from django.contrib.auth import get_user_model from django.contrib.auth.models import Permission from django.db.models import Exists, OuterRef, Q UserModel = get_user_model() class BaseBackend: def authenticate(self, request, **kwargs): return None def get_user(self, user_id): return None def get_user_permissions(self, user_obj, obj=None): return set() def get_group_permissions(self, user_obj, obj=None): return set() def get_all_permissions(self, user_obj, obj=None): return { *self.get_user_permissions(user_obj, obj=obj), *self.get_group_permissions(user_obj, obj=obj), } def has_perm(self, user_obj, perm, obj=None): return perm in self.get_all_permissions(user_obj, obj=obj) class ModelBackend(BaseBackend): """ Authenticates against settings.AUTH_USER_MODEL. """ def authenticate(self, request, username=None, password=None, **kwargs): if username is None: username = kwargs.get(UserModel.USERNAME_FIELD) if username is None or password is None: return try: user = UserModel._default_manager.get_by_natural_key(username) except UserModel.DoesNotExist: # Run the default password hasher once to reduce the timing # difference between an existing and a nonexistent user (#20760). UserModel().set_password(password) else: if user.check_password(password) and self.user_can_authenticate(user): return user def user_can_authenticate(self, user): """ Reject users with is_active=False. Custom user models that don't have that attribute are allowed. """ is_active = getattr(user, "is_active", None) return is_active or is_active is None def _get_user_permissions(self, user_obj): return user_obj.user_permissions.all() def _get_group_permissions(self, user_obj): user_groups_field = get_user_model()._meta.get_field("groups") user_groups_query = "group__%s" % user_groups_field.related_query_name() return Permission.objects.filter(**{user_groups_query: user_obj}) def _get_permissions(self, user_obj, obj, from_name): """ Return the permissions of `user_obj` from `from_name`. `from_name` can be either "group" or "user" to return permissions from `_get_group_permissions` or `_get_user_permissions` respectively. """ if not user_obj.is_active or user_obj.is_anonymous or obj is not None: return set() perm_cache_name = "_%s_perm_cache" % from_name if not hasattr(user_obj, perm_cache_name): if user_obj.is_superuser: perms = Permission.objects.all() else: perms = getattr(self, "_get_%s_permissions" % from_name)(user_obj) perms = perms.values_list("content_type__app_label", "codename").order_by() setattr( user_obj, perm_cache_name, {"%s.%s" % (ct, name) for ct, name in perms} ) return getattr(user_obj, perm_cache_name) def get_user_permissions(self, user_obj, obj=None): """ Return a set of permission strings the user `user_obj` has from their `user_permissions`. """ return self._get_permissions(user_obj, obj, "user") def get_group_permissions(self, user_obj, obj=None): """ Return a set of permission strings the user `user_obj` has from the groups they belong. """ return self._get_permissions(user_obj, obj, "group") def get_all_permissions(self, user_obj, obj=None): if not user_obj.is_active or user_obj.is_anonymous or obj is not None: return set() if not hasattr(user_obj, "_perm_cache"): user_obj._perm_cache = super().get_all_permissions(user_obj) return user_obj._perm_cache def has_perm(self, user_obj, perm, obj=None): return user_obj.is_active and super().has_perm(user_obj, perm, obj=obj) def has_module_perms(self, user_obj, app_label): """ Return True if user_obj has any permissions in the given app_label. """ return user_obj.is_active and any( perm[: perm.index(".")] == app_label for perm in self.get_all_permissions(user_obj) ) def with_perm(self, perm, is_active=True, include_superusers=True, obj=None): """ Return users that have permission "perm". By default, filter out inactive users and include superusers. """ if isinstance(perm, str): try: app_label, codename = perm.split(".") except ValueError: raise ValueError( "Permission name should be in the form " "app_label.permission_codename." ) elif not isinstance(perm, Permission): raise TypeError( "The `perm` argument must be a string or a permission instance." ) if obj is not None: return UserModel._default_manager.none() permission_q = Q(group__user=OuterRef("pk")) | Q(user=OuterRef("pk")) if isinstance(perm, Permission): permission_q &= Q(pk=perm.pk) else: permission_q &= Q(codename=codename, content_type__app_label=app_label) user_q = Exists(Permission.objects.filter(permission_q)) if include_superusers: user_q |= Q(is_superuser=True) if is_active is not None: user_q &= Q(is_active=is_active) return UserModel._default_manager.filter(user_q) def get_user(self, user_id): try: user = UserModel._default_manager.get(pk=user_id) except UserModel.DoesNotExist: return None return user if self.user_can_authenticate(user) else None class AllowAllUsersModelBackend(ModelBackend): def user_can_authenticate(self, user): return True class RemoteUserBackend(ModelBackend): """ This backend is to be used in conjunction with the ``RemoteUserMiddleware`` found in the middleware module of this package, and is used when the server is handling authentication outside of Django. By default, the ``authenticate`` method creates ``User`` objects for usernames that don't already exist in the database. Subclasses can disable this behavior by setting the ``create_unknown_user`` attribute to ``False``. """ # Create a User object if not already in the database? create_unknown_user = True def authenticate(self, request, remote_user): """ The username passed as ``remote_user`` is considered trusted. Return the ``User`` object with the given username. Create a new ``User`` object if ``create_unknown_user`` is ``True``. Return None if ``create_unknown_user`` is ``False`` and a ``User`` object with the given username is not found in the database. """ if not remote_user: return user = None username = self.clean_username(remote_user) # Note that this could be accomplished in one try-except clause, but # instead we use get_or_create when creating unknown users since it has # built-in safeguards for multiple threads. if self.create_unknown_user: user, created = UserModel._default_manager.get_or_create( **{UserModel.USERNAME_FIELD: username} ) if created: user = self.configure_user(request, user) else: try: user = UserModel._default_manager.get_by_natural_key(username) except UserModel.DoesNotExist: pass return user if self.user_can_authenticate(user) else None def clean_username(self, username): """ Perform any cleaning on the "username" prior to using it to get or create the user object. Return the cleaned username. By default, return the username unchanged. """ return username def configure_user(self, request, user): """ Configure a user after creation and return the updated user. By default, return the user unmodified. """ return user class AllowAllUsersRemoteUserBackend(RemoteUserBackend): def user_can_authenticate(self, user): return True