg.id},
)
self.assertEqual(
pm_dict[hamlet_msg.id],
dict(other_user_id=hamlet.id),
)
def test_unread_msgs(self) -> None:
sender = self.example_user("cordelia")
sender_id = sender.id
user_profile = self.example_user("hamlet")
othello = self.example_user("othello")
tests: Ensure stream senders get a UserMessage row. We now complain if a test author sends a stream message that does not result in the sender getting a UserMessage row for the message. This is basically 100% equivalent to complaining that the author failed to subscribe the sender to the stream as part of the test setup, as far as I can tell, so the AssertionError instructs the author to subscribe the sender to the stream. We exempt bots from this check, although it is plausible we should only exempt the system bots like the notification bot. I considered auto-subscribing the sender to the stream, but that can be a little more expensive than the current check, and we generally want test setup to be explicit. If there is some legitimate way than a subscribed human sender can't get a UserMessage, then we probably want an explicit test for that, or we may want to change the backend to just write a UserMessage row in that hypothetical situation. For most tests, including almost all the ones fixed here, the author just wants their test setup to realistically reflect normal operation, and often devs may not realize that Cordelia is not subscribed to Denmark or not realize that Hamlet is not subscribed to Scotland. Some of us don't remember our Shakespeare from high school, and our stream subscriptions don't even necessarily reflect which countries the Bard placed his characters in. There may also be some legitimate use case where an author wants to simulate sending a message to an unsubscribed stream, but for those edge cases, they can always set allow_unsubscribed_sender to True.
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self.subscribe(sender, "Denmark")
pm1_message_id = self.send_personal_message(sender, user_profile, "hello1")
pm2_message_id = self.send_personal_message(sender, user_profile, "hello2")
muted_stream = self.subscribe(user_profile, "Muted stream")
tests: Ensure stream senders get a UserMessage row. We now complain if a test author sends a stream message that does not result in the sender getting a UserMessage row for the message. This is basically 100% equivalent to complaining that the author failed to subscribe the sender to the stream as part of the test setup, as far as I can tell, so the AssertionError instructs the author to subscribe the sender to the stream. We exempt bots from this check, although it is plausible we should only exempt the system bots like the notification bot. I considered auto-subscribing the sender to the stream, but that can be a little more expensive than the current check, and we generally want test setup to be explicit. If there is some legitimate way than a subscribed human sender can't get a UserMessage, then we probably want an explicit test for that, or we may want to change the backend to just write a UserMessage row in that hypothetical situation. For most tests, including almost all the ones fixed here, the author just wants their test setup to realistically reflect normal operation, and often devs may not realize that Cordelia is not subscribed to Denmark or not realize that Hamlet is not subscribed to Scotland. Some of us don't remember our Shakespeare from high school, and our stream subscriptions don't even necessarily reflect which countries the Bard placed his characters in. There may also be some legitimate use case where an author wants to simulate sending a message to an unsubscribed stream, but for those edge cases, they can always set allow_unsubscribed_sender to True.
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self.subscribe(sender, muted_stream.name)
self.mute_stream(user_profile, muted_stream)
self.mute_topic(user_profile, "Denmark", "muted-topic")
stream_message_id = self.send_stream_message(sender, "Denmark", "hello")
muted_stream_message_id = self.send_stream_message(sender, "Muted stream", "hello")
muted_topic_message_id = self.send_stream_message(
sender,
"Denmark",
topic_name="muted-topic",
content="hello",
)
huddle_message_id = self.send_huddle_message(
sender,
[user_profile, othello],
"hello3",
)
def get_unread_data() -> UnreadMessagesResult:
raw_unread_data = get_raw_unread_data(user_profile)
aggregated_data = aggregate_unread_data(raw_unread_data)
return aggregated_data
with mock.patch("zerver.lib.message.MAX_UNREAD_MESSAGES", 4):
result = get_unread_data()
self.assertEqual(result["count"], 2)
self.assertTrue(result["old_unreads_missing"])
result = get_unread_data()
# The count here reflects the count of unread messages that we will
# report to users in the bankruptcy dialog, and for now it excludes unread messages
# from muted streams, but it doesn't exclude unread messages from muted topics yet.
self.assertEqual(result["count"], 4)
self.assertFalse(result["old_unreads_missing"])
unread_pm = result["pms"][0]
self.assertEqual(unread_pm["sender_id"], sender_id)
self.assertEqual(unread_pm["unread_message_ids"], [pm1_message_id, pm2_message_id])
unread_stream = result["streams"][0]
self.assertEqual(unread_stream["stream_id"], get_stream("Denmark", user_profile.realm).id)
self.assertEqual(unread_stream["topic"], "muted-topic")
self.assertEqual(unread_stream["unread_message_ids"], [muted_topic_message_id])
unread_stream = result["streams"][1]
self.assertEqual(unread_stream["stream_id"], get_stream("Denmark", user_profile.realm).id)
self.assertEqual(unread_stream["topic"], "test")
self.assertEqual(unread_stream["unread_message_ids"], [stream_message_id])
unread_stream = result["streams"][2]
self.assertEqual(
unread_stream["stream_id"], get_stream("Muted stream", user_profile.realm).id
)
self.assertEqual(unread_stream["topic"], "test")
self.assertEqual(unread_stream["unread_message_ids"], [muted_stream_message_id])
huddle_string = ",".join(
str(uid) for uid in sorted([sender_id, user_profile.id, othello.id])
)
unread_huddle = result["huddles"][0]
self.assertEqual(unread_huddle["user_ids_string"], huddle_string)
self.assertEqual(unread_huddle["unread_message_ids"], [huddle_message_id])
self.assertEqual(result["mentions"], [])
um = UserMessage.objects.get(
user_profile_id=user_profile.id,
message_id=stream_message_id,
)
um.flags |= UserMessage.flags.mentioned
um.save()
result = get_unread_data()
self.assertEqual(result["mentions"], [stream_message_id])
um.flags = UserMessage.flags.has_alert_word
um.save()
result = get_unread_data()
# TODO: This should change when we make alert words work better.
self.assertEqual(result["mentions"], [])
um.flags = UserMessage.flags.wildcard_mentioned
um.save()
result = get_unread_data()
self.assertEqual(result["mentions"], [stream_message_id])
um.flags = 0
um.save()
result = get_unread_data()
self.assertEqual(result["mentions"], [])
# Test with a muted stream
um = UserMessage.objects.get(
user_profile_id=user_profile.id,
message_id=muted_stream_message_id,
)
um.flags = UserMessage.flags.mentioned
um.save()
result = get_unread_data()
self.assertEqual(result["mentions"], [muted_stream_message_id])
um.flags = UserMessage.flags.has_alert_word
um.save()
result = get_unread_data()
self.assertEqual(result["mentions"], [])
um.flags = UserMessage.flags.wildcard_mentioned
um.save()
result = get_unread_data()
self.assertEqual(result["mentions"], [])
um.flags = 0
um.save()
result = get_unread_data()
self.assertEqual(result["mentions"], [])
# Test with a muted topic
um = UserMessage.objects.get(
user_profile_id=user_profile.id,
message_id=muted_topic_message_id,
)
um.flags = UserMessage.flags.mentioned
um.save()
result = get_unread_data()
self.assertEqual(result["mentions"], [muted_topic_message_id])
um.flags = UserMessage.flags.has_alert_word
um.save()
result = get_unread_data()
self.assertEqual(result["mentions"], [])
um.flags = UserMessage.flags.wildcard_mentioned
um.save()
result = get_unread_data()
self.assertEqual(result["mentions"], [])
um.flags = 0
um.save()
result = get_unread_data()
self.assertEqual(result["mentions"], [])
class MessageAccessTests(ZulipTestCase):
def test_update_invalid_flags(self) -> None:
message = self.send_personal_message(
self.example_user("cordelia"),
self.example_user("hamlet"),
"hello",
)
self.login("hamlet")
result = self.client_post(
"/json/messages/flags",
{"messages": orjson.dumps([message]).decode(), "op": "add", "flag": "invalid"},
)
self.assert_json_error(result, "Invalid flag: 'invalid'")
result = self.client_post(
"/json/messages/flags",
{"messages": orjson.dumps([message]).decode(), "op": "add", "flag": "is_private"},
)
self.assert_json_error(result, "Invalid flag: 'is_private'")
result = self.client_post(
"/json/messages/flags",
{
"messages": orjson.dumps([message]).decode(),
"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": orjson.dumps([message]).decode(), "op": "add", "flag": "mentioned"},
)
self.assert_json_error(result, "Flag not editable: 'mentioned'")
result = self.client_post(
"/json/messages/flags",
{"messages": orjson.dumps([message]).decode(), "op": "bogus", "flag": "starred"},
)
self.assert_json_error(result, "Invalid message flag operation: 'bogus'")
def change_star(self, messages: List[int], add: bool = True, **kwargs: Any) -> HttpResponse:
return self.client_post(
"/json/messages/flags",
{
"messages": orjson.dumps(messages).decode(),
"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("hamlet")
message_ids = [
self.send_personal_message(
self.example_user("hamlet"), self.example_user("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:
check_flags(msg["flags"], {"starred"})
else:
check_flags(msg["flags"], {"read"})
# Remove the stars.
result = self.change_star(message_ids, False)
self.assert_json_success(result)
for msg in self.get_messages():
if msg["id"] in message_ids:
check_flags(msg["flags"], set())
def test_change_collapsed_public_stream_historical(self) -> None:
hamlet = self.example_user("hamlet")
stream_name = "new_stream"
self.subscribe(hamlet, stream_name)
self.login_user(hamlet)
message_id = self.send_stream_message(hamlet, stream_name, "test")
# Now login as another user who wasn't on that stream
cordelia = self.example_user("cordelia")
self.login_user(cordelia)
result = self.client_post(
"/json/messages/flags",
dict(messages=orjson.dumps([message_id]).decode(), op="add", flag="collapsed"),
)
self.assert_json_success(result)
um = UserMessage.objects.get(user_profile_id=cordelia.id, message_id=message_id)
self.assertEqual(um.flags_list(), ["read", "collapsed", "historical"])
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("hamlet")
message_ids = [
self.send_stream_message(self.example_user("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_user("hamlet"), stream_name, "test_unused"),
]
received_message_ids = [
self.send_personal_message(
self.example_user("hamlet"),
self.example_user("cordelia"),
"test_received",
),
]
# Now login as another user who wasn't on that stream
self.login("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_user("cordelia"),
self.example_user("cordelia"),
"test_read_message",
),
]
result = self.client_post(
"/json/messages/flags",
{"messages": orjson.dumps(sent_message_ids).decode(), "op": "add", "flag": "read"},
)
# 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:
check_flags(msg["flags"], {"starred", "historical", "read"})
elif msg["id"] in received_message_ids:
check_flags(msg["flags"], set())
else:
check_flags(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
user = self.mit_user("sipbtest")
self.login_user(user)
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("hamlet")
message_ids = [
self.send_personal_message(
self.example_user("hamlet"),
self.example_user("hamlet"),
"test",
),
]
# Starring private messages you didn't receive fails.
self.login("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("hamlet")
message_ids = [
self.send_stream_message(self.example_user("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("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("hamlet")
message_ids = [
self.send_stream_message(self.example_user("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("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.
"""
sender = self.example_user("hamlet")
self.login_user(sender)
content = "Test message for star"
self.send_stream_message(sender, "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_user(normal_user)
message_id = [
self.send_stream_message(normal_user, stream_name, "test 1"),
]
guest_user = self.example_user("polonius")
self.login_user(guest_user)
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_user(normal_user)
message_id = [
self.send_stream_message(normal_user, stream_name, "test 2"),
]
self.login_user(guest_user)
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_user(normal_user)
message_id = [
self.send_stream_message(normal_user, stream_name, "test 1"),
]
guest_user = self.example_user("polonius")
self.login_user(guest_user)
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_permission(
stream, invite_only=True, history_public_to_subscribers=True, acting_user=guest_user
)
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_permission(
stream, invite_only=True, history_public_to_subscribers=False, acting_user=guest_user
)
self.login_user(normal_user)
message_id = [
self.send_stream_message(normal_user, stream_name, "test 2"),
]
self.login_user(guest_user)
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(user)
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, 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, 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
]
with queries_captured() as queries:
filtered_messages = bulk_access_messages(later_subscribed_user, messages, stream=stream)
self.assert_length(queries, 2)
# Message sent before subscribing wouldn't be accessible by later
# subscribed user as stream has protected history
self.assert_length(filtered_messages, 1)
self.assertEqual(filtered_messages[0].id, message_two_id)
do_change_stream_permission(
stream,
invite_only=True,
history_public_to_subscribers=True,
acting_user=self.example_user("cordelia"),
)
with queries_captured() as queries:
filtered_messages = bulk_access_messages(later_subscribed_user, messages, stream=stream)
self.assert_length(queries, 2)
# Message sent before subscribing are accessible by 8user as stream
# don't have protected history
self.assert_length(filtered_messages, 2)
# Testing messages accessiblity for an unsubscribed user
unsubscribed_user = self.example_user("ZOE")
with queries_captured() as queries:
filtered_messages = bulk_access_messages(unsubscribed_user, messages, stream=stream)
self.assert_length(queries, 2)
self.assert_length(filtered_messages, 0)
# Verify an exception is thrown if called where the passed
# stream not matching the messages.
with self.assertRaises(AssertionError):
bulk_access_messages(
unsubscribed_user, messages, stream=get_stream("Denmark", unsubscribed_user.realm)
)
def test_bulk_access_messages_public_stream(self) -> None:
user = self.example_user("hamlet")
self.login_user(user)
# Testing messages accessiblity including a public stream message
stream_name = "public_stream"
stream = self.subscribe(user, stream_name)
message_one_id = self.send_stream_message(user, 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, 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
with queries_captured() as queries:
filtered_messages = bulk_access_messages(later_subscribed_user, messages, stream=stream)
self.assert_length(filtered_messages, 2)
self.assert_length(queries, 2)
unsubscribed_user = self.example_user("ZOE")
with queries_captured() as queries:
filtered_messages = bulk_access_messages(unsubscribed_user, messages, stream=stream)
self.assert_length(filtered_messages, 2)
self.assert_length(queries, 2)
class PersonalMessagesFlagTest(ZulipTestCase):
def test_is_private_flag_not_leaked(self) -> None:
"""
Make sure `is_private` flag is not leaked to the API.
"""
self.login("hamlet")
self.send_personal_message(
self.example_user("hamlet"), self.example_user("cordelia"), "test"
)
for msg in self.get_messages():
self.assertNotIn("is_private", msg["flags"])
class MarkUnreadTest(ZulipTestCase):
def mute_stream(self, stream_name: str, user: int) -> None:
realm = get_realm("zulip")
stream = get_stream(stream_name, realm)
recipient = stream.recipient
subscription = Subscription.objects.get(
user_profile=user,
recipient=recipient,
)
subscription.is_muted = True
subscription.save()
def test_missing_usermessage_record(self) -> None:
cordelia = self.example_user("cordelia")
othello = self.example_user("othello")
stream_name = "Some new stream"
self.subscribe(cordelia, stream_name)
message_id1 = self.send_stream_message(
sender=cordelia,
stream_name=stream_name,
topic_name="lunch",
content="whatever",
)
self.subscribe(othello, stream_name)
raw_unread_data = get_raw_unread_data(
user_profile=othello,
)
self.assertEqual(raw_unread_data["stream_dict"], {})
message_id2 = self.send_stream_message(
sender=cordelia,
stream_name=stream_name,
topic_name="lunch",
content="whatever",
)
raw_unread_data = get_raw_unread_data(
user_profile=othello,
)
self.assertEqual(raw_unread_data["stream_dict"].keys(), {message_id2})
do_update_message_flags(othello, "remove", "read", [message_id1])
raw_unread_data = get_raw_unread_data(
user_profile=othello,
)
self.assertEqual(raw_unread_data["stream_dict"].keys(), {message_id1, message_id2})
def test_format_unread_message_details(self) -> None:
user = self.example_user("cordelia")
message_id = 999
# send message to self
pm_dict = {
message_id: RawUnreadPrivateMessageDict(other_user_id=user.id),
}
raw_unread_data = RawUnreadMessagesResult(
pm_dict=pm_dict,
stream_dict={},
huddle_dict={},
mentions=set(),
muted_stream_ids=[],
unmuted_stream_msgs=set(),
old_unreads_missing=False,
)
message_details = format_unread_message_details(user.id, raw_unread_data)
self.assertEqual(
message_details,
{
str(message_id): dict(type="private", user_ids=[]),
},
)
def test_add_message_to_unread_msgs(self) -> None:
user = self.example_user("cordelia")
message_id = 999
raw_unread_data = RawUnreadMessagesResult(
pm_dict={},
stream_dict={},
huddle_dict={},
mentions=set(),
muted_stream_ids=[],
unmuted_stream_msgs=set(),
old_unreads_missing=False,
)
# message to self
message_details = MessageDetailsDict(type="private", user_ids=[])
add_message_to_unread_msgs(user.id, raw_unread_data, message_id, message_details)
self.assertEqual(
raw_unread_data["pm_dict"],
{message_id: RawUnreadPrivateMessageDict(other_user_id=user.id)},
)
def test_stream_messages_unread(self) -> None:
sender = self.example_user("cordelia")
receiver = self.example_user("hamlet")
stream_name = "Denmark"
stream = self.subscribe(receiver, stream_name)
self.subscribe(sender, stream_name)
topic_name = "test"
message_ids = [
self.send_stream_message(
sender=sender,
stream_name=stream_name,
topic_name=topic_name,
)
for i in range(4)
]
self.login("hamlet")
result = self.client_post(
"/json/messages/flags",
{"messages": orjson.dumps(message_ids).decode(), "op": "add", "flag": "read"},
)
self.assert_json_success(result)
for message_id in message_ids:
um = UserMessage.objects.get(
user_profile_id=receiver.id,
message_id=message_id,
)
self.assertTrue(um.flags.read)
messages_to_unread = message_ids[2:]
messages_still_read = message_ids[:2]
params = {
"messages": orjson.dumps(messages_to_unread).decode(),
"op": "remove",
"flag": "read",
}
events: List[Mapping[str, Any]] = []
# Use the tornado_redirected_to_list context manager to capture
# events.
with self.tornado_redirected_to_list(events, expected_num_events=1):
result = self.api_post(receiver, "/api/v1/messages/flags", params)
self.assert_json_success(result)
event = events[0]["event"]
self.assertEqual(event["messages"], messages_to_unread)
unread_message_ids = {str(message_id) for message_id in messages_to_unread}
self.assertSetEqual(set(event["message_details"].keys()), unread_message_ids)
for message_id in event["message_details"]:
self.assertEqual(
event["message_details"][message_id],
dict(
type="stream",
topic="test",
unmuted_stream_msg=True,
stream_id=stream.id,
),
)
for message_id in messages_to_unread:
um = UserMessage.objects.get(
user_profile_id=receiver.id,
message_id=message_id,
)
self.assertFalse(um.flags.read)
for message_id in messages_still_read:
um = UserMessage.objects.get(
user_profile_id=receiver.id,
message_id=message_id,
)
self.assertTrue(um.flags.read)
def test_stream_messages_unread_muted(self) -> None:
sender = self.example_user("cordelia")
receiver = self.example_user("hamlet")
stream_name = "Denmark"
stream = self.subscribe(receiver, stream_name)
self.subscribe(sender, stream_name)
topic_name = "test"
message_ids = [
self.send_stream_message(
sender=sender,
stream_name=stream_name,
topic_name=topic_name,
)
for i in range(4)
]
self.mute_stream(stream_name, receiver)
self.login("hamlet")
result = self.client_post(
"/json/messages/flags",
{"messages": orjson.dumps(message_ids).decode(), "op": "add", "flag": "read"},
)
self.assert_json_success(result)
for message_id in message_ids:
um = UserMessage.objects.get(
user_profile_id=receiver.id,
message_id=message_id,
)
self.assertTrue(um.flags.read)
messages_to_unread = message_ids[2:]
messages_still_read = message_ids[:2]
params = {
"messages": orjson.dumps(messages_to_unread).decode(),
"op": "remove",
"flag": "read",
}
events: List[Mapping[str, Any]] = []
# Use the tornado_redirected_to_list context manager to capture
# events.
with self.tornado_redirected_to_list(events, expected_num_events=1):
result = self.api_post(receiver, "/api/v1/messages/flags", params)
self.assert_json_success(result)
event = events[0]["event"]
self.assertEqual(event["messages"], messages_to_unread)
unread_message_ids = {str(message_id) for message_id in messages_to_unread}
self.assertSetEqual(set(event["message_details"].keys()), unread_message_ids)
for message_id in event["message_details"]:
self.assertEqual(
event["message_details"][message_id],
dict(
type="stream",
topic="test",
unmuted_stream_msg=False,
stream_id=stream.id,
),
)
for message_id in messages_to_unread:
um = UserMessage.objects.get(
user_profile_id=receiver.id,
message_id=message_id,
)
self.assertFalse(um.flags.read)
for message_id in messages_still_read:
um = UserMessage.objects.get(
user_profile_id=receiver.id,
message_id=message_id,
)
self.assertTrue(um.flags.read)
def test_stream_messages_unread_mention(self) -> None:
sender = self.example_user("cordelia")
receiver = self.example_user("hamlet")
stream_name = "Denmark"
stream = self.subscribe(receiver, stream_name)
self.subscribe(sender, stream_name)
topic_name = "test"
message_ids = [
self.send_stream_message(
sender=sender,
stream_name=stream_name,
topic_name=topic_name,
content="@**King Hamlet**",
)
for i in range(4)
]
self.login("hamlet")
result = self.client_post(
"/json/messages/flags",
{"messages": orjson.dumps(message_ids).decode(), "op": "add", "flag": "read"},
)
self.assert_json_success(result)
for message_id in message_ids:
um = UserMessage.objects.get(
user_profile_id=receiver.id,
message_id=message_id,
)
self.assertTrue(um.flags.read)
messages_to_unread = message_ids[2:]
messages_still_read = message_ids[:2]
params = {
"messages": orjson.dumps(messages_to_unread).decode(),
"op": "remove",
"flag": "read",
}
events: List[Mapping[str, Any]] = []
# Use the tornado_redirected_to_list context manager to capture
# events.
with self.tornado_redirected_to_list(events, expected_num_events=1):
result = self.api_post(receiver, "/api/v1/messages/flags", params)
self.assert_json_success(result)
event = events[0]["event"]
self.assertEqual(event["messages"], messages_to_unread)
unread_message_ids = {str(message_id) for message_id in messages_to_unread}
self.assertSetEqual(set(event["message_details"].keys()), unread_message_ids)
for message_id in event["message_details"]:
self.assertEqual(
event["message_details"][message_id],
dict(
type="stream",
mentioned=True,
topic="test",
unmuted_stream_msg=True,
stream_id=stream.id,
),
)
for message_id in messages_to_unread:
um = UserMessage.objects.get(
user_profile_id=receiver.id,
message_id=message_id,
)
self.assertFalse(um.flags.read)
for message_id in messages_still_read:
um = UserMessage.objects.get(
user_profile_id=receiver.id,
message_id=message_id,
)
self.assertTrue(um.flags.read)
def test_pm_messages_unread(self) -> None:
sender = self.example_user("cordelia")
receiver = self.example_user("hamlet")
message_ids = [
self.send_personal_message(sender, receiver, content="Hello") for i in range(4)
]
self.login("hamlet")
for message_id in message_ids:
um = UserMessage.objects.get(
user_profile_id=receiver.id,
message_id=message_id,
)
self.assertFalse(um.flags.read)
result = self.client_post(
"/json/messages/flags",
{"messages": orjson.dumps(message_ids).decode(), "op": "add", "flag": "read"},
)
self.assert_json_success(result)
for message_id in message_ids:
um = UserMessage.objects.get(
user_profile_id=receiver.id,
message_id=message_id,
)
self.assertTrue(um.flags.read)
messages_to_unread = message_ids[2:]
messages_still_read = message_ids[:2]
params = {
"messages": orjson.dumps(messages_to_unread).decode(),
"op": "remove",
"flag": "read",
}
events: List[Mapping[str, Any]] = []
# Use the tornado_redirected_to_list context manager to capture
# events.
with self.tornado_redirected_to_list(events, expected_num_events=1):
result = self.api_post(receiver, "/api/v1/messages/flags", params)
self.assert_json_success(result)
event = events[0]["event"]
self.assertEqual(event["messages"], messages_to_unread)
unread_message_ids = {str(message_id) for message_id in messages_to_unread}
self.assertSetEqual(set(event["message_details"].keys()), unread_message_ids)
for message_id in event["message_details"]:
self.assertEqual(
event["message_details"][message_id],
dict(
type="private",
user_ids=[sender.id],
),
)
for message_id in messages_to_unread:
um = UserMessage.objects.get(
user_profile_id=receiver.id,
message_id=message_id,
)
self.assertFalse(um.flags.read)
for message_id in messages_still_read:
um = UserMessage.objects.get(
user_profile_id=receiver.id,
message_id=message_id,
)
self.assertTrue(um.flags.read)
def test_pm_messages_unread_mention(self) -> None:
sender = self.example_user("cordelia")
receiver = self.example_user("hamlet")
stream_name = "Denmark"
self.subscribe(receiver, stream_name)
message_ids = [
self.send_personal_message(sender, receiver, content="@**King Hamlet**")
for i in range(4)
]
self.login("hamlet")
for message_id in message_ids:
um = UserMessage.objects.get(
user_profile_id=receiver.id,
message_id=message_id,
)
self.assertFalse(um.flags.read)
result = self.client_post(
"/json/messages/flags",
{"messages": orjson.dumps(message_ids).decode(), "op": "add", "flag": "read"},
)
self.assert_json_success(result)
for message_id in message_ids:
um = UserMessage.objects.get(
user_profile_id=receiver.id,
message_id=message_id,
)
self.assertTrue(um.flags.read)
messages_to_unread = message_ids[2:]
messages_still_read = message_ids[:2]
params = {
"messages": orjson.dumps(messages_to_unread).decode(),
"op": "remove",
"flag": "read",
}
events: List[Mapping[str, Any]] = []
# Use the tornado_redirected_to_list context manager to capture
# events.
with self.tornado_redirected_to_list(events, expected_num_events=1):
result = self.api_post(receiver, "/api/v1/messages/flags", params)
self.assert_json_success(result)
event = events[0]["event"]
self.assertEqual(event["messages"], messages_to_unread)
unread_message_ids = {str(message_id) for message_id in messages_to_unread}
self.assertSetEqual(set(event["message_details"].keys()), unread_message_ids)
for message_id in event["message_details"]:
self.assertEqual(
event["message_details"][message_id],
dict(
type="private",
user_ids=[sender.id],
mentioned=True,
),
)
for message_id in messages_to_unread:
um = UserMessage.objects.get(
user_profile_id=receiver.id,
message_id=message_id,
)
self.assertFalse(um.flags.read)
for message_id in messages_still_read:
um = UserMessage.objects.get(
user_profile_id=receiver.id,
message_id=message_id,
)
self.assertTrue(um.flags.read)
def test_huddle_messages_unread(self) -> None:
sender = self.example_user("cordelia")
receiver = self.example_user("hamlet")
user1 = self.example_user("othello")
message_ids = [
# self.send_huddle_message(sender, receiver, content="Hello") for i in range(4)
self.send_huddle_message(sender, [receiver, user1])
for i in range(4)
]
self.login("hamlet")
for message_id in message_ids:
um = UserMessage.objects.get(
user_profile_id=receiver.id,
message_id=message_id,
)
self.assertFalse(um.flags.read)
result = self.client_post(
"/json/messages/flags",
{"messages": orjson.dumps(message_ids).decode(), "op": "add", "flag": "read"},
)
self.assert_json_success(result)
for message_id in message_ids:
um = UserMessage.objects.get(
user_profile_id=receiver.id,
message_id=message_id,
)
self.assertTrue(um.flags.read)
messages_to_unread = message_ids[2:]
messages_still_read = message_ids[:2]
params = {
"messages": orjson.dumps(messages_to_unread).decode(),
"op": "remove",
"flag": "read",
}
events: List[Mapping[str, Any]] = []
# Use the tornado_redirected_to_list context manager to capture
# events.
with self.tornado_redirected_to_list(events, expected_num_events=1):
result = self.api_post(receiver, "/api/v1/messages/flags", params)
self.assert_json_success(result)
event = events[0]["event"]
self.assertEqual(event["messages"], messages_to_unread)
unread_message_ids = {str(message_id) for message_id in messages_to_unread}
self.assertSetEqual(set(event["message_details"].keys()), unread_message_ids)
for message_id in event["message_details"]:
self.assertNotIn("mentioned", event["message_details"][message_id]),
for message_id in messages_to_unread:
um = UserMessage.objects.get(
user_profile_id=receiver.id,
message_id=message_id,
)
self.assertFalse(um.flags.read)
for message_id in messages_still_read:
um = UserMessage.objects.get(
user_profile_id=receiver.id,
message_id=message_id,
)
self.assertTrue(um.flags.read)
def test_huddle_messages_unread_mention(self) -> None:
sender = self.example_user("cordelia")
receiver = self.example_user("hamlet")
user1 = self.example_user("othello")
message_ids = [
# self.send_huddle_message(sender, receiver, content="Hello") for i in range(4)
self.send_huddle_message(
from_user=sender, to_users=[receiver, user1], content="@**King Hamlet**"
)
for i in range(4)
]
self.login("hamlet")
for message_id in message_ids:
um = UserMessage.objects.get(
user_profile_id=receiver.id,
message_id=message_id,
)
self.assertFalse(um.flags.read)
result = self.client_post(
"/json/messages/flags",
{"messages": orjson.dumps(message_ids).decode(), "op": "add", "flag": "read"},
)
self.assert_json_success(result)
for message_id in message_ids:
um = UserMessage.objects.get(
user_profile_id=receiver.id,
message_id=message_id,
)
self.assertTrue(um.flags.read)
messages_to_unread = message_ids[2:]
messages_still_read = message_ids[:2]
params = {
"messages": orjson.dumps(messages_to_unread).decode(),
"op": "remove",
"flag": "read",
}
events: List[Mapping[str, Any]] = []
# Use the tornado_redirected_to_list context manager to capture
# events.
with self.tornado_redirected_to_list(events, expected_num_events=1):
result = self.api_post(receiver, "/api/v1/messages/flags", params)
self.assert_json_success(result)
event = events[0]["event"]
self.assertEqual(event["messages"], messages_to_unread)
unread_message_ids = {str(message_id) for message_id in messages_to_unread}
self.assertSetEqual(set(event["message_details"].keys()), unread_message_ids)
for message_id in event["message_details"]:
self.assertEqual(event["message_details"][message_id]["mentioned"], True),
for message_id in messages_to_unread:
um = UserMessage.objects.get(
user_profile_id=receiver.id,
message_id=message_id,
)
self.assertFalse(um.flags.read)
for message_id in messages_still_read:
um = UserMessage.objects.get(
user_profile_id=receiver.id,
message_id=message_id,
)
self.assertTrue(um.flags.read)