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nk20/apps/permission/models.py
2020-04-06 10:58:16 +02:00

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# Copyright (C) 2018-2020 by BDE ENS Paris-Saclay
# SPDX-License-Identifier: GPL-3.0-or-later
import functools
import json
import operator
from django.contrib.contenttypes.models import ContentType
from django.core.exceptions import ValidationError
from django.db import models
from django.db.models import F, Q, Model
from django.utils.translation import gettext_lazy as _
from member.models import Role
class InstancedPermission:
def __init__(self, model, query, type, field, mask, **kwargs):
self.model = model
self.raw_query = query
self.query = None
self.type = type
self.field = field
self.mask = mask
self.kwargs = kwargs
def applies(self, obj, permission_type, field_name=None):
"""
Returns True if the permission applies to
the field `field_name` object `obj`
"""
if not isinstance(obj, self.model.model_class()):
# The permission does not apply to the model
return False
if self.type == 'add':
if permission_type == self.type:
self.update_query()
# Don't increase indexes, if the primary key is an AutoField
if not hasattr(obj, "pk") or not obj.pk:
obj.pk = 0
oldpk = None
else:
oldpk = obj.pk
# Ensure previous models are deleted
self.model.model_class().objects.filter(pk=obj.pk).annotate(_force_delete=F("pk")).delete()
# Force insertion, no data verification, no trigger
obj._force_save = True
Model.save(obj, force_insert=True)
# We don't want log anything
obj._no_log = True
ret = self.model.model_class().objects.filter(self.query & Q(pk=obj.pk)).exists()
# Delete testing object
obj._force_delete = True
Model.delete(obj)
# If the primary key was specified, we restore it
obj.pk = oldpk
return ret
if permission_type == self.type:
if self.field and field_name != self.field:
return False
self.update_query()
return self.model.model_class().objects.filter(self.query & Q(pk=obj.pk)).exists()
else:
return False
def update_query(self):
"""
The query is not analysed in a first time. It is analysed at most once if needed.
:return:
"""
if not self.query:
# noinspection PyProtectedMember
self.query = Permission._about(self.raw_query, **self.kwargs)
def __repr__(self):
if self.field:
return _("Can {type} {model}.{field} in {query}").format(type=self.type, model=self.model, field=self.field, query=self.query)
else:
return _("Can {type} {model} in {query}").format(type=self.type, model=self.model, query=self.query)
def __str__(self):
return self.__repr__()
class PermissionMask(models.Model):
"""
Permissions that are hidden behind a mask
"""
rank = models.PositiveSmallIntegerField(
unique=True,
verbose_name=_('rank'),
)
description = models.CharField(
max_length=255,
unique=True,
verbose_name=_('description'),
)
def __str__(self):
return self.description
class Meta:
verbose_name = _("permission mask")
verbose_name_plural = _("permission masks")
class Permission(models.Model):
PERMISSION_TYPES = [
('add', 'add'),
('view', 'view'),
('change', 'change'),
('delete', 'delete')
]
model = models.ForeignKey(ContentType, on_delete=models.CASCADE, related_name='+')
# A json encoded Q object with the following grammar
# query -> [] | {} (the empty query representing all objects)
# query -> ["AND", query, …] AND multiple queries
# | ["OR", query, …] OR multiple queries
# | ["NOT", query] Opposite of query
# query -> {key: value, …} A list of fields and values of a Q object
# key -> string A field name
# value -> int | string | bool | null Literal values
# | [parameter, …] A parameter. See compute_param for more details.
# | {"F": oper} An F object
# oper -> [string, …] A parameter. See compute_param for more details.
# | ["ADD", oper, …] Sum multiple F objects or literal
# | ["SUB", oper, oper] Substract two F objects or literal
# | ["MUL", oper, …] Multiply F objects or literals
# | int | string | bool | null Literal values
# | ["F", string] A field
#
# Examples:
# Q(is_superuser=True) := {"is_superuser": true}
# ~Q(is_superuser=True) := ["NOT", {"is_superuser": true}]
query = models.TextField()
type = models.CharField(max_length=15, choices=PERMISSION_TYPES)
mask = models.ForeignKey(
PermissionMask,
on_delete=models.PROTECT,
)
field = models.CharField(max_length=255, blank=True)
description = models.CharField(max_length=255, blank=True)
class Meta:
unique_together = ('model', 'query', 'type', 'field')
verbose_name = _("permission")
verbose_name_plural = _("permissions")
def clean(self):
self.query = json.dumps(json.loads(self.query))
if self.field and self.type not in {'view', 'change'}:
raise ValidationError(_("Specifying field applies only to view and change permission types."))
def save(self, **kwargs):
self.full_clean()
super().save()
@staticmethod
def compute_f(oper, **kwargs):
if isinstance(oper, list):
if oper[0] == 'ADD':
return functools.reduce(operator.add, [Permission.compute_f(oper, **kwargs) for oper in oper[1:]])
elif oper[0] == 'SUB':
return Permission.compute_f(oper[1], **kwargs) - Permission.compute_f(oper[2], **kwargs)
elif oper[0] == 'MUL':
return functools.reduce(operator.mul, [Permission.compute_f(oper, **kwargs) for oper in oper[1:]])
elif oper[0] == 'F':
return F(oper[1])
else:
field = kwargs[oper[0]]
for i in range(1, len(oper)):
field = getattr(field, oper[i])
return field
else:
return oper
@staticmethod
def compute_param(value, **kwargs):
"""
A parameter is given by a list. The first argument is the name of the parameter.
The parameters are the user, the club, and some classes (Note, ...)
If there are more arguments in the list, then attributes are queried.
For example, ["user", "note", "balance"] will return the balance of the note of the user.
If an argument is a list, then this is interpreted with a function call:
First argument is the name of the function, next arguments are parameters, and if there is a dict,
then the dict is given as kwargs.
For example: NoteUser.objects.filter(user__memberships__club__name="Kfet").all() is translated by:
["NoteUser", "objects", ["filter", {"user__memberships__club__name": "Kfet"}], ["all"]]
"""
if not isinstance(value, list):
return value
field = kwargs[value[0]]
for i in range(1, len(value)):
if isinstance(value[i], list):
if value[i][0] in kwargs:
field = Permission.compute_param(value[i], **kwargs)
continue
field = getattr(field, value[i][0])
params = []
call_kwargs = {}
for j in range(1, len(value[i])):
param = Permission.compute_param(value[i][j], **kwargs)
if isinstance(param, dict):
for key in param:
val = Permission.compute_param(param[key], **kwargs)
call_kwargs[key] = val
else:
params.append(param)
field = field(*params, **call_kwargs)
else:
field = getattr(field, value[i])
return field
@staticmethod
def _about(query, **kwargs):
"""
Translate JSON query into a Q query.
:param query: The JSON query
:param kwargs: Additional params
:return: A Q object
"""
if len(query) == 0:
# The query is either [] or {} and
# applies to all objects of the model
# to represent this we return a trivial request
return Q(pk=F("pk"))
if isinstance(query, list):
if query[0] == 'AND':
return functools.reduce(operator.and_, [Permission._about(query, **kwargs) for query in query[1:]])
elif query[0] == 'OR':
return functools.reduce(operator.or_, [Permission._about(query, **kwargs) for query in query[1:]])
elif query[0] == 'NOT':
return ~Permission._about(query[1], **kwargs)
else:
return Q(pk=F("pk"))
elif isinstance(query, dict):
q_kwargs = {}
for key in query:
value = query[key]
if isinstance(value, list):
# It is a parameter we query its return value
q_kwargs[key] = Permission.compute_param(value, **kwargs)
elif isinstance(value, dict):
# It is an F object
q_kwargs[key] = Permission.compute_f(value['F'], **kwargs)
else:
q_kwargs[key] = value
return Q(**q_kwargs)
else:
# TODO: find a better way to crash here
raise Exception("query {} is wrong".format(query))
def about(self, **kwargs):
"""
Return an InstancedPermission with the parameters
replaced by their values and the query interpreted
"""
query = json.loads(self.query)
# query = self._about(query, **kwargs)
return InstancedPermission(self.model, query, self.type, self.field, self.mask, **kwargs)
def __str__(self):
if self.field:
return _("Can {type} {model}.{field} in {query}").format(type=self.type, model=self.model, field=self.field, query=self.query)
else:
return _("Can {type} {model} in {query}").format(type=self.type, model=self.model, query=self.query)
class RolePermissions(models.Model):
"""
Permissions associated with a Role
"""
role = models.ForeignKey(
Role,
on_delete=models.PROTECT,
related_name='+',
verbose_name=_('role'),
)
permissions = models.ManyToManyField(
Permission,
)
def __str__(self):
return str(self.role)
class Meta:
verbose_name = _("role permissions")
verbose_name_plural = _("role permissions")