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wiki-eleves/wiki_groups/models.py

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from django.contrib.auth import get_user_model
from django.contrib.auth.models import Group as DjangoGroup
from django.db import models
from django.db.models.signals import m2m_changed, post_save
from django.dispatch import receiver
User = get_user_model()
class WikiGroup(models.Model):
"""A structured user group, used to grant permissions on sub-wikis
This model contains a structured group of users, in the sense that a group contains
both users and other groups, allowing a DAG group structure.
To make it work with django-wiki, we then flatten the set of users in the group
into a native Django group. This might seem a bit inelegant, but it has been
discussed in
https://git.eleves.ens.fr/klub-dev-ens/WikiENS/issues/5
and seemed the best way at the time, in the sense that it seems stable and reliable
wrt. internal behaviour and upstream changes in django-wiki.
"""
class CyclicStructureException(Exception):
"""Exception raised when a new edge introduces a cycle in the groups'
structure"""
def __init__(self, from_group, to_group):
self.from_group = from_group
self.to_group = to_group
def __str__(self):
return (
"The new relation {} --> {} introduces a cycle in the groups' graph"
).format(self.from_group, self.to_group)
django_group = models.OneToOneField(DjangoGroup, on_delete=models.CASCADE)
includes_groups = models.ManyToManyField(
"self",
symmetrical=False, # without this Django assumes that (a -> b) => (b -> a) on
# a many-to-many on self
related_name="included_in_groups",
blank=True,
)
users = models.ManyToManyField(User, blank=True)
managers = models.ManyToManyField(User, related_name="managed_groups", blank=True)
def __str__(self):
return str(self.django_group)
def get_all_users(self):
"""Get the queryset of all the users in this group, including recursively
included users"""
users_set = self.users.all()
for subgroup in self.includes_groups.all():
users_set = users_set.union(subgroup.get_all_users())
return users_set
def is_manager(self, user):
"""Checks wether the user is a manager of this group or any subgroup"""
# Base case: the user is an explicit manager
if user in self.managers.all():
return True
for subgroup in self.includes_groups.all():
# If the user is a manager of a subgroup
if subgroup.is_manager(user):
return True
return False
def get_all_groups(self, already_notified=None):
"""Returns the set of metagroups i.e. self plus the list of groups including
this group recursively"""
if already_notified is None:
already_notified = set()
elif self.pk in already_notified:
return set()
already_notified.add(self.pk)
groups = {self}
for metagroup in self.included_in_groups.all():
groups |= metagroup.get_all_groups(already_notified=already_notified)
return groups
def propagate_update(self, already_notified=None):
"""Commits itself to the Django group, and calls this method on every group in
`included_in_groups`"""
# Check that we did not already propagate the update signal to this group
if already_notified is None:
already_notified = set()
elif self.pk in already_notified:
return
already_notified.add(self.pk)
self.commit_to_django_group()
for metagroup in self.included_in_groups.all():
metagroup.propagate_update(already_notified=already_notified)
def commit_to_django_group(self):
"""Writes this model's data to the related Django group"""
self.django_group.user_set.set(self.get_all_users())
def group_in_cycle(self, with_children):
"""Checks whether this group would be in a group cycle if it had
`with_children` as child nodes. This assumes that the graph currently stored is
acyclic.
Returns `None` if no cycle is found, else retuns a child from `with_children`
causing the cycle to appear."""
def do_dfs(cur_node, visited_nodes):
"""DFS to check whether we find `self` again"""
if cur_node.pk in visited_nodes:
return False
if cur_node.pk == self.pk:
return True
visited_nodes.add(cur_node.pk)
for child in cur_node.includes_groups.all():
if do_dfs(child, visited_nodes):
return True
return False
visited = set()
for child in with_children:
if do_dfs(child, visited):
return child
return None
@receiver(post_save, sender=WikiGroup, dispatch_uid="on_wiki_group_changed")
def on_wiki_group_changed(sender, instance, **kwargs):
"""Commit the related WikiGroups to Django Group upon model change"""
instance.propagate_update()
@receiver(
m2m_changed,
sender=WikiGroup.includes_groups.through,
dispatch_uid="on_wiki_group_includes_changed",
)
def on_wiki_group_includes_changed(sender, instance, action, **kwargs):
"""Commit the related WikiGroups to Django Group upon change of the set of
included other groups"""
if action in ["post_add", "post_remove", "post_clear"]:
instance.propagate_update()
@receiver(
m2m_changed,
sender=WikiGroup.users.through,
dispatch_uid="on_wiki_group_users_changed",
)
def on_wiki_group_users_changed(sender, instance, action, **kwargs):
"""Commit the related WikiGroups to Django Group upon change of included users"""
if action in ["post_add", "post_remove", "post_clear"]:
instance.propagate_update()
@receiver(
m2m_changed,
sender=WikiGroup.includes_groups.through,
dispatch_uid="on_wiki_group_includes_check_acyclic",
)
def on_wiki_group_includes_check_acyclic(sender, instance, action, pk_set, **kwargs):
"""Checks the acyclicity of the groups' graph before committing new edges.
PLEASE NOTE that this check is only a fallback, and that forms should validate
the acyclicity before committing anything.
"""
if action == "pre_add":
children = [WikiGroup.objects.get(pk=cur_pk) for cur_pk in pk_set]
cycle_child = instance.group_in_cycle(children)
if cycle_child:
raise WikiGroup.CyclicStructureException(instance, cycle_child)
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