zulip/zerver/lib/stream_subscription.py

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import itertools
from collections import defaultdict
from dataclasses import dataclass
from operator import itemgetter
from typing import AbstractSet, Any, Collection, Dict, List, Optional, Set
from django.db.models import Q, QuerySet
from django_stubs_ext import ValuesQuerySet
from zerver.models import AlertWord, Realm, Recipient, Stream, Subscription, UserProfile, UserTopic
@dataclass
class SubInfo:
user: UserProfile
sub: Subscription
stream: Stream
@dataclass
class SubscriberPeerInfo:
subscribed_ids: Dict[int, Set[int]]
private_peer_dict: Dict[int, Set[int]]
def get_active_subscriptions_for_stream_id(
stream_id: int, *, include_deactivated_users: bool
) -> QuerySet[Subscription]:
query = Subscription.objects.filter(
recipient__type=Recipient.STREAM,
recipient__type_id=stream_id,
active=True,
)
if not include_deactivated_users:
# Note that non-active users may still have "active" subscriptions, because we
# want to be able to easily reactivate them with their old subscriptions. This
# is why the query here has to look at the is_user_active flag.
query = query.filter(is_user_active=True)
return query
def get_active_subscriptions_for_stream_ids(stream_ids: Set[int]) -> QuerySet[Subscription]:
return Subscription.objects.filter(
recipient__type=Recipient.STREAM,
recipient__type_id__in=stream_ids,
active=True,
is_user_active=True,
)
def get_subscribed_stream_ids_for_user(
user_profile: UserProfile,
) -> ValuesQuerySet[Subscription, int]:
return Subscription.objects.filter(
user_profile_id=user_profile,
recipient__type=Recipient.STREAM,
active=True,
).values_list("recipient__type_id", flat=True)
def get_subscribed_stream_recipient_ids_for_user(
user_profile: UserProfile,
) -> ValuesQuerySet[Subscription, int]:
return Subscription.objects.filter(
user_profile_id=user_profile,
recipient__type=Recipient.STREAM,
active=True,
).values_list("recipient_id", flat=True)
def get_stream_subscriptions_for_user(user_profile: UserProfile) -> QuerySet[Subscription]:
return Subscription.objects.filter(
user_profile=user_profile,
recipient__type=Recipient.STREAM,
)
def get_used_colors_for_user_ids(user_ids: List[int]) -> Dict[int, Set[str]]:
"""Fetch which stream colors have already been used for each user in
user_ids. Uses an optimized query designed to support picking
colors when bulk-adding users to streams, which requires
inspecting all Subscription objects for the users, which can often
end up being all Subscription objects in the realm.
"""
query = (
Subscription.objects.filter(
user_profile_id__in=user_ids,
recipient__type=Recipient.STREAM,
)
.values("user_profile_id", "color")
.distinct()
)
result: Dict[int, Set[str]] = defaultdict(set)
for row in query:
assert row["color"] is not None
result[row["user_profile_id"]].add(row["color"])
return result
def get_bulk_stream_subscriber_info(
users: List[UserProfile],
streams: List[Stream],
) -> Dict[int, List[SubInfo]]:
stream_ids = {stream.id for stream in streams}
subs = Subscription.objects.filter(
user_profile__in=users,
recipient__type=Recipient.STREAM,
recipient__type_id__in=stream_ids,
active=True,
).only("user_profile_id", "recipient_id")
stream_map = {stream.recipient_id: stream for stream in streams}
user_map = {user.id: user for user in users}
result: Dict[int, List[SubInfo]] = {user.id: [] for user in users}
for sub in subs:
user_id = sub.user_profile_id
user = user_map[user_id]
recipient_id = sub.recipient_id
stream = stream_map[recipient_id]
sub_info = SubInfo(
user=user,
sub=sub,
stream=stream,
)
result[user_id].append(sub_info)
return result
def num_subscribers_for_stream_id(stream_id: int) -> int:
return get_active_subscriptions_for_stream_id(
stream_id, include_deactivated_users=False
).count()
def get_user_ids_for_streams(stream_ids: Set[int]) -> Dict[int, Set[int]]:
all_subs = (
get_active_subscriptions_for_stream_ids(stream_ids)
.values(
"recipient__type_id",
"user_profile_id",
)
.order_by(
"recipient__type_id",
)
)
get_stream_id = itemgetter("recipient__type_id")
result: Dict[int, Set[int]] = defaultdict(set)
for stream_id, rows in itertools.groupby(all_subs, get_stream_id):
user_ids = {row["user_profile_id"] for row in rows}
result[stream_id] = user_ids
return result
def bulk_get_subscriber_peer_info(
realm: Realm,
streams: Collection[Stream],
) -> SubscriberPeerInfo:
"""
Glossary:
subscribed_ids:
This shows the users who are actually subscribed to the
stream, which we generally send to the person subscribing
to the stream.
private_peer_dict:
These are the folks that need to know about a new subscriber.
It's usually a superset of the subscribers.
Note that we only compute this for PRIVATE streams. We
let other code handle peers for public streams, since the
peers for all public streams are actually the same group
of users, and downstream code can use that property of
public streams to avoid extra work.
"""
subscribed_ids = {}
private_peer_dict = {}
private_stream_ids = {stream.id for stream in streams if stream.invite_only}
public_stream_ids = {stream.id for stream in streams if not stream.invite_only}
stream_user_ids = get_user_ids_for_streams(private_stream_ids | public_stream_ids)
if private_stream_ids:
realm_admin_ids = {user.id for user in realm.get_admin_users_and_bots()}
for stream_id in private_stream_ids:
# Realm admins can see all private stream
# subscribers.
subscribed_user_ids = stream_user_ids.get(stream_id, set())
subscribed_ids[stream_id] = subscribed_user_ids
private_peer_dict[stream_id] = subscribed_user_ids | realm_admin_ids
for stream_id in public_stream_ids:
subscribed_user_ids = stream_user_ids.get(stream_id, set())
subscribed_ids[stream_id] = subscribed_user_ids
return SubscriberPeerInfo(
subscribed_ids=subscribed_ids,
private_peer_dict=private_peer_dict,
)
def handle_stream_notifications_compatibility(
user_profile: Optional[UserProfile],
stream_dict: Dict[str, Any],
notification_settings_null: bool,
) -> None:
# Old versions of the mobile apps don't support `None` as a
# value for the stream-level notifications properties, so we
# have to handle the normally frontend-side defaults for these
# settings here for those older clients.
#
# Note that this situation results in these older mobile apps
# having a subtle bug where changes to the user-level stream
# notification defaults will not properly propagate to the
# mobile app "stream notification settings" UI until the app
# re-registers. This is an acceptable level of
# backwards-compatibility problem in our view.
assert not notification_settings_null
for notification_type in [
"desktop_notifications",
"audible_notifications",
"push_notifications",
"email_notifications",
]:
# Values of true/false are supported by older clients.
if stream_dict[notification_type] is not None:
continue
target_attr = "enable_stream_" + notification_type
stream_dict[notification_type] = (
False if user_profile is None else getattr(user_profile, target_attr)
)
def subscriber_ids_with_stream_history_access(stream: Stream) -> Set[int]:
"""Returns the set of active user IDs who can access any message
history on this stream (regardless of whether they have a
UserMessage) based on the stream's configuration.
1. if !history_public_to_subscribers:
History is not available to anyone
2. if history_public_to_subscribers:
All subscribers can access the history including guests
The results of this function need to be kept consistent with
what can_access_stream_history would dictate.
"""
if not stream.is_history_public_to_subscribers():
return set()
return set(
get_active_subscriptions_for_stream_id(
stream.id, include_deactivated_users=False
).values_list("user_profile_id", flat=True)
)
def get_subscriptions_for_send_message(
*,
realm_id: int,
stream_id: int,
topic_name: str,
possible_stream_wildcard_mention: bool,
topic_participant_user_ids: AbstractSet[int],
possibly_mentioned_user_ids: AbstractSet[int],
) -> QuerySet[Subscription]:
"""This function optimizes an important use case for large
streams. Open realms often have many long_term_idle users, which
can result in 10,000s of long_term_idle recipients in default
streams. do_send_messages has an optimization to avoid doing work
for long_term_idle unless message flags or notifications should be
generated.
However, it's expensive even to fetch and process them all in
Python at all. This function returns all recipients of a stream
message that could possibly require action in the send-message
codepath.
Basically, it returns all subscribers, excluding all long-term
idle users who it can prove will not receive a UserMessage row or
notification for the message (i.e. no alert words, mentions, or
email/push notifications are configured) and thus are not needed
for processing the message send.
Critically, this function is called before the Markdown
processor. As a result, it returns all subscribers who have ANY
configured alert words, even if their alert words aren't present
in the message. Similarly, it returns all subscribers who match
the "possible mention" parameters.
Downstream logic, which runs after the Markdown processor has
parsed the message, will do the precise determination.
"""
query = get_active_subscriptions_for_stream_id(
stream_id,
include_deactivated_users=False,
)
if possible_stream_wildcard_mention:
return query
query = query.filter(
Q(user_profile__long_term_idle=False)
| Q(push_notifications=True)
| (Q(push_notifications=None) & Q(user_profile__enable_stream_push_notifications=True))
| Q(email_notifications=True)
| (Q(email_notifications=None) & Q(user_profile__enable_stream_email_notifications=True))
| Q(user_profile_id__in=possibly_mentioned_user_ids)
| Q(user_profile_id__in=topic_participant_user_ids)
| Q(
user_profile_id__in=AlertWord.objects.filter(realm_id=realm_id).values_list(
"user_profile_id"
)
)
| Q(
user_profile_id__in=UserTopic.objects.filter(
stream_id=stream_id,
topic_name__iexact=topic_name,
visibility_policy=UserTopic.VisibilityPolicy.FOLLOWED,
).values_list("user_profile_id")
)
)
return query