mirror of https://github.com/zulip/zulip.git
759 lines
28 KiB
Python
759 lines
28 KiB
Python
from contextlib import contextmanager
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from dataclasses import dataclass
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from typing import Collection, Dict, Iterable, Iterator, List, Mapping, Optional, TypedDict, Union
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from django.db import connection, transaction
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from django.db.models import F, Prefetch, QuerySet
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from django.utils.timezone import now as timezone_now
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from django.utils.translation import gettext as _
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from django_cte import With
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from django_stubs_ext import ValuesQuerySet
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from psycopg2.sql import SQL, Literal
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from zerver.lib.exceptions import JsonableError, PreviousSettingValueMismatchedError
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from zerver.lib.types import GroupPermissionSetting, ServerSupportedPermissionSettings
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from zerver.models import (
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GroupGroupMembership,
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NamedUserGroup,
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Realm,
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RealmAuditLog,
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Stream,
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UserGroup,
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UserGroupMembership,
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UserProfile,
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)
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from zerver.models.groups import SystemGroups
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@dataclass
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class AnonymousSettingGroupDict:
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direct_members: List[int]
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direct_subgroups: List[int]
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@dataclass
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class GroupSettingChangeRequest:
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new: Union[int, AnonymousSettingGroupDict]
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old: Optional[Union[int, AnonymousSettingGroupDict]] = None
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class UserGroupDict(TypedDict):
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id: int
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name: str
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description: str
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members: List[int]
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direct_subgroup_ids: List[int]
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is_system_group: bool
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can_mention_group: Union[int, AnonymousSettingGroupDict]
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@dataclass
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class LockedUserGroupContext:
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"""User groups in this dataclass are guaranteeed to be locked until the
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end of the current transaction.
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supergroup is the user group to have subgroups added or removed;
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direct_subgroups are user groups that are recursively queried for subgroups;
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recursive_subgroups include direct_subgroups and their descendants.
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"""
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supergroup: NamedUserGroup
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direct_subgroups: List[NamedUserGroup]
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recursive_subgroups: List[NamedUserGroup]
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def has_user_group_access(
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user_group: NamedUserGroup, user_profile: UserProfile, *, for_read: bool, as_subgroup: bool
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) -> bool:
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if user_group.realm_id != user_profile.realm_id:
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return False
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if as_subgroup:
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# At this time, we only check for realm ID of a potential subgroup.
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return True
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if for_read and not user_profile.is_guest:
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# Everyone is allowed to read a user group and check who
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# are its members. Guests should be unable to reach this
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# code path, since they can't access user groups API
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# endpoints, but we check for guests here for defense in
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# depth.
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return True
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if user_group.is_system_group:
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return False
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group_member_ids = get_user_group_direct_member_ids(user_group)
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if (
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not user_profile.is_realm_admin
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and not user_profile.is_moderator
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and user_profile.id not in group_member_ids
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):
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return False
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return True
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def access_user_group_by_id(
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user_group_id: int, user_profile: UserProfile, *, for_read: bool
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) -> NamedUserGroup:
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try:
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if for_read:
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user_group = NamedUserGroup.objects.get(id=user_group_id, realm=user_profile.realm)
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else:
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user_group = NamedUserGroup.objects.select_for_update().get(
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id=user_group_id, realm=user_profile.realm
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)
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except NamedUserGroup.DoesNotExist:
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raise JsonableError(_("Invalid user group"))
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if not has_user_group_access(user_group, user_profile, for_read=for_read, as_subgroup=False):
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raise JsonableError(_("Insufficient permission"))
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return user_group
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@contextmanager
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def lock_subgroups_with_respect_to_supergroup(
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potential_subgroup_ids: Collection[int], potential_supergroup_id: int, acting_user: UserProfile
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) -> Iterator[LockedUserGroupContext]:
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"""This locks the user groups with the given potential_subgroup_ids, as well
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as their indirect subgroups, followed by the potential supergroup. It
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ensures that we lock the user groups in a consistent order topologically to
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avoid unnecessary deadlocks on non-conflicting queries.
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Regardless of whether the user groups returned are used, always call this
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helper before making changes to subgroup memberships. This avoids
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introducing cycles among user groups when there is a race condition in
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which one of these subgroups become an ancestor of the parent user group in
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another transaction.
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Note that it only does a permission check on the potential supergroup,
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not the potential subgroups or their recursive subgroups.
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"""
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with transaction.atomic(savepoint=False):
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# Calling list with the QuerySet forces its evaluation putting a lock on
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# the queried rows.
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recursive_subgroups = list(
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get_recursive_subgroups_for_groups(
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potential_subgroup_ids, acting_user.realm
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).select_for_update(nowait=True)
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)
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# TODO: This select_for_update query is subject to deadlocking, and
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# better error handling is needed. We may use
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# select_for_update(nowait=True) and release the locks held by ending
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# the transaction with a JsonableError by handling the DatabaseError.
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# But at the current scale of concurrent requests, we rely on
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# Postgres's deadlock detection when it occurs.
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potential_supergroup = access_user_group_by_id(
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potential_supergroup_id, acting_user, for_read=False
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)
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# We avoid making a separate query for user_group_ids because the
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# recursive query already returns those user groups.
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potential_subgroups = [
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user_group
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for user_group in recursive_subgroups
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if user_group.id in potential_subgroup_ids
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]
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# We expect that the passed user_group_ids each corresponds to an
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# existing user group.
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group_ids_found = [group.id for group in potential_subgroups]
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group_ids_not_found = [
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group_id for group_id in potential_subgroup_ids if group_id not in group_ids_found
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]
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if group_ids_not_found:
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raise JsonableError(
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_("Invalid user group ID: {group_id}").format(group_id=group_ids_not_found[0])
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)
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for subgroup in potential_subgroups:
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# At this time, we only do a check on the realm ID of the fetched
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# subgroup. This would be caught by the check earlier, so there is
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# no coverage here.
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if not has_user_group_access(subgroup, acting_user, for_read=False, as_subgroup=True):
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raise JsonableError(_("Insufficient permission")) # nocoverage
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yield LockedUserGroupContext(
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direct_subgroups=potential_subgroups,
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recursive_subgroups=recursive_subgroups,
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supergroup=potential_supergroup,
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)
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def check_setting_configuration_for_system_groups(
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setting_group: NamedUserGroup,
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setting_name: str,
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permission_configuration: GroupPermissionSetting,
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) -> None:
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if permission_configuration.require_system_group and not setting_group.is_system_group:
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raise JsonableError(
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_("'{setting_name}' must be a system user group.").format(setting_name=setting_name)
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)
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if (
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not permission_configuration.allow_internet_group
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and setting_group.name == SystemGroups.EVERYONE_ON_INTERNET
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):
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raise JsonableError(
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_("'{setting_name}' setting cannot be set to 'role:internet' group.").format(
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setting_name=setting_name
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)
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)
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if (
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not permission_configuration.allow_owners_group
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and setting_group.name == SystemGroups.OWNERS
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):
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raise JsonableError(
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_("'{setting_name}' setting cannot be set to 'role:owners' group.").format(
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setting_name=setting_name
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)
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)
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if (
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not permission_configuration.allow_nobody_group
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and setting_group.name == SystemGroups.NOBODY
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):
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raise JsonableError(
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_("'{setting_name}' setting cannot be set to 'role:nobody' group.").format(
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setting_name=setting_name
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)
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)
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if (
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not permission_configuration.allow_everyone_group
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and setting_group.name == SystemGroups.EVERYONE
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):
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raise JsonableError(
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_("'{setting_name}' setting cannot be set to 'role:everyone' group.").format(
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setting_name=setting_name
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)
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)
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if (
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permission_configuration.allowed_system_groups
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and setting_group.name not in permission_configuration.allowed_system_groups
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):
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raise JsonableError(
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_("'{setting_name}' setting cannot be set to '{group_name}' group.").format(
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setting_name=setting_name, group_name=setting_group.name
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)
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)
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def update_or_create_user_group_for_setting(
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realm: Realm,
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direct_members: List[int],
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direct_subgroups: List[int],
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current_setting_value: Optional[UserGroup],
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) -> UserGroup:
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if current_setting_value is not None and not hasattr(current_setting_value, "named_user_group"):
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# We do not create a new group if the setting was already set
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# to an anonymous group. The memberships of existing group
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# itself are updated.
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user_group = current_setting_value
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else:
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user_group = UserGroup.objects.create(realm=realm)
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from zerver.lib.users import user_ids_to_users
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member_users = user_ids_to_users(direct_members, realm)
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user_group.direct_members.set(member_users)
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potential_subgroups = NamedUserGroup.objects.filter(realm=realm, id__in=direct_subgroups)
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group_ids_found = [group.id for group in potential_subgroups]
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group_ids_not_found = [
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group_id for group_id in direct_subgroups if group_id not in group_ids_found
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]
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if group_ids_not_found:
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raise JsonableError(
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_("Invalid user group ID: {group_id}").format(group_id=group_ids_not_found[0])
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)
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user_group.direct_subgroups.set(group_ids_found)
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return user_group
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def access_user_group_for_setting(
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setting_user_group: Union[int, AnonymousSettingGroupDict],
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user_profile: UserProfile,
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*,
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setting_name: str,
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permission_configuration: GroupPermissionSetting,
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current_setting_value: Optional[UserGroup] = None,
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) -> UserGroup:
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if isinstance(setting_user_group, int):
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named_user_group = access_user_group_by_id(setting_user_group, user_profile, for_read=True)
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check_setting_configuration_for_system_groups(
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named_user_group, setting_name, permission_configuration
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)
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return named_user_group.usergroup_ptr
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# The API would not allow passing the setting parameter as a Dict
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# if require_system_group is true for a setting.
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assert permission_configuration.require_system_group is False
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user_group = update_or_create_user_group_for_setting(
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user_profile.realm,
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setting_user_group.direct_members,
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setting_user_group.direct_subgroups,
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current_setting_value,
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)
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return user_group
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def check_user_group_name(group_name: str) -> str:
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if group_name.strip() == "":
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raise JsonableError(_("User group name can't be empty!"))
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if len(group_name) > NamedUserGroup.MAX_NAME_LENGTH:
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raise JsonableError(
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_("User group name cannot exceed {max_length} characters.").format(
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max_length=NamedUserGroup.MAX_NAME_LENGTH
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)
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)
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for invalid_prefix in NamedUserGroup.INVALID_NAME_PREFIXES:
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if group_name.startswith(invalid_prefix):
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raise JsonableError(
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_("User group name cannot start with '{prefix}'.").format(prefix=invalid_prefix)
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)
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return group_name
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def get_group_setting_value_for_api(
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setting_value_group: UserGroup,
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) -> Union[int, AnonymousSettingGroupDict]:
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if hasattr(setting_value_group, "named_user_group"):
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return setting_value_group.id
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return AnonymousSettingGroupDict(
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direct_members=[member.id for member in setting_value_group.direct_members.all()],
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direct_subgroups=[subgroup.id for subgroup in setting_value_group.direct_subgroups.all()],
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)
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def user_groups_in_realm_serialized(realm: Realm) -> List[UserGroupDict]:
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"""This function is used in do_events_register code path so this code
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should be performant. We need to do 2 database queries because
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Django's ORM doesn't properly support the left join between
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UserGroup and UserGroupMembership that we need.
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"""
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realm_groups = (
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NamedUserGroup.objects.select_related(
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"can_mention_group", "can_mention_group__named_user_group"
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)
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# Using prefetch_related results in one query for each field. This is fine
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# for now but would be problematic when more settings would be added.
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#
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# TODO: We should refactor it such that we only make two queries - one
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# to fetch all the realm groups and the second to fetch all the groups
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# that they point to and then set the setting fields for realm groups
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# accordingly in Python.
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.prefetch_related(
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Prefetch("can_mention_group__direct_members", queryset=UserProfile.objects.only("id")),
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Prefetch(
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"can_mention_group__direct_subgroups", queryset=NamedUserGroup.objects.only("id")
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),
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)
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.filter(realm=realm)
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)
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group_dicts: Dict[int, UserGroupDict] = {}
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for user_group in realm_groups:
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group_dicts[user_group.id] = dict(
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id=user_group.id,
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name=user_group.name,
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description=user_group.description,
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members=[],
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direct_subgroup_ids=[],
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is_system_group=user_group.is_system_group,
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can_mention_group=get_group_setting_value_for_api(user_group.can_mention_group),
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)
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membership = (
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UserGroupMembership.objects.filter(user_group__realm=realm)
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.exclude(user_group__named_user_group=None)
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.values_list("user_group_id", "user_profile_id")
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)
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for user_group_id, user_profile_id in membership:
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group_dicts[user_group_id]["members"].append(user_profile_id)
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group_membership = (
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GroupGroupMembership.objects.filter(subgroup__realm=realm)
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.exclude(supergroup__named_user_group=None)
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.values_list("subgroup_id", "supergroup_id")
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)
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for subgroup_id, supergroup_id in group_membership:
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group_dicts[supergroup_id]["direct_subgroup_ids"].append(subgroup_id)
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for group_dict in group_dicts.values():
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group_dict["members"] = sorted(group_dict["members"])
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group_dict["direct_subgroup_ids"] = sorted(group_dict["direct_subgroup_ids"])
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return sorted(group_dicts.values(), key=lambda group_dict: group_dict["id"])
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def get_direct_user_groups(user_profile: UserProfile) -> List[UserGroup]:
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return list(user_profile.direct_groups.all())
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def get_user_group_direct_member_ids(
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user_group: UserGroup,
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) -> ValuesQuerySet[UserGroupMembership, int]:
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return UserGroupMembership.objects.filter(user_group=user_group).values_list(
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"user_profile_id", flat=True
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)
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def get_user_group_direct_members(user_group: UserGroup) -> QuerySet[UserProfile]:
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return user_group.direct_members.all()
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def get_direct_memberships_of_users(user_group: UserGroup, members: List[UserProfile]) -> List[int]:
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return list(
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UserGroupMembership.objects.filter(
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user_group=user_group, user_profile__in=members
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).values_list("user_profile_id", flat=True)
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)
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# These recursive lookups use standard PostgreSQL common table
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# expression (CTE) queries. These queries use the django-cte library,
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# because upstream Django does not yet support CTE.
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#
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# https://www.postgresql.org/docs/current/queries-with.html
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# https://pypi.org/project/django-cte/
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# https://code.djangoproject.com/ticket/28919
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def get_recursive_subgroups(user_group: UserGroup) -> QuerySet[UserGroup]:
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cte = With.recursive(
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lambda cte: UserGroup.objects.filter(id=user_group.id)
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.values(group_id=F("id"))
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.union(
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cte.join(NamedUserGroup, direct_supergroups=cte.col.group_id).values(group_id=F("id"))
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)
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)
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return cte.join(UserGroup, id=cte.col.group_id).with_cte(cte)
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def get_recursive_strict_subgroups(user_group: UserGroup) -> QuerySet[NamedUserGroup]:
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# Same as get_recursive_subgroups but does not include the
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# user_group passed.
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direct_subgroup_ids = user_group.direct_subgroups.all().values("id")
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cte = With.recursive(
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lambda cte: NamedUserGroup.objects.filter(id__in=direct_subgroup_ids)
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.values(group_id=F("id"))
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.union(
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cte.join(NamedUserGroup, direct_supergroups=cte.col.group_id).values(group_id=F("id"))
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)
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)
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return cte.join(NamedUserGroup, id=cte.col.group_id).with_cte(cte)
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def get_recursive_group_members(user_group: UserGroup) -> QuerySet[UserProfile]:
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return UserProfile.objects.filter(direct_groups__in=get_recursive_subgroups(user_group))
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def get_recursive_membership_groups(user_profile: UserProfile) -> QuerySet[UserGroup]:
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cte = With.recursive(
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lambda cte: user_profile.direct_groups.values(group_id=F("id")).union(
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cte.join(UserGroup, direct_subgroups=cte.col.group_id).values(group_id=F("id"))
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)
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)
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return cte.join(UserGroup, id=cte.col.group_id).with_cte(cte)
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def is_user_in_group(
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user_group: UserGroup, user: UserProfile, *, direct_member_only: bool = False
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) -> bool:
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if direct_member_only:
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return get_user_group_direct_members(user_group=user_group).filter(id=user.id).exists()
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return get_recursive_group_members(user_group=user_group).filter(id=user.id).exists()
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def get_user_group_member_ids(
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user_group: UserGroup, *, direct_member_only: bool = False
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) -> List[int]:
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if direct_member_only:
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member_ids: Iterable[int] = get_user_group_direct_member_ids(user_group)
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else:
|
|
member_ids = get_recursive_group_members(user_group).values_list("id", flat=True)
|
|
|
|
return list(member_ids)
|
|
|
|
|
|
def get_subgroup_ids(user_group: UserGroup, *, direct_subgroup_only: bool = False) -> List[int]:
|
|
if direct_subgroup_only:
|
|
subgroup_ids = user_group.direct_subgroups.all().values_list("id", flat=True)
|
|
else:
|
|
subgroup_ids = get_recursive_strict_subgroups(user_group).values_list("id", flat=True)
|
|
|
|
return list(subgroup_ids)
|
|
|
|
|
|
def get_recursive_subgroups_for_groups(
|
|
user_group_ids: Iterable[int], realm: Realm
|
|
) -> QuerySet[NamedUserGroup]:
|
|
cte = With.recursive(
|
|
lambda cte: NamedUserGroup.objects.filter(id__in=user_group_ids, realm=realm)
|
|
.values(group_id=F("id"))
|
|
.union(
|
|
cte.join(NamedUserGroup, direct_supergroups=cte.col.group_id).values(group_id=F("id"))
|
|
)
|
|
)
|
|
recursive_subgroups = cte.join(NamedUserGroup, id=cte.col.group_id).with_cte(cte)
|
|
return recursive_subgroups
|
|
|
|
|
|
def get_role_based_system_groups_dict(realm: Realm) -> Dict[str, NamedUserGroup]:
|
|
system_groups = NamedUserGroup.objects.filter(realm=realm, is_system_group=True).select_related(
|
|
"usergroup_ptr"
|
|
)
|
|
system_groups_name_dict = {}
|
|
for group in system_groups:
|
|
system_groups_name_dict[group.name] = group
|
|
|
|
return system_groups_name_dict
|
|
|
|
|
|
def set_defaults_for_group_settings(
|
|
user_group: NamedUserGroup,
|
|
group_settings_map: Mapping[str, UserGroup],
|
|
system_groups_name_dict: Dict[str, NamedUserGroup],
|
|
) -> NamedUserGroup:
|
|
for setting_name, permission_config in NamedUserGroup.GROUP_PERMISSION_SETTINGS.items():
|
|
if setting_name in group_settings_map:
|
|
# We skip the settings for which a value is passed
|
|
# in user group creation API request.
|
|
continue
|
|
|
|
if user_group.is_system_group and permission_config.default_for_system_groups is not None:
|
|
default_group_name = permission_config.default_for_system_groups
|
|
else:
|
|
default_group_name = permission_config.default_group_name
|
|
|
|
default_group = system_groups_name_dict[default_group_name].usergroup_ptr
|
|
setattr(user_group, setting_name, default_group)
|
|
|
|
return user_group
|
|
|
|
|
|
def bulk_create_system_user_groups(groups: List[Dict[str, str]], realm: Realm) -> None:
|
|
# This value will be used to set the temporary initial value for different
|
|
# settings since we can only set them to the correct values after the groups
|
|
# are created.
|
|
initial_group_setting_value = -1
|
|
|
|
rows = [SQL("({})").format(Literal(realm.id))] * len(groups)
|
|
query = SQL(
|
|
"""
|
|
INSERT INTO zerver_usergroup (realm_id)
|
|
VALUES {rows}
|
|
RETURNING id
|
|
"""
|
|
).format(rows=SQL(", ").join(rows))
|
|
with connection.cursor() as cursor:
|
|
cursor.execute(query)
|
|
user_group_ids = [id for (id,) in cursor.fetchall()]
|
|
|
|
rows = [
|
|
SQL("({},{},{},{},{},{})").format(
|
|
Literal(user_group_ids[idx]),
|
|
Literal(realm.id),
|
|
Literal(group["name"]),
|
|
Literal(group["description"]),
|
|
Literal(True),
|
|
Literal(initial_group_setting_value),
|
|
)
|
|
for idx, group in enumerate(groups)
|
|
]
|
|
query = SQL(
|
|
"""
|
|
INSERT INTO zerver_namedusergroup (usergroup_ptr_id, realm_id, name, description, is_system_group, can_mention_group_id)
|
|
VALUES {rows}
|
|
"""
|
|
).format(rows=SQL(", ").join(rows))
|
|
with connection.cursor() as cursor:
|
|
cursor.execute(query)
|
|
|
|
|
|
@transaction.atomic(savepoint=False)
|
|
def create_system_user_groups_for_realm(realm: Realm) -> Dict[int, NamedUserGroup]:
|
|
"""Any changes to this function likely require a migration to adjust
|
|
existing realms. See e.g. migration 0382_create_role_based_system_groups.py,
|
|
which is a copy of this function from when we introduced system groups.
|
|
"""
|
|
role_system_groups_dict: Dict[int, NamedUserGroup] = {}
|
|
|
|
system_groups_info_list: List[Dict[str, str]] = []
|
|
|
|
nobody_group_info = {
|
|
"name": SystemGroups.NOBODY,
|
|
"description": "Nobody",
|
|
}
|
|
|
|
full_members_group_info = {
|
|
"name": SystemGroups.FULL_MEMBERS,
|
|
"description": "Members of this organization, not including new accounts and guests",
|
|
}
|
|
|
|
everyone_on_internet_group_info = {
|
|
"name": SystemGroups.EVERYONE_ON_INTERNET,
|
|
"description": "Everyone on the Internet",
|
|
}
|
|
|
|
system_groups_info_list = [
|
|
nobody_group_info,
|
|
NamedUserGroup.SYSTEM_USER_GROUP_ROLE_MAP[UserProfile.ROLE_REALM_OWNER],
|
|
NamedUserGroup.SYSTEM_USER_GROUP_ROLE_MAP[UserProfile.ROLE_REALM_ADMINISTRATOR],
|
|
NamedUserGroup.SYSTEM_USER_GROUP_ROLE_MAP[UserProfile.ROLE_MODERATOR],
|
|
full_members_group_info,
|
|
NamedUserGroup.SYSTEM_USER_GROUP_ROLE_MAP[UserProfile.ROLE_MEMBER],
|
|
NamedUserGroup.SYSTEM_USER_GROUP_ROLE_MAP[UserProfile.ROLE_GUEST],
|
|
everyone_on_internet_group_info,
|
|
]
|
|
|
|
bulk_create_system_user_groups(system_groups_info_list, realm)
|
|
|
|
system_groups_name_dict: Dict[str, NamedUserGroup] = get_role_based_system_groups_dict(realm)
|
|
for role in NamedUserGroup.SYSTEM_USER_GROUP_ROLE_MAP:
|
|
group_name = NamedUserGroup.SYSTEM_USER_GROUP_ROLE_MAP[role]["name"]
|
|
role_system_groups_dict[role] = system_groups_name_dict[group_name]
|
|
|
|
# Order of this list here is important to create correct GroupGroupMembership objects
|
|
# Note that because we do not create user memberships here, no audit log entries for
|
|
# user memberships are populated either.
|
|
system_user_groups_list = [
|
|
system_groups_name_dict[SystemGroups.NOBODY],
|
|
system_groups_name_dict[SystemGroups.OWNERS],
|
|
system_groups_name_dict[SystemGroups.ADMINISTRATORS],
|
|
system_groups_name_dict[SystemGroups.MODERATORS],
|
|
system_groups_name_dict[SystemGroups.FULL_MEMBERS],
|
|
system_groups_name_dict[SystemGroups.MEMBERS],
|
|
system_groups_name_dict[SystemGroups.EVERYONE],
|
|
system_groups_name_dict[SystemGroups.EVERYONE_ON_INTERNET],
|
|
]
|
|
|
|
creation_time = timezone_now()
|
|
realmauditlog_objects = [
|
|
RealmAuditLog(
|
|
realm=realm,
|
|
acting_user=None,
|
|
event_type=RealmAuditLog.USER_GROUP_CREATED,
|
|
event_time=creation_time,
|
|
modified_user_group=user_group,
|
|
)
|
|
for user_group in system_user_groups_list
|
|
]
|
|
|
|
groups_with_updated_settings = []
|
|
for group in system_user_groups_list:
|
|
user_group = set_defaults_for_group_settings(group, {}, system_groups_name_dict)
|
|
groups_with_updated_settings.append(user_group)
|
|
NamedUserGroup.objects.bulk_update(groups_with_updated_settings, ["can_mention_group"])
|
|
|
|
subgroup_objects: List[GroupGroupMembership] = []
|
|
# "Nobody" system group is not a subgroup of any user group, since it is already empty.
|
|
subgroup, remaining_groups = system_user_groups_list[1], system_user_groups_list[2:]
|
|
for supergroup in remaining_groups:
|
|
subgroup_objects.append(GroupGroupMembership(subgroup=subgroup, supergroup=supergroup))
|
|
now = timezone_now()
|
|
realmauditlog_objects.extend(
|
|
[
|
|
RealmAuditLog(
|
|
realm=realm,
|
|
modified_user_group=supergroup,
|
|
event_type=RealmAuditLog.USER_GROUP_DIRECT_SUBGROUP_MEMBERSHIP_ADDED,
|
|
event_time=now,
|
|
acting_user=None,
|
|
extra_data={"subgroup_ids": [subgroup.id]},
|
|
),
|
|
RealmAuditLog(
|
|
realm=realm,
|
|
modified_user_group=subgroup,
|
|
event_type=RealmAuditLog.USER_GROUP_DIRECT_SUPERGROUP_MEMBERSHIP_ADDED,
|
|
event_time=now,
|
|
acting_user=None,
|
|
extra_data={"supergroup_ids": [supergroup.id]},
|
|
),
|
|
]
|
|
)
|
|
subgroup = supergroup
|
|
|
|
GroupGroupMembership.objects.bulk_create(subgroup_objects)
|
|
RealmAuditLog.objects.bulk_create(realmauditlog_objects)
|
|
|
|
return role_system_groups_dict
|
|
|
|
|
|
def get_system_user_group_for_user(user_profile: UserProfile) -> NamedUserGroup:
|
|
system_user_group_name = NamedUserGroup.SYSTEM_USER_GROUP_ROLE_MAP[user_profile.role]["name"]
|
|
|
|
system_user_group = NamedUserGroup.objects.get(
|
|
name=system_user_group_name, realm=user_profile.realm, is_system_group=True
|
|
)
|
|
return system_user_group
|
|
|
|
|
|
def get_server_supported_permission_settings() -> ServerSupportedPermissionSettings:
|
|
return ServerSupportedPermissionSettings(
|
|
realm=Realm.REALM_PERMISSION_GROUP_SETTINGS,
|
|
stream=Stream.stream_permission_group_settings,
|
|
group=NamedUserGroup.GROUP_PERMISSION_SETTINGS,
|
|
)
|
|
|
|
|
|
def parse_group_setting_value(
|
|
setting_value: Union[int, AnonymousSettingGroupDict],
|
|
) -> Union[int, AnonymousSettingGroupDict]:
|
|
if isinstance(setting_value, int):
|
|
return setting_value
|
|
|
|
if len(setting_value.direct_members) == 0 and len(setting_value.direct_subgroups) == 1:
|
|
return setting_value.direct_subgroups[0]
|
|
|
|
return setting_value
|
|
|
|
|
|
def are_both_group_setting_values_equal(
|
|
first_setting_value: Union[int, AnonymousSettingGroupDict],
|
|
second_setting_value: Union[int, AnonymousSettingGroupDict],
|
|
) -> bool:
|
|
if isinstance(first_setting_value, int) and isinstance(second_setting_value, int):
|
|
return first_setting_value == second_setting_value
|
|
|
|
if isinstance(first_setting_value, AnonymousSettingGroupDict) and isinstance(
|
|
second_setting_value, AnonymousSettingGroupDict
|
|
):
|
|
return set(first_setting_value.direct_members) == set(
|
|
second_setting_value.direct_members
|
|
) and set(first_setting_value.direct_subgroups) == set(
|
|
second_setting_value.direct_subgroups
|
|
)
|
|
|
|
return False
|
|
|
|
|
|
def validate_group_setting_value_change(
|
|
current_setting_api_value: Union[int, AnonymousSettingGroupDict],
|
|
new_setting_value: Union[int, AnonymousSettingGroupDict],
|
|
expected_current_setting_value: Optional[Union[int, AnonymousSettingGroupDict]],
|
|
) -> bool:
|
|
if expected_current_setting_value is not None and not are_both_group_setting_values_equal(
|
|
expected_current_setting_value,
|
|
current_setting_api_value,
|
|
):
|
|
# This check is here to help prevent races, by refusing to
|
|
# change a setting where the client (and thus the UI presented
|
|
# to user) showed a different existing state.
|
|
raise PreviousSettingValueMismatchedError
|
|
|
|
return not are_both_group_setting_values_equal(current_setting_api_value, new_setting_value)
|