1419 lines
63 KiB
Python
1419 lines
63 KiB
Python
# Licensed under the Apache License, Version 2.0 (the "License"); you may
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# not use this file except in compliance with the License. You may obtain
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# a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
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# License for the specific language governing permissions and limitations
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# under the License.
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"""Main entry point into the Resource service."""
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from oslo_log import log
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import six
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from keystone import assignment
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from keystone.common import cache
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from keystone.common import clean
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from keystone.common import dependency
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from keystone.common import driver_hints
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from keystone.common import manager
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from keystone.common import utils
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import keystone.conf
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from keystone import exception
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from keystone.i18n import _, _LE, _LW
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from keystone import notifications
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from keystone.resource.backends import base
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from keystone.token import provider as token_provider
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CONF = keystone.conf.CONF
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LOG = log.getLogger(__name__)
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MEMOIZE = cache.get_memoization_decorator(group='resource')
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@dependency.provider('resource_api')
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@dependency.requires('assignment_api', 'credential_api', 'domain_config_api',
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'identity_api', 'revoke_api', 'trust_api')
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class Manager(manager.Manager):
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"""Default pivot point for the Resource backend.
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See :mod:`keystone.common.manager.Manager` for more details on how this
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dynamically calls the backend.
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"""
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driver_namespace = 'keystone.resource'
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_DOMAIN = 'domain'
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_PROJECT = 'project'
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def __init__(self):
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resource_driver = CONF.resource.driver
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super(Manager, self).__init__(resource_driver)
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def _get_hierarchy_depth(self, parents_list):
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return len(parents_list) + 1
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def _assert_max_hierarchy_depth(self, project_id, parents_list=None):
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if parents_list is None:
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parents_list = self.list_project_parents(project_id)
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# NOTE(henry-nash): In upgrading to a scenario where domains are
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# represented as projects acting as domains, we will effectively
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# increase the depth of any existing project hierarchy by one. To avoid
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# pushing any existing hierarchies over the limit, we add one to the
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# maximum depth allowed, as specified in the configuration file.
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max_depth = CONF.max_project_tree_depth + 1
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if self._get_hierarchy_depth(parents_list) > max_depth:
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raise exception.ForbiddenNotSecurity(
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_('Max hierarchy depth reached for %s branch.') % project_id)
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def _assert_is_domain_project_constraints(self, project_ref):
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"""Enforce specific constraints of projects that act as domains.
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Called when is_domain is true, this method ensures that:
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* multiple domains are enabled
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* the project name is not the reserved name for a federated domain
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* the project is a root project
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:raises keystone.exception.ValidationError: If one of the constraints
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was not satisfied.
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"""
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if (not self.identity_api.multiple_domains_supported and
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project_ref['id'] != CONF.identity.default_domain_id):
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raise exception.ValidationError(
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message=_('Multiple domains are not supported'))
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self.assert_domain_not_federated(project_ref['id'], project_ref)
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if project_ref['parent_id']:
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raise exception.ValidationError(
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message=_('only root projects are allowed to act as '
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'domains.'))
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def _assert_regular_project_constraints(self, project_ref):
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"""Enforce regular project hierarchy constraints.
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Called when is_domain is false. The project must contain a valid
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domain_id and parent_id. The goal of this method is to check
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that the domain_id specified is consistent with the domain of its
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parent.
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:raises keystone.exception.ValidationError: If one of the constraints
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was not satisfied.
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:raises keystone.exception.DomainNotFound: In case the domain is not
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found.
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"""
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# Ensure domain_id is valid, and by inference will not be None.
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domain = self.get_domain(project_ref['domain_id'])
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parent_ref = self.get_project(project_ref['parent_id'])
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if parent_ref['is_domain']:
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if parent_ref['id'] != domain['id']:
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raise exception.ValidationError(
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message=_('Cannot create project, since its parent '
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'(%(domain_id)s) is acting as a domain, '
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'but project\'s specified parent_id '
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'(%(parent_id)s) does not match '
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'this domain_id.')
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% {'domain_id': domain['id'],
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'parent_id': parent_ref['id']})
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else:
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parent_domain_id = parent_ref.get('domain_id')
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if parent_domain_id != domain['id']:
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raise exception.ValidationError(
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message=_('Cannot create project, since it specifies '
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'its owner as domain %(domain_id)s, but '
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'specifies a parent in a different domain '
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'(%(parent_domain_id)s).')
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% {'domain_id': domain['id'],
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'parent_domain_id': parent_domain_id})
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def _enforce_project_constraints(self, project_ref):
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if project_ref.get('is_domain'):
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self._assert_is_domain_project_constraints(project_ref)
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else:
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self._assert_regular_project_constraints(project_ref)
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# The whole hierarchy (upwards) must be enabled
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parent_id = project_ref['parent_id']
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parents_list = self.list_project_parents(parent_id)
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parent_ref = self.get_project(parent_id)
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parents_list.append(parent_ref)
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for ref in parents_list:
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if not ref.get('enabled', True):
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raise exception.ValidationError(
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message=_('cannot create a project in a '
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'branch containing a disabled '
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'project: %s') % ref['id'])
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self._assert_max_hierarchy_depth(project_ref.get('parent_id'),
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parents_list)
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def _raise_reserved_character_exception(self, entity_type, name):
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msg = _('%(entity)s name cannot contain the following reserved '
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'characters: %(chars)s')
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raise exception.ValidationError(
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message=msg % {
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'entity': entity_type,
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'chars': utils.list_url_unsafe_chars(name)
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})
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def _generate_project_name_conflict_msg(self, project):
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if project['is_domain']:
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return _('it is not permitted to have two projects '
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'acting as domains with the same name: %s'
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) % project['name']
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else:
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return _('it is not permitted to have two projects '
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'with the same name in the same domain : %s'
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) % project['name']
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def create_project(self, project_id, project, initiator=None):
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project = project.copy()
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if (CONF.resource.project_name_url_safe != 'off' and
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utils.is_not_url_safe(project['name'])):
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self._raise_reserved_character_exception('Project',
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project['name'])
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project.setdefault('enabled', True)
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project['name'] = project['name'].strip()
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project.setdefault('description', '')
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# For regular projects, the controller will ensure we have a valid
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# domain_id. For projects acting as a domain, the project_id
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# is, effectively, the domain_id - and for such projects we don't
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# bother to store a copy of it in the domain_id attribute.
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project.setdefault('domain_id', None)
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project.setdefault('parent_id', None)
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if not project['parent_id']:
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project['parent_id'] = project['domain_id']
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project.setdefault('is_domain', False)
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self._enforce_project_constraints(project)
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# We leave enforcing name uniqueness to the underlying driver (instead
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# of doing it in code in the project_constraints above), so as to allow
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# this check to be done at the storage level, avoiding race conditions
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# in multi-process keystone configurations.
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try:
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ret = self.driver.create_project(project_id, project)
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except exception.Conflict:
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raise exception.Conflict(
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type='project',
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details=self._generate_project_name_conflict_msg(project))
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if project.get('is_domain'):
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notifications.Audit.created(self._DOMAIN, project_id, initiator)
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else:
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notifications.Audit.created(self._PROJECT, project_id, initiator)
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if MEMOIZE.should_cache(ret):
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self.get_project.set(ret, self, project_id)
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self.get_project_by_name.set(ret, self, ret['name'],
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ret['domain_id'])
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return ret
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def assert_domain_enabled(self, domain_id, domain=None):
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"""Assert the Domain is enabled.
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:raise AssertionError: if domain is disabled.
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"""
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if domain is None:
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domain = self.get_domain(domain_id)
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if not domain.get('enabled', True):
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raise AssertionError(_('Domain is disabled: %s') % domain_id)
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def assert_domain_not_federated(self, domain_id, domain):
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"""Assert the Domain's name and id do not match the reserved keyword.
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Note that the reserved keyword is defined in the configuration file,
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by default, it is 'Federated', it is also case insensitive.
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If config's option is empty the default hardcoded value 'Federated'
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will be used.
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:raise AssertionError: if domain named match the value in the config.
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"""
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# NOTE(marek-denis): We cannot create this attribute in the __init__ as
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# config values are always initialized to default value.
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federated_domain = CONF.federation.federated_domain_name.lower()
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if (domain.get('name') and domain['name'].lower() == federated_domain):
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raise AssertionError(_('Domain cannot be named %s')
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% domain['name'])
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if (domain_id.lower() == federated_domain):
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raise AssertionError(_('Domain cannot have ID %s')
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% domain_id)
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def assert_project_enabled(self, project_id, project=None):
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"""Assert the project is enabled and its associated domain is enabled.
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:raise AssertionError: if the project or domain is disabled.
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"""
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if project is None:
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project = self.get_project(project_id)
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# If it's a regular project (i.e. it has a domain_id), we need to make
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# sure the domain itself is not disabled
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if project['domain_id']:
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self.assert_domain_enabled(domain_id=project['domain_id'])
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if not project.get('enabled', True):
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raise AssertionError(_('Project is disabled: %s') % project_id)
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def _assert_all_parents_are_enabled(self, project_id):
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parents_list = self.list_project_parents(project_id)
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for project in parents_list:
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if not project.get('enabled', True):
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raise exception.ForbiddenNotSecurity(
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_('Cannot enable project %s since it has disabled '
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'parents') % project_id)
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def _check_whole_subtree_is_disabled(self, project_id, subtree_list=None):
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if not subtree_list:
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subtree_list = self.list_projects_in_subtree(project_id)
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subtree_enabled = [ref.get('enabled', True) for ref in subtree_list]
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return (not any(subtree_enabled))
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def _update_project(self, project_id, project, initiator=None,
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cascade=False):
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# Use the driver directly to prevent using old cached value.
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original_project = self.driver.get_project(project_id)
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project = project.copy()
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self._require_matching_domain_id(project, original_project)
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if original_project['is_domain']:
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domain = self._get_domain_from_project(original_project)
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self.assert_domain_not_federated(project_id, domain)
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if 'enabled' in domain:
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domain['enabled'] = clean.domain_enabled(domain['enabled'])
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url_safe_option = CONF.resource.domain_name_url_safe
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exception_entity = 'Domain'
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else:
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url_safe_option = CONF.resource.project_name_url_safe
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exception_entity = 'Project'
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project_name_changed = ('name' in project and project['name'] !=
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original_project['name'])
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if (url_safe_option != 'off' and project_name_changed and
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utils.is_not_url_safe(project['name'])):
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self._raise_reserved_character_exception(exception_entity,
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project['name'])
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elif project_name_changed:
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project['name'] = clean.project_name(project['name'])
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parent_id = original_project.get('parent_id')
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if 'parent_id' in project and project.get('parent_id') != parent_id:
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raise exception.ForbiddenNotSecurity(
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_('Update of `parent_id` is not allowed.'))
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if ('is_domain' in project and
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project['is_domain'] != original_project['is_domain']):
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raise exception.ValidationError(
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message=_('Update of `is_domain` is not allowed.'))
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original_project_enabled = original_project.get('enabled', True)
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project_enabled = project.get('enabled', True)
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if not original_project_enabled and project_enabled:
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self._assert_all_parents_are_enabled(project_id)
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if original_project_enabled and not project_enabled:
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# NOTE(htruta): In order to disable a regular project, all its
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# children must already be disabled. However, to keep
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# compatibility with the existing domain behaviour, we allow a
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# project acting as a domain to be disabled irrespective of the
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# state of its children. Disabling a project acting as domain
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# effectively disables its children.
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if (not original_project.get('is_domain') and not cascade and not
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self._check_whole_subtree_is_disabled(project_id)):
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raise exception.ForbiddenNotSecurity(
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_('Cannot disable project %(project_id)s since its '
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'subtree contains enabled projects.')
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% {'project_id': project_id})
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notifications.Audit.disabled(self._PROJECT, project_id,
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public=False)
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if cascade:
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self._only_allow_enabled_to_update_cascade(project,
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original_project)
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self._update_project_enabled_cascade(project_id, project_enabled)
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try:
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project['is_domain'] = (project.get('is_domain') or
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original_project['is_domain'])
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ret = self.driver.update_project(project_id, project)
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except exception.Conflict:
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raise exception.Conflict(
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type='project',
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details=self._generate_project_name_conflict_msg(project))
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try:
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self.get_project.invalidate(self, project_id)
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self.get_project_by_name.invalidate(self, original_project['name'],
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original_project['domain_id'])
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if ('domain_id' in project and
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project['domain_id'] != original_project['domain_id']):
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# If the project's domain_id has been updated, invalidate user
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# role assignments cache region, as it may be caching inherited
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# assignments from the old domain to the specified project
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assignment.COMPUTED_ASSIGNMENTS_REGION.invalidate()
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finally:
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# attempt to send audit event even if the cache invalidation raises
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notifications.Audit.updated(self._PROJECT, project_id, initiator)
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if original_project['is_domain']:
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notifications.Audit.updated(self._DOMAIN, project_id,
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initiator)
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# If the domain is being disabled, issue the disable
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# notification as well
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if original_project_enabled and not project_enabled:
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# NOTE(lbragstad): When a domain is disabled, we have to
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# invalidate the entire token cache. With persistent
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# tokens, we did something similar where all tokens for a
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# specific domain were deleted when that domain was
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# disabled. This effectively offers the same behavior for
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# non-persistent tokens by removing them from the cache and
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# requiring the authorization context to be rebuilt the
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# next time they're validated.
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token_provider.TOKENS_REGION.invalidate()
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notifications.Audit.disabled(self._DOMAIN, project_id,
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public=False)
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return ret
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def _only_allow_enabled_to_update_cascade(self, project, original_project):
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for attr in project:
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if attr != 'enabled':
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if project.get(attr) != original_project.get(attr):
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raise exception.ValidationError(
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message=_('Cascade update is only allowed for '
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'enabled attribute.'))
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def _update_project_enabled_cascade(self, project_id, enabled):
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subtree = self.list_projects_in_subtree(project_id)
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# Update enabled only if different from original value
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subtree_to_update = [child for child in subtree
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if child['enabled'] != enabled]
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for child in subtree_to_update:
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child['enabled'] = enabled
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if not enabled:
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# Does not in fact disable the project, only emits a
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# notification that it was disabled. The actual disablement
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# is done in the next line.
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notifications.Audit.disabled(self._PROJECT, child['id'],
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public=False)
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self.driver.update_project(child['id'], child)
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def update_project(self, project_id, project, initiator=None,
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cascade=False):
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ret = self._update_project(project_id, project, initiator, cascade)
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if ret['is_domain']:
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self.get_domain.invalidate(self, project_id)
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self.get_domain_by_name.invalidate(self, ret['name'])
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return ret
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def _pre_delete_cleanup_project(self, project_id):
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project_user_ids = (
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self.assignment_api.list_user_ids_for_project(project_id))
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for user_id in project_user_ids:
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payload = {'user_id': user_id, 'project_id': project_id}
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notifications.Audit.internal(
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notifications.INVALIDATE_USER_PROJECT_TOKEN_PERSISTENCE,
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payload
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)
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def _post_delete_cleanup_project(self, project_id, project,
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initiator=None):
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try:
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self.get_project.invalidate(self, project_id)
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self.get_project_by_name.invalidate(self, project['name'],
|
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project['domain_id'])
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self.assignment_api.delete_project_assignments(project_id)
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# Invalidate user role assignments cache region, as it may
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# be caching role assignments where the target is
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# the specified project
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assignment.COMPUTED_ASSIGNMENTS_REGION.invalidate()
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self.credential_api.delete_credentials_for_project(project_id)
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self.trust_api.delete_trusts_for_project(project_id)
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finally:
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# attempt to send audit event even if the cache invalidation raises
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notifications.Audit.deleted(self._PROJECT, project_id, initiator)
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def delete_project(self, project_id, initiator=None, cascade=False):
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"""Delete one project or a subtree.
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:param cascade: If true, the specified project and all its
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sub-projects are deleted. Otherwise, only the specified
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project is deleted.
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:type cascade: boolean
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:raises keystone.exception.ValidationError: if project is a domain
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:raises keystone.exception.Forbidden: if project is not a leaf
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"""
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project = self.driver.get_project(project_id)
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if project.get('is_domain'):
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self.delete_domain(project_id, initiator)
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else:
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self._delete_project(project_id, initiator, cascade)
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def _delete_project(self, project_id, initiator=None, cascade=False):
|
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# Use the driver directly to prevent using old cached value.
|
|
project = self.driver.get_project(project_id)
|
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if project['is_domain'] and project['enabled']:
|
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raise exception.ValidationError(
|
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message=_('cannot delete an enabled project acting as a '
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'domain. Please disable the project %s first.')
|
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% project.get('id'))
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|
|
|
if not self.is_leaf_project(project_id) and not cascade:
|
|
raise exception.ForbiddenNotSecurity(
|
|
_('Cannot delete the project %s since it is not a leaf in the '
|
|
'hierarchy. Use the cascade option if you want to delete a '
|
|
'whole subtree.')
|
|
% project_id)
|
|
|
|
if cascade:
|
|
# Getting reversed project's subtrees list, i.e. from the leaves
|
|
# to the root, so we do not break parent_id FK.
|
|
subtree_list = self.list_projects_in_subtree(project_id)
|
|
subtree_list.reverse()
|
|
if not self._check_whole_subtree_is_disabled(
|
|
project_id, subtree_list=subtree_list):
|
|
raise exception.ForbiddenNotSecurity(
|
|
_('Cannot delete project %(project_id)s since its subtree '
|
|
'contains enabled projects.')
|
|
% {'project_id': project_id})
|
|
|
|
project_list = subtree_list + [project]
|
|
projects_ids = [x['id'] for x in project_list]
|
|
|
|
for prj in project_list:
|
|
self._pre_delete_cleanup_project(prj['id'])
|
|
ret = self.driver.delete_projects_from_ids(projects_ids)
|
|
for prj in project_list:
|
|
self._post_delete_cleanup_project(prj['id'], prj, initiator)
|
|
else:
|
|
self._pre_delete_cleanup_project(project_id)
|
|
ret = self.driver.delete_project(project_id)
|
|
self._post_delete_cleanup_project(project_id, project, initiator)
|
|
|
|
return ret
|
|
|
|
def _filter_projects_list(self, projects_list, user_id):
|
|
user_projects = self.assignment_api.list_projects_for_user(user_id)
|
|
user_projects_ids = set([proj['id'] for proj in user_projects])
|
|
# Keep only the projects present in user_projects
|
|
return [proj for proj in projects_list
|
|
if proj['id'] in user_projects_ids]
|
|
|
|
def _assert_valid_project_id(self, project_id):
|
|
if project_id is None:
|
|
msg = _('Project field is required and cannot be empty.')
|
|
raise exception.ValidationError(message=msg)
|
|
# Check if project_id exists
|
|
self.get_project(project_id)
|
|
|
|
def list_project_parents(self, project_id, user_id=None):
|
|
self._assert_valid_project_id(project_id)
|
|
parents = self.driver.list_project_parents(project_id)
|
|
# If a user_id was provided, the returned list should be filtered
|
|
# against the projects this user has access to.
|
|
if user_id:
|
|
parents = self._filter_projects_list(parents, user_id)
|
|
return parents
|
|
|
|
def _build_parents_as_ids_dict(self, project, parents_by_id):
|
|
# NOTE(rodrigods): we don't rely in the order of the projects returned
|
|
# by the list_project_parents() method. Thus, we create a project cache
|
|
# (parents_by_id) in order to access each parent in constant time and
|
|
# traverse up the hierarchy.
|
|
def traverse_parents_hierarchy(project):
|
|
parent_id = project.get('parent_id')
|
|
if not parent_id:
|
|
return None
|
|
|
|
parent = parents_by_id[parent_id]
|
|
return {parent_id: traverse_parents_hierarchy(parent)}
|
|
|
|
return traverse_parents_hierarchy(project)
|
|
|
|
def get_project_parents_as_ids(self, project):
|
|
"""Get the IDs from the parents from a given project.
|
|
|
|
The project IDs are returned as a structured dictionary traversing up
|
|
the hierarchy to the top level project. For example, considering the
|
|
following project hierarchy::
|
|
|
|
A
|
|
|
|
|
+-B-+
|
|
| |
|
|
C D
|
|
|
|
If we query for project C parents, the expected return is the following
|
|
dictionary::
|
|
|
|
'parents': {
|
|
B['id']: {
|
|
A['id']: None
|
|
}
|
|
}
|
|
|
|
"""
|
|
parents_list = self.list_project_parents(project['id'])
|
|
parents_as_ids = self._build_parents_as_ids_dict(
|
|
project, {proj['id']: proj for proj in parents_list})
|
|
return parents_as_ids
|
|
|
|
def list_projects_in_subtree(self, project_id, user_id=None):
|
|
self._assert_valid_project_id(project_id)
|
|
subtree = self.driver.list_projects_in_subtree(project_id)
|
|
# If a user_id was provided, the returned list should be filtered
|
|
# against the projects this user has access to.
|
|
if user_id:
|
|
subtree = self._filter_projects_list(subtree, user_id)
|
|
return subtree
|
|
|
|
def _build_subtree_as_ids_dict(self, project_id, subtree_by_parent):
|
|
# NOTE(rodrigods): we perform a depth first search to construct the
|
|
# dictionaries representing each level of the subtree hierarchy. In
|
|
# order to improve this traversal performance, we create a cache of
|
|
# projects (subtree_py_parent) that accesses in constant time the
|
|
# direct children of a given project.
|
|
def traverse_subtree_hierarchy(project_id):
|
|
children = subtree_by_parent.get(project_id)
|
|
if not children:
|
|
return None
|
|
|
|
children_ids = {}
|
|
for child in children:
|
|
children_ids[child['id']] = traverse_subtree_hierarchy(
|
|
child['id'])
|
|
return children_ids
|
|
|
|
return traverse_subtree_hierarchy(project_id)
|
|
|
|
def get_projects_in_subtree_as_ids(self, project_id):
|
|
"""Get the IDs from the projects in the subtree from a given project.
|
|
|
|
The project IDs are returned as a structured dictionary representing
|
|
their hierarchy. For example, considering the following project
|
|
hierarchy::
|
|
|
|
A
|
|
|
|
|
+-B-+
|
|
| |
|
|
C D
|
|
|
|
If we query for project A subtree, the expected return is the following
|
|
dictionary::
|
|
|
|
'subtree': {
|
|
B['id']: {
|
|
C['id']: None,
|
|
D['id']: None
|
|
}
|
|
}
|
|
|
|
"""
|
|
def _projects_indexed_by_parent(projects_list):
|
|
projects_by_parent = {}
|
|
for proj in projects_list:
|
|
parent_id = proj.get('parent_id')
|
|
if parent_id:
|
|
if parent_id in projects_by_parent:
|
|
projects_by_parent[parent_id].append(proj)
|
|
else:
|
|
projects_by_parent[parent_id] = [proj]
|
|
return projects_by_parent
|
|
|
|
subtree_list = self.list_projects_in_subtree(project_id)
|
|
subtree_as_ids = self._build_subtree_as_ids_dict(
|
|
project_id, _projects_indexed_by_parent(subtree_list))
|
|
return subtree_as_ids
|
|
|
|
def list_domains_from_ids(self, domain_ids):
|
|
"""List domains for the provided list of ids.
|
|
|
|
:param domain_ids: list of ids
|
|
|
|
:returns: a list of domain_refs.
|
|
|
|
This method is used internally by the assignment manager to bulk read
|
|
a set of domains given their ids.
|
|
|
|
"""
|
|
# Retrieve the projects acting as domains get their correspondent
|
|
# domains
|
|
projects = self.list_projects_from_ids(domain_ids)
|
|
domains = [self._get_domain_from_project(project)
|
|
for project in projects]
|
|
|
|
return domains
|
|
|
|
@MEMOIZE
|
|
def get_domain(self, domain_id):
|
|
try:
|
|
# Retrieve the corresponding project that acts as a domain
|
|
project = self.driver.get_project(domain_id)
|
|
# the DB backend might not operate in case sensitive mode,
|
|
# therefore verify for exact match of IDs
|
|
if domain_id != project['id']:
|
|
raise exception.DomainNotFound(domain_id=domain_id)
|
|
except exception.ProjectNotFound:
|
|
raise exception.DomainNotFound(domain_id=domain_id)
|
|
|
|
# Return its correspondent domain
|
|
return self._get_domain_from_project(project)
|
|
|
|
@MEMOIZE
|
|
def get_domain_by_name(self, domain_name):
|
|
try:
|
|
# Retrieve the corresponding project that acts as a domain
|
|
project = self.driver.get_project_by_name(domain_name,
|
|
domain_id=None)
|
|
except exception.ProjectNotFound:
|
|
raise exception.DomainNotFound(domain_id=domain_name)
|
|
|
|
# Return its correspondent domain
|
|
return self._get_domain_from_project(project)
|
|
|
|
def _get_domain_from_project(self, project_ref):
|
|
"""Create a domain ref from a project ref.
|
|
|
|
Based on the provided project ref, create a domain ref, so that the
|
|
result can be returned in response to a domain API call.
|
|
"""
|
|
if not project_ref['is_domain']:
|
|
LOG.error(_LE('Asked to convert a non-domain project into a '
|
|
'domain - Domain: %(domain_id)s, Project ID: '
|
|
'%(id)s, Project Name: %(project_name)s'),
|
|
{'domain_id': project_ref['domain_id'],
|
|
'id': project_ref['id'],
|
|
'project_name': project_ref['name']})
|
|
raise exception.DomainNotFound(domain_id=project_ref['id'])
|
|
|
|
domain_ref = project_ref.copy()
|
|
# As well as the project specific attributes that we need to remove,
|
|
# there is an old compatibility issue in that update project (as well
|
|
# as extracting an extra attributes), also includes a copy of the
|
|
# actual extra dict as well - something that update domain does not do.
|
|
for k in ['parent_id', 'domain_id', 'is_domain', 'extra']:
|
|
domain_ref.pop(k, None)
|
|
|
|
return domain_ref
|
|
|
|
def create_domain(self, domain_id, domain, initiator=None):
|
|
if (CONF.resource.domain_name_url_safe != 'off' and
|
|
utils.is_not_url_safe(domain['name'])):
|
|
self._raise_reserved_character_exception('Domain', domain['name'])
|
|
project_from_domain = base.get_project_from_domain(domain)
|
|
is_domain_project = self.create_project(
|
|
domain_id, project_from_domain, initiator)
|
|
|
|
return self._get_domain_from_project(is_domain_project)
|
|
|
|
@manager.response_truncated
|
|
def list_domains(self, hints=None):
|
|
projects = self.list_projects_acting_as_domain(hints)
|
|
domains = [self._get_domain_from_project(project)
|
|
for project in projects]
|
|
return domains
|
|
|
|
def update_domain(self, domain_id, domain, initiator=None):
|
|
# TODO(henry-nash): We shouldn't have to check for the federated domain
|
|
# here as well as _update_project, but currently our tests assume the
|
|
# checks are done in a specific order. The tests should be refactored.
|
|
self.assert_domain_not_federated(domain_id, domain)
|
|
project = base.get_project_from_domain(domain)
|
|
try:
|
|
original_domain = self.driver.get_project(domain_id)
|
|
project = self._update_project(domain_id, project, initiator)
|
|
except exception.ProjectNotFound:
|
|
raise exception.DomainNotFound(domain_id=domain_id)
|
|
|
|
domain_from_project = self._get_domain_from_project(project)
|
|
self.get_domain.invalidate(self, domain_id)
|
|
self.get_domain_by_name.invalidate(self, original_domain['name'])
|
|
|
|
return domain_from_project
|
|
|
|
def delete_domain(self, domain_id, initiator=None):
|
|
# Use the driver directly to get the project that acts as a domain and
|
|
# prevent using old cached value.
|
|
try:
|
|
domain = self.driver.get_project(domain_id)
|
|
except exception.ProjectNotFound:
|
|
raise exception.DomainNotFound(domain_id=domain_id)
|
|
|
|
# To help avoid inadvertent deletes, we insist that the domain
|
|
# has been previously disabled. This also prevents a user deleting
|
|
# their own domain since, once it is disabled, they won't be able
|
|
# to get a valid token to issue this delete.
|
|
if domain['enabled']:
|
|
raise exception.ForbiddenNotSecurity(
|
|
_('Cannot delete a domain that is enabled, please disable it '
|
|
'first.'))
|
|
|
|
self._delete_domain_contents(domain_id)
|
|
notifications.Audit.internal(
|
|
notifications.DOMAIN_DELETED, domain_id
|
|
)
|
|
self._delete_project(domain_id, initiator)
|
|
try:
|
|
self.get_domain.invalidate(self, domain_id)
|
|
self.get_domain_by_name.invalidate(self, domain['name'])
|
|
# Delete any database stored domain config
|
|
self.domain_config_api.delete_config_options(domain_id)
|
|
self.domain_config_api.release_registration(domain_id)
|
|
finally:
|
|
# attempt to send audit event even if the cache invalidation raises
|
|
notifications.Audit.deleted(self._DOMAIN, domain_id, initiator)
|
|
|
|
def _delete_domain_contents(self, domain_id):
|
|
"""Delete the contents of a domain.
|
|
|
|
Before we delete a domain, we need to remove all the entities
|
|
that are owned by it, i.e. Projects. To do this we
|
|
call the delete function for these entities, which are
|
|
themselves responsible for deleting any credentials and role grants
|
|
associated with them as well as revoking any relevant tokens.
|
|
|
|
"""
|
|
def _delete_projects(project, projects, examined):
|
|
if project['id'] in examined:
|
|
msg = _LE('Circular reference or a repeated entry found '
|
|
'projects hierarchy - %(project_id)s.')
|
|
LOG.error(msg, {'project_id': project['id']})
|
|
return
|
|
|
|
examined.add(project['id'])
|
|
children = [proj for proj in projects
|
|
if proj.get('parent_id') == project['id']]
|
|
for proj in children:
|
|
_delete_projects(proj, projects, examined)
|
|
|
|
try:
|
|
self.delete_project(project['id'], initiator=None)
|
|
except exception.ProjectNotFound:
|
|
LOG.debug(('Project %(projectid)s not found when '
|
|
'deleting domain contents for %(domainid)s, '
|
|
'continuing with cleanup.'),
|
|
{'projectid': project['id'],
|
|
'domainid': domain_id})
|
|
|
|
proj_refs = self.list_projects_in_domain(domain_id)
|
|
|
|
# Deleting projects recursively
|
|
roots = [x for x in proj_refs if x.get('parent_id') == domain_id]
|
|
examined = set()
|
|
for project in roots:
|
|
_delete_projects(project, proj_refs, examined)
|
|
|
|
@manager.response_truncated
|
|
def list_projects(self, hints=None):
|
|
return self.driver.list_projects(hints or driver_hints.Hints())
|
|
|
|
# NOTE(henry-nash): list_projects_in_domain is actually an internal method
|
|
# and not exposed via the API. Therefore there is no need to support
|
|
# driver hints for it.
|
|
def list_projects_in_domain(self, domain_id):
|
|
return self.driver.list_projects_in_domain(domain_id)
|
|
|
|
def list_projects_acting_as_domain(self, hints=None):
|
|
return self.driver.list_projects_acting_as_domain(
|
|
hints or driver_hints.Hints())
|
|
|
|
@MEMOIZE
|
|
def get_project(self, project_id):
|
|
return self.driver.get_project(project_id)
|
|
|
|
@MEMOIZE
|
|
def get_project_by_name(self, project_name, domain_id):
|
|
return self.driver.get_project_by_name(project_name, domain_id)
|
|
|
|
def ensure_default_domain_exists(self):
|
|
"""Create the default domain if it doesn't exist.
|
|
|
|
This is only used for the v2 API and can go away when V2 does.
|
|
|
|
"""
|
|
try:
|
|
default_domain_attrs = {
|
|
'name': 'Default',
|
|
'id': CONF.identity.default_domain_id,
|
|
'description': 'Domain created automatically to support V2.0 '
|
|
'operations.',
|
|
}
|
|
self.create_domain(CONF.identity.default_domain_id,
|
|
default_domain_attrs)
|
|
LOG.warning(_LW(
|
|
'The default domain was created automatically to contain V2 '
|
|
'resources. This is deprecated in the M release and will not '
|
|
'be supported in the O release. Create the default domain '
|
|
'manually or use the keystone-manage bootstrap command.'))
|
|
except exception.Conflict:
|
|
LOG.debug('The default domain already exists.')
|
|
except Exception:
|
|
LOG.error(_LE('Failed to create the default domain.'))
|
|
raise
|
|
|
|
def _require_matching_domain_id(self, new_ref, orig_ref):
|
|
"""Ensure the current domain ID matches the reference one, if any.
|
|
|
|
Provided we want domain IDs to be immutable, check whether any
|
|
domain_id specified in the ref dictionary matches the existing
|
|
domain_id for this entity.
|
|
|
|
:param new_ref: the dictionary of new values proposed for this entity
|
|
:param orig_ref: the dictionary of original values proposed for this
|
|
entity
|
|
:raises: :class:`keystone.exception.ValidationError`
|
|
"""
|
|
if 'domain_id' in new_ref:
|
|
if new_ref['domain_id'] != orig_ref['domain_id']:
|
|
raise exception.ValidationError(_('Cannot change Domain ID'))
|
|
|
|
|
|
MEMOIZE_CONFIG = cache.get_memoization_decorator(group='domain_config')
|
|
|
|
|
|
@dependency.provider('domain_config_api')
|
|
class DomainConfigManager(manager.Manager):
|
|
"""Default pivot point for the Domain Config backend."""
|
|
|
|
# NOTE(henry-nash): In order for a config option to be stored in the
|
|
# standard table, it must be explicitly whitelisted. Options marked as
|
|
# sensitive are stored in a separate table. Attempting to store options
|
|
# that are not listed as either whitelisted or sensitive will raise an
|
|
# exception.
|
|
#
|
|
# Only those options that affect the domain-specific driver support in
|
|
# the identity manager are supported.
|
|
|
|
driver_namespace = 'keystone.resource.domain_config'
|
|
|
|
whitelisted_options = {
|
|
'identity': ['driver', 'list_limit'],
|
|
'ldap': [
|
|
'url', 'user', 'suffix', 'query_scope', 'page_size',
|
|
'alias_dereferencing', 'debug_level', 'chase_referrals',
|
|
'user_tree_dn', 'user_filter', 'user_objectclass',
|
|
'user_id_attribute', 'user_name_attribute', 'user_mail_attribute',
|
|
'user_description_attribute', 'user_pass_attribute',
|
|
'user_enabled_attribute', 'user_enabled_invert',
|
|
'user_enabled_mask', 'user_enabled_default',
|
|
'user_attribute_ignore', 'user_default_project_id_attribute',
|
|
'user_enabled_emulation', 'user_enabled_emulation_dn',
|
|
'user_enabled_emulation_use_group_config',
|
|
'user_additional_attribute_mapping', 'group_tree_dn',
|
|
'group_filter', 'group_objectclass', 'group_id_attribute',
|
|
'group_name_attribute', 'group_member_attribute',
|
|
'group_desc_attribute', 'group_attribute_ignore',
|
|
'group_additional_attribute_mapping', 'tls_cacertfile',
|
|
'tls_cacertdir', 'use_tls', 'tls_req_cert', 'use_pool',
|
|
'pool_size', 'pool_retry_max', 'pool_retry_delay',
|
|
'pool_connection_timeout', 'pool_connection_lifetime',
|
|
'use_auth_pool', 'auth_pool_size', 'auth_pool_connection_lifetime'
|
|
]
|
|
}
|
|
sensitive_options = {
|
|
'identity': [],
|
|
'ldap': ['password']
|
|
}
|
|
|
|
def __init__(self):
|
|
super(DomainConfigManager, self).__init__(CONF.domain_config.driver)
|
|
|
|
def _assert_valid_config(self, config):
|
|
"""Ensure the options in the config are valid.
|
|
|
|
This method is called to validate the request config in create and
|
|
update manager calls.
|
|
|
|
:param config: config structure being created or updated
|
|
|
|
"""
|
|
# Something must be defined in the request
|
|
if not config:
|
|
raise exception.InvalidDomainConfig(
|
|
reason=_('No options specified'))
|
|
|
|
# Make sure the groups/options defined in config itself are valid
|
|
for group in config:
|
|
if (not config[group] or not
|
|
isinstance(config[group], dict)):
|
|
msg = _('The value of group %(group)s specified in the '
|
|
'config should be a dictionary of options') % {
|
|
'group': group}
|
|
raise exception.InvalidDomainConfig(reason=msg)
|
|
for option in config[group]:
|
|
self._assert_valid_group_and_option(group, option)
|
|
|
|
def _assert_valid_group_and_option(self, group, option):
|
|
"""Ensure the combination of group and option is valid.
|
|
|
|
:param group: optional group name, if specified it must be one
|
|
we support
|
|
:param option: optional option name, if specified it must be one
|
|
we support and a group must also be specified
|
|
|
|
"""
|
|
if not group and not option:
|
|
# For all calls, it's OK for neither to be defined, it means you
|
|
# are operating on all config options for that domain.
|
|
return
|
|
|
|
if not group and option:
|
|
# Our API structure should prevent this from ever happening, so if
|
|
# it does, then this is coding error.
|
|
msg = _('Option %(option)s found with no group specified while '
|
|
'checking domain configuration request') % {
|
|
'option': option}
|
|
raise exception.UnexpectedError(exception=msg)
|
|
|
|
if (group and group not in self.whitelisted_options and
|
|
group not in self.sensitive_options):
|
|
msg = _('Group %(group)s is not supported '
|
|
'for domain specific configurations') % {'group': group}
|
|
raise exception.InvalidDomainConfig(reason=msg)
|
|
|
|
if option:
|
|
if (option not in self.whitelisted_options[group] and option not in
|
|
self.sensitive_options[group]):
|
|
msg = _('Option %(option)s in group %(group)s is not '
|
|
'supported for domain specific configurations') % {
|
|
'group': group, 'option': option}
|
|
raise exception.InvalidDomainConfig(reason=msg)
|
|
|
|
def _is_sensitive(self, group, option):
|
|
return option in self.sensitive_options[group]
|
|
|
|
def _config_to_list(self, config):
|
|
"""Build list of options for use by backend drivers."""
|
|
option_list = []
|
|
for group in config:
|
|
for option in config[group]:
|
|
option_list.append({
|
|
'group': group, 'option': option,
|
|
'value': config[group][option],
|
|
'sensitive': self._is_sensitive(group, option)})
|
|
|
|
return option_list
|
|
|
|
def _option_dict(self, group, option):
|
|
group_attr = getattr(CONF, group)
|
|
return {'group': group, 'option': option,
|
|
'value': getattr(group_attr, option)}
|
|
|
|
def _list_to_config(self, whitelisted, sensitive=None, req_option=None):
|
|
"""Build config dict from a list of option dicts.
|
|
|
|
:param whitelisted: list of dicts containing options and their groups,
|
|
this has already been filtered to only contain
|
|
those options to include in the output.
|
|
:param sensitive: list of dicts containing sensitive options and their
|
|
groups, this has already been filtered to only
|
|
contain those options to include in the output.
|
|
:param req_option: the individual option requested
|
|
|
|
:returns: a config dict, including sensitive if specified
|
|
|
|
"""
|
|
the_list = whitelisted + (sensitive or [])
|
|
if not the_list:
|
|
return {}
|
|
|
|
if req_option:
|
|
# The request was specific to an individual option, so
|
|
# no need to include the group in the output. We first check that
|
|
# there is only one option in the answer (and that it's the right
|
|
# one) - if not, something has gone wrong and we raise an error
|
|
if len(the_list) > 1 or the_list[0]['option'] != req_option:
|
|
LOG.error(_LE('Unexpected results in response for domain '
|
|
'config - %(count)s responses, first option is '
|
|
'%(option)s, expected option %(expected)s'),
|
|
{'count': len(the_list), 'option': list[0]['option'],
|
|
'expected': req_option})
|
|
raise exception.UnexpectedError(
|
|
_('An unexpected error occurred when retrieving domain '
|
|
'configs'))
|
|
return {the_list[0]['option']: the_list[0]['value']}
|
|
|
|
config = {}
|
|
for option in the_list:
|
|
config.setdefault(option['group'], {})
|
|
config[option['group']][option['option']] = option['value']
|
|
|
|
return config
|
|
|
|
def create_config(self, domain_id, config):
|
|
"""Create config for a domain.
|
|
|
|
:param domain_id: the domain in question
|
|
:param config: the dict of config groups/options to assign to the
|
|
domain
|
|
|
|
Creates a new config, overwriting any previous config (no Conflict
|
|
error will be generated).
|
|
|
|
:returns: a dict of group dicts containing the options, with any that
|
|
are sensitive removed
|
|
:raises keystone.exception.InvalidDomainConfig: when the config
|
|
contains options we do not support
|
|
|
|
"""
|
|
self._assert_valid_config(config)
|
|
option_list = self._config_to_list(config)
|
|
self.create_config_options(domain_id, option_list)
|
|
# Since we are caching on the full substituted config, we just
|
|
# invalidate here, rather than try and create the right result to
|
|
# cache.
|
|
self.get_config_with_sensitive_info.invalidate(self, domain_id)
|
|
return self._list_to_config(self.list_config_options(domain_id))
|
|
|
|
def get_config(self, domain_id, group=None, option=None):
|
|
"""Get config, or partial config, for a domain.
|
|
|
|
:param domain_id: the domain in question
|
|
:param group: an optional specific group of options
|
|
:param option: an optional specific option within the group
|
|
|
|
:returns: a dict of group dicts containing the whitelisted options,
|
|
filtered by group and option specified
|
|
:raises keystone.exception.DomainConfigNotFound: when no config found
|
|
that matches domain_id, group and option specified
|
|
:raises keystone.exception.InvalidDomainConfig: when the config
|
|
and group/option parameters specify an option we do not
|
|
support
|
|
|
|
An example response::
|
|
|
|
{
|
|
'ldap': {
|
|
'url': 'myurl'
|
|
'user_tree_dn': 'OU=myou'},
|
|
'identity': {
|
|
'driver': 'ldap'}
|
|
|
|
}
|
|
|
|
"""
|
|
self._assert_valid_group_and_option(group, option)
|
|
whitelisted = self.list_config_options(domain_id, group, option)
|
|
if whitelisted:
|
|
return self._list_to_config(whitelisted, req_option=option)
|
|
|
|
if option:
|
|
msg = _('option %(option)s in group %(group)s') % {
|
|
'group': group, 'option': option}
|
|
elif group:
|
|
msg = _('group %(group)s') % {'group': group}
|
|
else:
|
|
msg = _('any options')
|
|
raise exception.DomainConfigNotFound(
|
|
domain_id=domain_id, group_or_option=msg)
|
|
|
|
def get_security_compliance_config(self, domain_id, group, option=None):
|
|
r"""Get full or partial security compliance config from configuration.
|
|
|
|
:param domain_id: the domain in question
|
|
:param group: a specific group of options
|
|
:param option: an optional specific option within the group
|
|
|
|
:returns: a dict of group dicts containing the whitelisted options,
|
|
filtered by group and option specified
|
|
:raises keystone.exception.InvalidDomainConfig: when the config
|
|
and group/option parameters specify an option we do not
|
|
support
|
|
|
|
An example response::
|
|
|
|
{
|
|
'security_compliance': {
|
|
'password_regex': '^(?=.*\d)(?=.*[a-zA-Z]).{7,}$'
|
|
'password_regex_description':
|
|
'A password must consist of at least 1 letter, '
|
|
'1 digit, and have a minimum length of 7 characters'
|
|
}
|
|
}
|
|
|
|
"""
|
|
if domain_id != CONF.identity.default_domain_id:
|
|
msg = _('Reading security compliance information for any domain '
|
|
'other than the default domain is not allowed or '
|
|
'supported.')
|
|
raise exception.InvalidDomainConfig(reason=msg)
|
|
|
|
config_list = []
|
|
readable_options = ['password_regex', 'password_regex_description']
|
|
if option and option not in readable_options:
|
|
msg = _('Reading security compliance values other than '
|
|
'password_regex and password_regex_description is not '
|
|
'allowed.')
|
|
raise exception.InvalidDomainConfig(reason=msg)
|
|
elif option and option in readable_options:
|
|
config_list.append(self._option_dict(group, option))
|
|
elif not option:
|
|
for op in readable_options:
|
|
config_list.append(self._option_dict(group, op))
|
|
# We already validated that the group is the security_compliance group
|
|
# so we can move along and start validating the options
|
|
return self._list_to_config(config_list, req_option=option)
|
|
|
|
def update_config(self, domain_id, config, group=None, option=None):
|
|
"""Update config, or partial config, for a domain.
|
|
|
|
:param domain_id: the domain in question
|
|
:param config: the config dict containing and groups/options being
|
|
updated
|
|
:param group: an optional specific group of options, which if specified
|
|
must appear in config, with no other groups
|
|
:param option: an optional specific option within the group, which if
|
|
specified must appear in config, with no other options
|
|
|
|
The contents of the supplied config will be merged with the existing
|
|
config for this domain, updating or creating new options if these did
|
|
not previously exist. If group or option is specified, then the update
|
|
will be limited to those specified items and the inclusion of other
|
|
options in the supplied config will raise an exception, as will the
|
|
situation when those options do not already exist in the current
|
|
config.
|
|
|
|
:returns: a dict of groups containing all whitelisted options
|
|
:raises keystone.exception.InvalidDomainConfig: when the config
|
|
and group/option parameters specify an option we do not
|
|
support or one that does not exist in the original config
|
|
|
|
"""
|
|
def _assert_valid_update(domain_id, config, group=None, option=None):
|
|
"""Ensure the combination of config, group and option is valid."""
|
|
self._assert_valid_config(config)
|
|
self._assert_valid_group_and_option(group, option)
|
|
|
|
# If a group has been specified, then the request is to
|
|
# explicitly only update the options in that group - so the config
|
|
# must not contain anything else. Further, that group must exist in
|
|
# the original config. Likewise, if an option has been specified,
|
|
# then the group in the config must only contain that option and it
|
|
# also must exist in the original config.
|
|
if group:
|
|
if len(config) != 1 or (option and len(config[group]) != 1):
|
|
if option:
|
|
msg = _('Trying to update option %(option)s in group '
|
|
'%(group)s, so that, and only that, option '
|
|
'must be specified in the config') % {
|
|
'group': group, 'option': option}
|
|
else:
|
|
msg = _('Trying to update group %(group)s, so that, '
|
|
'and only that, group must be specified in '
|
|
'the config') % {'group': group}
|
|
raise exception.InvalidDomainConfig(reason=msg)
|
|
|
|
# So we now know we have the right number of entries in the
|
|
# config that align with a group/option being specified, but we
|
|
# must also make sure they match.
|
|
if group not in config:
|
|
msg = _('request to update group %(group)s, but config '
|
|
'provided contains group %(group_other)s '
|
|
'instead') % {
|
|
'group': group,
|
|
'group_other': list(config.keys())[0]}
|
|
raise exception.InvalidDomainConfig(reason=msg)
|
|
if option and option not in config[group]:
|
|
msg = _('Trying to update option %(option)s in group '
|
|
'%(group)s, but config provided contains option '
|
|
'%(option_other)s instead') % {
|
|
'group': group, 'option': option,
|
|
'option_other': list(config[group].keys())[0]}
|
|
raise exception.InvalidDomainConfig(reason=msg)
|
|
|
|
# Finally, we need to check if the group/option specified
|
|
# already exists in the original config - since if not, to keep
|
|
# with the semantics of an update, we need to fail with
|
|
# a DomainConfigNotFound
|
|
if not self._get_config_with_sensitive_info(domain_id,
|
|
group, option):
|
|
if option:
|
|
msg = _('option %(option)s in group %(group)s') % {
|
|
'group': group, 'option': option}
|
|
raise exception.DomainConfigNotFound(
|
|
domain_id=domain_id, group_or_option=msg)
|
|
else:
|
|
msg = _('group %(group)s') % {'group': group}
|
|
raise exception.DomainConfigNotFound(
|
|
domain_id=domain_id, group_or_option=msg)
|
|
|
|
update_config = config
|
|
if group and option:
|
|
# The config will just be a dict containing the option and
|
|
# its value, so make it look like a single option under the
|
|
# group in question
|
|
update_config = {group: config}
|
|
|
|
_assert_valid_update(domain_id, update_config, group, option)
|
|
|
|
option_list = self._config_to_list(update_config)
|
|
self.update_config_options(domain_id, option_list)
|
|
|
|
self.get_config_with_sensitive_info.invalidate(self, domain_id)
|
|
return self.get_config(domain_id)
|
|
|
|
def delete_config(self, domain_id, group=None, option=None):
|
|
"""Delete config, or partial config, for the domain.
|
|
|
|
:param domain_id: the domain in question
|
|
:param group: an optional specific group of options
|
|
:param option: an optional specific option within the group
|
|
|
|
If group and option are None, then the entire config for the domain
|
|
is deleted. If group is not None, then just that group of options will
|
|
be deleted. If group and option are both specified, then just that
|
|
option is deleted.
|
|
|
|
:raises keystone.exception.InvalidDomainConfig: when group/option
|
|
parameters specify an option we do not support or one that
|
|
does not exist in the original config.
|
|
|
|
"""
|
|
self._assert_valid_group_and_option(group, option)
|
|
if group:
|
|
# As this is a partial delete, then make sure the items requested
|
|
# are valid and exist in the current config
|
|
current_config = self._get_config_with_sensitive_info(domain_id)
|
|
# Raise an exception if the group/options specified don't exist in
|
|
# the current config so that the delete method provides the
|
|
# correct error semantics.
|
|
current_group = current_config.get(group)
|
|
if not current_group:
|
|
msg = _('group %(group)s') % {'group': group}
|
|
raise exception.DomainConfigNotFound(
|
|
domain_id=domain_id, group_or_option=msg)
|
|
if option and not current_group.get(option):
|
|
msg = _('option %(option)s in group %(group)s') % {
|
|
'group': group, 'option': option}
|
|
raise exception.DomainConfigNotFound(
|
|
domain_id=domain_id, group_or_option=msg)
|
|
|
|
self.delete_config_options(domain_id, group, option)
|
|
self.get_config_with_sensitive_info.invalidate(self, domain_id)
|
|
|
|
def _get_config_with_sensitive_info(self, domain_id, group=None,
|
|
option=None):
|
|
"""Get config for a domain/group/option with sensitive info included.
|
|
|
|
This is only used by the methods within this class, which may need to
|
|
check individual groups or options.
|
|
|
|
"""
|
|
whitelisted = self.list_config_options(domain_id, group, option)
|
|
sensitive = self.list_config_options(domain_id, group, option,
|
|
sensitive=True)
|
|
|
|
# Check if there are any sensitive substitutions needed. We first try
|
|
# and simply ensure any sensitive options that have valid substitution
|
|
# references in the whitelisted options are substituted. We then check
|
|
# the resulting whitelisted option and raise a warning if there
|
|
# appears to be an unmatched or incorrectly constructed substitution
|
|
# reference. To avoid the risk of logging any sensitive options that
|
|
# have already been substituted, we first take a copy of the
|
|
# whitelisted option.
|
|
|
|
# Build a dict of the sensitive options ready to try substitution
|
|
sensitive_dict = {s['option']: s['value'] for s in sensitive}
|
|
|
|
for each_whitelisted in whitelisted:
|
|
if not isinstance(each_whitelisted['value'], six.string_types):
|
|
# We only support substitutions into string types, if its an
|
|
# integer, list etc. then just continue onto the next one
|
|
continue
|
|
|
|
# Store away the original value in case we need to raise a warning
|
|
# after substitution.
|
|
original_value = each_whitelisted['value']
|
|
warning_msg = ''
|
|
try:
|
|
each_whitelisted['value'] = (
|
|
each_whitelisted['value'] % sensitive_dict)
|
|
except KeyError:
|
|
warning_msg = _LW(
|
|
'Found what looks like an unmatched config option '
|
|
'substitution reference - domain: %(domain)s, group: '
|
|
'%(group)s, option: %(option)s, value: %(value)s. Perhaps '
|
|
'the config option to which it refers has yet to be '
|
|
'added?')
|
|
except (ValueError, TypeError):
|
|
warning_msg = _LW(
|
|
'Found what looks like an incorrectly constructed '
|
|
'config option substitution reference - domain: '
|
|
'%(domain)s, group: %(group)s, option: %(option)s, '
|
|
'value: %(value)s.')
|
|
|
|
if warning_msg:
|
|
LOG.warning(warning_msg % {
|
|
'domain': domain_id,
|
|
'group': each_whitelisted['group'],
|
|
'option': each_whitelisted['option'],
|
|
'value': original_value})
|
|
|
|
return self._list_to_config(whitelisted, sensitive)
|
|
|
|
@MEMOIZE_CONFIG
|
|
def get_config_with_sensitive_info(self, domain_id):
|
|
"""Get config for a domain with sensitive info included.
|
|
|
|
This method is not exposed via the public API, but is used by the
|
|
identity manager to initialize a domain with the fully formed config
|
|
options.
|
|
|
|
"""
|
|
return self._get_config_with_sensitive_info(domain_id)
|
|
|
|
def get_config_default(self, group=None, option=None):
|
|
"""Get default config, or partial default config.
|
|
|
|
:param group: an optional specific group of options
|
|
:param option: an optional specific option within the group
|
|
|
|
:returns: a dict of group dicts containing the default options,
|
|
filtered by group and option if specified
|
|
:raises keystone.exception.InvalidDomainConfig: when the config
|
|
and group/option parameters specify an option we do not
|
|
support (or one that is not whitelisted).
|
|
|
|
An example response::
|
|
|
|
{
|
|
'ldap': {
|
|
'url': 'myurl',
|
|
'user_tree_dn': 'OU=myou',
|
|
....},
|
|
'identity': {
|
|
'driver': 'ldap'}
|
|
|
|
}
|
|
|
|
"""
|
|
self._assert_valid_group_and_option(group, option)
|
|
config_list = []
|
|
if group:
|
|
if option:
|
|
if option not in self.whitelisted_options[group]:
|
|
msg = _('Reading the default for option %(option)s in '
|
|
'group %(group)s is not supported') % {
|
|
'option': option, 'group': group}
|
|
raise exception.InvalidDomainConfig(reason=msg)
|
|
config_list.append(self._option_dict(group, option))
|
|
else:
|
|
for each_option in self.whitelisted_options[group]:
|
|
config_list.append(self._option_dict(group, each_option))
|
|
else:
|
|
for each_group in self.whitelisted_options:
|
|
for each_option in self.whitelisted_options[each_group]:
|
|
config_list.append(
|
|
self._option_dict(each_group, each_option)
|
|
)
|
|
|
|
return self._list_to_config(config_list, req_option=option)
|