zulip/zerver/actions/user_groups.py

482 lines
16 KiB
Python
Raw Normal View History

from datetime import datetime
from typing import Mapping, Optional, Sequence, TypedDict, Union
import django.db.utils
from django.db import transaction
from django.utils.timezone import now as timezone_now
from django.utils.translation import gettext as _
from zerver.lib.exceptions import JsonableError
from zerver.lib.user_groups import (
AnonymousSettingGroupDict,
get_group_setting_value_for_api,
get_group_setting_value_for_audit_log_data,
get_role_based_system_groups_dict,
set_defaults_for_group_settings,
)
from zerver.models import (
GroupGroupMembership,
NamedUserGroup,
Realm,
RealmAuditLog,
UserGroup,
UserGroupMembership,
UserProfile,
)
from zerver.models.groups import SystemGroups
from zerver.models.users import active_user_ids
from zerver.tornado.django_api import send_event, send_event_on_commit
class MemberGroupUserDict(TypedDict):
id: int
role: int
date_joined: datetime
@transaction.atomic
def create_user_group_in_database(
name: str,
members: list[UserProfile],
realm: Realm,
*,
acting_user: Optional[UserProfile],
description: str = "",
group_settings_map: Mapping[str, UserGroup] = {},
is_system_group: bool = False,
) -> NamedUserGroup:
user_group = NamedUserGroup(
name=name,
realm=realm,
description=description,
is_system_group=is_system_group,
realm_for_sharding=realm,
)
for setting_name, setting_value in group_settings_map.items():
setattr(user_group, setting_name, setting_value)
system_groups_name_dict = get_role_based_system_groups_dict(realm)
user_group = set_defaults_for_group_settings(
user_group, group_settings_map, system_groups_name_dict
)
user_group.save()
UserGroupMembership.objects.bulk_create(
UserGroupMembership(user_profile=member, user_group=user_group) for member in members
)
creation_time = timezone_now()
audit_log_entries = [
RealmAuditLog(
realm=realm,
acting_user=acting_user,
event_type=RealmAuditLog.USER_GROUP_CREATED,
event_time=creation_time,
modified_user_group=user_group,
),
] + [
RealmAuditLog(
realm=realm,
acting_user=acting_user,
event_type=RealmAuditLog.USER_GROUP_DIRECT_USER_MEMBERSHIP_ADDED,
event_time=creation_time,
modified_user=member,
modified_user_group=user_group,
)
for member in members
]
RealmAuditLog.objects.bulk_create(audit_log_entries)
return user_group
@transaction.atomic(savepoint=False)
def update_users_in_full_members_system_group(
realm: Realm, affected_user_ids: Sequence[int] = [], *, acting_user: Optional[UserProfile]
) -> None:
full_members_system_group = NamedUserGroup.objects.get(
realm=realm, name=SystemGroups.FULL_MEMBERS, is_system_group=True
)
members_system_group = NamedUserGroup.objects.get(
realm=realm, name=SystemGroups.MEMBERS, is_system_group=True
)
full_member_group_users: list[MemberGroupUserDict] = list()
member_group_users: list[MemberGroupUserDict] = list()
if affected_user_ids:
full_member_group_users = list(
full_members_system_group.direct_members.filter(id__in=affected_user_ids).values(
"id", "role", "date_joined"
)
)
member_group_users = list(
members_system_group.direct_members.filter(id__in=affected_user_ids).values(
"id", "role", "date_joined"
)
)
else:
full_member_group_users = list(
full_members_system_group.direct_members.all().values("id", "role", "date_joined")
)
member_group_users = list(
members_system_group.direct_members.all().values("id", "role", "date_joined")
)
def is_provisional_member(user: MemberGroupUserDict) -> bool:
diff = (timezone_now() - user["date_joined"]).days
if diff < realm.waiting_period_threshold:
return True
return False
old_full_members = [
user
for user in full_member_group_users
if is_provisional_member(user) or user["role"] != UserProfile.ROLE_MEMBER
]
full_member_group_user_ids = [user["id"] for user in full_member_group_users]
members_excluding_full_members = [
user for user in member_group_users if user["id"] not in full_member_group_user_ids
]
new_full_members = [
user for user in members_excluding_full_members if not is_provisional_member(user)
]
old_full_member_ids = [user["id"] for user in old_full_members]
new_full_member_ids = [user["id"] for user in new_full_members]
if len(old_full_members) > 0:
bulk_remove_members_from_user_groups(
[full_members_system_group], old_full_member_ids, acting_user=acting_user
)
if len(new_full_members) > 0:
bulk_add_members_to_user_groups(
[full_members_system_group], new_full_member_ids, acting_user=acting_user
)
def promote_new_full_members() -> None:
for realm in Realm.objects.filter(deactivated=False).exclude(waiting_period_threshold=0):
update_users_in_full_members_system_group(realm, acting_user=None)
def do_send_create_user_group_event(
user_group: NamedUserGroup,
members: list[UserProfile],
direct_subgroups: Sequence[UserGroup] = [],
) -> None:
event = dict(
type="user_group",
op="add",
group=dict(
name=user_group.name,
members=[member.id for member in members],
description=user_group.description,
id=user_group.id,
is_system_group=user_group.is_system_group,
direct_subgroup_ids=[direct_subgroup.id for direct_subgroup in direct_subgroups],
can_mention_group=get_group_setting_value_for_api(user_group.can_mention_group),
),
)
send_event(user_group.realm, event, active_user_ids(user_group.realm_id))
def check_add_user_group(
realm: Realm,
name: str,
initial_members: list[UserProfile],
description: str = "",
group_settings_map: Mapping[str, UserGroup] = {},
*,
acting_user: Optional[UserProfile],
) -> NamedUserGroup:
try:
user_group = create_user_group_in_database(
name,
initial_members,
realm,
description=description,
group_settings_map=group_settings_map,
acting_user=acting_user,
)
do_send_create_user_group_event(user_group, initial_members)
return user_group
except django.db.utils.IntegrityError:
raise JsonableError(_("User group '{group_name}' already exists.").format(group_name=name))
def do_send_user_group_update_event(
user_group: NamedUserGroup, data: dict[str, Union[str, int, AnonymousSettingGroupDict]]
) -> None:
event = dict(type="user_group", op="update", group_id=user_group.id, data=data)
send_event(user_group.realm, event, active_user_ids(user_group.realm_id))
@transaction.atomic(savepoint=False)
def do_update_user_group_name(
user_group: NamedUserGroup, name: str, *, acting_user: Optional[UserProfile]
) -> None:
try:
old_value = user_group.name
user_group.name = name
user_group.save(update_fields=["name"])
RealmAuditLog.objects.create(
realm=user_group.realm,
modified_user_group=user_group,
event_type=RealmAuditLog.USER_GROUP_NAME_CHANGED,
event_time=timezone_now(),
acting_user=acting_user,
extra_data={
RealmAuditLog.OLD_VALUE: old_value,
RealmAuditLog.NEW_VALUE: name,
},
)
except django.db.utils.IntegrityError:
raise JsonableError(_("User group '{group_name}' already exists.").format(group_name=name))
do_send_user_group_update_event(user_group, dict(name=name))
@transaction.atomic(savepoint=False)
def do_update_user_group_description(
user_group: NamedUserGroup, description: str, *, acting_user: Optional[UserProfile]
) -> None:
old_value = user_group.description
user_group.description = description
user_group.save(update_fields=["description"])
RealmAuditLog.objects.create(
realm=user_group.realm,
modified_user_group=user_group,
event_type=RealmAuditLog.USER_GROUP_DESCRIPTION_CHANGED,
event_time=timezone_now(),
acting_user=acting_user,
extra_data={
RealmAuditLog.OLD_VALUE: old_value,
RealmAuditLog.NEW_VALUE: description,
},
)
do_send_user_group_update_event(user_group, dict(description=description))
def do_send_user_group_members_update_event(
event_name: str, user_group: NamedUserGroup, user_ids: list[int]
) -> None:
event = dict(type="user_group", op=event_name, group_id=user_group.id, user_ids=user_ids)
send_event_on_commit(user_group.realm, event, active_user_ids(user_group.realm_id))
@transaction.atomic(savepoint=False)
def bulk_add_members_to_user_groups(
user_groups: list[NamedUserGroup],
user_profile_ids: list[int],
*,
acting_user: Optional[UserProfile],
) -> None:
# All intended callers of this function involve a single user
# being added to one or more groups, or many users being added to
# a single group; but it's easy enough for the implementation to
# support both.
memberships = [
UserGroupMembership(user_group_id=user_group.id, user_profile_id=user_id)
for user_id in user_profile_ids
for user_group in user_groups
]
UserGroupMembership.objects.bulk_create(memberships)
now = timezone_now()
RealmAuditLog.objects.bulk_create(
RealmAuditLog(
realm=user_group.realm,
modified_user_id=user_id,
modified_user_group=user_group,
event_type=RealmAuditLog.USER_GROUP_DIRECT_USER_MEMBERSHIP_ADDED,
event_time=now,
acting_user=acting_user,
)
for user_id in user_profile_ids
for user_group in user_groups
)
for user_group in user_groups:
do_send_user_group_members_update_event("add_members", user_group, user_profile_ids)
@transaction.atomic(savepoint=False)
def bulk_remove_members_from_user_groups(
user_groups: list[NamedUserGroup],
user_profile_ids: list[int],
*,
acting_user: Optional[UserProfile],
) -> None:
# All intended callers of this function involve a single user
# being added to one or more groups, or many users being added to
# a single group; but it's easy enough for the implementation to
# support both.
UserGroupMembership.objects.filter(
user_group__in=user_groups, user_profile_id__in=user_profile_ids
).delete()
now = timezone_now()
RealmAuditLog.objects.bulk_create(
RealmAuditLog(
realm=user_group.realm,
modified_user_id=user_id,
modified_user_group=user_group,
event_type=RealmAuditLog.USER_GROUP_DIRECT_USER_MEMBERSHIP_REMOVED,
event_time=now,
acting_user=acting_user,
)
for user_id in user_profile_ids
for user_group in user_groups
)
for user_group in user_groups:
do_send_user_group_members_update_event("remove_members", user_group, user_profile_ids)
def do_send_subgroups_update_event(
event_name: str, user_group: NamedUserGroup, subgroup_ids: list[int]
) -> None:
event = dict(
type="user_group", op=event_name, group_id=user_group.id, direct_subgroup_ids=subgroup_ids
)
send_event_on_commit(user_group.realm, event, active_user_ids(user_group.realm_id))
@transaction.atomic
def add_subgroups_to_user_group(
user_group: NamedUserGroup,
subgroups: list[NamedUserGroup],
*,
acting_user: Optional[UserProfile],
) -> None:
group_memberships = [
GroupGroupMembership(supergroup=user_group, subgroup=subgroup) for subgroup in subgroups
]
GroupGroupMembership.objects.bulk_create(group_memberships)
subgroup_ids = [subgroup.id for subgroup in subgroups]
now = timezone_now()
audit_log_entries = [
RealmAuditLog(
realm=user_group.realm,
modified_user_group=user_group,
event_type=RealmAuditLog.USER_GROUP_DIRECT_SUBGROUP_MEMBERSHIP_ADDED,
event_time=now,
acting_user=acting_user,
extra_data={"subgroup_ids": subgroup_ids},
),
*(
RealmAuditLog(
realm=user_group.realm,
modified_user_group_id=subgroup_id,
event_type=RealmAuditLog.USER_GROUP_DIRECT_SUPERGROUP_MEMBERSHIP_ADDED,
event_time=now,
acting_user=acting_user,
extra_data={"supergroup_ids": [user_group.id]},
)
for subgroup_id in subgroup_ids
),
]
RealmAuditLog.objects.bulk_create(audit_log_entries)
do_send_subgroups_update_event("add_subgroups", user_group, subgroup_ids)
@transaction.atomic
def remove_subgroups_from_user_group(
user_group: NamedUserGroup,
subgroups: list[NamedUserGroup],
*,
acting_user: Optional[UserProfile],
) -> None:
GroupGroupMembership.objects.filter(supergroup=user_group, subgroup__in=subgroups).delete()
subgroup_ids = [subgroup.id for subgroup in subgroups]
now = timezone_now()
audit_log_entries = [
RealmAuditLog(
realm=user_group.realm,
modified_user_group=user_group,
event_type=RealmAuditLog.USER_GROUP_DIRECT_SUBGROUP_MEMBERSHIP_REMOVED,
event_time=now,
acting_user=acting_user,
extra_data={"subgroup_ids": subgroup_ids},
),
*(
RealmAuditLog(
realm=user_group.realm,
modified_user_group_id=subgroup_id,
event_type=RealmAuditLog.USER_GROUP_DIRECT_SUPERGROUP_MEMBERSHIP_REMOVED,
event_time=now,
acting_user=acting_user,
extra_data={"supergroup_ids": [user_group.id]},
)
for subgroup_id in subgroup_ids
),
]
RealmAuditLog.objects.bulk_create(audit_log_entries)
do_send_subgroups_update_event("remove_subgroups", user_group, subgroup_ids)
def do_send_delete_user_group_event(realm: Realm, user_group_id: int, realm_id: int) -> None:
event = dict(type="user_group", op="remove", group_id=user_group_id)
send_event(realm, event, active_user_ids(realm_id))
def check_delete_user_group(user_group: NamedUserGroup, *, acting_user: UserProfile) -> None:
user_groups: Make locks required for updating user group memberships. **Background** User groups are expected to comply with the DAG constraint for the many-to-many inter-group membership. The check for this constraint has to be performed recursively so that we can find all direct and indirect subgroups of the user group to be added. This kind of check is vulnerable to phantom reads which is possible at the default read committed isolation level because we cannot guarantee that the check is still valid when we are adding the subgroups to the user group. **Solution** To avoid having another transaction concurrently update one of the to-be-subgroup after the recursive check is done, and before the subgroup is added, we use SELECT FOR UPDATE to lock the user group rows. The lock needs to be acquired before a group membership change is about to occur before any check has been conducted. Suppose that we are adding subgroup B to supergroup A, the locking protocol is specified as follows: 1. Acquire a lock for B and all its direct and indirect subgroups. 2. Acquire a lock for A. For the removal of user groups, we acquire a lock for the user group to be removed with all its direct and indirect subgroups. This is the special case A=B, which is still complaint with the protocol. **Error handling** We currently rely on Postgres' deadlock detection to abort transactions and show an error for the users. In the future, we might need some recovery mechanism or at least better error handling. **Notes** An important note is that we need to reuse the recursive CTE query that finds the direct and indirect subgroups when applying the lock on the rows. And the lock needs to be acquired the same way for the addition and removal of direct subgroups. User membership change (as opposed to user group membership) is not affected. Read-only queries aren't either. The locks only protect critical regions where the user group dependency graph might violate the DAG constraint, where users are not participating. **Testing** We implement a transaction test case targeting some typical scenarios when an internal server error is expected to happen (this means that the user group view makes the correct decision to abort the transaction when something goes wrong with locks). To achieve this, we add a development view intended only for unit tests. It has a global BARRIER that can be shared across threads, so that we can synchronize them to consistently reproduce certain potential race conditions prevented by the database locks. The transaction test case lanuches pairs of threads initiating possibly conflicting requests at the same time. The tests are set up such that exactly N of them are expected to succeed with a certain error message (while we don't know each one). **Security notes** get_recursive_subgroups_for_groups will no longer fetch user groups from other realms. As a result, trying to add/remove a subgroup from another realm results in a UserGroup not found error response. We also implement subgroup-specific checks in has_user_group_access to keep permission managing in a single place. Do note that the API currently don't have a way to violate that check because we are only checking the realm ID now.
2023-06-17 04:39:52 +02:00
user_group_id = user_group.id
user_group.delete()
do_send_delete_user_group_event(acting_user.realm, user_group_id, acting_user.realm.id)
@transaction.atomic(savepoint=False)
def do_change_user_group_permission_setting(
user_group: NamedUserGroup,
setting_name: str,
setting_value_group: UserGroup,
*,
old_setting_api_value: Union[int, AnonymousSettingGroupDict],
acting_user: Optional[UserProfile],
) -> None:
old_value = getattr(user_group, setting_name)
setattr(user_group, setting_name, setting_value_group)
user_group.save()
new_setting_api_value = get_group_setting_value_for_api(setting_value_group)
if not hasattr(old_value, "named_user_group") and hasattr(
setting_value_group, "named_user_group"
):
# We delete the UserGroup which the setting was set to
# previously if it does not have any linked NamedUserGroup
# object, as it is not used anywhere else. A new UserGroup
# object would be created if the setting is later set to
# a combination of users and groups.
old_value.delete()
RealmAuditLog.objects.create(
realm=user_group.realm,
acting_user=acting_user,
event_type=RealmAuditLog.USER_GROUP_GROUP_BASED_SETTING_CHANGED,
event_time=timezone_now(),
modified_user_group=user_group,
extra_data={
RealmAuditLog.OLD_VALUE: get_group_setting_value_for_audit_log_data(
old_setting_api_value
),
RealmAuditLog.NEW_VALUE: get_group_setting_value_for_audit_log_data(
new_setting_api_value
),
"property": setting_name,
},
)
event_data_dict: dict[str, Union[str, int, AnonymousSettingGroupDict]] = {
setting_name: new_setting_api_value
}
do_send_user_group_update_event(user_group, event_data_dict)