Source code for keystone.common.tokenless_auth
# Copyright 2015 Hewlett-Packard
# All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
import hashlib
from oslo_log import log
from keystone.auth import core
from keystone.common import provider_api
import keystone.conf
from keystone import exception
from keystone.federation import constants as federation_constants
from keystone.federation import utils
from keystone.i18n import _
CONF = keystone.conf.CONF
LOG = log.getLogger(__name__)
[docs]class TokenlessAuthHelper(provider_api.ProviderAPIMixin, object):
def __init__(self, env):
"""A init class for TokenlessAuthHelper.
:param env: The HTTP request environment that should contain
client certificate attributes. These attributes should match
with what the mapping defines. Or a user cannot be mapped and
results un-authenticated. The following examples are for the
attributes that reference to the client certificate's Subject's
Common Name and Organization:
SSL_CLIENT_S_DN_CN, SSL_CLIENT_S_DN_O
:type env: dict
"""
self.env = env
def _build_scope_info(self):
"""Build the token request scope based on the headers.
:returns: scope data
:rtype: dict
"""
project_id = self.env.get('HTTP_X_PROJECT_ID')
project_name = self.env.get('HTTP_X_PROJECT_NAME')
project_domain_id = self.env.get('HTTP_X_PROJECT_DOMAIN_ID')
project_domain_name = self.env.get('HTTP_X_PROJECT_DOMAIN_NAME')
domain_id = self.env.get('HTTP_X_DOMAIN_ID')
domain_name = self.env.get('HTTP_X_DOMAIN_NAME')
scope = {}
if project_id:
scope['project'] = {'id': project_id}
elif project_name:
scope['project'] = {'name': project_name}
if project_domain_id:
scope['project']['domain'] = {'id': project_domain_id}
elif project_domain_name:
scope['project']['domain'] = {'name': project_domain_name}
else:
msg = _('Neither Project Domain ID nor Project Domain Name '
'was provided.')
raise exception.ValidationError(msg)
elif domain_id:
scope['domain'] = {'id': domain_id}
elif domain_name:
scope['domain'] = {'name': domain_name}
else:
raise exception.ValidationError(
attribute='project or domain',
target='scope')
return scope
[docs] def get_scope(self):
auth = {}
# NOTE(chioleong): Auth methods here are insignificant because
# we only care about using auth.controllers.AuthInfo
# to validate the scope information. Therefore,
# we don't provide any identity.
auth['scope'] = self._build_scope_info()
# NOTE(chioleong): We'll let AuthInfo validate the scope for us
auth_info = core.AuthInfo.create(auth, scope_only=True)
return auth_info.get_scope()
[docs] def get_mapped_user(self, project_id=None, domain_id=None):
"""Map client certificate to an existing user.
If user is ephemeral, there is no validation on the user himself;
however it will be mapped to a corresponding group(s) and the scope
of this ephemeral user is the same as what is assigned to the group.
:param project_id: Project scope of the mapped user.
:param domain_id: Domain scope of the mapped user.
:returns: A dictionary that contains the keys, such as
user_id, user_name, domain_id, domain_name
:rtype: dict
"""
idp_id = self._build_idp_id()
LOG.debug('The IdP Id %s and protocol Id %s are used to look up '
'the mapping.', idp_id, CONF.tokenless_auth.protocol)
mapped_properties, mapping_id = self.federation_api.evaluate(
idp_id, CONF.tokenless_auth.protocol, self.env)
user = mapped_properties.get('user', {})
user_id = user.get('id')
user_name = user.get('name')
user_type = user.get('type')
if user.get('domain') is not None:
user_domain_id = user.get('domain').get('id')
user_domain_name = user.get('domain').get('name')
else:
user_domain_id = None
user_domain_name = None
# if user is ephemeral type, we don't care if the user exists
# or not, but just care if the mapped group(s) is valid.
if user_type == utils.UserType.EPHEMERAL:
user_ref = {'type': utils.UserType.EPHEMERAL}
group_ids = mapped_properties['group_ids']
utils.validate_mapped_group_ids(group_ids,
mapping_id,
self.identity_api)
group_ids.extend(
utils.transform_to_group_ids(
mapped_properties['group_names'], mapping_id,
self.identity_api, self.resource_api))
roles = self.assignment_api.get_roles_for_groups(group_ids,
project_id,
domain_id)
if roles is not None:
role_names = [role['name'] for role in roles]
user_ref['roles'] = role_names
user_ref['group_ids'] = list(group_ids)
user_ref[federation_constants.IDENTITY_PROVIDER] = idp_id
user_ref[federation_constants.PROTOCOL] = (
CONF.tokenless_auth.protocol)
return user_ref
if user_id:
user_ref = self.identity_api.get_user(user_id)
elif user_name and (user_domain_name or user_domain_id):
if user_domain_name:
user_domain = self.resource_api.get_domain_by_name(
user_domain_name)
self.resource_api.assert_domain_enabled(user_domain['id'],
user_domain)
user_domain_id = user_domain['id']
user_ref = self.identity_api.get_user_by_name(user_name,
user_domain_id)
else:
msg = _('User auth cannot be built due to missing either '
'user id, or user name with domain id, or user name '
'with domain name.')
raise exception.ValidationError(msg)
self.identity_api.assert_user_enabled(
user_id=user_ref['id'],
user=user_ref)
user_ref['type'] = utils.UserType.LOCAL
return user_ref
def _build_idp_id(self):
"""Build the IdP name from the given config option issuer_attribute.
The default issuer attribute SSL_CLIENT_I_DN in the environment is
built with the following formula -
base64_idp = sha1(env['SSL_CLIENT_I_DN'])
:returns: base64_idp like the above example
:rtype: str
"""
idp = self.env.get(CONF.tokenless_auth.issuer_attribute)
if idp is None:
raise exception.TokenlessAuthConfigError(
issuer_attribute=CONF.tokenless_auth.issuer_attribute)
hashed_idp = hashlib.sha256(idp.encode('utf-8'))
return hashed_idp.hexdigest()