# Copyright 2012 OpenStack Foundation # # 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 copy import datetime import itertools import operator import uuid from keystoneclient.common import cms import mock from oslo_log import versionutils from oslo_serialization import jsonutils as json from oslo_utils import fixture from oslo_utils import timeutils import six from six.moves import http_client from six.moves import range from testtools import matchers from testtools import testcase from keystone import auth from keystone.auth.plugins import totp from keystone.common import utils import keystone.conf from keystone.contrib.revoke import routers from keystone import exception from keystone.policy.backends import rules from keystone.tests.common import auth as common_auth from keystone.tests import unit from keystone.tests.unit import ksfixtures from keystone.tests.unit import test_v3 CONF = keystone.conf.CONF class TestAuthInfo(common_auth.AuthTestMixin, testcase.TestCase): def setUp(self): super(TestAuthInfo, self).setUp() auth.controllers.load_auth_methods() def test_missing_auth_methods(self): auth_data = {'identity': {}} auth_data['identity']['token'] = {'id': uuid.uuid4().hex} self.assertRaises(exception.ValidationError, auth.controllers.AuthInfo.create, None, auth_data) def test_unsupported_auth_method(self): auth_data = {'methods': ['abc']} auth_data['abc'] = {'test': 'test'} auth_data = {'identity': auth_data} self.assertRaises(exception.AuthMethodNotSupported, auth.controllers.AuthInfo.create, None, auth_data) def test_missing_auth_method_data(self): auth_data = {'methods': ['password']} auth_data = {'identity': auth_data} self.assertRaises(exception.ValidationError, auth.controllers.AuthInfo.create, None, auth_data) def test_project_name_no_domain(self): auth_data = self.build_authentication_request( username='test', password='test', project_name='abc')['auth'] self.assertRaises(exception.ValidationError, auth.controllers.AuthInfo.create, None, auth_data) def test_both_project_and_domain_in_scope(self): auth_data = self.build_authentication_request( user_id='test', password='test', project_name='test', domain_name='test')['auth'] self.assertRaises(exception.ValidationError, auth.controllers.AuthInfo.create, None, auth_data) def test_get_method_names_duplicates(self): auth_data = self.build_authentication_request( token='test', user_id='test', password='test')['auth'] auth_data['identity']['methods'] = ['password', 'token', 'password', 'password'] context = None auth_info = auth.controllers.AuthInfo.create(context, auth_data) self.assertEqual(['password', 'token'], auth_info.get_method_names()) def test_get_method_data_invalid_method(self): auth_data = self.build_authentication_request( user_id='test', password='test')['auth'] context = None auth_info = auth.controllers.AuthInfo.create(context, auth_data) method_name = uuid.uuid4().hex self.assertRaises(exception.ValidationError, auth_info.get_method_data, method_name) def test_empty_domain_in_scope(self): auth_data = self.build_authentication_request( user_id='test', password='test', domain_name='')['auth'] auth_data['scope']['domain'] = [] self.assertRaises(exception.ValidationError, auth.controllers.AuthInfo.create, None, auth_data) def test_empty_project_in_scope(self): auth_data = self.build_authentication_request( user_id='test', password='test', project_name='')['auth'] auth_data['scope']['project'] = [] self.assertRaises(exception.ValidationError, auth.controllers.AuthInfo.create, None, auth_data) class TokenAPITests(object): # Why is this not just setUp? Because TokenAPITests is not a test class # itself. If TokenAPITests became a subclass of the testcase, it would get # called by the enumerate-tests-in-file code. The way the functions get # resolved in Python for multiple inheritance means that a setUp in this # would get skipped by the testrunner. def doSetUp(self): r = self.v3_create_token(self.build_authentication_request( username=self.user['name'], user_domain_id=self.domain_id, password=self.user['password'])) self.v3_token_data = r.result self.v3_token = r.headers.get('X-Subject-Token') self.headers = {'X-Subject-Token': r.headers.get('X-Subject-Token')} def _make_auth_request(self, auth_data): resp = self.post('/auth/tokens', body=auth_data) token = resp.headers.get('X-Subject-Token') return token def _get_unscoped_token(self): auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password']) return self._make_auth_request(auth_data) def _get_domain_scoped_token(self): auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], domain_id=self.domain_id) return self._make_auth_request(auth_data) def _get_project_scoped_token(self): auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], project_id=self.project_id) return self._make_auth_request(auth_data) def _get_trust_scoped_token(self, trustee_user, trust): auth_data = self.build_authentication_request( user_id=trustee_user['id'], password=trustee_user['password'], trust_id=trust['id']) return self._make_auth_request(auth_data) def _create_trust(self, impersonation=False): # Create a trustee user trustee_user = unit.create_user(self.identity_api, domain_id=self.domain_id) ref = unit.new_trust_ref( trustor_user_id=self.user_id, trustee_user_id=trustee_user['id'], project_id=self.project_id, impersonation=impersonation, role_ids=[self.role_id]) # Create a trust r = self.post('/OS-TRUST/trusts', body={'trust': ref}) trust = self.assertValidTrustResponse(r) return (trustee_user, trust) def _validate_token(self, token, expected_status=http_client.OK): return self.get( '/auth/tokens', headers={'X-Subject-Token': token}, expected_status=expected_status) def _revoke_token(self, token, expected_status=http_client.NO_CONTENT): return self.delete( '/auth/tokens', headers={'x-subject-token': token}, expected_status=expected_status) def _set_user_enabled(self, user, enabled=True): user['enabled'] = enabled self.identity_api.update_user(user['id'], user) def _create_project_and_set_as_default_project(self): # create a new project ref = unit.new_project_ref(domain_id=self.domain_id) r = self.post('/projects', body={'project': ref}) project = self.assertValidProjectResponse(r, ref) # grant the user a role on the project self.put( '/projects/%(project_id)s/users/%(user_id)s/roles/%(role_id)s' % { 'user_id': self.user['id'], 'project_id': project['id'], 'role_id': self.role['id']}) # make the new project the user's default project body = {'user': {'default_project_id': project['id']}} r = self.patch('/users/%(user_id)s' % { 'user_id': self.user['id']}, body=body) self.assertValidUserResponse(r) return project def assertTimestampEqual(self, expected, value): # Compare two timestamps but ignore the microseconds part # of the expected timestamp. Keystone does not track microseconds and # is working to eliminate microseconds from it's datetimes used. expected = timeutils.parse_isotime(expected).replace(microsecond=0) value = timeutils.parse_isotime(value).replace(microsecond=0) self.assertEqual( expected, value, "%s != %s" % (expected, value)) def test_auth_with_token_as_different_user_fails(self): # get the token for a user. This is self.user which is different from # self.default_domain_user. token = self.get_scoped_token() # try both password and token methods with different identities and it # should fail auth_data = self.build_authentication_request( token=token, user_id=self.default_domain_user['id'], password=self.default_domain_user['password']) self.v3_create_token(auth_data, expected_status=http_client.UNAUTHORIZED) def test_create_token_for_user_without_password_fails(self): user = unit.new_user_ref(domain_id=self.domain['id']) del user['password'] # can't have a password for this test user = self.identity_api.create_user(user) auth_data = self.build_authentication_request( user_id=user['id'], password='password') self.v3_create_token(auth_data, expected_status=http_client.UNAUTHORIZED) def test_create_unscoped_token_by_authenticating_with_unscoped_token(self): auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password']) r = self.v3_create_token(auth_data) self.assertValidUnscopedTokenResponse(r) token_id = r.headers.get('X-Subject-Token') auth_data = self.build_authentication_request(token=token_id) r = self.v3_create_token(auth_data) self.assertValidUnscopedTokenResponse(r) def test_create_unscoped_token_with_user_id(self): auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password']) r = self.v3_create_token(auth_data) self.assertValidUnscopedTokenResponse(r) def test_create_unscoped_token_with_user_domain_id(self): auth_data = self.build_authentication_request( username=self.user['name'], user_domain_id=self.domain['id'], password=self.user['password']) r = self.v3_create_token(auth_data) self.assertValidUnscopedTokenResponse(r) def test_create_unscoped_token_with_user_domain_name(self): auth_data = self.build_authentication_request( username=self.user['name'], user_domain_name=self.domain['name'], password=self.user['password']) r = self.v3_create_token(auth_data) self.assertValidUnscopedTokenResponse(r) def test_validate_unscoped_token(self): unscoped_token = self._get_unscoped_token() self._validate_token(unscoped_token) def test_revoke_unscoped_token(self): unscoped_token = self._get_unscoped_token() self._validate_token(unscoped_token) self._revoke_token(unscoped_token) self._validate_token(unscoped_token, expected_status=http_client.NOT_FOUND) def test_create_explicit_unscoped_token(self): self._create_project_and_set_as_default_project() # explicitly ask for an unscoped token auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], unscoped="unscoped") r = self.post('/auth/tokens', body=auth_data, noauth=True) self.assertValidUnscopedTokenResponse(r) def test_disabled_users_default_project_result_in_unscoped_token(self): # create a disabled project to work with project = self.create_new_default_project_for_user( self.user['id'], self.domain_id, enable_project=False) # assign a role to user for the new project self.assignment_api.add_role_to_user_and_project(self.user['id'], project['id'], self.role_id) # attempt to authenticate without requesting a project auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password']) r = self.v3_create_token(auth_data) self.assertValidUnscopedTokenResponse(r) def test_disabled_default_project_domain_result_in_unscoped_token(self): domain_ref = unit.new_domain_ref() r = self.post('/domains', body={'domain': domain_ref}) domain = self.assertValidDomainResponse(r, domain_ref) project = self.create_new_default_project_for_user( self.user['id'], domain['id']) # assign a role to user for the new project self.assignment_api.add_role_to_user_and_project(self.user['id'], project['id'], self.role_id) # now disable the project domain body = {'domain': {'enabled': False}} r = self.patch('/domains/%(domain_id)s' % {'domain_id': domain['id']}, body=body) self.assertValidDomainResponse(r) # attempt to authenticate without requesting a project auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password']) r = self.v3_create_token(auth_data) self.assertValidUnscopedTokenResponse(r) def test_unscoped_token_is_invalid_after_disabling_user(self): unscoped_token = self._get_unscoped_token() # Make sure the token is valid self._validate_token(unscoped_token) # Disable the user self._set_user_enabled(self.user, enabled=False) # Ensure validating a token for a disabled user fails self.assertRaises(exception.TokenNotFound, self.token_provider_api.validate_token, unscoped_token) def test_unscoped_token_is_invalid_after_enabling_disabled_user(self): unscoped_token = self._get_unscoped_token() # Make sure the token is valid self._validate_token(unscoped_token) # Disable the user self._set_user_enabled(self.user, enabled=False) # Ensure validating a token for a disabled user fails self.assertRaises(exception.TokenNotFound, self.token_provider_api.validate_token, unscoped_token) # Enable the user self._set_user_enabled(self.user) # Ensure validating a token for a re-enabled user fails self.assertRaises(exception.TokenNotFound, self.token_provider_api.validate_token, unscoped_token) def test_unscoped_token_is_invalid_after_disabling_user_domain(self): unscoped_token = self._get_unscoped_token() # Make sure the token is valid self._validate_token(unscoped_token) # Disable the user's domain self.domain['enabled'] = False self.resource_api.update_domain(self.domain['id'], self.domain) # Ensure validating a token for a disabled user fails self.assertRaises(exception.TokenNotFound, self.token_provider_api.validate_token, unscoped_token) def test_unscoped_token_is_invalid_after_changing_user_password(self): unscoped_token = self._get_unscoped_token() # Make sure the token is valid self._validate_token(unscoped_token) # Change user's password self.user['password'] = 'Password1' self.identity_api.update_user(self.user['id'], self.user) # Ensure updating user's password revokes existing user's tokens self.assertRaises(exception.TokenNotFound, self.token_provider_api.validate_token, unscoped_token) def test_create_domain_token_scoped_with_domain_id_and_user_id(self): # grant the user a role on the domain path = '/domains/%s/users/%s/roles/%s' % ( self.domain['id'], self.user['id'], self.role['id']) self.put(path=path) auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], domain_id=self.domain['id']) r = self.v3_create_token(auth_data) self.assertValidDomainScopedTokenResponse(r) def test_create_domain_token_scoped_with_domain_id_and_username(self): # grant the user a role on the domain path = '/domains/%s/users/%s/roles/%s' % ( self.domain['id'], self.user['id'], self.role['id']) self.put(path=path) auth_data = self.build_authentication_request( username=self.user['name'], user_domain_id=self.domain['id'], password=self.user['password'], domain_id=self.domain['id']) r = self.v3_create_token(auth_data) self.assertValidDomainScopedTokenResponse(r) def test_create_domain_token_scoped_with_domain_id(self): # grant the user a role on the domain path = '/domains/%s/users/%s/roles/%s' % ( self.domain['id'], self.user['id'], self.role['id']) self.put(path=path) auth_data = self.build_authentication_request( username=self.user['name'], user_domain_name=self.domain['name'], password=self.user['password'], domain_id=self.domain['id']) r = self.v3_create_token(auth_data) self.assertValidDomainScopedTokenResponse(r) def test_create_domain_token_scoped_with_domain_name(self): # grant the user a role on the domain path = '/domains/%s/users/%s/roles/%s' % ( self.domain['id'], self.user['id'], self.role['id']) self.put(path=path) auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], domain_name=self.domain['name']) r = self.v3_create_token(auth_data) self.assertValidDomainScopedTokenResponse(r) def test_create_domain_token_scoped_with_domain_name_and_username(self): # grant the user a role on the domain path = '/domains/%s/users/%s/roles/%s' % ( self.domain['id'], self.user['id'], self.role['id']) self.put(path=path) auth_data = self.build_authentication_request( username=self.user['name'], user_domain_id=self.domain['id'], password=self.user['password'], domain_name=self.domain['name']) r = self.v3_create_token(auth_data) self.assertValidDomainScopedTokenResponse(r) def test_create_domain_token_with_only_domain_name_and_username(self): # grant the user a role on the domain path = '/domains/%s/users/%s/roles/%s' % ( self.domain['id'], self.user['id'], self.role['id']) self.put(path=path) auth_data = self.build_authentication_request( username=self.user['name'], user_domain_name=self.domain['name'], password=self.user['password'], domain_name=self.domain['name']) r = self.v3_create_token(auth_data) self.assertValidDomainScopedTokenResponse(r) def test_create_domain_token_with_group_role(self): group = unit.new_group_ref(domain_id=self.domain_id) group = self.identity_api.create_group(group) # add user to group self.identity_api.add_user_to_group(self.user['id'], group['id']) # grant the domain role to group path = '/domains/%s/groups/%s/roles/%s' % ( self.domain['id'], group['id'], self.role['id']) self.put(path=path) # now get a domain-scoped token auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], domain_id=self.domain['id']) r = self.v3_create_token(auth_data) self.assertValidDomainScopedTokenResponse(r) def test_create_domain_token_fails_if_domain_name_unsafe(self): """Verify authenticate to a domain with unsafe name fails.""" # Start with url name restrictions off, so we can create the unsafe # named domain self.config_fixture.config(group='resource', domain_name_url_safe='off') unsafe_name = 'i am not / safe' domain = unit.new_domain_ref(name=unsafe_name) self.resource_api.create_domain(domain['id'], domain) role_member = unit.new_role_ref() self.role_api.create_role(role_member['id'], role_member) self.assignment_api.create_grant( role_member['id'], user_id=self.user['id'], domain_id=domain['id']) auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], domain_name=domain['name']) # Since name url restriction is off, we should be able to authenticate self.v3_create_token(auth_data) # Set the name url restriction to new, which should still allow us to # authenticate self.config_fixture.config(group='resource', project_name_url_safe='new') self.v3_create_token(auth_data) # Set the name url restriction to strict and we should fail to # authenticate self.config_fixture.config(group='resource', domain_name_url_safe='strict') self.v3_create_token(auth_data, expected_status=http_client.UNAUTHORIZED) def test_create_domain_token_without_grant_returns_unauthorized(self): auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], domain_id=self.domain['id']) # this fails because the user does not have a role on self.domain self.v3_create_token(auth_data, expected_status=http_client.UNAUTHORIZED) def test_validate_domain_scoped_token(self): # Grant user access to domain self.assignment_api.create_grant(self.role['id'], user_id=self.user['id'], domain_id=self.domain['id']) domain_scoped_token = self._get_domain_scoped_token() resp = self._validate_token(domain_scoped_token) resp_json = json.loads(resp.body) self.assertIsNotNone(resp_json['token']['catalog']) self.assertIsNotNone(resp_json['token']['roles']) self.assertIsNotNone(resp_json['token']['domain']) def test_domain_scoped_token_is_invalid_after_disabling_user(self): # Grant user access to domain self.assignment_api.create_grant(self.role['id'], user_id=self.user['id'], domain_id=self.domain['id']) domain_scoped_token = self._get_domain_scoped_token() # Make sure the token is valid self._validate_token(domain_scoped_token) # Disable user self._set_user_enabled(self.user, enabled=False) # Ensure validating a token for a disabled user fails self.assertRaises(exception.TokenNotFound, self.token_provider_api.validate_token, domain_scoped_token) def test_domain_scoped_token_is_invalid_after_deleting_grant(self): # Grant user access to domain self.assignment_api.create_grant(self.role['id'], user_id=self.user['id'], domain_id=self.domain['id']) domain_scoped_token = self._get_domain_scoped_token() # Make sure the token is valid self._validate_token(domain_scoped_token) # Delete access to domain self.assignment_api.delete_grant(self.role['id'], user_id=self.user['id'], domain_id=self.domain['id']) # Ensure validating a token for a disabled user fails self.assertRaises(exception.TokenNotFound, self.token_provider_api.validate_token, domain_scoped_token) def test_domain_scoped_token_invalid_after_disabling_domain(self): # Grant user access to domain self.assignment_api.create_grant(self.role['id'], user_id=self.user['id'], domain_id=self.domain['id']) domain_scoped_token = self._get_domain_scoped_token() # Make sure the token is valid self._validate_token(domain_scoped_token) # Disable domain self.domain['enabled'] = False self.resource_api.update_domain(self.domain['id'], self.domain) # Ensure validating a token for a disabled domain fails self.assertRaises(exception.TokenNotFound, self.token_provider_api.validate_token, domain_scoped_token) def test_v2_validate_domain_scoped_token_returns_unauthorized(self): # Test that validating a domain scoped token in v2.0 returns # unauthorized. # Grant user access to domain self.assignment_api.create_grant(self.role['id'], user_id=self.user['id'], domain_id=self.domain['id']) scoped_token = self._get_domain_scoped_token() self.assertRaises(exception.Unauthorized, self.token_provider_api.validate_v2_token, scoped_token) def test_create_project_scoped_token_with_project_id_and_user_id(self): auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], project_id=self.project['id']) r = self.v3_create_token(auth_data) self.assertValidProjectScopedTokenResponse(r) def test_validate_project_scoped_token(self): project_scoped_token = self._get_project_scoped_token() self._validate_token(project_scoped_token) def test_revoke_project_scoped_token(self): project_scoped_token = self._get_project_scoped_token() self._validate_token(project_scoped_token) self._revoke_token(project_scoped_token) self._validate_token(project_scoped_token, expected_status=http_client.NOT_FOUND) def test_project_scoped_token_is_scoped_to_default_project(self): project = self._create_project_and_set_as_default_project() # attempt to authenticate without requesting a project auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password']) r = self.v3_create_token(auth_data) # ensure the project id in the token matches the default project id self.assertValidProjectScopedTokenResponse(r) self.assertEqual(project['id'], r.result['token']['project']['id']) def test_project_scoped_token_no_catalog_is_scoped_to_default_project( self): project = self._create_project_and_set_as_default_project() # attempt to authenticate without requesting a project or catalog auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password']) r = self.post('/auth/tokens?nocatalog', body=auth_data, noauth=True) # ensure the project id in the token matches the default project id self.assertValidProjectScopedTokenResponse(r, require_catalog=False) self.assertEqual(project['id'], r.result['token']['project']['id']) def test_implicit_project_id_scoped_token_with_user_id_no_catalog(self): self._create_project_and_set_as_default_project() # create a project scoped token that isn't scoped to the default # project auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], project_id=self.project['id']) r = self.post('/auth/tokens?nocatalog', body=auth_data, noauth=True) # ensure the project id in the token matches the one we as for self.assertValidProjectScopedTokenResponse(r, require_catalog=False) self.assertEqual(self.project['id'], r.result['token']['project']['id']) def test_project_scoped_token_catalog_attributes(self): auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], project_id=self.project['id']) r = self.v3_create_token(auth_data) catalog = r.result['token']['catalog'] self.assertEqual(1, len(catalog)) catalog = catalog[0] self.assertEqual(self.service['id'], catalog['id']) self.assertEqual(self.service['name'], catalog['name']) self.assertEqual(self.service['type'], catalog['type']) endpoint = catalog['endpoints'] self.assertEqual(1, len(endpoint)) endpoint = endpoint[0] self.assertEqual(self.endpoint['id'], endpoint['id']) self.assertEqual(self.endpoint['interface'], endpoint['interface']) self.assertEqual(self.endpoint['region_id'], endpoint['region_id']) self.assertEqual(self.endpoint['url'], endpoint['url']) def test_project_scoped_token_catalog_excludes_disabled_endpoint(self): # Create a disabled endpoint disabled_endpoint_ref = copy.copy(self.endpoint) disabled_endpoint_id = uuid.uuid4().hex disabled_endpoint_ref.update({ 'id': disabled_endpoint_id, 'enabled': False, 'interface': 'internal' }) self.catalog_api.create_endpoint(disabled_endpoint_id, disabled_endpoint_ref) auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], project_id=self.project['id']) resp = self.v3_create_token(auth_data) # make sure the disabled endpoint id isn't in the list of endpoints endpoints = resp.result['token']['catalog'][0]['endpoints'] endpoint_ids = [endpoint['id'] for endpoint in endpoints] self.assertNotIn(disabled_endpoint_id, endpoint_ids) def test_project_scoped_token_catalog_excludes_disabled_service(self): """On authenticate, get a catalog that excludes disabled services.""" # although the endpoint associated with the service is enabled, the # service is disabled self.assertTrue(self.endpoint['enabled']) self.catalog_api.update_service( self.endpoint['service_id'], {'enabled': False}) service = self.catalog_api.get_service(self.endpoint['service_id']) self.assertFalse(service['enabled']) auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], project_id=self.project['id']) r = self.v3_create_token(auth_data) self.assertEqual([], r.result['token']['catalog']) def test_scope_to_project_without_grant_returns_unauthorized(self): project = unit.new_project_ref(domain_id=self.domain_id) self.resource_api.create_project(project['id'], project) auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], project_id=project['id']) self.v3_create_token(auth_data, expected_status=http_client.UNAUTHORIZED) def test_create_project_scoped_token_with_username_and_domain_id(self): auth_data = self.build_authentication_request( username=self.user['name'], user_domain_id=self.domain['id'], password=self.user['password'], project_id=self.project['id']) r = self.v3_create_token(auth_data) self.assertValidProjectScopedTokenResponse(r) def test_create_project_scoped_token_with_username_and_domain_name(self): auth_data = self.build_authentication_request( username=self.user['name'], user_domain_name=self.domain['name'], password=self.user['password'], project_id=self.project['id']) r = self.v3_create_token(auth_data) self.assertValidProjectScopedTokenResponse(r) def test_create_project_scoped_token_fails_if_project_name_unsafe(self): """Verify authenticate to a project with unsafe name fails.""" # Start with url name restrictions off, so we can create the unsafe # named project self.config_fixture.config(group='resource', project_name_url_safe='off') unsafe_name = 'i am not / safe' project = unit.new_project_ref(domain_id=test_v3.DEFAULT_DOMAIN_ID, name=unsafe_name) self.resource_api.create_project(project['id'], project) role_member = unit.new_role_ref() self.role_api.create_role(role_member['id'], role_member) self.assignment_api.add_role_to_user_and_project( self.user['id'], project['id'], role_member['id']) auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], project_name=project['name'], project_domain_id=test_v3.DEFAULT_DOMAIN_ID) # Since name url restriction is off, we should be able to authenticate self.v3_create_token(auth_data) # Set the name url restriction to new, which should still allow us to # authenticate self.config_fixture.config(group='resource', project_name_url_safe='new') self.v3_create_token(auth_data) # Set the name url restriction to strict and we should fail to # authenticate self.config_fixture.config(group='resource', project_name_url_safe='strict') self.v3_create_token(auth_data, expected_status=http_client.UNAUTHORIZED) def test_create_project_scoped_token_fails_if_domain_name_unsafe(self): """Verify authenticate to a project using unsafe domain name fails.""" # Start with url name restrictions off, so we can create the unsafe # named domain self.config_fixture.config(group='resource', domain_name_url_safe='off') unsafe_name = 'i am not / safe' domain = unit.new_domain_ref(name=unsafe_name) self.resource_api.create_domain(domain['id'], domain) # Add a (safely named) project to that domain project = unit.new_project_ref(domain_id=domain['id']) self.resource_api.create_project(project['id'], project) role_member = unit.new_role_ref() self.role_api.create_role(role_member['id'], role_member) self.assignment_api.create_grant( role_member['id'], user_id=self.user['id'], project_id=project['id']) # An auth request via project ID, but specifying domain by name auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], project_name=project['name'], project_domain_name=domain['name']) # Since name url restriction is off, we should be able to authenticate self.v3_create_token(auth_data) # Set the name url restriction to new, which should still allow us to # authenticate self.config_fixture.config(group='resource', project_name_url_safe='new') self.v3_create_token(auth_data) # Set the name url restriction to strict and we should fail to # authenticate self.config_fixture.config(group='resource', domain_name_url_safe='strict') self.v3_create_token(auth_data, expected_status=http_client.UNAUTHORIZED) def test_create_project_token_with_same_domain_and_project_name(self): """Authenticate to a project with the same name as its domain.""" domain = unit.new_project_ref(is_domain=True) domain = self.resource_api.create_project(domain['id'], domain) project = unit.new_project_ref(domain_id=domain['id'], name=domain['name']) self.resource_api.create_project(project['id'], project) role_member = unit.new_role_ref() self.role_api.create_role(role_member['id'], role_member) self.assignment_api.add_role_to_user_and_project( self.user['id'], project['id'], role_member['id']) auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], project_name=project['name'], project_domain_name=domain['name']) r = self.v3_create_token(auth_data) self.assertEqual(project['id'], r.result['token']['project']['id']) def test_create_project_token_fails_with_project_acting_as_domain(self): domain = unit.new_project_ref(is_domain=True) domain = self.resource_api.create_project(domain['id'], domain) role_member = unit.new_role_ref() self.role_api.create_role(role_member['id'], role_member) self.assignment_api.create_grant( role_member['id'], user_id=self.user['id'], domain_id=domain['id']) # authentication will fail because the project name is incorrect auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], project_name=domain['name'], project_domain_name=domain['name']) self.v3_create_token(auth_data, expected_status=http_client.UNAUTHORIZED) def test_create_project_token_with_disabled_project_domain_fails(self): # create a disabled domain domain = unit.new_domain_ref() domain = self.resource_api.create_domain(domain['id'], domain) # create a project in the domain project = unit.new_project_ref(domain_id=domain['id']) self.resource_api.create_project(project['id'], project) # assign some role to self.user for the project in the domain self.assignment_api.add_role_to_user_and_project( self.user['id'], project['id'], self.role_id) # Disable the domain domain['enabled'] = False self.resource_api.update_domain(domain['id'], domain) # user should not be able to auth with project_id auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], project_id=project['id']) self.v3_create_token(auth_data, expected_status=http_client.UNAUTHORIZED) # user should not be able to auth with project_name & domain auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], project_name=project['name'], project_domain_id=domain['id']) self.v3_create_token(auth_data, expected_status=http_client.UNAUTHORIZED) def test_project_scoped_token_is_invalid_after_disabling_user(self): project_scoped_token = self._get_project_scoped_token() # Make sure the token is valid self._validate_token(project_scoped_token) # Disable the user self._set_user_enabled(self.user, enabled=False) # Ensure validating a token for a disabled user fails self.assertRaises(exception.TokenNotFound, self.token_provider_api.validate_token, project_scoped_token) def test_project_scoped_token_invalid_after_changing_user_password(self): project_scoped_token = self._get_project_scoped_token() # Make sure the token is valid self._validate_token(project_scoped_token) # Update user's password self.user['password'] = 'Password1' self.identity_api.update_user(self.user['id'], self.user) # Ensure updating user's password revokes existing tokens self.assertRaises(exception.TokenNotFound, self.token_provider_api.validate_token, project_scoped_token) def test_project_scoped_token_invalid_after_disabling_project(self): project_scoped_token = self._get_project_scoped_token() # Make sure the token is valid self._validate_token(project_scoped_token) # Disable project self.project['enabled'] = False self.resource_api.update_project(self.project['id'], self.project) # Ensure validating a token for a disabled project fails self.assertRaises(exception.TokenNotFound, self.token_provider_api.validate_token, project_scoped_token) def test_project_scoped_token_is_invalid_after_deleting_grant(self): # disable caching so that user grant deletion is not hidden # by token caching self.config_fixture.config( group='cache', enabled=False) # Grant user access to project self.assignment_api.create_grant(self.role['id'], user_id=self.user['id'], project_id=self.project['id']) project_scoped_token = self._get_project_scoped_token() # Make sure the token is valid self._validate_token(project_scoped_token) # Delete access to project self.assignment_api.delete_grant(self.role['id'], user_id=self.user['id'], project_id=self.project['id']) # Ensure the token has been revoked self.assertRaises(exception.TokenNotFound, self.token_provider_api.validate_token, project_scoped_token) def test_no_access_to_default_project_result_in_unscoped_token(self): # create a disabled project to work with self.create_new_default_project_for_user(self.user['id'], self.domain_id) # attempt to authenticate without requesting a project auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password']) r = self.v3_create_token(auth_data) self.assertValidUnscopedTokenResponse(r) def test_rescope_unscoped_token_with_trust(self): trustee_user, trust = self._create_trust() self._get_trust_scoped_token(trustee_user, trust) def test_validate_a_trust_scoped_token(self): trustee_user, trust = self._create_trust() trust_scoped_token = self._get_trust_scoped_token(trustee_user, trust) # Validate a trust scoped token self._validate_token(trust_scoped_token) def test_validate_a_trust_scoped_token_impersonated(self): trustee_user, trust = self._create_trust(impersonation=True) trust_scoped_token = self._get_trust_scoped_token(trustee_user, trust) # Validate a trust scoped token self._validate_token(trust_scoped_token) def test_revoke_trust_scoped_token(self): trustee_user, trust = self._create_trust() trust_scoped_token = self._get_trust_scoped_token(trustee_user, trust) # Validate a trust scoped token self._validate_token(trust_scoped_token) self._revoke_token(trust_scoped_token) self._validate_token(trust_scoped_token, expected_status=http_client.NOT_FOUND) def test_trust_scoped_token_is_invalid_after_disabling_trustee(self): trustee_user, trust = self._create_trust() trust_scoped_token = self._get_trust_scoped_token(trustee_user, trust) # Validate a trust scoped token self._validate_token(trust_scoped_token) # Disable trustee trustee_update_ref = dict(enabled=False) self.identity_api.update_user(trustee_user['id'], trustee_update_ref) # Ensure validating a token for a disabled user fails self.assertRaises(exception.TokenNotFound, self.token_provider_api.validate_token, trust_scoped_token) def test_trust_scoped_token_invalid_after_changing_trustee_password(self): trustee_user, trust = self._create_trust() trust_scoped_token = self._get_trust_scoped_token(trustee_user, trust) # Validate a trust scoped token self._validate_token(trust_scoped_token) # Change trustee's password trustee_update_ref = dict(password='Password1') self.identity_api.update_user(trustee_user['id'], trustee_update_ref) # Ensure updating trustee's password revokes existing tokens self.assertRaises(exception.TokenNotFound, self.token_provider_api.validate_token, trust_scoped_token) def test_trust_scoped_token_is_invalid_after_disabling_trustor(self): trustee_user, trust = self._create_trust() trust_scoped_token = self._get_trust_scoped_token(trustee_user, trust) # Validate a trust scoped token self._validate_token(trust_scoped_token) # Disable the trustor trustor_update_ref = dict(enabled=False) self.identity_api.update_user(self.user['id'], trustor_update_ref) # Ensure validating a token for a disabled user fails self.assertRaises(exception.TokenNotFound, self.token_provider_api.validate_token, trust_scoped_token) def test_trust_scoped_token_invalid_after_changing_trustor_password(self): trustee_user, trust = self._create_trust() trust_scoped_token = self._get_trust_scoped_token(trustee_user, trust) # Validate a trust scoped token self._validate_token(trust_scoped_token) # Change trustor's password trustor_update_ref = dict(password='Password1') self.identity_api.update_user(self.user['id'], trustor_update_ref) # Ensure updating trustor's password revokes existing user's tokens self.assertRaises(exception.TokenNotFound, self.token_provider_api.validate_token, trust_scoped_token) def test_trust_scoped_token_invalid_after_disabled_trustor_domain(self): trustee_user, trust = self._create_trust() trust_scoped_token = self._get_trust_scoped_token(trustee_user, trust) # Validate a trust scoped token self._validate_token(trust_scoped_token) # Disable trustor's domain self.domain['enabled'] = False self.resource_api.update_domain(self.domain['id'], self.domain) trustor_update_ref = dict(password='Password1') self.identity_api.update_user(self.user['id'], trustor_update_ref) # Ensure updating trustor's password revokes existing user's tokens self.assertRaises(exception.TokenNotFound, self.token_provider_api.validate_token, trust_scoped_token) def test_v2_validate_trust_scoped_token(self): # Test that validating an trust scoped token in v2.0 returns # unauthorized. trustee_user, trust = self._create_trust() trust_scoped_token = self._get_trust_scoped_token(trustee_user, trust) self.assertRaises(exception.Unauthorized, self.token_provider_api.validate_v2_token, trust_scoped_token) def test_default_fixture_scope_token(self): self.assertIsNotNone(self.get_scoped_token()) def test_v3_v2_intermix_new_default_domain(self): # If the default_domain_id config option is changed, then should be # able to validate a v3 token with user in the new domain. # 1) Create a new domain for the user. new_domain = unit.new_domain_ref() self.resource_api.create_domain(new_domain['id'], new_domain) # 2) Create user in new domain. new_user = unit.create_user(self.identity_api, domain_id=new_domain['id']) # 3) Update the default_domain_id config option to the new domain self.config_fixture.config( group='identity', default_domain_id=new_domain['id']) # 4) Get a token using v3 API. v3_token = self.get_requested_token(self.build_authentication_request( user_id=new_user['id'], password=new_user['password'])) # 5) Validate token using v2 API. self.admin_request( path='/v2.0/tokens/%s' % v3_token, token=self.get_admin_token(), method='GET') def test_v3_v2_intermix_domain_scoped_token_failed(self): # grant the domain role to user self.put( path='/domains/%s/users/%s/roles/%s' % ( self.domain['id'], self.user['id'], self.role['id'])) # generate a domain-scoped v3 token v3_token = self.get_requested_token(self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], domain_id=self.domain['id'])) # domain-scoped tokens are not supported by v2 self.admin_request( method='GET', path='/v2.0/tokens/%s' % v3_token, token=self.get_admin_token(), expected_status=http_client.UNAUTHORIZED) def test_v3_v2_intermix_non_default_project_succeed(self): # self.project is in a non-default domain v3_token = self.get_requested_token(self.build_authentication_request( user_id=self.default_domain_user['id'], password=self.default_domain_user['password'], project_id=self.project['id'])) # v2 cannot reference projects outside the default domain self.admin_request( method='GET', path='/v2.0/tokens/%s' % v3_token, token=self.get_admin_token()) def test_v3_v2_intermix_non_default_user_succeed(self): self.assignment_api.create_grant( self.role['id'], user_id=self.user['id'], project_id=self.default_domain_project['id']) # self.user is in a non-default domain v3_token = self.get_requested_token(self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], project_id=self.default_domain_project['id'])) # v2 cannot reference projects outside the default domain self.admin_request( method='GET', path='/v2.0/tokens/%s' % v3_token, token=self.get_admin_token()) def test_v3_v2_intermix_domain_scope_failed(self): self.assignment_api.create_grant( self.role['id'], user_id=self.default_domain_user['id'], domain_id=self.domain['id']) v3_token = self.get_requested_token(self.build_authentication_request( user_id=self.default_domain_user['id'], password=self.default_domain_user['password'], domain_id=self.domain['id'])) # v2 cannot reference projects outside the default domain self.admin_request( path='/v2.0/tokens/%s' % v3_token, token=self.get_admin_token(), method='GET', expected_status=http_client.UNAUTHORIZED) def test_v3_v2_unscoped_token_intermix(self): r = self.v3_create_token(self.build_authentication_request( user_id=self.default_domain_user['id'], password=self.default_domain_user['password'])) self.assertValidUnscopedTokenResponse(r) v3_token_data = r.result v3_token = r.headers.get('X-Subject-Token') # now validate the v3 token with v2 API r = self.admin_request( path='/v2.0/tokens/%s' % v3_token, token=self.get_admin_token(), method='GET') v2_token_data = r.result self.assertEqual(v2_token_data['access']['user']['id'], v3_token_data['token']['user']['id']) self.assertTimestampEqual(v2_token_data['access']['token']['expires'], v3_token_data['token']['expires_at']) def test_v3_v2_token_intermix(self): # FIXME(gyee): PKI tokens are not interchangeable because token # data is baked into the token itself. r = self.v3_create_token(self.build_authentication_request( user_id=self.default_domain_user['id'], password=self.default_domain_user['password'], project_id=self.default_domain_project['id'])) self.assertValidProjectScopedTokenResponse(r) v3_token_data = r.result v3_token = r.headers.get('X-Subject-Token') # now validate the v3 token with v2 API r = self.admin_request( method='GET', path='/v2.0/tokens/%s' % v3_token, token=self.get_admin_token()) v2_token_data = r.result self.assertEqual(v2_token_data['access']['user']['id'], v3_token_data['token']['user']['id']) self.assertTimestampEqual(v2_token_data['access']['token']['expires'], v3_token_data['token']['expires_at']) self.assertEqual(v2_token_data['access']['user']['roles'][0]['name'], v3_token_data['token']['roles'][0]['name']) def test_v2_v3_unscoped_token_intermix(self): r = self.admin_request( method='POST', path='/v2.0/tokens', body={ 'auth': { 'passwordCredentials': { 'userId': self.default_domain_user['id'], 'password': self.default_domain_user['password'] } } }) v2_token_data = r.result v2_token = v2_token_data['access']['token']['id'] r = self.get('/auth/tokens', headers={'X-Subject-Token': v2_token}) self.assertValidUnscopedTokenResponse(r) v3_token_data = r.result self.assertEqual(v2_token_data['access']['user']['id'], v3_token_data['token']['user']['id']) self.assertTimestampEqual(v2_token_data['access']['token']['expires'], v3_token_data['token']['expires_at']) def test_v2_v3_token_intermix(self): r = self.admin_request( path='/v2.0/tokens', method='POST', body={ 'auth': { 'passwordCredentials': { 'userId': self.default_domain_user['id'], 'password': self.default_domain_user['password'] }, 'tenantId': self.default_domain_project['id'] } }) v2_token_data = r.result v2_token = v2_token_data['access']['token']['id'] r = self.get('/auth/tokens', headers={'X-Subject-Token': v2_token}) self.assertValidProjectScopedTokenResponse(r) v3_token_data = r.result self.assertEqual(v2_token_data['access']['user']['id'], v3_token_data['token']['user']['id']) self.assertTimestampEqual(v2_token_data['access']['token']['expires'], v3_token_data['token']['expires_at']) self.assertEqual(v2_token_data['access']['user']['roles'][0]['name'], v3_token_data['token']['roles'][0]['name']) v2_issued_at = timeutils.parse_isotime( v2_token_data['access']['token']['issued_at']) v3_issued_at = timeutils.parse_isotime( v3_token_data['token']['issued_at']) self.assertEqual(v2_issued_at, v3_issued_at) def test_create_v3_project_token_from_v2_project_token(self): r = self.admin_request( path='/v2.0/tokens', method='POST', body={ 'auth': { 'passwordCredentials': { 'userId': self.default_domain_user['id'], 'password': self.default_domain_user['password'] }, 'tenantId': self.default_domain_project['id'] } }) v2_token_data = r.result v2_token = v2_token_data['access']['token']['id'] auth_data = self.build_authentication_request( token=v2_token, project_id=self.default_domain_project['id']) r = self.v3_create_token(auth_data) self.assertValidScopedTokenResponse(r) def test_v2_token_deleted_on_v3(self): # Create a v2 token. body = { 'auth': { 'passwordCredentials': { 'userId': self.default_domain_user['id'], 'password': self.default_domain_user['password'] }, 'tenantId': self.default_domain_project['id'] } } r = self.admin_request( path='/v2.0/tokens', method='POST', body=body) v2_token = r.result['access']['token']['id'] # Delete the v2 token using v3. self.delete( '/auth/tokens', headers={'X-Subject-Token': v2_token}) # Attempting to use the deleted token on v2 should fail. self.admin_request( path='/v2.0/tenants', method='GET', token=v2_token, expected_status=http_client.UNAUTHORIZED) def test_rescoping_token(self): expires = self.v3_token_data['token']['expires_at'] # rescope the token r = self.v3_create_token(self.build_authentication_request( token=self.v3_token, project_id=self.project_id)) self.assertValidProjectScopedTokenResponse(r) # ensure token expiration stayed the same self.assertTimestampEqual(expires, r.result['token']['expires_at']) def test_check_token(self): self.head('/auth/tokens', headers=self.headers, expected_status=http_client.OK) def test_validate_token(self): r = self.get('/auth/tokens', headers=self.headers) self.assertValidUnscopedTokenResponse(r) def test_validate_missing_subject_token(self): self.get('/auth/tokens', expected_status=http_client.NOT_FOUND) def test_validate_missing_auth_token(self): self.admin_request( method='GET', path='/v3/projects', token=None, expected_status=http_client.UNAUTHORIZED) def test_validate_token_nocatalog(self): v3_token = self.get_requested_token(self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], project_id=self.project['id'])) r = self.get( '/auth/tokens?nocatalog', headers={'X-Subject-Token': v3_token}) self.assertValidProjectScopedTokenResponse(r, require_catalog=False) def test_is_admin_token_by_ids(self): self.config_fixture.config( group='resource', admin_project_domain_name=self.domain['name'], admin_project_name=self.project['name']) r = self.v3_create_token(self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], project_id=self.project['id'])) self.assertValidProjectScopedTokenResponse(r, is_admin_project=True) v3_token = r.headers.get('X-Subject-Token') r = self.get('/auth/tokens', headers={'X-Subject-Token': v3_token}) self.assertValidProjectScopedTokenResponse(r, is_admin_project=True) def test_is_admin_token_by_names(self): self.config_fixture.config( group='resource', admin_project_domain_name=self.domain['name'], admin_project_name=self.project['name']) r = self.v3_create_token(self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], project_domain_name=self.domain['name'], project_name=self.project['name'])) self.assertValidProjectScopedTokenResponse(r, is_admin_project=True) v3_token = r.headers.get('X-Subject-Token') r = self.get('/auth/tokens', headers={'X-Subject-Token': v3_token}) self.assertValidProjectScopedTokenResponse(r, is_admin_project=True) def test_token_for_non_admin_project_is_not_admin(self): self.config_fixture.config( group='resource', admin_project_domain_name=self.domain['name'], admin_project_name=uuid.uuid4().hex) r = self.v3_create_token(self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], project_id=self.project['id'])) self.assertValidProjectScopedTokenResponse(r, is_admin_project=False) v3_token = r.headers.get('X-Subject-Token') r = self.get('/auth/tokens', headers={'X-Subject-Token': v3_token}) self.assertValidProjectScopedTokenResponse(r, is_admin_project=False) def test_token_for_non_admin_domain_same_project_name_is_not_admin(self): self.config_fixture.config( group='resource', admin_project_domain_name=uuid.uuid4().hex, admin_project_name=self.project['name']) r = self.v3_create_token(self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], project_id=self.project['id'])) self.assertValidProjectScopedTokenResponse(r, is_admin_project=False) v3_token = r.headers.get('X-Subject-Token') r = self.get('/auth/tokens', headers={'X-Subject-Token': v3_token}) self.assertValidProjectScopedTokenResponse(r, is_admin_project=False) def test_only_admin_project_set_acts_as_non_admin(self): self.config_fixture.config( group='resource', admin_project_name=self.project['name']) r = self.v3_create_token(self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], project_id=self.project['id'])) self.assertValidProjectScopedTokenResponse(r, is_admin_project=None) v3_token = r.headers.get('X-Subject-Token') r = self.get('/auth/tokens', headers={'X-Subject-Token': v3_token}) self.assertValidProjectScopedTokenResponse(r, is_admin_project=None) def _create_role(self, domain_id=None): """Call ``POST /roles``.""" ref = unit.new_role_ref(domain_id=domain_id) r = self.post('/roles', body={'role': ref}) return self.assertValidRoleResponse(r, ref) def _create_implied_role(self, prior_id): implied = self._create_role() url = '/roles/%s/implies/%s' % (prior_id, implied['id']) self.put(url, expected_status=http_client.CREATED) return implied def _delete_implied_role(self, prior_role_id, implied_role_id): url = '/roles/%s/implies/%s' % (prior_role_id, implied_role_id) self.delete(url) def _get_scoped_token_roles(self, is_domain=False): if is_domain: v3_token = self.get_domain_scoped_token() else: v3_token = self.get_scoped_token() r = self.get('/auth/tokens', headers={'X-Subject-Token': v3_token}) v3_token_data = r.result token_roles = v3_token_data['token']['roles'] return token_roles def _create_implied_role_shows_in_v3_token(self, is_domain): token_roles = self._get_scoped_token_roles(is_domain) self.assertEqual(1, len(token_roles)) prior = token_roles[0]['id'] implied1 = self._create_implied_role(prior) token_roles = self._get_scoped_token_roles(is_domain) self.assertEqual(2, len(token_roles)) implied2 = self._create_implied_role(prior) token_roles = self._get_scoped_token_roles(is_domain) self.assertEqual(3, len(token_roles)) token_role_ids = [role['id'] for role in token_roles] self.assertIn(prior, token_role_ids) self.assertIn(implied1['id'], token_role_ids) self.assertIn(implied2['id'], token_role_ids) def test_create_implied_role_shows_in_v3_project_token(self): # regardless of the default chosen, this should always # test with the option set. self.config_fixture.config(group='token', infer_roles=True) self._create_implied_role_shows_in_v3_token(False) def test_create_implied_role_shows_in_v3_domain_token(self): self.config_fixture.config(group='token', infer_roles=True) self.assignment_api.create_grant(self.role['id'], user_id=self.user['id'], domain_id=self.domain['id']) self._create_implied_role_shows_in_v3_token(True) def test_group_assigned_implied_role_shows_in_v3_token(self): self.config_fixture.config(group='token', infer_roles=True) is_domain = False token_roles = self._get_scoped_token_roles(is_domain) self.assertEqual(1, len(token_roles)) new_role = self._create_role() prior = new_role['id'] new_group_ref = unit.new_group_ref(domain_id=self.domain['id']) new_group = self.identity_api.create_group(new_group_ref) self.assignment_api.create_grant(prior, group_id=new_group['id'], project_id=self.project['id']) token_roles = self._get_scoped_token_roles(is_domain) self.assertEqual(1, len(token_roles)) self.identity_api.add_user_to_group(self.user['id'], new_group['id']) token_roles = self._get_scoped_token_roles(is_domain) self.assertEqual(2, len(token_roles)) implied1 = self._create_implied_role(prior) token_roles = self._get_scoped_token_roles(is_domain) self.assertEqual(3, len(token_roles)) implied2 = self._create_implied_role(prior) token_roles = self._get_scoped_token_roles(is_domain) self.assertEqual(4, len(token_roles)) token_role_ids = [role['id'] for role in token_roles] self.assertIn(prior, token_role_ids) self.assertIn(implied1['id'], token_role_ids) self.assertIn(implied2['id'], token_role_ids) def test_multiple_implied_roles_show_in_v3_token(self): self.config_fixture.config(group='token', infer_roles=True) token_roles = self._get_scoped_token_roles() self.assertEqual(1, len(token_roles)) prior = token_roles[0]['id'] implied1 = self._create_implied_role(prior) implied2 = self._create_implied_role(prior) implied3 = self._create_implied_role(prior) token_roles = self._get_scoped_token_roles() self.assertEqual(4, len(token_roles)) token_role_ids = [role['id'] for role in token_roles] self.assertIn(prior, token_role_ids) self.assertIn(implied1['id'], token_role_ids) self.assertIn(implied2['id'], token_role_ids) self.assertIn(implied3['id'], token_role_ids) def test_chained_implied_role_shows_in_v3_token(self): self.config_fixture.config(group='token', infer_roles=True) token_roles = self._get_scoped_token_roles() self.assertEqual(1, len(token_roles)) prior = token_roles[0]['id'] implied1 = self._create_implied_role(prior) implied2 = self._create_implied_role(implied1['id']) implied3 = self._create_implied_role(implied2['id']) token_roles = self._get_scoped_token_roles() self.assertEqual(4, len(token_roles)) token_role_ids = [role['id'] for role in token_roles] self.assertIn(prior, token_role_ids) self.assertIn(implied1['id'], token_role_ids) self.assertIn(implied2['id'], token_role_ids) self.assertIn(implied3['id'], token_role_ids) def test_implied_role_disabled_by_config(self): self.config_fixture.config(group='token', infer_roles=False) token_roles = self._get_scoped_token_roles() self.assertEqual(1, len(token_roles)) prior = token_roles[0]['id'] implied1 = self._create_implied_role(prior) implied2 = self._create_implied_role(implied1['id']) self._create_implied_role(implied2['id']) token_roles = self._get_scoped_token_roles() self.assertEqual(1, len(token_roles)) token_role_ids = [role['id'] for role in token_roles] self.assertIn(prior, token_role_ids) def test_delete_implied_role_do_not_show_in_v3_token(self): self.config_fixture.config(group='token', infer_roles=True) token_roles = self._get_scoped_token_roles() prior = token_roles[0]['id'] implied = self._create_implied_role(prior) token_roles = self._get_scoped_token_roles() self.assertEqual(2, len(token_roles)) self._delete_implied_role(prior, implied['id']) token_roles = self._get_scoped_token_roles() self.assertEqual(1, len(token_roles)) def test_unrelated_implied_roles_do_not_change_v3_token(self): self.config_fixture.config(group='token', infer_roles=True) token_roles = self._get_scoped_token_roles() prior = token_roles[0]['id'] implied = self._create_implied_role(prior) token_roles = self._get_scoped_token_roles() self.assertEqual(2, len(token_roles)) unrelated = self._create_role() url = '/roles/%s/implies/%s' % (unrelated['id'], implied['id']) self.put(url, expected_status=http_client.CREATED) token_roles = self._get_scoped_token_roles() self.assertEqual(2, len(token_roles)) self._delete_implied_role(unrelated['id'], implied['id']) token_roles = self._get_scoped_token_roles() self.assertEqual(2, len(token_roles)) def test_domain_scpecific_roles_do_not_show_v3_token(self): self.config_fixture.config(group='token', infer_roles=True) initial_token_roles = self._get_scoped_token_roles() new_role = self._create_role(domain_id=self.domain_id) self.assignment_api.create_grant(new_role['id'], user_id=self.user['id'], project_id=self.project['id']) implied = self._create_implied_role(new_role['id']) token_roles = self._get_scoped_token_roles() self.assertEqual(len(initial_token_roles) + 1, len(token_roles)) # The implied role from the domain specific role should be in the # token, but not the domain specific role itself. token_role_ids = [role['id'] for role in token_roles] self.assertIn(implied['id'], token_role_ids) self.assertNotIn(new_role['id'], token_role_ids) def test_remove_all_roles_from_scope_result_in_404(self): # create a new user new_user = unit.create_user(self.identity_api, domain_id=self.domain['id']) # give the new user a role on a project path = '/projects/%s/users/%s/roles/%s' % ( self.project['id'], new_user['id'], self.role['id']) self.put(path=path) # authenticate as the new user and get a project-scoped token auth_data = self.build_authentication_request( user_id=new_user['id'], password=new_user['password'], project_id=self.project['id']) subject_token_id = self.v3_create_token(auth_data).headers.get( 'X-Subject-Token') # make sure the project-scoped token is valid headers = {'X-Subject-Token': subject_token_id} r = self.get('/auth/tokens', headers=headers) self.assertValidProjectScopedTokenResponse(r) # remove the roles from the user for the given scope path = '/projects/%s/users/%s/roles/%s' % ( self.project['id'], new_user['id'], self.role['id']) self.delete(path=path) # token validation should now result in 404 self.get('/auth/tokens', headers=headers, expected_status=http_client.NOT_FOUND) def test_create_token_with_nonexistant_user_id_fails(self): auth_data = self.build_authentication_request( user_id=uuid.uuid4().hex, password=self.user['password']) self.v3_create_token(auth_data, expected_status=http_client.UNAUTHORIZED) def test_create_token_with_nonexistant_username_fails(self): auth_data = self.build_authentication_request( username=uuid.uuid4().hex, user_domain_id=self.domain['id'], password=self.user['password']) self.v3_create_token(auth_data, expected_status=http_client.UNAUTHORIZED) def test_create_token_with_nonexistant_domain_id_fails(self): auth_data = self.build_authentication_request( username=self.user['name'], user_domain_id=uuid.uuid4().hex, password=self.user['password']) self.v3_create_token(auth_data, expected_status=http_client.UNAUTHORIZED) def test_create_token_with_nonexistant_domain_name_fails(self): auth_data = self.build_authentication_request( username=self.user['name'], user_domain_name=uuid.uuid4().hex, password=self.user['password']) self.v3_create_token(auth_data, expected_status=http_client.UNAUTHORIZED) def test_create_token_with_wrong_password_fails(self): auth_data = self.build_authentication_request( user_id=self.user['id'], password=uuid.uuid4().hex) self.v3_create_token(auth_data, expected_status=http_client.UNAUTHORIZED) def test_user_and_group_roles_scoped_token(self): """Test correct roles are returned in scoped token. Test Plan: - Create a domain, with 1 project, 2 users (user1 and user2) and 2 groups (group1 and group2) - Make user1 a member of group1, user2 a member of group2 - Create 8 roles, assigning them to each of the 8 combinations of users/groups on domain/project - Get a project scoped token for user1, checking that the right two roles are returned (one directly assigned, one by virtue of group membership) - Repeat this for a domain scoped token - Make user1 also a member of group2 - Get another scoped token making sure the additional role shows up - User2 is just here as a spoiler, to make sure we don't get any roles uniquely assigned to it returned in any of our tokens """ domainA = unit.new_domain_ref() self.resource_api.create_domain(domainA['id'], domainA) projectA = unit.new_project_ref(domain_id=domainA['id']) self.resource_api.create_project(projectA['id'], projectA) user1 = unit.create_user(self.identity_api, domain_id=domainA['id']) user2 = unit.create_user(self.identity_api, domain_id=domainA['id']) group1 = unit.new_group_ref(domain_id=domainA['id']) group1 = self.identity_api.create_group(group1) group2 = unit.new_group_ref(domain_id=domainA['id']) group2 = self.identity_api.create_group(group2) self.identity_api.add_user_to_group(user1['id'], group1['id']) self.identity_api.add_user_to_group(user2['id'], group2['id']) # Now create all the roles and assign them role_list = [] for _ in range(8): role = unit.new_role_ref() self.role_api.create_role(role['id'], role) role_list.append(role) self.assignment_api.create_grant(role_list[0]['id'], user_id=user1['id'], domain_id=domainA['id']) self.assignment_api.create_grant(role_list[1]['id'], user_id=user1['id'], project_id=projectA['id']) self.assignment_api.create_grant(role_list[2]['id'], user_id=user2['id'], domain_id=domainA['id']) self.assignment_api.create_grant(role_list[3]['id'], user_id=user2['id'], project_id=projectA['id']) self.assignment_api.create_grant(role_list[4]['id'], group_id=group1['id'], domain_id=domainA['id']) self.assignment_api.create_grant(role_list[5]['id'], group_id=group1['id'], project_id=projectA['id']) self.assignment_api.create_grant(role_list[6]['id'], group_id=group2['id'], domain_id=domainA['id']) self.assignment_api.create_grant(role_list[7]['id'], group_id=group2['id'], project_id=projectA['id']) # First, get a project scoped token - which should # contain the direct user role and the one by virtue # of group membership auth_data = self.build_authentication_request( user_id=user1['id'], password=user1['password'], project_id=projectA['id']) r = self.v3_create_token(auth_data) token = self.assertValidScopedTokenResponse(r) roles_ids = [] for ref in token['roles']: roles_ids.append(ref['id']) self.assertEqual(2, len(token['roles'])) self.assertIn(role_list[1]['id'], roles_ids) self.assertIn(role_list[5]['id'], roles_ids) # Now the same thing for a domain scoped token auth_data = self.build_authentication_request( user_id=user1['id'], password=user1['password'], domain_id=domainA['id']) r = self.v3_create_token(auth_data) token = self.assertValidScopedTokenResponse(r) roles_ids = [] for ref in token['roles']: roles_ids.append(ref['id']) self.assertEqual(2, len(token['roles'])) self.assertIn(role_list[0]['id'], roles_ids) self.assertIn(role_list[4]['id'], roles_ids) # Finally, add user1 to the 2nd group, and get a new # scoped token - the extra role should now be included # by virtue of the 2nd group self.identity_api.add_user_to_group(user1['id'], group2['id']) auth_data = self.build_authentication_request( user_id=user1['id'], password=user1['password'], project_id=projectA['id']) r = self.v3_create_token(auth_data) token = self.assertValidScopedTokenResponse(r) roles_ids = [] for ref in token['roles']: roles_ids.append(ref['id']) self.assertEqual(3, len(token['roles'])) self.assertIn(role_list[1]['id'], roles_ids) self.assertIn(role_list[5]['id'], roles_ids) self.assertIn(role_list[7]['id'], roles_ids) def test_auth_token_cross_domain_group_and_project(self): """Verify getting a token in cross domain group/project roles.""" # create domain, project and group and grant roles to user domain1 = unit.new_domain_ref() self.resource_api.create_domain(domain1['id'], domain1) project1 = unit.new_project_ref(domain_id=domain1['id']) self.resource_api.create_project(project1['id'], project1) user_foo = unit.create_user(self.identity_api, domain_id=test_v3.DEFAULT_DOMAIN_ID) role_member = unit.new_role_ref() self.role_api.create_role(role_member['id'], role_member) role_admin = unit.new_role_ref() self.role_api.create_role(role_admin['id'], role_admin) role_foo_domain1 = unit.new_role_ref() self.role_api.create_role(role_foo_domain1['id'], role_foo_domain1) role_group_domain1 = unit.new_role_ref() self.role_api.create_role(role_group_domain1['id'], role_group_domain1) self.assignment_api.add_user_to_project(project1['id'], user_foo['id']) new_group = unit.new_group_ref(domain_id=domain1['id']) new_group = self.identity_api.create_group(new_group) self.identity_api.add_user_to_group(user_foo['id'], new_group['id']) self.assignment_api.create_grant( user_id=user_foo['id'], project_id=project1['id'], role_id=role_member['id']) self.assignment_api.create_grant( group_id=new_group['id'], project_id=project1['id'], role_id=role_admin['id']) self.assignment_api.create_grant( user_id=user_foo['id'], domain_id=domain1['id'], role_id=role_foo_domain1['id']) self.assignment_api.create_grant( group_id=new_group['id'], domain_id=domain1['id'], role_id=role_group_domain1['id']) # Get a scoped token for the project auth_data = self.build_authentication_request( username=user_foo['name'], user_domain_id=test_v3.DEFAULT_DOMAIN_ID, password=user_foo['password'], project_name=project1['name'], project_domain_id=domain1['id']) r = self.v3_create_token(auth_data) scoped_token = self.assertValidScopedTokenResponse(r) project = scoped_token["project"] roles_ids = [] for ref in scoped_token['roles']: roles_ids.append(ref['id']) self.assertEqual(project1['id'], project["id"]) self.assertIn(role_member['id'], roles_ids) self.assertIn(role_admin['id'], roles_ids) self.assertNotIn(role_foo_domain1['id'], roles_ids) self.assertNotIn(role_group_domain1['id'], roles_ids) def test_remote_user_no_realm(self): api = auth.controllers.Auth() context, auth_info, auth_context = self.build_external_auth_request( self.default_domain_user['name']) api.authenticate(context, auth_info, auth_context) self.assertEqual(self.default_domain_user['id'], auth_context['user_id']) # Now test to make sure the user name can, itself, contain the # '@' character. user = {'name': 'myname@mydivision'} self.identity_api.update_user(self.default_domain_user['id'], user) context, auth_info, auth_context = self.build_external_auth_request( user["name"]) api.authenticate(context, auth_info, auth_context) self.assertEqual(self.default_domain_user['id'], auth_context['user_id']) def test_remote_user_no_domain(self): api = auth.controllers.Auth() context, auth_info, auth_context = self.build_external_auth_request( self.user['name']) self.assertRaises(exception.Unauthorized, api.authenticate, context, auth_info, auth_context) def test_remote_user_and_password(self): # both REMOTE_USER and password methods must pass. # note that they do not have to match api = auth.controllers.Auth() auth_data = self.build_authentication_request( user_domain_id=self.default_domain_user['domain_id'], username=self.default_domain_user['name'], password=self.default_domain_user['password'])['auth'] context, auth_info, auth_context = self.build_external_auth_request( self.default_domain_user['name'], auth_data=auth_data) api.authenticate(context, auth_info, auth_context) def test_remote_user_and_explicit_external(self): # both REMOTE_USER and password methods must pass. # note that they do not have to match auth_data = self.build_authentication_request( user_domain_id=self.domain['id'], username=self.user['name'], password=self.user['password'])['auth'] auth_data['identity']['methods'] = ["password", "external"] auth_data['identity']['external'] = {} api = auth.controllers.Auth() auth_info = auth.controllers.AuthInfo(None, auth_data) auth_context = {'extras': {}, 'method_names': []} self.assertRaises(exception.Unauthorized, api.authenticate, self.make_request(), auth_info, auth_context) def test_remote_user_bad_password(self): # both REMOTE_USER and password methods must pass. api = auth.controllers.Auth() auth_data = self.build_authentication_request( user_domain_id=self.domain['id'], username=self.user['name'], password='badpassword')['auth'] context, auth_info, auth_context = self.build_external_auth_request( self.default_domain_user['name'], auth_data=auth_data) self.assertRaises(exception.Unauthorized, api.authenticate, context, auth_info, auth_context) def test_bind_not_set_with_remote_user(self): self.config_fixture.config(group='token', bind=[]) auth_data = self.build_authentication_request() remote_user = self.default_domain_user['name'] self.admin_app.extra_environ.update({'REMOTE_USER': remote_user, 'AUTH_TYPE': 'Negotiate'}) r = self.v3_create_token(auth_data) token = self.assertValidUnscopedTokenResponse(r) self.assertNotIn('bind', token) def test_verify_with_bound_token(self): self.config_fixture.config(group='token', bind='kerberos') auth_data = self.build_authentication_request( project_id=self.project['id']) remote_user = self.default_domain_user['name'] self.admin_app.extra_environ.update({'REMOTE_USER': remote_user, 'AUTH_TYPE': 'Negotiate'}) token = self.get_requested_token(auth_data) headers = {'X-Subject-Token': token} r = self.get('/auth/tokens', headers=headers, token=token) token = self.assertValidProjectScopedTokenResponse(r) self.assertEqual(self.default_domain_user['name'], token['bind']['kerberos']) def test_auth_with_bind_token(self): self.config_fixture.config(group='token', bind=['kerberos']) auth_data = self.build_authentication_request() remote_user = self.default_domain_user['name'] self.admin_app.extra_environ.update({'REMOTE_USER': remote_user, 'AUTH_TYPE': 'Negotiate'}) r = self.v3_create_token(auth_data) # the unscoped token should have bind information in it token = self.assertValidUnscopedTokenResponse(r) self.assertEqual(remote_user, token['bind']['kerberos']) token = r.headers.get('X-Subject-Token') # using unscoped token with remote user succeeds auth_params = {'token': token, 'project_id': self.project_id} auth_data = self.build_authentication_request(**auth_params) r = self.v3_create_token(auth_data) token = self.assertValidProjectScopedTokenResponse(r) # the bind information should be carried over from the original token self.assertEqual(remote_user, token['bind']['kerberos']) def test_v2_v3_bind_token_intermix(self): self.config_fixture.config(group='token', bind='kerberos') # we need our own user registered to the default domain because of # the way external auth works. remote_user = self.default_domain_user['name'] self.admin_app.extra_environ.update({'REMOTE_USER': remote_user, 'AUTH_TYPE': 'Negotiate'}) body = {'auth': {}} resp = self.admin_request(path='/v2.0/tokens', method='POST', body=body) v2_token_data = resp.result bind = v2_token_data['access']['token']['bind'] self.assertEqual(self.default_domain_user['name'], bind['kerberos']) v2_token_id = v2_token_data['access']['token']['id'] # NOTE(gyee): self.get() will try to obtain an auth token if one # is not provided. When REMOTE_USER is present in the request # environment, the external user auth plugin is used in conjunction # with the password auth for the admin user. Therefore, we need to # cleanup the REMOTE_USER information from the previous call. del self.admin_app.extra_environ['REMOTE_USER'] headers = {'X-Subject-Token': v2_token_id} resp = self.get('/auth/tokens', headers=headers) token_data = resp.result self.assertDictEqual(v2_token_data['access']['token']['bind'], token_data['token']['bind']) class TokenDataTests(object): """Test the data in specific token types.""" def test_unscoped_token_format(self): # ensure the unscoped token response contains the appropriate data r = self.get('/auth/tokens', headers=self.headers) self.assertValidUnscopedTokenResponse(r) def test_domain_scoped_token_format(self): # ensure the domain scoped token response contains the appropriate data self.assignment_api.create_grant( self.role['id'], user_id=self.default_domain_user['id'], domain_id=self.domain['id']) domain_scoped_token = self.get_requested_token( self.build_authentication_request( user_id=self.default_domain_user['id'], password=self.default_domain_user['password'], domain_id=self.domain['id']) ) self.headers['X-Subject-Token'] = domain_scoped_token r = self.get('/auth/tokens', headers=self.headers) self.assertValidDomainScopedTokenResponse(r) def test_project_scoped_token_format(self): # ensure project scoped token responses contains the appropriate data project_scoped_token = self.get_requested_token( self.build_authentication_request( user_id=self.default_domain_user['id'], password=self.default_domain_user['password'], project_id=self.default_domain_project['id']) ) self.headers['X-Subject-Token'] = project_scoped_token r = self.get('/auth/tokens', headers=self.headers) self.assertValidProjectScopedTokenResponse(r) def test_extra_data_in_unscoped_token_fails_validation(self): # ensure unscoped token response contains the appropriate data r = self.get('/auth/tokens', headers=self.headers) # populate the response result with some extra data r.result['token'][u'extra'] = six.text_type(uuid.uuid4().hex) self.assertRaises(exception.SchemaValidationError, self.assertValidUnscopedTokenResponse, r) def test_extra_data_in_domain_scoped_token_fails_validation(self): # ensure domain scoped token response contains the appropriate data self.assignment_api.create_grant( self.role['id'], user_id=self.default_domain_user['id'], domain_id=self.domain['id']) domain_scoped_token = self.get_requested_token( self.build_authentication_request( user_id=self.default_domain_user['id'], password=self.default_domain_user['password'], domain_id=self.domain['id']) ) self.headers['X-Subject-Token'] = domain_scoped_token r = self.get('/auth/tokens', headers=self.headers) # populate the response result with some extra data r.result['token'][u'extra'] = six.text_type(uuid.uuid4().hex) self.assertRaises(exception.SchemaValidationError, self.assertValidDomainScopedTokenResponse, r) def test_extra_data_in_project_scoped_token_fails_validation(self): # ensure project scoped token responses contains the appropriate data project_scoped_token = self.get_requested_token( self.build_authentication_request( user_id=self.default_domain_user['id'], password=self.default_domain_user['password'], project_id=self.default_domain_project['id']) ) self.headers['X-Subject-Token'] = project_scoped_token resp = self.get('/auth/tokens', headers=self.headers) # populate the response result with some extra data resp.result['token'][u'extra'] = six.text_type(uuid.uuid4().hex) self.assertRaises(exception.SchemaValidationError, self.assertValidProjectScopedTokenResponse, resp) class AllowRescopeScopedTokenDisabledTests(test_v3.RestfulTestCase): def config_overrides(self): super(AllowRescopeScopedTokenDisabledTests, self).config_overrides() self.config_fixture.config( group='token', allow_rescope_scoped_token=False) def test_rescoping_v3_to_v3_disabled(self): self.v3_create_token( self.build_authentication_request( token=self.get_scoped_token(), project_id=self.project_id), expected_status=http_client.FORBIDDEN) def _v2_token(self): body = { 'auth': { "tenantId": self.default_domain_project['id'], 'passwordCredentials': { 'userId': self.default_domain_user['id'], 'password': self.default_domain_user['password'] } }} resp = self.admin_request(path='/v2.0/tokens', method='POST', body=body) v2_token_data = resp.result return v2_token_data def _v2_token_from_token(self, token): body = { 'auth': { "tenantId": self.project['id'], "token": token }} self.admin_request(path='/v2.0/tokens', method='POST', body=body, expected_status=http_client.FORBIDDEN) def test_rescoping_v2_to_v3_disabled(self): token = self._v2_token() self.v3_create_token( self.build_authentication_request( token=token['access']['token']['id'], project_id=self.project_id), expected_status=http_client.FORBIDDEN) def test_rescoping_v3_to_v2_disabled(self): token = {'id': self.get_scoped_token()} self._v2_token_from_token(token) def test_rescoping_v2_to_v2_disabled(self): token = self._v2_token() self._v2_token_from_token(token['access']['token']) def test_rescoped_domain_token_disabled(self): self.domainA = unit.new_domain_ref() self.resource_api.create_domain(self.domainA['id'], self.domainA) self.assignment_api.create_grant(self.role['id'], user_id=self.user['id'], domain_id=self.domainA['id']) unscoped_token = self.get_requested_token( self.build_authentication_request( user_id=self.user['id'], password=self.user['password'])) # Get a domain-scoped token from the unscoped token domain_scoped_token = self.get_requested_token( self.build_authentication_request( token=unscoped_token, domain_id=self.domainA['id'])) self.v3_create_token( self.build_authentication_request( token=domain_scoped_token, project_id=self.project_id), expected_status=http_client.FORBIDDEN) class TestPKITokenAPIs(test_v3.RestfulTestCase, TokenAPITests, TokenDataTests): def config_overrides(self): super(TestPKITokenAPIs, self).config_overrides() self.config_fixture.config(group='token', provider='pki') def setUp(self): super(TestPKITokenAPIs, self).setUp() self.doSetUp() def verify_token(self, *args, **kwargs): return cms.verify_token(*args, **kwargs) def test_v3_token_id(self): auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password']) resp = self.v3_create_token(auth_data) token_data = resp.result token_id = resp.headers.get('X-Subject-Token') self.assertIn('expires_at', token_data['token']) decoded_token = self.verify_token(token_id, CONF.signing.certfile, CONF.signing.ca_certs) decoded_token_dict = json.loads(decoded_token) token_resp_dict = json.loads(resp.body) self.assertEqual(decoded_token_dict, token_resp_dict) # should be able to validate hash PKI token as well hash_token_id = cms.cms_hash_token(token_id) headers = {'X-Subject-Token': hash_token_id} resp = self.get('/auth/tokens', headers=headers) expected_token_data = resp.result self.assertDictEqual(expected_token_data, token_data) def test_v3_v2_hashed_pki_token_intermix(self): auth_data = self.build_authentication_request( user_id=self.default_domain_user['id'], password=self.default_domain_user['password'], project_id=self.default_domain_project['id']) resp = self.v3_create_token(auth_data) token_data = resp.result token = resp.headers.get('X-Subject-Token') # should be able to validate a hash PKI token in v2 too token = cms.cms_hash_token(token) path = '/v2.0/tokens/%s' % (token) resp = self.admin_request(path=path, token=self.get_admin_token(), method='GET') v2_token = resp.result self.assertEqual(v2_token['access']['user']['id'], token_data['token']['user']['id']) self.assertTimestampEqual(v2_token['access']['token']['expires'], token_data['token']['expires_at']) self.assertEqual(v2_token['access']['user']['roles'][0]['name'], token_data['token']['roles'][0]['name']) class TestPKIZTokenAPIs(TestPKITokenAPIs): def config_overrides(self): super(TestPKIZTokenAPIs, self).config_overrides() self.config_fixture.config(group='token', provider='pkiz') def verify_token(self, *args, **kwargs): return cms.pkiz_verify(*args, **kwargs) class TestUUIDTokenAPIs(test_v3.RestfulTestCase, TokenAPITests, TokenDataTests): def config_overrides(self): super(TestUUIDTokenAPIs, self).config_overrides() self.config_fixture.config(group='token', provider='uuid') def setUp(self): super(TestUUIDTokenAPIs, self).setUp() self.doSetUp() def test_v3_token_id(self): auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password']) resp = self.v3_create_token(auth_data) token_data = resp.result token_id = resp.headers.get('X-Subject-Token') self.assertIn('expires_at', token_data['token']) self.assertFalse(cms.is_asn1_token(token_id)) class TestFernetTokenAPIs(test_v3.RestfulTestCase, TokenAPITests, TokenDataTests): def config_overrides(self): super(TestFernetTokenAPIs, self).config_overrides() self.config_fixture.config(group='token', provider='fernet') self.useFixture(ksfixtures.KeyRepository(self.config_fixture)) def setUp(self): super(TestFernetTokenAPIs, self).setUp() self.doSetUp() def _make_auth_request(self, auth_data): token = super(TestFernetTokenAPIs, self)._make_auth_request(auth_data) self.assertLess(len(token), 255) return token def test_validate_tampered_unscoped_token_fails(self): unscoped_token = self._get_unscoped_token() tampered_token = (unscoped_token[:50] + uuid.uuid4().hex + unscoped_token[50 + 32:]) self._validate_token(tampered_token, expected_status=http_client.NOT_FOUND) def test_validate_tampered_project_scoped_token_fails(self): project_scoped_token = self._get_project_scoped_token() tampered_token = (project_scoped_token[:50] + uuid.uuid4().hex + project_scoped_token[50 + 32:]) self._validate_token(tampered_token, expected_status=http_client.NOT_FOUND) def test_validate_tampered_trust_scoped_token_fails(self): trustee_user, trust = self._create_trust() trust_scoped_token = self._get_trust_scoped_token(trustee_user, trust) # Get a trust scoped token tampered_token = (trust_scoped_token[:50] + uuid.uuid4().hex + trust_scoped_token[50 + 32:]) self._validate_token(tampered_token, expected_status=http_client.NOT_FOUND) def test_verify_with_bound_token(self): self.config_fixture.config(group='token', bind='kerberos') auth_data = self.build_authentication_request( project_id=self.project['id']) remote_user = self.default_domain_user['name'] self.admin_app.extra_environ.update({'REMOTE_USER': remote_user, 'AUTH_TYPE': 'Negotiate'}) # Bind not current supported by Fernet, see bug 1433311. self.v3_create_token(auth_data, expected_status=http_client.NOT_IMPLEMENTED) def test_v2_v3_bind_token_intermix(self): self.config_fixture.config(group='token', bind='kerberos') # we need our own user registered to the default domain because of # the way external auth works. remote_user = self.default_domain_user['name'] self.admin_app.extra_environ.update({'REMOTE_USER': remote_user, 'AUTH_TYPE': 'Negotiate'}) body = {'auth': {}} # Bind not current supported by Fernet, see bug 1433311. self.admin_request(path='/v2.0/tokens', method='POST', body=body, expected_status=http_client.NOT_IMPLEMENTED) def test_auth_with_bind_token(self): self.config_fixture.config(group='token', bind=['kerberos']) auth_data = self.build_authentication_request() remote_user = self.default_domain_user['name'] self.admin_app.extra_environ.update({'REMOTE_USER': remote_user, 'AUTH_TYPE': 'Negotiate'}) # Bind not current supported by Fernet, see bug 1433311. self.v3_create_token(auth_data, expected_status=http_client.NOT_IMPLEMENTED) class TestTokenRevokeSelfAndAdmin(test_v3.RestfulTestCase): """Test token revoke using v3 Identity API by token owner and admin.""" def load_sample_data(self): """Load Sample Data for Test Cases. Two domains, domainA and domainB Two users in domainA, userNormalA and userAdminA One user in domainB, userAdminB """ super(TestTokenRevokeSelfAndAdmin, self).load_sample_data() # DomainA setup self.domainA = unit.new_domain_ref() self.resource_api.create_domain(self.domainA['id'], self.domainA) self.userAdminA = unit.create_user(self.identity_api, domain_id=self.domainA['id']) self.userNormalA = unit.create_user(self.identity_api, domain_id=self.domainA['id']) self.assignment_api.create_grant(self.role['id'], user_id=self.userAdminA['id'], domain_id=self.domainA['id']) def _policy_fixture(self): return ksfixtures.Policy(unit.dirs.etc('policy.v3cloudsample.json'), self.config_fixture) def test_user_revokes_own_token(self): user_token = self.get_requested_token( self.build_authentication_request( user_id=self.userNormalA['id'], password=self.userNormalA['password'], user_domain_id=self.domainA['id'])) self.assertNotEmpty(user_token) headers = {'X-Subject-Token': user_token} adminA_token = self.get_requested_token( self.build_authentication_request( user_id=self.userAdminA['id'], password=self.userAdminA['password'], domain_name=self.domainA['name'])) self.head('/auth/tokens', headers=headers, expected_status=http_client.OK, token=adminA_token) self.head('/auth/tokens', headers=headers, expected_status=http_client.OK, token=user_token) self.delete('/auth/tokens', headers=headers, token=user_token) # invalid X-Auth-Token and invalid X-Subject-Token self.head('/auth/tokens', headers=headers, expected_status=http_client.UNAUTHORIZED, token=user_token) # invalid X-Auth-Token and invalid X-Subject-Token self.delete('/auth/tokens', headers=headers, expected_status=http_client.UNAUTHORIZED, token=user_token) # valid X-Auth-Token and invalid X-Subject-Token self.delete('/auth/tokens', headers=headers, expected_status=http_client.NOT_FOUND, token=adminA_token) # valid X-Auth-Token and invalid X-Subject-Token self.head('/auth/tokens', headers=headers, expected_status=http_client.NOT_FOUND, token=adminA_token) def test_adminA_revokes_userA_token(self): user_token = self.get_requested_token( self.build_authentication_request( user_id=self.userNormalA['id'], password=self.userNormalA['password'], user_domain_id=self.domainA['id'])) self.assertNotEmpty(user_token) headers = {'X-Subject-Token': user_token} adminA_token = self.get_requested_token( self.build_authentication_request( user_id=self.userAdminA['id'], password=self.userAdminA['password'], domain_name=self.domainA['name'])) self.head('/auth/tokens', headers=headers, expected_status=http_client.OK, token=adminA_token) self.head('/auth/tokens', headers=headers, expected_status=http_client.OK, token=user_token) self.delete('/auth/tokens', headers=headers, token=adminA_token) # invalid X-Auth-Token and invalid X-Subject-Token self.head('/auth/tokens', headers=headers, expected_status=http_client.UNAUTHORIZED, token=user_token) # valid X-Auth-Token and invalid X-Subject-Token self.delete('/auth/tokens', headers=headers, expected_status=http_client.NOT_FOUND, token=adminA_token) # valid X-Auth-Token and invalid X-Subject-Token self.head('/auth/tokens', headers=headers, expected_status=http_client.NOT_FOUND, token=adminA_token) def test_adminB_fails_revoking_userA_token(self): # DomainB setup self.domainB = unit.new_domain_ref() self.resource_api.create_domain(self.domainB['id'], self.domainB) userAdminB = unit.create_user(self.identity_api, domain_id=self.domainB['id']) self.assignment_api.create_grant(self.role['id'], user_id=userAdminB['id'], domain_id=self.domainB['id']) user_token = self.get_requested_token( self.build_authentication_request( user_id=self.userNormalA['id'], password=self.userNormalA['password'], user_domain_id=self.domainA['id'])) headers = {'X-Subject-Token': user_token} adminB_token = self.get_requested_token( self.build_authentication_request( user_id=userAdminB['id'], password=userAdminB['password'], domain_name=self.domainB['name'])) self.head('/auth/tokens', headers=headers, expected_status=http_client.FORBIDDEN, token=adminB_token) self.delete('/auth/tokens', headers=headers, expected_status=http_client.FORBIDDEN, token=adminB_token) class TestTokenRevokeById(test_v3.RestfulTestCase): """Test token revocation on the v3 Identity API.""" def config_overrides(self): super(TestTokenRevokeById, self).config_overrides() self.config_fixture.config( group='token', provider='pki', revoke_by_id=False) def setUp(self): """Setup for Token Revoking Test Cases. As well as the usual housekeeping, create a set of domains, users, groups, roles and projects for the subsequent tests: - Two domains: A & B - Three users (1, 2 and 3) - Three groups (1, 2 and 3) - Two roles (1 and 2) - DomainA owns user1, domainB owns user2 and user3 - DomainA owns group1 and group2, domainB owns group3 - User1 and user2 are members of group1 - User3 is a member of group2 - Two projects: A & B, both in domainA - Group1 has role1 on Project A and B, meaning that user1 and user2 will get these roles by virtue of membership - User1, 2 and 3 have role1 assigned to projectA - Group1 has role1 on Project A and B, meaning that user1 and user2 will get role1 (duplicated) by virtue of membership - User1 has role2 assigned to domainA """ super(TestTokenRevokeById, self).setUp() # Start by creating a couple of domains and projects self.domainA = unit.new_domain_ref() self.resource_api.create_domain(self.domainA['id'], self.domainA) self.domainB = unit.new_domain_ref() self.resource_api.create_domain(self.domainB['id'], self.domainB) self.projectA = unit.new_project_ref(domain_id=self.domainA['id']) self.resource_api.create_project(self.projectA['id'], self.projectA) self.projectB = unit.new_project_ref(domain_id=self.domainA['id']) self.resource_api.create_project(self.projectB['id'], self.projectB) # Now create some users self.user1 = unit.create_user(self.identity_api, domain_id=self.domainA['id']) self.user2 = unit.create_user(self.identity_api, domain_id=self.domainB['id']) self.user3 = unit.create_user(self.identity_api, domain_id=self.domainB['id']) self.group1 = unit.new_group_ref(domain_id=self.domainA['id']) self.group1 = self.identity_api.create_group(self.group1) self.group2 = unit.new_group_ref(domain_id=self.domainA['id']) self.group2 = self.identity_api.create_group(self.group2) self.group3 = unit.new_group_ref(domain_id=self.domainB['id']) self.group3 = self.identity_api.create_group(self.group3) self.identity_api.add_user_to_group(self.user1['id'], self.group1['id']) self.identity_api.add_user_to_group(self.user2['id'], self.group1['id']) self.identity_api.add_user_to_group(self.user3['id'], self.group2['id']) self.role1 = unit.new_role_ref() self.role_api.create_role(self.role1['id'], self.role1) self.role2 = unit.new_role_ref() self.role_api.create_role(self.role2['id'], self.role2) self.assignment_api.create_grant(self.role2['id'], user_id=self.user1['id'], domain_id=self.domainA['id']) self.assignment_api.create_grant(self.role1['id'], user_id=self.user1['id'], project_id=self.projectA['id']) self.assignment_api.create_grant(self.role1['id'], user_id=self.user2['id'], project_id=self.projectA['id']) self.assignment_api.create_grant(self.role1['id'], user_id=self.user3['id'], project_id=self.projectA['id']) self.assignment_api.create_grant(self.role1['id'], group_id=self.group1['id'], project_id=self.projectA['id']) def test_unscoped_token_remains_valid_after_role_assignment(self): unscoped_token = self.get_requested_token( self.build_authentication_request( user_id=self.user1['id'], password=self.user1['password'])) scoped_token = self.get_requested_token( self.build_authentication_request( token=unscoped_token, project_id=self.projectA['id'])) # confirm both tokens are valid self.head('/auth/tokens', headers={'X-Subject-Token': unscoped_token}, expected_status=http_client.OK) self.head('/auth/tokens', headers={'X-Subject-Token': scoped_token}, expected_status=http_client.OK) # create a new role role = unit.new_role_ref() self.role_api.create_role(role['id'], role) # assign a new role self.put( '/projects/%(project_id)s/users/%(user_id)s/roles/%(role_id)s' % { 'project_id': self.projectA['id'], 'user_id': self.user1['id'], 'role_id': role['id']}) # both tokens should remain valid self.head('/auth/tokens', headers={'X-Subject-Token': unscoped_token}, expected_status=http_client.OK) self.head('/auth/tokens', headers={'X-Subject-Token': scoped_token}, expected_status=http_client.OK) def test_deleting_user_grant_revokes_token(self): """Test deleting a user grant revokes token. Test Plan: - Get a token for user1, scoped to ProjectA - Delete the grant user1 has on ProjectA - Check token is no longer valid """ auth_data = self.build_authentication_request( user_id=self.user1['id'], password=self.user1['password'], project_id=self.projectA['id']) token = self.get_requested_token(auth_data) # Confirm token is valid self.head('/auth/tokens', headers={'X-Subject-Token': token}, expected_status=http_client.OK) # Delete the grant, which should invalidate the token grant_url = ( '/projects/%(project_id)s/users/%(user_id)s/' 'roles/%(role_id)s' % { 'project_id': self.projectA['id'], 'user_id': self.user1['id'], 'role_id': self.role1['id']}) self.delete(grant_url) self.head('/auth/tokens', headers={'X-Subject-Token': token}, expected_status=http_client.NOT_FOUND) def role_data_fixtures(self): self.projectC = unit.new_project_ref(domain_id=self.domainA['id']) self.resource_api.create_project(self.projectC['id'], self.projectC) self.user4 = unit.create_user(self.identity_api, domain_id=self.domainB['id']) self.user5 = unit.create_user(self.identity_api, domain_id=self.domainA['id']) self.user6 = unit.create_user(self.identity_api, domain_id=self.domainA['id']) self.identity_api.add_user_to_group(self.user5['id'], self.group1['id']) self.assignment_api.create_grant(self.role1['id'], group_id=self.group1['id'], project_id=self.projectB['id']) self.assignment_api.create_grant(self.role2['id'], user_id=self.user4['id'], project_id=self.projectC['id']) self.assignment_api.create_grant(self.role1['id'], user_id=self.user6['id'], project_id=self.projectA['id']) self.assignment_api.create_grant(self.role1['id'], user_id=self.user6['id'], domain_id=self.domainA['id']) def test_deleting_role_revokes_token(self): """Test deleting a role revokes token. Add some additional test data, namely: - A third project (project C) - Three additional users - user4 owned by domainB and user5 and 6 owned by domainA (different domain ownership should not affect the test results, just provided to broaden test coverage) - User5 is a member of group1 - Group1 gets an additional assignment - role1 on projectB as well as its existing role1 on projectA - User4 has role2 on Project C - User6 has role1 on projectA and domainA - This allows us to create 5 tokens by virtue of different types of role assignment: - user1, scoped to ProjectA by virtue of user role1 assignment - user5, scoped to ProjectB by virtue of group role1 assignment - user4, scoped to ProjectC by virtue of user role2 assignment - user6, scoped to ProjectA by virtue of user role1 assignment - user6, scoped to DomainA by virtue of user role1 assignment - role1 is then deleted - Check the tokens on Project A and B, and DomainA are revoked, but not the one for Project C """ self.role_data_fixtures() # Now we are ready to start issuing requests auth_data = self.build_authentication_request( user_id=self.user1['id'], password=self.user1['password'], project_id=self.projectA['id']) tokenA = self.get_requested_token(auth_data) auth_data = self.build_authentication_request( user_id=self.user5['id'], password=self.user5['password'], project_id=self.projectB['id']) tokenB = self.get_requested_token(auth_data) auth_data = self.build_authentication_request( user_id=self.user4['id'], password=self.user4['password'], project_id=self.projectC['id']) tokenC = self.get_requested_token(auth_data) auth_data = self.build_authentication_request( user_id=self.user6['id'], password=self.user6['password'], project_id=self.projectA['id']) tokenD = self.get_requested_token(auth_data) auth_data = self.build_authentication_request( user_id=self.user6['id'], password=self.user6['password'], domain_id=self.domainA['id']) tokenE = self.get_requested_token(auth_data) # Confirm tokens are valid self.head('/auth/tokens', headers={'X-Subject-Token': tokenA}, expected_status=http_client.OK) self.head('/auth/tokens', headers={'X-Subject-Token': tokenB}, expected_status=http_client.OK) self.head('/auth/tokens', headers={'X-Subject-Token': tokenC}, expected_status=http_client.OK) self.head('/auth/tokens', headers={'X-Subject-Token': tokenD}, expected_status=http_client.OK) self.head('/auth/tokens', headers={'X-Subject-Token': tokenE}, expected_status=http_client.OK) # Delete the role, which should invalidate the tokens role_url = '/roles/%s' % self.role1['id'] self.delete(role_url) # Check the tokens that used role1 is invalid self.head('/auth/tokens', headers={'X-Subject-Token': tokenA}, expected_status=http_client.NOT_FOUND) self.head('/auth/tokens', headers={'X-Subject-Token': tokenB}, expected_status=http_client.NOT_FOUND) self.head('/auth/tokens', headers={'X-Subject-Token': tokenD}, expected_status=http_client.NOT_FOUND) self.head('/auth/tokens', headers={'X-Subject-Token': tokenE}, expected_status=http_client.NOT_FOUND) # ...but the one using role2 is still valid self.head('/auth/tokens', headers={'X-Subject-Token': tokenC}, expected_status=http_client.OK) def test_domain_user_role_assignment_maintains_token(self): """Test user-domain role assignment maintains existing token. Test Plan: - Get a token for user1, scoped to ProjectA - Create a grant for user1 on DomainB - Check token is still valid """ auth_data = self.build_authentication_request( user_id=self.user1['id'], password=self.user1['password'], project_id=self.projectA['id']) token = self.get_requested_token(auth_data) # Confirm token is valid self.head('/auth/tokens', headers={'X-Subject-Token': token}, expected_status=http_client.OK) # Assign a role, which should not affect the token grant_url = ( '/domains/%(domain_id)s/users/%(user_id)s/' 'roles/%(role_id)s' % { 'domain_id': self.domainB['id'], 'user_id': self.user1['id'], 'role_id': self.role1['id']}) self.put(grant_url) self.head('/auth/tokens', headers={'X-Subject-Token': token}, expected_status=http_client.OK) def test_disabling_project_revokes_token(self): token = self.get_requested_token( self.build_authentication_request( user_id=self.user3['id'], password=self.user3['password'], project_id=self.projectA['id'])) # confirm token is valid self.head('/auth/tokens', headers={'X-Subject-Token': token}, expected_status=http_client.OK) # disable the project, which should invalidate the token self.patch( '/projects/%(project_id)s' % {'project_id': self.projectA['id']}, body={'project': {'enabled': False}}) # user should no longer have access to the project self.head('/auth/tokens', headers={'X-Subject-Token': token}, expected_status=http_client.NOT_FOUND) self.v3_create_token( self.build_authentication_request( user_id=self.user3['id'], password=self.user3['password'], project_id=self.projectA['id']), expected_status=http_client.UNAUTHORIZED) def test_deleting_project_revokes_token(self): token = self.get_requested_token( self.build_authentication_request( user_id=self.user3['id'], password=self.user3['password'], project_id=self.projectA['id'])) # confirm token is valid self.head('/auth/tokens', headers={'X-Subject-Token': token}, expected_status=http_client.OK) # delete the project, which should invalidate the token self.delete( '/projects/%(project_id)s' % {'project_id': self.projectA['id']}) # user should no longer have access to the project self.head('/auth/tokens', headers={'X-Subject-Token': token}, expected_status=http_client.NOT_FOUND) self.v3_create_token( self.build_authentication_request( user_id=self.user3['id'], password=self.user3['password'], project_id=self.projectA['id']), expected_status=http_client.UNAUTHORIZED) def test_deleting_group_grant_revokes_tokens(self): """Test deleting a group grant revokes tokens. Test Plan: - Get a token for user1, scoped to ProjectA - Get a token for user2, scoped to ProjectA - Get a token for user3, scoped to ProjectA - Delete the grant group1 has on ProjectA - Check tokens for user1 & user2 are no longer valid, since user1 and user2 are members of group1 - Check token for user3 is invalid too """ auth_data = self.build_authentication_request( user_id=self.user1['id'], password=self.user1['password'], project_id=self.projectA['id']) token1 = self.get_requested_token(auth_data) auth_data = self.build_authentication_request( user_id=self.user2['id'], password=self.user2['password'], project_id=self.projectA['id']) token2 = self.get_requested_token(auth_data) auth_data = self.build_authentication_request( user_id=self.user3['id'], password=self.user3['password'], project_id=self.projectA['id']) token3 = self.get_requested_token(auth_data) # Confirm tokens are valid self.head('/auth/tokens', headers={'X-Subject-Token': token1}, expected_status=http_client.OK) self.head('/auth/tokens', headers={'X-Subject-Token': token2}, expected_status=http_client.OK) self.head('/auth/tokens', headers={'X-Subject-Token': token3}, expected_status=http_client.OK) # Delete the group grant, which should invalidate the # tokens for user1 and user2 grant_url = ( '/projects/%(project_id)s/groups/%(group_id)s/' 'roles/%(role_id)s' % { 'project_id': self.projectA['id'], 'group_id': self.group1['id'], 'role_id': self.role1['id']}) self.delete(grant_url) self.head('/auth/tokens', headers={'X-Subject-Token': token1}, expected_status=http_client.NOT_FOUND) self.head('/auth/tokens', headers={'X-Subject-Token': token2}, expected_status=http_client.NOT_FOUND) # But user3's token should be invalid too as revocation is done for # scope role & project self.head('/auth/tokens', headers={'X-Subject-Token': token3}, expected_status=http_client.NOT_FOUND) def test_domain_group_role_assignment_maintains_token(self): """Test domain-group role assignment maintains existing token. Test Plan: - Get a token for user1, scoped to ProjectA - Create a grant for group1 on DomainB - Check token is still longer valid """ auth_data = self.build_authentication_request( user_id=self.user1['id'], password=self.user1['password'], project_id=self.projectA['id']) token = self.get_requested_token(auth_data) # Confirm token is valid self.head('/auth/tokens', headers={'X-Subject-Token': token}, expected_status=http_client.OK) # Delete the grant, which should invalidate the token grant_url = ( '/domains/%(domain_id)s/groups/%(group_id)s/' 'roles/%(role_id)s' % { 'domain_id': self.domainB['id'], 'group_id': self.group1['id'], 'role_id': self.role1['id']}) self.put(grant_url) self.head('/auth/tokens', headers={'X-Subject-Token': token}, expected_status=http_client.OK) def test_group_membership_changes_revokes_token(self): """Test add/removal to/from group revokes token. Test Plan: - Get a token for user1, scoped to ProjectA - Get a token for user2, scoped to ProjectA - Remove user1 from group1 - Check token for user1 is no longer valid - Check token for user2 is still valid, even though user2 is also part of group1 - Add user2 to group2 - Check token for user2 is now no longer valid """ auth_data = self.build_authentication_request( user_id=self.user1['id'], password=self.user1['password'], project_id=self.projectA['id']) token1 = self.get_requested_token(auth_data) auth_data = self.build_authentication_request( user_id=self.user2['id'], password=self.user2['password'], project_id=self.projectA['id']) token2 = self.get_requested_token(auth_data) # Confirm tokens are valid self.head('/auth/tokens', headers={'X-Subject-Token': token1}, expected_status=http_client.OK) self.head('/auth/tokens', headers={'X-Subject-Token': token2}, expected_status=http_client.OK) # Remove user1 from group1, which should invalidate # the token self.delete('/groups/%(group_id)s/users/%(user_id)s' % { 'group_id': self.group1['id'], 'user_id': self.user1['id']}) self.head('/auth/tokens', headers={'X-Subject-Token': token1}, expected_status=http_client.NOT_FOUND) # But user2's token should still be valid self.head('/auth/tokens', headers={'X-Subject-Token': token2}, expected_status=http_client.OK) # Adding user2 to a group should not invalidate token self.put('/groups/%(group_id)s/users/%(user_id)s' % { 'group_id': self.group2['id'], 'user_id': self.user2['id']}) self.head('/auth/tokens', headers={'X-Subject-Token': token2}, expected_status=http_client.OK) def test_removing_role_assignment_does_not_affect_other_users(self): """Revoking a role from one user should not affect other users.""" # This group grant is not needed for the test self.delete( '/projects/%(project_id)s/groups/%(group_id)s/roles/%(role_id)s' % {'project_id': self.projectA['id'], 'group_id': self.group1['id'], 'role_id': self.role1['id']}) user1_token = self.get_requested_token( self.build_authentication_request( user_id=self.user1['id'], password=self.user1['password'], project_id=self.projectA['id'])) user3_token = self.get_requested_token( self.build_authentication_request( user_id=self.user3['id'], password=self.user3['password'], project_id=self.projectA['id'])) # delete relationships between user1 and projectA from setUp self.delete( '/projects/%(project_id)s/users/%(user_id)s/roles/%(role_id)s' % { 'project_id': self.projectA['id'], 'user_id': self.user1['id'], 'role_id': self.role1['id']}) # authorization for the first user should now fail self.head('/auth/tokens', headers={'X-Subject-Token': user1_token}, expected_status=http_client.NOT_FOUND) self.v3_create_token( self.build_authentication_request( user_id=self.user1['id'], password=self.user1['password'], project_id=self.projectA['id']), expected_status=http_client.UNAUTHORIZED) # authorization for the second user should still succeed self.head('/auth/tokens', headers={'X-Subject-Token': user3_token}, expected_status=http_client.OK) self.v3_create_token( self.build_authentication_request( user_id=self.user3['id'], password=self.user3['password'], project_id=self.projectA['id'])) def test_deleting_project_deletes_grants(self): # This is to make it a little bit more pretty with PEP8 role_path = ('/projects/%(project_id)s/users/%(user_id)s/' 'roles/%(role_id)s') role_path = role_path % {'user_id': self.user['id'], 'project_id': self.projectA['id'], 'role_id': self.role['id']} # grant the user a role on the project self.put(role_path) # delete the project, which should remove the roles self.delete( '/projects/%(project_id)s' % {'project_id': self.projectA['id']}) # Make sure that we get a 404 Not Found when heading that role. self.head(role_path, expected_status=http_client.NOT_FOUND) def get_v2_token(self, token=None, project_id=None): body = {'auth': {}, } if token: body['auth']['token'] = { 'id': token } else: body['auth']['passwordCredentials'] = { 'username': self.default_domain_user['name'], 'password': self.default_domain_user['password'], } if project_id: body['auth']['tenantId'] = project_id r = self.admin_request(method='POST', path='/v2.0/tokens', body=body) return r.json_body['access']['token']['id'] def test_revoke_v2_token_no_check(self): # Test that a V2 token can be revoked without validating it first. token = self.get_v2_token() self.delete('/auth/tokens', headers={'X-Subject-Token': token}) self.head('/auth/tokens', headers={'X-Subject-Token': token}, expected_status=http_client.NOT_FOUND) def test_revoke_token_from_token(self): # Test that a scoped token can be requested from an unscoped token, # the scoped token can be revoked, and the unscoped token remains # valid. unscoped_token = self.get_requested_token( self.build_authentication_request( user_id=self.user1['id'], password=self.user1['password'])) # Get a project-scoped token from the unscoped token project_scoped_token = self.get_requested_token( self.build_authentication_request( token=unscoped_token, project_id=self.projectA['id'])) # Get a domain-scoped token from the unscoped token domain_scoped_token = self.get_requested_token( self.build_authentication_request( token=unscoped_token, domain_id=self.domainA['id'])) # revoke the project-scoped token. self.delete('/auth/tokens', headers={'X-Subject-Token': project_scoped_token}) # The project-scoped token is invalidated. self.head('/auth/tokens', headers={'X-Subject-Token': project_scoped_token}, expected_status=http_client.NOT_FOUND) # The unscoped token should still be valid. self.head('/auth/tokens', headers={'X-Subject-Token': unscoped_token}, expected_status=http_client.OK) # The domain-scoped token should still be valid. self.head('/auth/tokens', headers={'X-Subject-Token': domain_scoped_token}, expected_status=http_client.OK) # revoke the domain-scoped token. self.delete('/auth/tokens', headers={'X-Subject-Token': domain_scoped_token}) # The domain-scoped token is invalid. self.head('/auth/tokens', headers={'X-Subject-Token': domain_scoped_token}, expected_status=http_client.NOT_FOUND) # The unscoped token should still be valid. self.head('/auth/tokens', headers={'X-Subject-Token': unscoped_token}, expected_status=http_client.OK) def test_revoke_token_from_token_v2(self): # Test that a scoped token can be requested from an unscoped token, # the scoped token can be revoked, and the unscoped token remains # valid. unscoped_token = self.get_v2_token() # Get a project-scoped token from the unscoped token project_scoped_token = self.get_v2_token( token=unscoped_token, project_id=self.default_domain_project['id']) # revoke the project-scoped token. self.delete('/auth/tokens', headers={'X-Subject-Token': project_scoped_token}) # The project-scoped token is invalidated. self.head('/auth/tokens', headers={'X-Subject-Token': project_scoped_token}, expected_status=http_client.NOT_FOUND) # The unscoped token should still be valid. self.head('/auth/tokens', headers={'X-Subject-Token': unscoped_token}, expected_status=http_client.OK) class TestTokenRevokeByAssignment(TestTokenRevokeById): def config_overrides(self): super(TestTokenRevokeById, self).config_overrides() self.config_fixture.config( group='token', provider='uuid', revoke_by_id=True) def test_removing_role_assignment_keeps_other_project_token_groups(self): """Test assignment isolation. Revoking a group role from one project should not invalidate all group users' tokens """ self.assignment_api.create_grant(self.role1['id'], group_id=self.group1['id'], project_id=self.projectB['id']) project_token = self.get_requested_token( self.build_authentication_request( user_id=self.user1['id'], password=self.user1['password'], project_id=self.projectB['id'])) other_project_token = self.get_requested_token( self.build_authentication_request( user_id=self.user1['id'], password=self.user1['password'], project_id=self.projectA['id'])) self.assignment_api.delete_grant(self.role1['id'], group_id=self.group1['id'], project_id=self.projectB['id']) # authorization for the projectA should still succeed self.head('/auth/tokens', headers={'X-Subject-Token': other_project_token}, expected_status=http_client.OK) # while token for the projectB should not self.head('/auth/tokens', headers={'X-Subject-Token': project_token}, expected_status=http_client.NOT_FOUND) revoked_tokens = [ t['id'] for t in self.token_provider_api.list_revoked_tokens()] # token is in token revocation list self.assertIn(project_token, revoked_tokens) class RevokeContribTests(test_v3.RestfulTestCase): @mock.patch.object(versionutils, 'report_deprecated_feature') def test_exception_happens(self, mock_deprecator): routers.RevokeExtension(mock.ANY) mock_deprecator.assert_called_once_with(mock.ANY, mock.ANY) args, _kwargs = mock_deprecator.call_args self.assertIn("Remove revoke_extension from", args[1]) class TestTokenRevokeApi(TestTokenRevokeById): """Test token revocation on the v3 Identity API.""" def config_overrides(self): super(TestTokenRevokeApi, self).config_overrides() self.config_fixture.config( group='token', provider='pki', revoke_by_id=False) def assertValidDeletedProjectResponse(self, events_response, project_id): events = events_response['events'] self.assertEqual(1, len(events)) self.assertEqual(project_id, events[0]['project_id']) self.assertIsNotNone(events[0]['issued_before']) self.assertIsNotNone(events_response['links']) del (events_response['events'][0]['issued_before']) del (events_response['events'][0]['revoked_at']) del (events_response['links']) expected_response = {'events': [{'project_id': project_id}]} self.assertEqual(expected_response, events_response) def assertDomainAndProjectInList(self, events_response, domain_id): events = events_response['events'] self.assertEqual(2, len(events)) self.assertEqual(domain_id, events[0]['project_id']) self.assertEqual(domain_id, events[1]['domain_id']) self.assertIsNotNone(events[0]['issued_before']) self.assertIsNotNone(events[1]['issued_before']) self.assertIsNotNone(events_response['links']) del (events_response['events'][0]['issued_before']) del (events_response['events'][1]['issued_before']) del (events_response['events'][0]['revoked_at']) del (events_response['events'][1]['revoked_at']) del (events_response['links']) expected_response = {'events': [{'project_id': domain_id}, {'domain_id': domain_id}]} self.assertEqual(expected_response, events_response) def assertValidRevokedTokenResponse(self, events_response, **kwargs): events = events_response['events'] self.assertEqual(1, len(events)) for k, v in kwargs.items(): self.assertEqual(v, events[0].get(k)) self.assertIsNotNone(events[0]['issued_before']) self.assertIsNotNone(events_response['links']) del (events_response['events'][0]['issued_before']) del (events_response['events'][0]['revoked_at']) del (events_response['links']) expected_response = {'events': [kwargs]} self.assertEqual(expected_response, events_response) def test_revoke_token(self): scoped_token = self.get_scoped_token() headers = {'X-Subject-Token': scoped_token} response = self.get('/auth/tokens', headers=headers).json_body['token'] self.delete('/auth/tokens', headers=headers) self.head('/auth/tokens', headers=headers, expected_status=http_client.NOT_FOUND) events_response = self.get('/OS-REVOKE/events').json_body self.assertValidRevokedTokenResponse(events_response, audit_id=response['audit_ids'][0]) def test_revoke_v2_token(self): token = self.get_v2_token() headers = {'X-Subject-Token': token} response = self.get('/auth/tokens', headers=headers).json_body['token'] self.delete('/auth/tokens', headers=headers) self.head('/auth/tokens', headers=headers, expected_status=http_client.NOT_FOUND) events_response = self.get('/OS-REVOKE/events').json_body self.assertValidRevokedTokenResponse( events_response, audit_id=response['audit_ids'][0]) def test_revoke_by_id_false_returns_gone(self): self.get('/auth/tokens/OS-PKI/revoked', expected_status=http_client.GONE) def test_list_delete_project_shows_in_event_list(self): self.role_data_fixtures() events = self.get('/OS-REVOKE/events').json_body['events'] self.assertEqual([], events) self.delete( '/projects/%(project_id)s' % {'project_id': self.projectA['id']}) events_response = self.get('/OS-REVOKE/events').json_body self.assertValidDeletedProjectResponse(events_response, self.projectA['id']) def test_disable_domain_shows_in_event_list(self): events = self.get('/OS-REVOKE/events').json_body['events'] self.assertEqual([], events) disable_body = {'domain': {'enabled': False}} self.patch( '/domains/%(project_id)s' % {'project_id': self.domainA['id']}, body=disable_body) events = self.get('/OS-REVOKE/events').json_body self.assertDomainAndProjectInList(events, self.domainA['id']) def assertEventDataInList(self, events, **kwargs): found = False for e in events: for key, value in kwargs.items(): try: if e[key] != value: break except KeyError: # Break the loop and present a nice error instead of # KeyError break else: # If the value of the event[key] matches the value of the kwarg # for each item in kwargs, the event was fully matched and # the assertTrue below should succeed. found = True self.assertTrue(found, 'event with correct values not in list, expected to ' 'find event with key-value pairs. Expected: ' '"%(expected)s" Events: "%(events)s"' % {'expected': ','.join( ["'%s=%s'" % (k, v) for k, v in kwargs.items()]), 'events': events}) def test_list_delete_token_shows_in_event_list(self): self.role_data_fixtures() events = self.get('/OS-REVOKE/events').json_body['events'] self.assertEqual([], events) scoped_token = self.get_scoped_token() headers = {'X-Subject-Token': scoped_token} auth_req = self.build_authentication_request(token=scoped_token) response = self.v3_create_token(auth_req) token2 = response.json_body['token'] headers2 = {'X-Subject-Token': response.headers['X-Subject-Token']} response = self.v3_create_token(auth_req) response.json_body['token'] headers3 = {'X-Subject-Token': response.headers['X-Subject-Token']} self.head('/auth/tokens', headers=headers, expected_status=http_client.OK) self.head('/auth/tokens', headers=headers2, expected_status=http_client.OK) self.head('/auth/tokens', headers=headers3, expected_status=http_client.OK) self.delete('/auth/tokens', headers=headers) # NOTE(ayoung): not deleting token3, as it should be deleted # by previous events_response = self.get('/OS-REVOKE/events').json_body events = events_response['events'] self.assertEqual(1, len(events)) self.assertEventDataInList( events, audit_id=token2['audit_ids'][1]) self.head('/auth/tokens', headers=headers, expected_status=http_client.NOT_FOUND) self.head('/auth/tokens', headers=headers2, expected_status=http_client.OK) self.head('/auth/tokens', headers=headers3, expected_status=http_client.OK) def test_list_with_filter(self): self.role_data_fixtures() events = self.get('/OS-REVOKE/events').json_body['events'] self.assertEqual(0, len(events)) scoped_token = self.get_scoped_token() headers = {'X-Subject-Token': scoped_token} auth = self.build_authentication_request(token=scoped_token) headers2 = {'X-Subject-Token': self.get_requested_token(auth)} self.delete('/auth/tokens', headers=headers) self.delete('/auth/tokens', headers=headers2) events = self.get('/OS-REVOKE/events').json_body['events'] self.assertEqual(2, len(events)) future = utils.isotime(timeutils.utcnow() + datetime.timedelta(seconds=1000)) events = self.get('/OS-REVOKE/events?since=%s' % (future) ).json_body['events'] self.assertEqual(0, len(events)) class TestAuthExternalDisabled(test_v3.RestfulTestCase): def config_overrides(self): super(TestAuthExternalDisabled, self).config_overrides() self.config_fixture.config( group='auth', methods=['password', 'token']) def test_remote_user_disabled(self): api = auth.controllers.Auth() remote_user = '%s@%s' % (self.user['name'], self.domain['name']) request, auth_info, auth_context = self.build_external_auth_request( remote_user) self.assertRaises(exception.Unauthorized, api.authenticate, request, auth_info, auth_context) class TestAuthExternalDomain(test_v3.RestfulTestCase): content_type = 'json' def config_overrides(self): super(TestAuthExternalDomain, self).config_overrides() self.kerberos = False self.auth_plugin_config_override(external='Domain') def test_remote_user_with_realm(self): api = auth.controllers.Auth() remote_user = self.user['name'] remote_domain = self.domain['name'] request, auth_info, auth_context = self.build_external_auth_request( remote_user, remote_domain=remote_domain, kerberos=self.kerberos) api.authenticate(request, auth_info, auth_context) self.assertEqual(self.user['id'], auth_context['user_id']) # Now test to make sure the user name can, itself, contain the # '@' character. user = {'name': 'myname@mydivision'} self.identity_api.update_user(self.user['id'], user) remote_user = user['name'] request, auth_info, auth_context = self.build_external_auth_request( remote_user, remote_domain=remote_domain, kerberos=self.kerberos) api.authenticate(request, auth_info, auth_context) self.assertEqual(self.user['id'], auth_context['user_id']) def test_project_id_scoped_with_remote_user(self): self.config_fixture.config(group='token', bind=['kerberos']) auth_data = self.build_authentication_request( project_id=self.project['id'], kerberos=self.kerberos) remote_user = self.user['name'] remote_domain = self.domain['name'] self.admin_app.extra_environ.update({'REMOTE_USER': remote_user, 'REMOTE_DOMAIN': remote_domain, 'AUTH_TYPE': 'Negotiate'}) r = self.v3_create_token(auth_data) token = self.assertValidProjectScopedTokenResponse(r) self.assertEqual(self.user['name'], token['bind']['kerberos']) def test_unscoped_bind_with_remote_user(self): self.config_fixture.config(group='token', bind=['kerberos']) auth_data = self.build_authentication_request(kerberos=self.kerberos) remote_user = self.user['name'] remote_domain = self.domain['name'] self.admin_app.extra_environ.update({'REMOTE_USER': remote_user, 'REMOTE_DOMAIN': remote_domain, 'AUTH_TYPE': 'Negotiate'}) r = self.v3_create_token(auth_data) token = self.assertValidUnscopedTokenResponse(r) self.assertEqual(self.user['name'], token['bind']['kerberos']) class TestAuthExternalDefaultDomain(test_v3.RestfulTestCase): content_type = 'json' def config_overrides(self): super(TestAuthExternalDefaultDomain, self).config_overrides() self.kerberos = False self.auth_plugin_config_override( external='keystone.auth.plugins.external.DefaultDomain') def test_remote_user_with_default_domain(self): api = auth.controllers.Auth() remote_user = self.default_domain_user['name'] request, auth_info, auth_context = self.build_external_auth_request( remote_user, kerberos=self.kerberos) api.authenticate(request, auth_info, auth_context) self.assertEqual(self.default_domain_user['id'], auth_context['user_id']) # Now test to make sure the user name can, itself, contain the # '@' character. user = {'name': 'myname@mydivision'} self.identity_api.update_user(self.default_domain_user['id'], user) remote_user = user['name'] request, auth_info, auth_context = self.build_external_auth_request( remote_user, kerberos=self.kerberos) api.authenticate(request, auth_info, auth_context) self.assertEqual(self.default_domain_user['id'], auth_context['user_id']) def test_project_id_scoped_with_remote_user(self): self.config_fixture.config(group='token', bind=['kerberos']) auth_data = self.build_authentication_request( project_id=self.default_domain_project['id'], kerberos=self.kerberos) remote_user = self.default_domain_user['name'] self.admin_app.extra_environ.update({'REMOTE_USER': remote_user, 'AUTH_TYPE': 'Negotiate'}) r = self.v3_create_token(auth_data) token = self.assertValidProjectScopedTokenResponse(r) self.assertEqual(self.default_domain_user['name'], token['bind']['kerberos']) def test_unscoped_bind_with_remote_user(self): self.config_fixture.config(group='token', bind=['kerberos']) auth_data = self.build_authentication_request(kerberos=self.kerberos) remote_user = self.default_domain_user['name'] self.admin_app.extra_environ.update({'REMOTE_USER': remote_user, 'AUTH_TYPE': 'Negotiate'}) r = self.v3_create_token(auth_data) token = self.assertValidUnscopedTokenResponse(r) self.assertEqual(self.default_domain_user['name'], token['bind']['kerberos']) class TestAuthKerberos(TestAuthExternalDomain): def config_overrides(self): super(TestAuthKerberos, self).config_overrides() self.kerberos = True self.auth_plugin_config_override( methods=['kerberos', 'password', 'token']) class TestAuthJSONExternal(test_v3.RestfulTestCase): content_type = 'json' def auth_plugin_config_override(self, methods=None, **method_classes): self.config_fixture.config(group='auth', methods=[]) def test_remote_user_no_method(self): api = auth.controllers.Auth() request, auth_info, auth_context = self.build_external_auth_request( self.default_domain_user['name']) self.assertRaises(exception.Unauthorized, api.authenticate, request, auth_info, auth_context) class TestTrustOptional(test_v3.RestfulTestCase): def config_overrides(self): super(TestTrustOptional, self).config_overrides() self.config_fixture.config(group='trust', enabled=False) def test_trusts_returns_not_found(self): self.get('/OS-TRUST/trusts', body={'trust': {}}, expected_status=http_client.NOT_FOUND) self.post('/OS-TRUST/trusts', body={'trust': {}}, expected_status=http_client.NOT_FOUND) def test_auth_with_scope_in_trust_forbidden(self): auth_data = self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], trust_id=uuid.uuid4().hex) self.v3_create_token(auth_data, expected_status=http_client.FORBIDDEN) class TrustAPIBehavior(test_v3.RestfulTestCase): """Redelegation valid and secure. Redelegation is a hierarchical structure of trusts between initial trustor and a group of users allowed to impersonate trustor and act in his name. Hierarchy is created in a process of trusting already trusted permissions and organized as an adjacency list using 'redelegated_trust_id' field. Redelegation is valid if each subsequent trust in a chain passes 'not more' permissions than being redelegated. Trust constraints are: * roles - set of roles trusted by trustor * expiration_time * allow_redelegation - a flag * redelegation_count - decreasing value restricting length of trust chain * remaining_uses - DISALLOWED when allow_redelegation == True Trust becomes invalid in case: * trust roles were revoked from trustor * one of the users in the delegation chain was disabled or deleted * expiration time passed * one of the parent trusts has become invalid * one of the parent trusts was deleted """ def config_overrides(self): super(TrustAPIBehavior, self).config_overrides() self.config_fixture.config( group='trust', enabled=True, allow_redelegation=True, max_redelegation_count=10 ) def setUp(self): super(TrustAPIBehavior, self).setUp() # Create a trustee to delegate stuff to self.trustee_user = unit.create_user(self.identity_api, domain_id=self.domain_id) # trustor->trustee self.redelegated_trust_ref = unit.new_trust_ref( trustor_user_id=self.user_id, trustee_user_id=self.trustee_user['id'], project_id=self.project_id, impersonation=True, expires=dict(minutes=1), role_ids=[self.role_id], allow_redelegation=True) # trustor->trustee (no redelegation) self.chained_trust_ref = unit.new_trust_ref( trustor_user_id=self.user_id, trustee_user_id=self.trustee_user['id'], project_id=self.project_id, impersonation=True, role_ids=[self.role_id], allow_redelegation=True) def _get_trust_token(self, trust): trust_id = trust['id'] auth_data = self.build_authentication_request( user_id=self.trustee_user['id'], password=self.trustee_user['password'], trust_id=trust_id) trust_token = self.get_requested_token(auth_data) return trust_token def test_depleted_redelegation_count_error(self): self.redelegated_trust_ref['redelegation_count'] = 0 r = self.post('/OS-TRUST/trusts', body={'trust': self.redelegated_trust_ref}) trust = self.assertValidTrustResponse(r) trust_token = self._get_trust_token(trust) # Attempt to create a redelegated trust. self.post('/OS-TRUST/trusts', body={'trust': self.chained_trust_ref}, token=trust_token, expected_status=http_client.FORBIDDEN) def test_modified_redelegation_count_error(self): r = self.post('/OS-TRUST/trusts', body={'trust': self.redelegated_trust_ref}) trust = self.assertValidTrustResponse(r) trust_token = self._get_trust_token(trust) # Attempt to create a redelegated trust with incorrect # redelegation_count. correct = trust['redelegation_count'] - 1 incorrect = correct - 1 self.chained_trust_ref['redelegation_count'] = incorrect self.post('/OS-TRUST/trusts', body={'trust': self.chained_trust_ref}, token=trust_token, expected_status=http_client.FORBIDDEN) def test_max_redelegation_count_constraint(self): incorrect = CONF.trust.max_redelegation_count + 1 self.redelegated_trust_ref['redelegation_count'] = incorrect self.post('/OS-TRUST/trusts', body={'trust': self.redelegated_trust_ref}, expected_status=http_client.FORBIDDEN) def test_redelegation_expiry(self): r = self.post('/OS-TRUST/trusts', body={'trust': self.redelegated_trust_ref}) trust = self.assertValidTrustResponse(r) trust_token = self._get_trust_token(trust) # Attempt to create a redelegated trust supposed to last longer # than the parent trust: let's give it 10 minutes (>1 minute). too_long_live_chained_trust_ref = unit.new_trust_ref( trustor_user_id=self.user_id, trustee_user_id=self.trustee_user['id'], project_id=self.project_id, impersonation=True, expires=dict(minutes=10), role_ids=[self.role_id]) self.post('/OS-TRUST/trusts', body={'trust': too_long_live_chained_trust_ref}, token=trust_token, expected_status=http_client.FORBIDDEN) def test_redelegation_remaining_uses(self): r = self.post('/OS-TRUST/trusts', body={'trust': self.redelegated_trust_ref}) trust = self.assertValidTrustResponse(r) trust_token = self._get_trust_token(trust) # Attempt to create a redelegated trust with remaining_uses defined. # It must fail according to specification: remaining_uses must be # omitted for trust redelegation. Any number here. self.chained_trust_ref['remaining_uses'] = 5 self.post('/OS-TRUST/trusts', body={'trust': self.chained_trust_ref}, token=trust_token, expected_status=http_client.BAD_REQUEST) def test_roles_subset(self): # Build second role role = unit.new_role_ref() self.role_api.create_role(role['id'], role) # assign a new role to the user self.assignment_api.create_grant(role_id=role['id'], user_id=self.user_id, project_id=self.project_id) # Create first trust with extended set of roles ref = self.redelegated_trust_ref ref['expires_at'] = datetime.datetime.utcnow().replace( year=2032).strftime(unit.TIME_FORMAT) ref['roles'].append({'id': role['id']}) r = self.post('/OS-TRUST/trusts', body={'trust': ref}) trust = self.assertValidTrustResponse(r) # Trust created with exact set of roles (checked by role id) role_id_set = set(r['id'] for r in ref['roles']) trust_role_id_set = set(r['id'] for r in trust['roles']) self.assertEqual(role_id_set, trust_role_id_set) trust_token = self._get_trust_token(trust) # Chain second trust with roles subset self.chained_trust_ref['expires_at'] = ( datetime.datetime.utcnow().replace(year=2028).strftime( unit.TIME_FORMAT)) r = self.post('/OS-TRUST/trusts', body={'trust': self.chained_trust_ref}, token=trust_token) trust2 = self.assertValidTrustResponse(r) # First trust contains roles superset # Second trust contains roles subset role_id_set1 = set(r['id'] for r in trust['roles']) role_id_set2 = set(r['id'] for r in trust2['roles']) self.assertThat(role_id_set1, matchers.GreaterThan(role_id_set2)) def test_redelegate_with_role_by_name(self): # For role by name testing ref = unit.new_trust_ref( trustor_user_id=self.user_id, trustee_user_id=self.trustee_user['id'], project_id=self.project_id, impersonation=True, expires=dict(minutes=1), role_names=[self.role['name']], allow_redelegation=True) ref['expires_at'] = datetime.datetime.utcnow().replace( year=2032).strftime(unit.TIME_FORMAT) r = self.post('/OS-TRUST/trusts', body={'trust': ref}) trust = self.assertValidTrustResponse(r) # Ensure we can get a token with this trust trust_token = self._get_trust_token(trust) # Chain second trust with roles subset ref = unit.new_trust_ref( trustor_user_id=self.user_id, trustee_user_id=self.trustee_user['id'], project_id=self.project_id, impersonation=True, role_names=[self.role['name']], allow_redelegation=True) ref['expires_at'] = datetime.datetime.utcnow().replace( year=2028).strftime(unit.TIME_FORMAT) r = self.post('/OS-TRUST/trusts', body={'trust': ref}, token=trust_token) trust = self.assertValidTrustResponse(r) # Ensure we can get a token with this trust self._get_trust_token(trust) def test_redelegate_new_role_fails(self): r = self.post('/OS-TRUST/trusts', body={'trust': self.redelegated_trust_ref}) trust = self.assertValidTrustResponse(r) trust_token = self._get_trust_token(trust) # Build second trust with a role not in parent's roles role = unit.new_role_ref() self.role_api.create_role(role['id'], role) # assign a new role to the user self.assignment_api.create_grant(role_id=role['id'], user_id=self.user_id, project_id=self.project_id) # Try to chain a trust with the role not from parent trust self.chained_trust_ref['roles'] = [{'id': role['id']}] # Bypass policy enforcement with mock.patch.object(rules, 'enforce', return_value=True): self.post('/OS-TRUST/trusts', body={'trust': self.chained_trust_ref}, token=trust_token, expected_status=http_client.FORBIDDEN) def test_redelegation_terminator(self): self.redelegated_trust_ref['expires_at'] = ( datetime.datetime.utcnow().replace(year=2032).strftime( unit.TIME_FORMAT)) r = self.post('/OS-TRUST/trusts', body={'trust': self.redelegated_trust_ref}) trust = self.assertValidTrustResponse(r) trust_token = self._get_trust_token(trust) # Build second trust - the terminator self.chained_trust_ref['expires_at'] = ( datetime.datetime.utcnow().replace(year=2028).strftime( unit.TIME_FORMAT)) ref = dict(self.chained_trust_ref, redelegation_count=1, allow_redelegation=False) r = self.post('/OS-TRUST/trusts', body={'trust': ref}, token=trust_token) trust = self.assertValidTrustResponse(r) # Check that allow_redelegation == False caused redelegation_count # to be set to 0, while allow_redelegation is removed self.assertNotIn('allow_redelegation', trust) self.assertEqual(0, trust['redelegation_count']) trust_token = self._get_trust_token(trust) # Build third trust, same as second self.post('/OS-TRUST/trusts', body={'trust': ref}, token=trust_token, expected_status=http_client.FORBIDDEN) def test_redelegation_without_impersonation(self): # Update trust to not allow impersonation self.redelegated_trust_ref['impersonation'] = False # Create trust resp = self.post('/OS-TRUST/trusts', body={'trust': self.redelegated_trust_ref}, expected_status=http_client.CREATED) trust = self.assertValidTrustResponse(resp) # Get trusted token without impersonation auth_data = self.build_authentication_request( user_id=self.trustee_user['id'], password=self.trustee_user['password'], trust_id=trust['id']) trust_token = self.get_requested_token(auth_data) # Create second user for redelegation trustee_user_2 = unit.create_user(self.identity_api, domain_id=self.domain_id) # Trust for redelegation trust_ref_2 = unit.new_trust_ref( trustor_user_id=self.trustee_user['id'], trustee_user_id=trustee_user_2['id'], project_id=self.project_id, impersonation=False, expires=dict(minutes=1), role_ids=[self.role_id], allow_redelegation=False) # Creating a second trust should not be allowed since trustor does not # have the role to delegate thus returning 404 NOT FOUND. resp = self.post('/OS-TRUST/trusts', body={'trust': trust_ref_2}, token=trust_token, expected_status=http_client.NOT_FOUND) def test_create_unscoped_trust(self): ref = unit.new_trust_ref( trustor_user_id=self.user_id, trustee_user_id=self.trustee_user['id']) r = self.post('/OS-TRUST/trusts', body={'trust': ref}) self.assertValidTrustResponse(r, ref) def test_create_trust_no_roles(self): ref = unit.new_trust_ref( trustor_user_id=self.user_id, trustee_user_id=self.trustee_user['id'], project_id=self.project_id) self.post('/OS-TRUST/trusts', body={'trust': ref}, expected_status=http_client.FORBIDDEN) def _initialize_test_consume_trust(self, count): # Make sure remaining_uses is decremented as we consume the trust ref = unit.new_trust_ref( trustor_user_id=self.user_id, trustee_user_id=self.trustee_user['id'], project_id=self.project_id, remaining_uses=count, role_ids=[self.role_id]) r = self.post('/OS-TRUST/trusts', body={'trust': ref}) # make sure the trust exists trust = self.assertValidTrustResponse(r, ref) r = self.get( '/OS-TRUST/trusts/%(trust_id)s' % {'trust_id': trust['id']}) # get a token for the trustee auth_data = self.build_authentication_request( user_id=self.trustee_user['id'], password=self.trustee_user['password']) r = self.v3_create_token(auth_data) token = r.headers.get('X-Subject-Token') # get a trust token, consume one use auth_data = self.build_authentication_request( token=token, trust_id=trust['id']) r = self.v3_create_token(auth_data) return trust def test_consume_trust_once(self): trust = self._initialize_test_consume_trust(2) # check decremented value r = self.get( '/OS-TRUST/trusts/%(trust_id)s' % {'trust_id': trust['id']}) trust = r.result.get('trust') self.assertIsNotNone(trust) self.assertEqual(1, trust['remaining_uses']) # FIXME(lbragstad): Assert the role that is returned is the right role. def test_create_one_time_use_trust(self): trust = self._initialize_test_consume_trust(1) # No more uses, the trust is made unavailable self.get( '/OS-TRUST/trusts/%(trust_id)s' % {'trust_id': trust['id']}, expected_status=http_client.NOT_FOUND) # this time we can't get a trust token auth_data = self.build_authentication_request( user_id=self.trustee_user['id'], password=self.trustee_user['password'], trust_id=trust['id']) self.v3_create_token(auth_data, expected_status=http_client.UNAUTHORIZED) def test_create_unlimited_use_trust(self): # by default trusts are unlimited in terms of tokens that can be # generated from them, this test creates such a trust explicitly ref = unit.new_trust_ref( trustor_user_id=self.user_id, trustee_user_id=self.trustee_user['id'], project_id=self.project_id, remaining_uses=None, role_ids=[self.role_id]) r = self.post('/OS-TRUST/trusts', body={'trust': ref}) trust = self.assertValidTrustResponse(r, ref) r = self.get( '/OS-TRUST/trusts/%(trust_id)s' % {'trust_id': trust['id']}) auth_data = self.build_authentication_request( user_id=self.trustee_user['id'], password=self.trustee_user['password']) r = self.v3_create_token(auth_data) token = r.headers.get('X-Subject-Token') auth_data = self.build_authentication_request( token=token, trust_id=trust['id']) r = self.v3_create_token(auth_data) r = self.get( '/OS-TRUST/trusts/%(trust_id)s' % {'trust_id': trust['id']}) trust = r.result.get('trust') self.assertIsNone(trust['remaining_uses']) def test_impersonation_token_cannot_create_new_trust(self): ref = unit.new_trust_ref( trustor_user_id=self.user_id, trustee_user_id=self.trustee_user['id'], project_id=self.project_id, impersonation=True, expires=dict(minutes=1), role_ids=[self.role_id]) r = self.post('/OS-TRUST/trusts', body={'trust': ref}) trust = self.assertValidTrustResponse(r) auth_data = self.build_authentication_request( user_id=self.trustee_user['id'], password=self.trustee_user['password'], trust_id=trust['id']) trust_token = self.get_requested_token(auth_data) # Build second trust ref = unit.new_trust_ref( trustor_user_id=self.user_id, trustee_user_id=self.trustee_user['id'], project_id=self.project_id, impersonation=True, expires=dict(minutes=1), role_ids=[self.role_id]) self.post('/OS-TRUST/trusts', body={'trust': ref}, token=trust_token, expected_status=http_client.FORBIDDEN) def test_trust_deleted_grant(self): # create a new role role = unit.new_role_ref() self.role_api.create_role(role['id'], role) grant_url = ( '/projects/%(project_id)s/users/%(user_id)s/' 'roles/%(role_id)s' % { 'project_id': self.project_id, 'user_id': self.user_id, 'role_id': role['id']}) # assign a new role self.put(grant_url) # create a trust that delegates the new role ref = unit.new_trust_ref( trustor_user_id=self.user_id, trustee_user_id=self.trustee_user['id'], project_id=self.project_id, impersonation=False, expires=dict(minutes=1), role_ids=[role['id']]) r = self.post('/OS-TRUST/trusts', body={'trust': ref}) trust = self.assertValidTrustResponse(r) # delete the grant self.delete(grant_url) # attempt to get a trust token with the deleted grant # and ensure it's unauthorized auth_data = self.build_authentication_request( user_id=self.trustee_user['id'], password=self.trustee_user['password'], trust_id=trust['id']) r = self.v3_create_token(auth_data, expected_status=http_client.FORBIDDEN) def test_trust_chained(self): """Test that a trust token can't be used to execute another trust. To do this, we create an A->B->C hierarchy of trusts, then attempt to execute the trusts in series (C->B->A). """ # create a sub-trustee user sub_trustee_user = unit.create_user( self.identity_api, domain_id=test_v3.DEFAULT_DOMAIN_ID) sub_trustee_user_id = sub_trustee_user['id'] # create a new role role = unit.new_role_ref() self.role_api.create_role(role['id'], role) # assign the new role to trustee self.put( '/projects/%(project_id)s/users/%(user_id)s/roles/%(role_id)s' % { 'project_id': self.project_id, 'user_id': self.trustee_user['id'], 'role_id': role['id']}) # create a trust from trustor -> trustee ref = unit.new_trust_ref( trustor_user_id=self.user_id, trustee_user_id=self.trustee_user['id'], project_id=self.project_id, impersonation=True, expires=dict(minutes=1), role_ids=[self.role_id]) r = self.post('/OS-TRUST/trusts', body={'trust': ref}) trust1 = self.assertValidTrustResponse(r) # authenticate as trustee so we can create a second trust auth_data = self.build_authentication_request( user_id=self.trustee_user['id'], password=self.trustee_user['password'], project_id=self.project_id) token = self.get_requested_token(auth_data) # create a trust from trustee -> sub-trustee ref = unit.new_trust_ref( trustor_user_id=self.trustee_user['id'], trustee_user_id=sub_trustee_user_id, project_id=self.project_id, impersonation=True, expires=dict(minutes=1), role_ids=[role['id']]) r = self.post('/OS-TRUST/trusts', token=token, body={'trust': ref}) trust2 = self.assertValidTrustResponse(r) # authenticate as sub-trustee and get a trust token auth_data = self.build_authentication_request( user_id=sub_trustee_user['id'], password=sub_trustee_user['password'], trust_id=trust2['id']) trust_token = self.get_requested_token(auth_data) # attempt to get the second trust using a trust token auth_data = self.build_authentication_request( token=trust_token, trust_id=trust1['id']) r = self.v3_create_token(auth_data, expected_status=http_client.FORBIDDEN) def assertTrustTokensRevoked(self, trust_id): revocation_response = self.get('/OS-REVOKE/events') revocation_events = revocation_response.json_body['events'] found = False for event in revocation_events: if event.get('OS-TRUST:trust_id') == trust_id: found = True self.assertTrue(found, 'event with trust_id %s not found in list' % trust_id) def test_delete_trust_revokes_tokens(self): ref = unit.new_trust_ref( trustor_user_id=self.user_id, trustee_user_id=self.trustee_user['id'], project_id=self.project_id, impersonation=False, expires=dict(minutes=1), role_ids=[self.role_id]) r = self.post('/OS-TRUST/trusts', body={'trust': ref}) trust = self.assertValidTrustResponse(r) trust_id = trust['id'] auth_data = self.build_authentication_request( user_id=self.trustee_user['id'], password=self.trustee_user['password'], trust_id=trust_id) r = self.v3_create_token(auth_data) self.assertValidProjectScopedTokenResponse( r, self.trustee_user) trust_token = r.headers['X-Subject-Token'] self.delete('/OS-TRUST/trusts/%(trust_id)s' % { 'trust_id': trust_id}) headers = {'X-Subject-Token': trust_token} self.head('/auth/tokens', headers=headers, expected_status=http_client.NOT_FOUND) self.assertTrustTokensRevoked(trust_id) def disable_user(self, user): user['enabled'] = False self.identity_api.update_user(user['id'], user) def test_trust_get_token_fails_if_trustor_disabled(self): ref = unit.new_trust_ref( trustor_user_id=self.user_id, trustee_user_id=self.trustee_user['id'], project_id=self.project_id, impersonation=False, expires=dict(minutes=1), role_ids=[self.role_id]) r = self.post('/OS-TRUST/trusts', body={'trust': ref}) trust = self.assertValidTrustResponse(r, ref) auth_data = self.build_authentication_request( user_id=self.trustee_user['id'], password=self.trustee_user['password'], trust_id=trust['id']) self.v3_create_token(auth_data) self.disable_user(self.user) auth_data = self.build_authentication_request( user_id=self.trustee_user['id'], password=self.trustee_user['password'], trust_id=trust['id']) self.v3_create_token(auth_data, expected_status=http_client.FORBIDDEN) def test_trust_get_token_fails_if_trustee_disabled(self): ref = unit.new_trust_ref( trustor_user_id=self.user_id, trustee_user_id=self.trustee_user['id'], project_id=self.project_id, impersonation=False, expires=dict(minutes=1), role_ids=[self.role_id]) r = self.post('/OS-TRUST/trusts', body={'trust': ref}) trust = self.assertValidTrustResponse(r, ref) auth_data = self.build_authentication_request( user_id=self.trustee_user['id'], password=self.trustee_user['password'], trust_id=trust['id']) self.v3_create_token(auth_data) self.disable_user(self.trustee_user) auth_data = self.build_authentication_request( user_id=self.trustee_user['id'], password=self.trustee_user['password'], trust_id=trust['id']) self.v3_create_token(auth_data, expected_status=http_client.UNAUTHORIZED) def test_delete_trust(self): ref = unit.new_trust_ref( trustor_user_id=self.user_id, trustee_user_id=self.trustee_user['id'], project_id=self.project_id, impersonation=False, expires=dict(minutes=1), role_ids=[self.role_id]) r = self.post('/OS-TRUST/trusts', body={'trust': ref}) trust = self.assertValidTrustResponse(r, ref) self.delete('/OS-TRUST/trusts/%(trust_id)s' % { 'trust_id': trust['id']}) auth_data = self.build_authentication_request( user_id=self.trustee_user['id'], password=self.trustee_user['password'], trust_id=trust['id']) self.v3_create_token(auth_data, expected_status=http_client.UNAUTHORIZED) def test_change_password_invalidates_trust_tokens(self): ref = unit.new_trust_ref( trustor_user_id=self.user_id, trustee_user_id=self.trustee_user['id'], project_id=self.project_id, impersonation=True, expires=dict(minutes=1), role_ids=[self.role_id]) r = self.post('/OS-TRUST/trusts', body={'trust': ref}) trust = self.assertValidTrustResponse(r) auth_data = self.build_authentication_request( user_id=self.trustee_user['id'], password=self.trustee_user['password'], trust_id=trust['id']) r = self.v3_create_token(auth_data) self.assertValidProjectScopedTokenResponse(r, self.user) trust_token = r.headers.get('X-Subject-Token') self.get('/OS-TRUST/trusts?trustor_user_id=%s' % self.user_id, token=trust_token) self.assertValidUserResponse( self.patch('/users/%s' % self.trustee_user['id'], body={'user': {'password': uuid.uuid4().hex}})) self.get('/OS-TRUST/trusts?trustor_user_id=%s' % self.user_id, expected_status=http_client.UNAUTHORIZED, token=trust_token) def test_trustee_can_do_role_ops(self): resp = self.post('/OS-TRUST/trusts', body={'trust': self.redelegated_trust_ref}) trust = self.assertValidTrustResponse(resp) trust_token = self._get_trust_token(trust) resp = self.get( '/OS-TRUST/trusts/%(trust_id)s/roles' % { 'trust_id': trust['id']}, token=trust_token) self.assertValidRoleListResponse(resp, self.role) self.head( '/OS-TRUST/trusts/%(trust_id)s/roles/%(role_id)s' % { 'trust_id': trust['id'], 'role_id': self.role['id']}, token=trust_token, expected_status=http_client.OK) resp = self.get( '/OS-TRUST/trusts/%(trust_id)s/roles/%(role_id)s' % { 'trust_id': trust['id'], 'role_id': self.role['id']}, token=trust_token) self.assertValidRoleResponse(resp, self.role) def test_do_not_consume_remaining_uses_when_get_token_fails(self): ref = unit.new_trust_ref( trustor_user_id=self.user_id, trustee_user_id=self.trustee_user['id'], project_id=self.project_id, impersonation=False, expires=dict(minutes=1), role_ids=[self.role_id], remaining_uses=3) r = self.post('/OS-TRUST/trusts', body={'trust': ref}) new_trust = r.result.get('trust') trust_id = new_trust.get('id') # Pass in another user's ID as the trustee, the result being a failed # token authenticate and the remaining_uses of the trust should not be # decremented. auth_data = self.build_authentication_request( user_id=self.default_domain_user['id'], password=self.default_domain_user['password'], trust_id=trust_id) self.v3_create_token(auth_data, expected_status=http_client.FORBIDDEN) r = self.get('/OS-TRUST/trusts/%s' % trust_id) self.assertEqual(3, r.result.get('trust').get('remaining_uses')) class TestTrustChain(test_v3.RestfulTestCase): def config_overrides(self): super(TestTrustChain, self).config_overrides() self.config_fixture.config( group='trust', enabled=True, allow_redelegation=True, max_redelegation_count=10 ) def setUp(self): super(TestTrustChain, self).setUp() """Create a trust chain using redelegation. A trust chain is a series of trusts that are redelegated. For example, self.user_list consists of userA, userB, and userC. The first trust in the trust chain is going to be established between self.user and userA, call it trustA. Then, userA is going to obtain a trust scoped token using trustA, and with that token create a trust between userA and userB called trustB. This pattern will continue with userB creating a trust with userC. So the trust chain should look something like: trustA -> trustB -> trustC Where: self.user is trusting userA with trustA userA is trusting userB with trustB userB is trusting userC with trustC """ self.user_list = list() self.trust_chain = list() for _ in range(3): user = unit.create_user(self.identity_api, domain_id=self.domain_id) self.user_list.append(user) # trustor->trustee redelegation with impersonation trustee = self.user_list[0] trust_ref = unit.new_trust_ref( trustor_user_id=self.user_id, trustee_user_id=trustee['id'], project_id=self.project_id, impersonation=True, expires=dict(minutes=1), role_ids=[self.role_id], allow_redelegation=True, redelegation_count=3) # Create a trust between self.user and the first user in the list r = self.post('/OS-TRUST/trusts', body={'trust': trust_ref}) trust = self.assertValidTrustResponse(r) auth_data = self.build_authentication_request( user_id=trustee['id'], password=trustee['password'], trust_id=trust['id']) # Generate a trusted token for the first user trust_token = self.get_requested_token(auth_data) self.trust_chain.append(trust) # Loop through the user to create a chain of redelegated trust. for next_trustee in self.user_list[1:]: trust_ref = unit.new_trust_ref( trustor_user_id=self.user_id, trustee_user_id=next_trustee['id'], project_id=self.project_id, impersonation=True, role_ids=[self.role_id], allow_redelegation=True) r = self.post('/OS-TRUST/trusts', body={'trust': trust_ref}, token=trust_token) trust = self.assertValidTrustResponse(r) auth_data = self.build_authentication_request( user_id=next_trustee['id'], password=next_trustee['password'], trust_id=trust['id']) trust_token = self.get_requested_token(auth_data) self.trust_chain.append(trust) trustee = self.user_list[-1] trust = self.trust_chain[-1] auth_data = self.build_authentication_request( user_id=trustee['id'], password=trustee['password'], trust_id=trust['id']) self.last_token = self.get_requested_token(auth_data) def assert_user_authenticate(self, user): auth_data = self.build_authentication_request( user_id=user['id'], password=user['password'] ) r = self.v3_create_token(auth_data) self.assertValidTokenResponse(r) def assert_trust_tokens_revoked(self, trust_id): trustee = self.user_list[0] auth_data = self.build_authentication_request( user_id=trustee['id'], password=trustee['password'] ) r = self.v3_create_token(auth_data) self.assertValidTokenResponse(r) revocation_response = self.get('/OS-REVOKE/events') revocation_events = revocation_response.json_body['events'] found = False for event in revocation_events: if event.get('OS-TRUST:trust_id') == trust_id: found = True self.assertTrue(found, 'event with trust_id %s not found in list' % trust_id) def test_delete_trust_cascade(self): self.assert_user_authenticate(self.user_list[0]) self.delete('/OS-TRUST/trusts/%(trust_id)s' % { 'trust_id': self.trust_chain[0]['id']}) headers = {'X-Subject-Token': self.last_token} self.head('/auth/tokens', headers=headers, expected_status=http_client.NOT_FOUND) self.assert_trust_tokens_revoked(self.trust_chain[0]['id']) def test_delete_broken_chain(self): self.assert_user_authenticate(self.user_list[0]) self.delete('/OS-TRUST/trusts/%(trust_id)s' % { 'trust_id': self.trust_chain[0]['id']}) # Verify the two remaining trust have been deleted for i in range(len(self.user_list) - 1): auth_data = self.build_authentication_request( user_id=self.user_list[i]['id'], password=self.user_list[i]['password']) auth_token = self.get_requested_token(auth_data) # Assert chained trust have been deleted self.get('/OS-TRUST/trusts/%(trust_id)s' % { 'trust_id': self.trust_chain[i + 1]['id']}, token=auth_token, expected_status=http_client.NOT_FOUND) def test_trustor_roles_revoked(self): self.assert_user_authenticate(self.user_list[0]) self.assignment_api.remove_role_from_user_and_project( self.user_id, self.project_id, self.role_id ) # Verify that users are not allowed to authenticate with trust for i in range(len(self.user_list[1:])): trustee = self.user_list[i] auth_data = self.build_authentication_request( user_id=trustee['id'], password=trustee['password']) # Attempt to authenticate with trust token = self.get_requested_token(auth_data) auth_data = self.build_authentication_request( token=token, trust_id=self.trust_chain[i - 1]['id']) # Trustee has no delegated roles self.v3_create_token(auth_data, expected_status=http_client.FORBIDDEN) def test_intermediate_user_disabled(self): self.assert_user_authenticate(self.user_list[0]) disabled = self.user_list[0] disabled['enabled'] = False self.identity_api.update_user(disabled['id'], disabled) # Bypass policy enforcement with mock.patch.object(rules, 'enforce', return_value=True): headers = {'X-Subject-Token': self.last_token} self.head('/auth/tokens', headers=headers, expected_status=http_client.FORBIDDEN) def test_intermediate_user_deleted(self): self.assert_user_authenticate(self.user_list[0]) self.identity_api.delete_user(self.user_list[0]['id']) # Bypass policy enforcement with mock.patch.object(rules, 'enforce', return_value=True): headers = {'X-Subject-Token': self.last_token} self.head('/auth/tokens', headers=headers, expected_status=http_client.FORBIDDEN) class TestAPIProtectionWithoutAuthContextMiddleware(test_v3.RestfulTestCase): def test_api_protection_with_no_auth_context_in_env(self): auth_data = self.build_authentication_request( user_id=self.default_domain_user['id'], password=self.default_domain_user['password'], project_id=self.project['id']) token = self.get_requested_token(auth_data) auth_controller = auth.controllers.Auth() # all we care is that auth context is not in the environment and # 'token_id' is used to build the auth context instead request = self.make_request() request.context_dict['subject_token_id'] = token request.context_dict['token_id'] = token r = auth_controller.validate_token(request) self.assertEqual(http_client.OK, r.status_code) class TestAuthContext(unit.TestCase): def setUp(self): super(TestAuthContext, self).setUp() self.auth_context = auth.controllers.AuthContext() def test_pick_lowest_expires_at(self): expires_at_1 = utils.isotime(timeutils.utcnow()) expires_at_2 = utils.isotime(timeutils.utcnow() + datetime.timedelta(seconds=10)) # make sure auth_context picks the lowest value self.auth_context['expires_at'] = expires_at_1 self.auth_context['expires_at'] = expires_at_2 self.assertEqual(expires_at_1, self.auth_context['expires_at']) def test_identity_attribute_conflict(self): for identity_attr in auth.controllers.AuthContext.IDENTITY_ATTRIBUTES: self.auth_context[identity_attr] = uuid.uuid4().hex if identity_attr == 'expires_at': # 'expires_at' is a special case. Will test it in a separate # test case. continue self.assertRaises(exception.Unauthorized, operator.setitem, self.auth_context, identity_attr, uuid.uuid4().hex) def test_identity_attribute_conflict_with_none_value(self): for identity_attr in auth.controllers.AuthContext.IDENTITY_ATTRIBUTES: self.auth_context[identity_attr] = None if identity_attr == 'expires_at': # 'expires_at' is a special case and is tested above. self.auth_context['expires_at'] = uuid.uuid4().hex continue self.assertRaises(exception.Unauthorized, operator.setitem, self.auth_context, identity_attr, uuid.uuid4().hex) def test_non_identity_attribute_conflict_override(self): # for attributes Keystone doesn't know about, make sure they can be # freely manipulated attr_name = uuid.uuid4().hex attr_val_1 = uuid.uuid4().hex attr_val_2 = uuid.uuid4().hex self.auth_context[attr_name] = attr_val_1 self.auth_context[attr_name] = attr_val_2 self.assertEqual(attr_val_2, self.auth_context[attr_name]) class TestAuthSpecificData(test_v3.RestfulTestCase): def test_get_catalog_project_scoped_token(self): """Call ``GET /auth/catalog`` with a project-scoped token.""" r = self.get('/auth/catalog') self.assertValidCatalogResponse(r) def test_get_catalog_domain_scoped_token(self): """Call ``GET /auth/catalog`` with a domain-scoped token.""" # grant a domain role to a user self.put(path='/domains/%s/users/%s/roles/%s' % ( self.domain['id'], self.user['id'], self.role['id'])) self.get( '/auth/catalog', auth=self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], domain_id=self.domain['id']), expected_status=http_client.FORBIDDEN) def test_get_catalog_unscoped_token(self): """Call ``GET /auth/catalog`` with an unscoped token.""" self.get( '/auth/catalog', auth=self.build_authentication_request( user_id=self.default_domain_user['id'], password=self.default_domain_user['password']), expected_status=http_client.FORBIDDEN) def test_get_catalog_no_token(self): """Call ``GET /auth/catalog`` without a token.""" self.get( '/auth/catalog', noauth=True, expected_status=http_client.UNAUTHORIZED) def test_get_projects_project_scoped_token(self): r = self.get('/auth/projects') self.assertThat(r.json['projects'], matchers.HasLength(1)) self.assertValidProjectListResponse(r) def test_get_domains_project_scoped_token(self): self.put(path='/domains/%s/users/%s/roles/%s' % ( self.domain['id'], self.user['id'], self.role['id'])) r = self.get('/auth/domains') self.assertThat(r.json['domains'], matchers.HasLength(1)) self.assertValidDomainListResponse(r) class TestTrustAuthPKITokenProvider(TrustAPIBehavior, TestTrustChain): def config_overrides(self): super(TestTrustAuthPKITokenProvider, self).config_overrides() self.config_fixture.config(group='token', provider='pki', revoke_by_id=False) self.config_fixture.config(group='trust', enabled=True) class TestTrustAuthPKIZTokenProvider(TrustAPIBehavior, TestTrustChain): def config_overrides(self): super(TestTrustAuthPKIZTokenProvider, self).config_overrides() self.config_fixture.config(group='token', provider='pkiz', revoke_by_id=False) self.config_fixture.config(group='trust', enabled=True) class TestTrustAuthFernetTokenProvider(TrustAPIBehavior, TestTrustChain): def config_overrides(self): super(TestTrustAuthFernetTokenProvider, self).config_overrides() self.config_fixture.config(group='token', provider='fernet', revoke_by_id=False) self.config_fixture.config(group='trust', enabled=True) self.useFixture(ksfixtures.KeyRepository(self.config_fixture)) class TestAuthTOTP(test_v3.RestfulTestCase): def setUp(self): super(TestAuthTOTP, self).setUp() ref = unit.new_totp_credential( user_id=self.default_domain_user['id'], project_id=self.default_domain_project['id']) self.secret = ref['blob'] r = self.post('/credentials', body={'credential': ref}) self.assertValidCredentialResponse(r, ref) self.addCleanup(self.cleanup) def auth_plugin_config_override(self): methods = ['totp', 'token', 'password'] super(TestAuthTOTP, self).auth_plugin_config_override(methods) def _make_credentials(self, cred_type, count=1, user_id=None, project_id=None, blob=None): user_id = user_id or self.default_domain_user['id'] project_id = project_id or self.default_domain_project['id'] creds = [] for __ in range(count): if cred_type == 'totp': ref = unit.new_totp_credential( user_id=user_id, project_id=project_id, blob=blob) else: ref = unit.new_credential_ref( user_id=user_id, project_id=project_id) resp = self.post('/credentials', body={'credential': ref}) creds.append(resp.json['credential']) return creds def _make_auth_data_by_id(self, passcode, user_id=None): return self.build_authentication_request( user_id=user_id or self.default_domain_user['id'], passcode=passcode, project_id=self.project['id']) def _make_auth_data_by_name(self, passcode, username, user_domain_id): return self.build_authentication_request( username=username, user_domain_id=user_domain_id, passcode=passcode, project_id=self.project['id']) def cleanup(self): totp_creds = self.credential_api.list_credentials_for_user( self.default_domain_user['id'], type='totp') other_creds = self.credential_api.list_credentials_for_user( self.default_domain_user['id'], type='other') for cred in itertools.chain(other_creds, totp_creds): self.delete('/credentials/%s' % cred['id'], expected_status=http_client.NO_CONTENT) def test_with_a_valid_passcode(self): creds = self._make_credentials('totp') secret = creds[-1]['blob'] # Stop the clock otherwise there is a chance of auth failure due to # getting a different TOTP between the call here and the call in the # auth plugin. self.useFixture(fixture.TimeFixture()) auth_data = self._make_auth_data_by_id( totp._generate_totp_passcode(secret)) self.v3_create_token(auth_data, expected_status=http_client.CREATED) def test_with_an_invalid_passcode_and_user_credentials(self): self._make_credentials('totp') auth_data = self._make_auth_data_by_id('000000') self.v3_create_token(auth_data, expected_status=http_client.UNAUTHORIZED) def test_with_an_invalid_passcode_with_no_user_credentials(self): auth_data = self._make_auth_data_by_id('000000') self.v3_create_token(auth_data, expected_status=http_client.UNAUTHORIZED) def test_with_a_corrupt_totp_credential(self): self._make_credentials('totp', count=1, blob='0') auth_data = self._make_auth_data_by_id('000000') self.v3_create_token(auth_data, expected_status=http_client.UNAUTHORIZED) def test_with_multiple_credentials(self): self._make_credentials('other', 3) creds = self._make_credentials('totp', count=3) secret = creds[-1]['blob'] # Stop the clock otherwise there is a chance of auth failure due to # getting a different TOTP between the call here and the call in the # auth plugin. self.useFixture(fixture.TimeFixture()) auth_data = self._make_auth_data_by_id( totp._generate_totp_passcode(secret)) self.v3_create_token(auth_data, expected_status=http_client.CREATED) def test_with_multiple_users(self): # make some credentials for the existing user self._make_credentials('totp', count=3) # create a new user and their credentials user = unit.create_user(self.identity_api, domain_id=self.domain_id) self.assignment_api.create_grant(self.role['id'], user_id=user['id'], project_id=self.project['id']) creds = self._make_credentials('totp', count=1, user_id=user['id']) secret = creds[-1]['blob'] # Stop the clock otherwise there is a chance of auth failure due to # getting a different TOTP between the call here and the call in the # auth plugin. self.useFixture(fixture.TimeFixture()) auth_data = self._make_auth_data_by_id( totp._generate_totp_passcode(secret), user_id=user['id']) self.v3_create_token(auth_data, expected_status=http_client.CREATED) def test_with_multiple_users_and_invalid_credentials(self): """Prevent logging in with someone else's credentials. It's very easy to forget to limit the credentials query by user. Let's just test it for a sanity check. """ # make some credentials for the existing user self._make_credentials('totp', count=3) # create a new user and their credentials new_user = unit.create_user(self.identity_api, domain_id=self.domain_id) self.assignment_api.create_grant(self.role['id'], user_id=new_user['id'], project_id=self.project['id']) user2_creds = self._make_credentials( 'totp', count=1, user_id=new_user['id']) user_id = self.default_domain_user['id'] # user1 secret = user2_creds[-1]['blob'] auth_data = self._make_auth_data_by_id( totp._generate_totp_passcode(secret), user_id=user_id) self.v3_create_token(auth_data, expected_status=http_client.UNAUTHORIZED) def test_with_username_and_domain_id(self): creds = self._make_credentials('totp') secret = creds[-1]['blob'] # Stop the clock otherwise there is a chance of auth failure due to # getting a different TOTP between the call here and the call in the # auth plugin. self.useFixture(fixture.TimeFixture()) auth_data = self._make_auth_data_by_name( totp._generate_totp_passcode(secret), username=self.default_domain_user['name'], user_domain_id=self.default_domain_user['domain_id']) self.v3_create_token(auth_data, expected_status=http_client.CREATED) class TestFetchRevocationList(test_v3.RestfulTestCase): """Test fetch token revocation list on the v3 Identity API.""" def config_overrides(self): super(TestFetchRevocationList, self).config_overrides() self.config_fixture.config(group='token', revoke_by_id=True) def test_ids_no_tokens(self): # When there's no revoked tokens the response is an empty list, and # the response is signed. res = self.get('/auth/tokens/OS-PKI/revoked') signed = res.json['signed'] clear = cms.cms_verify(signed, CONF.signing.certfile, CONF.signing.ca_certs) payload = json.loads(clear) self.assertEqual({'revoked': []}, payload) def test_ids_token(self): # When there's a revoked token, it's in the response, and the response # is signed. token_res = self.v3_create_token( self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], project_id=self.project['id'])) token_id = token_res.headers.get('X-Subject-Token') token_data = token_res.json['token'] self.delete('/auth/tokens', headers={'X-Subject-Token': token_id}) res = self.get('/auth/tokens/OS-PKI/revoked') signed = res.json['signed'] clear = cms.cms_verify(signed, CONF.signing.certfile, CONF.signing.ca_certs) payload = json.loads(clear) def truncate(ts_str): return ts_str[:19] + 'Z' # 2016-01-21T15:53:52 == 19 chars. exp_token_revoke_data = { 'id': token_id, 'audit_id': token_data['audit_ids'][0], 'expires': truncate(token_data['expires_at']), } self.assertEqual({'revoked': [exp_token_revoke_data]}, payload) def test_audit_id_only_no_tokens(self): # When there's no revoked tokens and ?audit_id_only is used, the # response is an empty list and is not signed. res = self.get('/auth/tokens/OS-PKI/revoked?audit_id_only') self.assertEqual({'revoked': []}, res.json) def test_audit_id_only_token(self): # When there's a revoked token and ?audit_id_only is used, the # response contains the audit_id of the token and is not signed. token_res = self.v3_create_token( self.build_authentication_request( user_id=self.user['id'], password=self.user['password'], project_id=self.project['id'])) token_id = token_res.headers.get('X-Subject-Token') token_data = token_res.json['token'] self.delete('/auth/tokens', headers={'X-Subject-Token': token_id}) res = self.get('/auth/tokens/OS-PKI/revoked?audit_id_only') def truncate(ts_str): return ts_str[:19] + 'Z' # 2016-01-21T15:53:52 == 19 chars. exp_token_revoke_data = { 'audit_id': token_data['audit_ids'][0], 'expires': truncate(token_data['expires_at']), } self.assertEqual({'revoked': [exp_token_revoke_data]}, res.json)