openstack
/
keystone
Code Issues Proposed changes
keystone/keystone/tests/test_v3_assignment.py

2443 lines
102 KiB
Python
Raw Blame History

# 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 uuid
from oslo_config import cfg
from keystone.common import controller
from keystone import exception
from keystone import tests
from keystone.tests import test_v3
CONF = cfg.CONF
def _build_role_assignment_url_and_entity(
role_id, user_id=None, group_id=None, domain_id=None,
project_id=None, inherited_to_projects=False,
effective=False):
if user_id and domain_id:
url = ('/domains/%(domain_id)s/users/%(user_id)s'
'/roles/%(role_id)s' % {
'domain_id': domain_id,
'user_id': user_id,
'role_id': role_id})
entity = {'role': {'id': role_id},
'user': {'id': user_id},
'scope': {'domain': {'id': domain_id}}}
elif user_id and project_id:
url = ('/projects/%(project_id)s/users/%(user_id)s'
'/roles/%(role_id)s' % {
'project_id': project_id,
'user_id': user_id,
'role_id': role_id})
entity = {'role': {'id': role_id},
'user': {'id': user_id},
'scope': {'project': {'id': project_id}}}
if group_id and domain_id:
url = ('/domains/%(domain_id)s/groups/%(group_id)s'
'/roles/%(role_id)s' % {
'domain_id': domain_id,
'group_id': group_id,
'role_id': role_id})
entity = {'role': {'id': role_id},
'group': {'id': group_id},
'scope': {'domain': {'id': domain_id}}}
elif group_id and project_id:
url = ('/projects/%(project_id)s/groups/%(group_id)s'
'/roles/%(role_id)s' % {
'project_id': project_id,
'group_id': group_id,
'role_id': role_id})
entity = {'role': {'id': role_id},
'group': {'id': group_id},
'scope': {'project': {'id': project_id}}}
if inherited_to_projects:
url = '/OS-INHERIT%s/inherited_to_projects' % url
if not effective:
entity['scope']['OS-INHERIT:inherited_to'] = 'projects'
return (url, entity)
class AssignmentTestCase(test_v3.RestfulTestCase):
"""Test domains, projects, roles and role assignments."""
def setUp(self):
super(AssignmentTestCase, self).setUp()
self.group = self.new_group_ref(
domain_id=self.domain_id)
self.group = self.identity_api.create_group(self.group)
self.group_id = self.group['id']
self.credential_id = uuid.uuid4().hex
self.credential = self.new_credential_ref(
user_id=self.user['id'],
project_id=self.project_id)
self.credential['id'] = self.credential_id
self.credential_api.create_credential(
self.credential_id,
self.credential)
# Domain CRUD tests
def test_create_domain(self):
"""Call ``POST /domains``."""
ref = self.new_domain_ref()
r = self.post(
'/domains',
body={'domain': ref})
return self.assertValidDomainResponse(r, ref)
def test_create_domain_case_sensitivity(self):
"""Call `POST /domains`` twice with upper() and lower() cased name."""
ref = self.new_domain_ref()
# ensure the name is lowercase
ref['name'] = ref['name'].lower()
r = self.post(
'/domains',
body={'domain': ref})
self.assertValidDomainResponse(r, ref)
# ensure the name is uppercase
ref['name'] = ref['name'].upper()
r = self.post(
'/domains',
body={'domain': ref})
self.assertValidDomainResponse(r, ref)
def test_create_domain_400(self):
"""Call ``POST /domains``."""
self.post('/domains', body={'domain': {}}, expected_status=400)
def test_list_domains(self):
"""Call ``GET /domains``."""
resource_url = '/domains'
r = self.get(resource_url)
self.assertValidDomainListResponse(r, ref=self.domain,
resource_url=resource_url)
def test_get_domain(self):
"""Call ``GET /domains/{domain_id}``."""
r = self.get('/domains/%(domain_id)s' % {
'domain_id': self.domain_id})
self.assertValidDomainResponse(r, self.domain)
def test_update_domain(self):
"""Call ``PATCH /domains/{domain_id}``."""
ref = self.new_domain_ref()
del ref['id']
r = self.patch('/domains/%(domain_id)s' % {
'domain_id': self.domain_id},
body={'domain': ref})
self.assertValidDomainResponse(r, ref)
def test_disable_domain(self):
"""Call ``PATCH /domains/{domain_id}`` (set enabled=False)."""
# Create a 2nd set of entities in a 2nd domain
self.domain2 = self.new_domain_ref()
self.resource_api.create_domain(self.domain2['id'], self.domain2)
self.project2 = self.new_project_ref(
domain_id=self.domain2['id'])
self.resource_api.create_project(self.project2['id'], self.project2)
self.user2 = self.new_user_ref(
domain_id=self.domain2['id'],
project_id=self.project2['id'])
password = self.user2['password']
self.user2 = self.identity_api.create_user(self.user2)
self.user2['password'] = password
self.assignment_api.add_user_to_project(self.project2['id'],
self.user2['id'])
# First check a user in that domain can authenticate, via
# Both v2 and v3
body = {
'auth': {
'passwordCredentials': {
'userId': self.user2['id'],
'password': self.user2['password']
},
'tenantId': self.project2['id']
}
}
self.admin_request(path='/v2.0/tokens', method='POST', body=body)
auth_data = self.build_authentication_request(
user_id=self.user2['id'],
password=self.user2['password'],
project_id=self.project2['id'])
self.v3_authenticate_token(auth_data)
# Now disable the domain
self.domain2['enabled'] = False
r = self.patch('/domains/%(domain_id)s' % {
'domain_id': self.domain2['id']},
body={'domain': {'enabled': False}})
self.assertValidDomainResponse(r, self.domain2)
# Make sure the user can no longer authenticate, via
# either API
body = {
'auth': {
'passwordCredentials': {
'userId': self.user2['id'],
'password': self.user2['password']
},
'tenantId': self.project2['id']
}
}
self.admin_request(
path='/v2.0/tokens', method='POST', body=body, expected_status=401)
# Try looking up in v3 by name and id
auth_data = self.build_authentication_request(
user_id=self.user2['id'],
password=self.user2['password'],
project_id=self.project2['id'])
self.v3_authenticate_token(auth_data, expected_status=401)
auth_data = self.build_authentication_request(
username=self.user2['name'],
user_domain_id=self.domain2['id'],
password=self.user2['password'],
project_id=self.project2['id'])
self.v3_authenticate_token(auth_data, expected_status=401)
def test_delete_enabled_domain_fails(self):
"""Call ``DELETE /domains/{domain_id}`` (when domain enabled)."""
# Try deleting an enabled domain, which should fail
self.delete('/domains/%(domain_id)s' % {
'domain_id': self.domain['id']},
expected_status=exception.ForbiddenAction.code)
def test_delete_domain(self):
"""Call ``DELETE /domains/{domain_id}``.
The sample data set up already has a user, group, project
and credential that is part of self.domain. Since the user
we will authenticate with is in this domain, we create a
another set of entities in a second domain. Deleting this
second domain should delete all these new entities. In addition,
all the entities in the regular self.domain should be unaffected
by the delete.
Test Plan:
- Create domain2 and a 2nd set of entities
- Disable domain2
- Delete domain2
- Check entities in domain2 have been deleted
- Check entities in self.domain are unaffected
"""
# Create a 2nd set of entities in a 2nd domain
self.domain2 = self.new_domain_ref()
self.resource_api.create_domain(self.domain2['id'], self.domain2)
self.project2 = self.new_project_ref(
domain_id=self.domain2['id'])
self.resource_api.create_project(self.project2['id'], self.project2)
self.user2 = self.new_user_ref(
domain_id=self.domain2['id'],
project_id=self.project2['id'])
self.user2 = self.identity_api.create_user(self.user2)
self.group2 = self.new_group_ref(
domain_id=self.domain2['id'])
self.group2 = self.identity_api.create_group(self.group2)
self.credential2 = self.new_credential_ref(
user_id=self.user2['id'],
project_id=self.project2['id'])
self.credential_api.create_credential(
self.credential2['id'],
self.credential2)
# Now disable the new domain and delete it
self.domain2['enabled'] = False
r = self.patch('/domains/%(domain_id)s' % {
'domain_id': self.domain2['id']},
body={'domain': {'enabled': False}})
self.assertValidDomainResponse(r, self.domain2)
self.delete('/domains/%(domain_id)s' % {
'domain_id': self.domain2['id']})
# Check all the domain2 relevant entities are gone
self.assertRaises(exception.DomainNotFound,
self.resource_api.get_domain,
self.domain2['id'])
self.assertRaises(exception.ProjectNotFound,
self.resource_api.get_project,
self.project2['id'])
self.assertRaises(exception.GroupNotFound,
self.identity_api.get_group,
self.group2['id'])
self.assertRaises(exception.UserNotFound,
self.identity_api.get_user,
self.user2['id'])
self.assertRaises(exception.CredentialNotFound,
self.credential_api.get_credential,
self.credential2['id'])
# ...and that all self.domain entities are still here
r = self.resource_api.get_domain(self.domain['id'])
self.assertDictEqual(r, self.domain)
r = self.resource_api.get_project(self.project['id'])
self.assertDictEqual(r, self.project)
r = self.identity_api.get_group(self.group['id'])
self.assertDictEqual(r, self.group)
r = self.identity_api.get_user(self.user['id'])
self.user.pop('password')
self.assertDictEqual(r, self.user)
r = self.credential_api.get_credential(self.credential['id'])
self.assertDictEqual(r, self.credential)
def test_delete_default_domain_fails(self):
# Attempting to delete the default domain results in 403 Forbidden.
# Need to disable it first.
self.patch('/domains/%(domain_id)s' % {
'domain_id': CONF.identity.default_domain_id},
body={'domain': {'enabled': False}})
self.delete('/domains/%(domain_id)s' % {
'domain_id': CONF.identity.default_domain_id},
expected_status=exception.ForbiddenAction.code)
def test_delete_new_default_domain_fails(self):
# If change the default domain ID, deleting the new default domain
# results in a 403 Forbidden.
# Create a new domain that's not the default
new_domain = self.new_domain_ref()
new_domain_id = new_domain['id']
self.resource_api.create_domain(new_domain_id, new_domain)
# Disable the new domain so can delete it later.
self.patch('/domains/%(domain_id)s' % {
'domain_id': new_domain_id},
body={'domain': {'enabled': False}})
# Change the default domain
self.config_fixture.config(group='identity',
default_domain_id=new_domain_id)
# Attempt to delete the new domain
self.delete('/domains/%(domain_id)s' % {'domain_id': new_domain_id},
expected_status=exception.ForbiddenAction.code)
def test_delete_old_default_domain(self):
# If change the default domain ID, deleting the old default domain
# works.
# Create a new domain that's not the default
new_domain = self.new_domain_ref()
new_domain_id = new_domain['id']
self.resource_api.create_domain(new_domain_id, new_domain)
old_default_domain_id = CONF.identity.default_domain_id
# Disable the default domain so we can delete it later.
self.patch('/domains/%(domain_id)s' % {
'domain_id': old_default_domain_id},
body={'domain': {'enabled': False}})
# Change the default domain
self.config_fixture.config(group='identity',
default_domain_id=new_domain_id)
# Delete the old default domain
self.delete(
'/domains/%(domain_id)s' % {'domain_id': old_default_domain_id})
def test_token_revoked_once_domain_disabled(self):
"""Test token from a disabled domain has been invalidated.
Test that a token that was valid for an enabled domain
becomes invalid once that domain is disabled.
"""
self.domain = self.new_domain_ref()
self.resource_api.create_domain(self.domain['id'], self.domain)
self.user2 = self.new_user_ref(domain_id=self.domain['id'])
password = self.user2['password']
self.user2 = self.identity_api.create_user(self.user2)
self.user2['password'] = password
# build a request body
auth_body = self.build_authentication_request(
user_id=self.user2['id'],
password=self.user2['password'])
# sends a request for the user's token
token_resp = self.post('/auth/tokens', body=auth_body)
subject_token = token_resp.headers.get('x-subject-token')
# validates the returned token and it should be valid.
self.head('/auth/tokens',
headers={'x-subject-token': subject_token},
expected_status=200)
# now disable the domain
self.domain['enabled'] = False
url = "/domains/%(domain_id)s" % {'domain_id': self.domain['id']}
self.patch(url,
body={'domain': {'enabled': False}},
expected_status=200)
# validates the same token again and it should be 'not found'
# as the domain has already been disabled.
self.head('/auth/tokens',
headers={'x-subject-token': subject_token},
expected_status=404)
def test_delete_domain_hierarchy(self):
"""Call ``DELETE /domains/{domain_id}``."""
domain = self.new_domain_ref()
self.resource_api.create_domain(domain['id'], domain)
root_project = self.new_project_ref(
domain_id=domain['id'])
self.resource_api.create_project(root_project['id'], root_project)
leaf_project = self.new_project_ref(
domain_id=domain['id'],
parent_id=root_project['id'])
self.resource_api.create_project(leaf_project['id'], leaf_project)
# Need to disable it first.
self.patch('/domains/%(domain_id)s' % {
'domain_id': domain['id']},
body={'domain': {'enabled': False}})
self.delete(
'/domains/%(domain_id)s' % {
'domain_id': domain['id']})
self.assertRaises(exception.DomainNotFound,
self.resource_api.get_domain,
domain['id'])
self.assertRaises(exception.ProjectNotFound,
self.resource_api.get_project,
root_project['id'])
self.assertRaises(exception.ProjectNotFound,
self.resource_api.get_project,
leaf_project['id'])
# Project CRUD tests
def test_list_projects(self):
"""Call ``GET /projects``."""
resource_url = '/projects'
r = self.get(resource_url)
self.assertValidProjectListResponse(r, ref=self.project,
resource_url=resource_url)
def test_create_project(self):
"""Call ``POST /projects``."""
ref = self.new_project_ref(domain_id=self.domain_id)
r = self.post(
'/projects',
body={'project': ref})
self.assertValidProjectResponse(r, ref)
def test_create_project_400(self):
"""Call ``POST /projects``."""
self.post('/projects', body={'project': {}}, expected_status=400)
def _create_projects_hierarchy(self, hierarchy_size=1):
"""Creates a project hierarchy with specified size.
:param hierarchy_size: the desired hierarchy size, default is 1 -
a project with one child.
:returns projects: a list of the projects in the created hierarchy.
"""
resp = self.get(
'/projects/%(project_id)s' % {
'project_id': self.project_id})
projects = [resp.result]
for i in range(hierarchy_size):
new_ref = self.new_project_ref(
domain_id=self.domain_id,
parent_id=projects[i]['project']['id'])
resp = self.post('/projects',
body={'project': new_ref})
self.assertValidProjectResponse(resp, new_ref)
projects.append(resp.result)
return projects
def test_create_hierarchical_project(self):
"""Call ``POST /projects``."""
self._create_projects_hierarchy()
def test_get_project(self):
"""Call ``GET /projects/{project_id}``."""
r = self.get(
'/projects/%(project_id)s' % {
'project_id': self.project_id})
self.assertValidProjectResponse(r, self.project)
def test_get_project_with_parents_as_ids(self):
"""Call ``GET /projects/{project_id}?parents_as_ids``."""
projects = self._create_projects_hierarchy(hierarchy_size=2)
# Query for projects[2] parents_as_ids
r = self.get(
'/projects/%(project_id)s?parents_as_ids' % {
'project_id': projects[2]['project']['id']})
self.assertValidProjectResponse(r, projects[2]['project'])
parents_as_ids = r.result['project']['parents']
# Assert parents_as_ids is a structured dictionary correctly
# representing the hierarchy. The request was made using projects[2]
# id, hence its parents should be projects[1] and projects[0]. It
# should have the following structure:
# {
# projects[1]: {
# projects[0]: None
# }
# }
expected_dict = {
projects[1]['project']['id']: {
projects[0]['project']['id']: None
}
}
self.assertDictEqual(expected_dict, parents_as_ids)
# Query for projects[0] parents_as_ids
r = self.get(
'/projects/%(project_id)s?parents_as_ids' % {
'project_id': projects[0]['project']['id']})
self.assertValidProjectResponse(r, projects[0]['project'])
parents_as_ids = r.result['project']['parents']
# projects[0] has no parents, parents_as_ids must be None
self.assertIsNone(parents_as_ids)
def test_get_project_with_parents_as_list(self):
"""Call ``GET /projects/{project_id}?parents_as_list``."""
projects = self._create_projects_hierarchy(hierarchy_size=2)
r = self.get(
'/projects/%(project_id)s?parents_as_list' % {
'project_id': projects[1]['project']['id']})
self.assertEqual(1, len(r.result['project']['parents']))
self.assertValidProjectResponse(r, projects[1]['project'])
self.assertIn(projects[0], r.result['project']['parents'])
self.assertNotIn(projects[2], r.result['project']['parents'])
def test_get_project_with_parents_as_list_and_parents_as_ids(self):
"""Call ``GET /projects/{project_id}?parents_as_list&parents_as_ids``.
"""
projects = self._create_projects_hierarchy(hierarchy_size=2)
self.get(
'/projects/%(project_id)s?parents_as_list&parents_as_ids' % {
'project_id': projects[1]['project']['id']},
expected_status=400)
def test_get_project_with_subtree_as_ids(self):
"""Call ``GET /projects/{project_id}?subtree_as_ids``.
This test creates a more complex hierarchy to test if the structured
dictionary returned by using the ``subtree_as_ids`` query param
correctly represents the hierarchy.
The hierarchy contains 5 projects with the following structure::
+--A--+
| |
+--B--+ C
| |
D E
"""
projects = self._create_projects_hierarchy(hierarchy_size=2)
# Add another child to projects[0] - it will be projects[3]
new_ref = self.new_project_ref(
domain_id=self.domain_id,
parent_id=projects[0]['project']['id'])
resp = self.post('/projects',
body={'project': new_ref})
self.assertValidProjectResponse(resp, new_ref)
projects.append(resp.result)
# Add another child to projects[1] - it will be projects[4]
new_ref = self.new_project_ref(
domain_id=self.domain_id,
parent_id=projects[1]['project']['id'])
resp = self.post('/projects',
body={'project': new_ref})
self.assertValidProjectResponse(resp, new_ref)
projects.append(resp.result)
# Query for projects[0] subtree_as_ids
r = self.get(
'/projects/%(project_id)s?subtree_as_ids' % {
'project_id': projects[0]['project']['id']})
self.assertValidProjectResponse(r, projects[0]['project'])
subtree_as_ids = r.result['project']['subtree']
# The subtree hierarchy from projects[0] should have the following
# structure:
# {
# projects[1]: {
# projects[2]: None,
# projects[4]: None
# },
# projects[3]: None
# }
expected_dict = {
projects[1]['project']['id']: {
projects[2]['project']['id']: None,
projects[4]['project']['id']: None
},
projects[3]['project']['id']: None
}
self.assertDictEqual(expected_dict, subtree_as_ids)
# Now query for projects[1] subtree_as_ids
r = self.get(
'/projects/%(project_id)s?subtree_as_ids' % {
'project_id': projects[1]['project']['id']})
self.assertValidProjectResponse(r, projects[1]['project'])
subtree_as_ids = r.result['project']['subtree']
# The subtree hierarchy from projects[1] should have the following
# structure:
# {
# projects[2]: None,
# projects[4]: None
# }
expected_dict = {
projects[2]['project']['id']: None,
projects[4]['project']['id']: None
}
self.assertDictEqual(expected_dict, subtree_as_ids)
# Now query for projects[3] subtree_as_ids
r = self.get(
'/projects/%(project_id)s?subtree_as_ids' % {
'project_id': projects[3]['project']['id']})
self.assertValidProjectResponse(r, projects[3]['project'])
subtree_as_ids = r.result['project']['subtree']
# projects[3] has no subtree, subtree_as_ids must be None
self.assertIsNone(subtree_as_ids)
def test_get_project_with_subtree_as_list(self):
"""Call ``GET /projects/{project_id}?subtree_as_list``."""
projects = self._create_projects_hierarchy(hierarchy_size=2)
r = self.get(
'/projects/%(project_id)s?subtree_as_list' % {
'project_id': projects[1]['project']['id']})
self.assertEqual(1, len(r.result['project']['subtree']))
self.assertValidProjectResponse(r, projects[1]['project'])
self.assertNotIn(projects[0], r.result['project']['subtree'])
self.assertIn(projects[2], r.result['project']['subtree'])
def test_get_project_with_subtree_as_list_and_subtree_as_ids(self):
"""Call ``GET /projects/{project_id}?subtree_as_list&subtree_as_ids``.
"""
projects = self._create_projects_hierarchy(hierarchy_size=2)
self.get(
'/projects/%(project_id)s?subtree_as_list&subtree_as_ids' % {
'project_id': projects[1]['project']['id']},
expected_status=400)
def test_update_project(self):
"""Call ``PATCH /projects/{project_id}``."""
ref = self.new_project_ref(domain_id=self.domain_id)
del ref['id']
r = self.patch(
'/projects/%(project_id)s' % {
'project_id': self.project_id},
body={'project': ref})
self.assertValidProjectResponse(r, ref)
def test_update_project_domain_id(self):
"""Call ``PATCH /projects/{project_id}`` with domain_id."""
project = self.new_project_ref(domain_id=self.domain['id'])
self.resource_api.create_project(project['id'], project)
project['domain_id'] = CONF.identity.default_domain_id
r = self.patch('/projects/%(project_id)s' % {
'project_id': project['id']},
body={'project': project},
expected_status=exception.ValidationError.code)
self.config_fixture.config(domain_id_immutable=False)
project['domain_id'] = self.domain['id']
r = self.patch('/projects/%(project_id)s' % {
'project_id': project['id']},
body={'project': project})
self.assertValidProjectResponse(r, project)
def test_update_project_parent_id(self):
"""Call ``PATCH /projects/{project_id}``."""
projects = self._create_projects_hierarchy()
leaf_project = projects[1]['project']
leaf_project['parent_id'] = None
self.patch(
'/projects/%(project_id)s' % {
'project_id': leaf_project['id']},
body={'project': leaf_project},
expected_status=403)
def test_disable_leaf_project(self):
"""Call ``PATCH /projects/{project_id}``."""
projects = self._create_projects_hierarchy()
leaf_project = projects[1]['project']
leaf_project['enabled'] = False
r = self.patch(
'/projects/%(project_id)s' % {
'project_id': leaf_project['id']},
body={'project': leaf_project})
self.assertEqual(
leaf_project['enabled'], r.result['project']['enabled'])
def test_disable_not_leaf_project(self):
"""Call ``PATCH /projects/{project_id}``."""
projects = self._create_projects_hierarchy()
root_project = projects[0]['project']
root_project['enabled'] = False
self.patch(
'/projects/%(project_id)s' % {
'project_id': root_project['id']},
body={'project': root_project},
expected_status=403)
def test_delete_project(self):
"""Call ``DELETE /projects/{project_id}``
As well as making sure the delete succeeds, we ensure
that any credentials that reference this projects are
also deleted, while other credentials are unaffected.
"""
# First check the credential for this project is present
r = self.credential_api.get_credential(self.credential['id'])
self.assertDictEqual(r, self.credential)
# Create a second credential with a different project
self.project2 = self.new_project_ref(
domain_id=self.domain['id'])
self.resource_api.create_project(self.project2['id'], self.project2)
self.credential2 = self.new_credential_ref(
user_id=self.user['id'],
project_id=self.project2['id'])
self.credential_api.create_credential(
self.credential2['id'],
self.credential2)
# Now delete the project
self.delete(
'/projects/%(project_id)s' % {
'project_id': self.project_id})
# Deleting the project should have deleted any credentials
# that reference this project
self.assertRaises(exception.CredentialNotFound,
self.credential_api.get_credential,
credential_id=self.credential['id'])
# But the credential for project2 is unaffected
r = self.credential_api.get_credential(self.credential2['id'])
self.assertDictEqual(r, self.credential2)
def test_delete_not_leaf_project(self):
"""Call ``DELETE /projects/{project_id}``."""
self._create_projects_hierarchy()
self.delete(
'/projects/%(project_id)s' % {
'project_id': self.project_id},
expected_status=403)
# Role CRUD tests
def test_create_role(self):
"""Call ``POST /roles``."""
ref = self.new_role_ref()
r = self.post(
'/roles',
body={'role': ref})
return self.assertValidRoleResponse(r, ref)
def test_create_role_400(self):
"""Call ``POST /roles``."""
self.post('/roles', body={'role': {}}, expected_status=400)
def test_list_roles(self):
"""Call ``GET /roles``."""
resource_url = '/roles'
r = self.get(resource_url)
self.assertValidRoleListResponse(r, ref=self.role,
resource_url=resource_url)
def test_get_role(self):
"""Call ``GET /roles/{role_id}``."""
r = self.get('/roles/%(role_id)s' % {
'role_id': self.role_id})
self.assertValidRoleResponse(r, self.role)
def test_update_role(self):
"""Call ``PATCH /roles/{role_id}``."""
ref = self.new_role_ref()
del ref['id']
r = self.patch('/roles/%(role_id)s' % {
'role_id': self.role_id},
body={'role': ref})
self.assertValidRoleResponse(r, ref)
def test_delete_role(self):
"""Call ``DELETE /roles/{role_id}``."""
self.delete('/roles/%(role_id)s' % {
'role_id': self.role_id})
# Role Grants tests
def test_crud_user_project_role_grants(self):
collection_url = (
'/projects/%(project_id)s/users/%(user_id)s/roles' % {
'project_id': self.project['id'],
'user_id': self.user['id']})
member_url = '%(collection_url)s/%(role_id)s' % {
'collection_url': collection_url,
'role_id': self.role_id}
self.put(member_url)
self.head(member_url)
r = self.get(collection_url)
self.assertValidRoleListResponse(r, ref=self.role,
resource_url=collection_url)
# FIXME(gyee): this test is no longer valid as user
# have no role in the project. Can't get a scoped token
# self.delete(member_url)
# r = self.get(collection_url)
# self.assertValidRoleListResponse(r, expected_length=0)
# self.assertIn(collection_url, r.result['links']['self'])
def test_crud_user_project_role_grants_no_user(self):
"""Grant role on a project to a user that doesn't exist, 404 result.
When grant a role on a project to a user that doesn't exist, the server
returns 404 Not Found for the user.
"""
user_id = uuid.uuid4().hex
collection_url = (
'/projects/%(project_id)s/users/%(user_id)s/roles' % {
'project_id': self.project['id'], 'user_id': user_id})
member_url = '%(collection_url)s/%(role_id)s' % {
'collection_url': collection_url,
'role_id': self.role_id}
self.put(member_url, expected_status=404)
def test_crud_user_domain_role_grants(self):
collection_url = (
'/domains/%(domain_id)s/users/%(user_id)s/roles' % {
'domain_id': self.domain_id,
'user_id': self.user['id']})
member_url = '%(collection_url)s/%(role_id)s' % {
'collection_url': collection_url,
'role_id': self.role_id}
self.put(member_url)
self.head(member_url)
r = self.get(collection_url)
self.assertValidRoleListResponse(r, ref=self.role,
resource_url=collection_url)
self.delete(member_url)
r = self.get(collection_url)
self.assertValidRoleListResponse(r, expected_length=0,
resource_url=collection_url)
def test_crud_user_domain_role_grants_no_user(self):
"""Grant role on a domain to a user that doesn't exist, 404 result.
When grant a role on a domain to a user that doesn't exist, the server
returns 404 Not Found for the user.
"""
user_id = uuid.uuid4().hex
collection_url = (
'/domains/%(domain_id)s/users/%(user_id)s/roles' % {
'domain_id': self.domain_id, 'user_id': user_id})
member_url = '%(collection_url)s/%(role_id)s' % {
'collection_url': collection_url,
'role_id': self.role_id}
self.put(member_url, expected_status=404)
def test_crud_group_project_role_grants(self):
collection_url = (
'/projects/%(project_id)s/groups/%(group_id)s/roles' % {
'project_id': self.project_id,
'group_id': self.group_id})
member_url = '%(collection_url)s/%(role_id)s' % {
'collection_url': collection_url,
'role_id': self.role_id}
self.put(member_url)
self.head(member_url)
r = self.get(collection_url)
self.assertValidRoleListResponse(r, ref=self.role,
resource_url=collection_url)
self.delete(member_url)
r = self.get(collection_url)
self.assertValidRoleListResponse(r, expected_length=0,
resource_url=collection_url)
def test_crud_group_project_role_grants_no_group(self):
"""Grant role on a project to a group that doesn't exist, 404 result.
When grant a role on a project to a group that doesn't exist, the
server returns 404 Not Found for the group.
"""
group_id = uuid.uuid4().hex
collection_url = (
'/projects/%(project_id)s/groups/%(group_id)s/roles' % {
'project_id': self.project_id,
'group_id': group_id})
member_url = '%(collection_url)s/%(role_id)s' % {
'collection_url': collection_url,
'role_id': self.role_id}
self.put(member_url, expected_status=404)
def test_crud_group_domain_role_grants(self):
collection_url = (
'/domains/%(domain_id)s/groups/%(group_id)s/roles' % {
'domain_id': self.domain_id,
'group_id': self.group_id})
member_url = '%(collection_url)s/%(role_id)s' % {
'collection_url': collection_url,
'role_id': self.role_id}
self.put(member_url)
self.head(member_url)
r = self.get(collection_url)
self.assertValidRoleListResponse(r, ref=self.role,
resource_url=collection_url)
self.delete(member_url)
r = self.get(collection_url)
self.assertValidRoleListResponse(r, expected_length=0,
resource_url=collection_url)
def test_crud_group_domain_role_grants_no_group(self):
"""Grant role on a domain to a group that doesn't exist, 404 result.
When grant a role on a domain to a group that doesn't exist, the server
returns 404 Not Found for the group.
"""
group_id = uuid.uuid4().hex
collection_url = (
'/domains/%(domain_id)s/groups/%(group_id)s/roles' % {
'domain_id': self.domain_id,
'group_id': group_id})
member_url = '%(collection_url)s/%(role_id)s' % {
'collection_url': collection_url,
'role_id': self.role_id}
self.put(member_url, expected_status=404)
def _create_new_user_and_assign_role_on_project(self):
"""Create a new user and assign user a role on a project."""
# Create a new user
new_user = self.new_user_ref(domain_id=self.domain_id)
user_ref = self.identity_api.create_user(new_user)
# Assign the user a role on the project
collection_url = (
'/projects/%(project_id)s/users/%(user_id)s/roles' % {
'project_id': self.project_id,
'user_id': user_ref['id']})
member_url = ('%(collection_url)s/%(role_id)s' % {
'collection_url': collection_url,
'role_id': self.role_id})
self.put(member_url, expected_status=204)
# Check the user has the role assigned
self.head(member_url, expected_status=204)
return member_url, user_ref
def test_delete_user_before_removing_role_assignment_succeeds(self):
"""Call ``DELETE`` on the user before the role assignment."""
member_url, user = self._create_new_user_and_assign_role_on_project()
# Delete the user from identity backend
self.identity_api.driver.delete_user(user['id'])
# Clean up the role assignment
self.delete(member_url, expected_status=204)
# Make sure the role is gone
self.head(member_url, expected_status=404)
def test_delete_user_and_check_role_assignment_fails(self):
"""Call ``DELETE`` on the user and check the role assignment."""
member_url, user = self._create_new_user_and_assign_role_on_project()
# Delete the user from identity backend
self.identity_api.driver.delete_user(user['id'])
# We should get a 404 when looking for the user in the identity
# backend because we're not performing a delete operation on the role.
self.head(member_url, expected_status=404)
def test_token_revoked_once_group_role_grant_revoked(self):
"""Test token is revoked when group role grant is revoked
When a role granted to a group is revoked for a given scope,
all tokens related to this scope and belonging to one of the members
of this group should be revoked.
The revocation should be independently to the presence
of the revoke API.
"""
# If enabled, the revoke API will revoke tokens first.
# This ensures that tokens are revoked even without revoke API.
self.assignment_api.revoke_api = None
# creates grant from group on project.
self.assignment_api.create_grant(role_id=self.role['id'],
project_id=self.project['id'],
group_id=self.group['id'])
# adds user to the group.
self.identity_api.add_user_to_group(user_id=self.user['id'],
group_id=self.group['id'])
# creates a token for the user
auth_body = self.build_authentication_request(
user_id=self.user['id'],
password=self.user['password'],
project_id=self.project['id'])
token_resp = self.post('/auth/tokens', body=auth_body)
token = token_resp.headers.get('x-subject-token')
# validates the returned token; it should be valid.
self.head('/auth/tokens',
headers={'x-subject-token': token},
expected_status=200)
# revokes the grant from group on project.
self.assignment_api.delete_grant(role_id=self.role['id'],
project_id=self.project['id'],
group_id=self.group['id'])
# validates the same token again; it should not longer be valid.
self.head('/auth/tokens',
headers={'x-subject-token': token},
expected_status=404)
# Role Assignments tests
def test_get_role_assignments(self):
"""Call ``GET /role_assignments``.
The sample data set up already has a user, group and project
that is part of self.domain. We use these plus a new user
we create as our data set, making sure we ignore any
role assignments that are already in existence.
Since we don't yet support a first class entity for role
assignments, we are only testing the LIST API. To create
and delete the role assignments we use the old grant APIs.
Test Plan:
- Create extra user for tests
- Get a list of all existing role assignments
- Add a new assignment for each of the four combinations, i.e.
group+domain, user+domain, group+project, user+project, using
the same role each time
- Get a new list of all role assignments, checking these four new
ones have been added
- Then delete the four we added
- Get a new list of all role assignments, checking the four have
been removed
"""
# Since the default fixtures already assign some roles to the
# user it creates, we also need a new user that will not have any
# existing assignments
self.user1 = self.new_user_ref(
domain_id=self.domain['id'])
self.user1 = self.identity_api.create_user(self.user1)
collection_url = '/role_assignments'
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(r,
resource_url=collection_url)
existing_assignments = len(r.result.get('role_assignments'))
# Now add one of each of the four types of assignment, making sure
# that we get them all back.
gd_url, gd_entity = _build_role_assignment_url_and_entity(
domain_id=self.domain_id, group_id=self.group_id,
role_id=self.role_id)
self.put(gd_url)
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(
r,
expected_length=existing_assignments + 1,
resource_url=collection_url)
self.assertRoleAssignmentInListResponse(r, gd_entity, link_url=gd_url)
ud_url, ud_entity = _build_role_assignment_url_and_entity(
domain_id=self.domain_id, user_id=self.user1['id'],
role_id=self.role_id)
self.put(ud_url)
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(
r,
expected_length=existing_assignments + 2,
resource_url=collection_url)
self.assertRoleAssignmentInListResponse(r, ud_entity, link_url=ud_url)
gp_url, gp_entity = _build_role_assignment_url_and_entity(
project_id=self.project_id, group_id=self.group_id,
role_id=self.role_id)
self.put(gp_url)
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(
r,
expected_length=existing_assignments + 3,
resource_url=collection_url)
self.assertRoleAssignmentInListResponse(r, gp_entity, link_url=gp_url)
up_url, up_entity = _build_role_assignment_url_and_entity(
project_id=self.project_id, user_id=self.user1['id'],
role_id=self.role_id)
self.put(up_url)
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(
r,
expected_length=existing_assignments + 4,
resource_url=collection_url)
self.assertRoleAssignmentInListResponse(r, up_entity, link_url=up_url)
# Now delete the four we added and make sure they are removed
# from the collection.
self.delete(gd_url)
self.delete(ud_url)
self.delete(gp_url)
self.delete(up_url)
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(
r,
expected_length=existing_assignments,
resource_url=collection_url)
self.assertRoleAssignmentNotInListResponse(r, gd_entity)
self.assertRoleAssignmentNotInListResponse(r, ud_entity)
self.assertRoleAssignmentNotInListResponse(r, gp_entity)
self.assertRoleAssignmentNotInListResponse(r, up_entity)
def test_get_effective_role_assignments(self):
"""Call ``GET /role_assignments?effective``.
Test Plan:
- Create two extra user for tests
- Add these users to a group
- Add a role assignment for the group on a domain
- Get a list of all role assignments, checking one has been added
- Then get a list of all effective role assignments - the group
assignment should have turned into assignments on the domain
for each of the group members.
"""
self.user1 = self.new_user_ref(
domain_id=self.domain['id'])
password = self.user1['password']
self.user1 = self.identity_api.create_user(self.user1)
self.user1['password'] = password
self.user2 = self.new_user_ref(
domain_id=self.domain['id'])
password = self.user2['password']
self.user2 = self.identity_api.create_user(self.user2)
self.user2['password'] = password
self.identity_api.add_user_to_group(self.user1['id'], self.group['id'])
self.identity_api.add_user_to_group(self.user2['id'], self.group['id'])
collection_url = '/role_assignments'
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(r,
resource_url=collection_url)
existing_assignments = len(r.result.get('role_assignments'))
gd_url, gd_entity = _build_role_assignment_url_and_entity(
domain_id=self.domain_id, group_id=self.group_id,
role_id=self.role_id)
self.put(gd_url)
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(
r,
expected_length=existing_assignments + 1,
resource_url=collection_url)
self.assertRoleAssignmentInListResponse(r, gd_entity, link_url=gd_url)
# Now re-read the collection asking for effective roles - this
# should mean the group assignment is translated into the two
# member user assignments
collection_url = '/role_assignments?effective'
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(
r,
expected_length=existing_assignments + 2,
resource_url=collection_url)
unused, ud_entity = _build_role_assignment_url_and_entity(
domain_id=self.domain_id, user_id=self.user1['id'],
role_id=self.role_id)
gd_url, unused = _build_role_assignment_url_and_entity(
domain_id=self.domain_id, group_id=self.group['id'],
role_id=self.role_id)
self.assertRoleAssignmentInListResponse(r, ud_entity, link_url=gd_url)
ud_url, ud_entity = _build_role_assignment_url_and_entity(
domain_id=self.domain_id, user_id=self.user2['id'],
role_id=self.role_id)
self.assertRoleAssignmentInListResponse(r, ud_entity, link_url=gd_url)
def test_check_effective_values_for_role_assignments(self):
"""Call ``GET /role_assignments?effective=value``.
Check the various ways of specifying the 'effective'
query parameter. If the 'effective' query parameter
is included then this should always be treated as meaning 'True'
unless it is specified as:
{url}?effective=0
This is by design to match the agreed way of handling
policy checking on query/filter parameters.
Test Plan:
- Create two extra user for tests
- Add these users to a group
- Add a role assignment for the group on a domain
- Get a list of all role assignments, checking one has been added
- Then issue various request with different ways of defining
the 'effective' query parameter. As we have tested the
correctness of the data coming back when we get effective roles
in other tests, here we just use the count of entities to
know if we are getting effective roles or not
"""
self.user1 = self.new_user_ref(
domain_id=self.domain['id'])
password = self.user1['password']
self.user1 = self.identity_api.create_user(self.user1)
self.user1['password'] = password
self.user2 = self.new_user_ref(
domain_id=self.domain['id'])
password = self.user2['password']
self.user2 = self.identity_api.create_user(self.user2)
self.user2['password'] = password
self.identity_api.add_user_to_group(self.user1['id'], self.group['id'])
self.identity_api.add_user_to_group(self.user2['id'], self.group['id'])
collection_url = '/role_assignments'
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(r,
resource_url=collection_url)
existing_assignments = len(r.result.get('role_assignments'))
gd_url, gd_entity = _build_role_assignment_url_and_entity(
domain_id=self.domain_id, group_id=self.group_id,
role_id=self.role_id)
self.put(gd_url)
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(
r,
expected_length=existing_assignments + 1,
resource_url=collection_url)
self.assertRoleAssignmentInListResponse(r, gd_entity, link_url=gd_url)
# Now re-read the collection asking for effective roles,
# using the most common way of defining "effective'. This
# should mean the group assignment is translated into the two
# member user assignments
collection_url = '/role_assignments?effective'
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(
r,
expected_length=existing_assignments + 2,
resource_url=collection_url)
# Now set 'effective' to false explicitly - should get
# back the regular roles
collection_url = '/role_assignments?effective=0'
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(
r,
expected_length=existing_assignments + 1,
resource_url=collection_url)
# Now try setting 'effective' to 'False' explicitly- this is
# NOT supported as a way of setting a query or filter
# parameter to false by design. Hence we should get back
# effective roles.
collection_url = '/role_assignments?effective=False'
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(
r,
expected_length=existing_assignments + 2,
resource_url=collection_url)
# Now set 'effective' to True explicitly
collection_url = '/role_assignments?effective=True'
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(
r,
expected_length=existing_assignments + 2,
resource_url=collection_url)
def test_filtered_role_assignments(self):
"""Call ``GET /role_assignments?filters``.
Test Plan:
- Create extra users, group, role and project for tests
- Make the following assignments:
Give group1, role1 on project1 and domain
Give user1, role2 on project1 and domain
Make User1 a member of Group1
- Test a series of single filter list calls, checking that
the correct results are obtained
- Test a multi-filtered list call
- Test listing all effective roles for a given user
- Test the equivalent of the list of roles in a project scoped
token (all effective roles for a user on a project)
"""
# Since the default fixtures already assign some roles to the
# user it creates, we also need a new user that will not have any
# existing assignments
self.user1 = self.new_user_ref(
domain_id=self.domain['id'])
password = self.user1['password']
self.user1 = self.identity_api.create_user(self.user1)
self.user1['password'] = password
self.user2 = self.new_user_ref(
domain_id=self.domain['id'])
password = self.user2['password']
self.user2 = self.identity_api.create_user(self.user2)
self.user2['password'] = password
self.group1 = self.new_group_ref(
domain_id=self.domain['id'])
self.group1 = self.identity_api.create_group(self.group1)
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.project1 = self.new_project_ref(
domain_id=self.domain['id'])
self.resource_api.create_project(self.project1['id'], self.project1)
self.role1 = self.new_role_ref()
self.role_api.create_role(self.role1['id'], self.role1)
self.role2 = self.new_role_ref()
self.role_api.create_role(self.role2['id'], self.role2)
# Now add one of each of the four types of assignment
gd_url, gd_entity = _build_role_assignment_url_and_entity(
domain_id=self.domain_id, group_id=self.group1['id'],
role_id=self.role1['id'])
self.put(gd_url)
ud_url, ud_entity = _build_role_assignment_url_and_entity(
domain_id=self.domain_id, user_id=self.user1['id'],
role_id=self.role2['id'])
self.put(ud_url)
gp_url, gp_entity = _build_role_assignment_url_and_entity(
project_id=self.project1['id'], group_id=self.group1['id'],
role_id=self.role1['id'])
self.put(gp_url)
up_url, up_entity = _build_role_assignment_url_and_entity(
project_id=self.project1['id'], user_id=self.user1['id'],
role_id=self.role2['id'])
self.put(up_url)
# Now list by various filters to make sure we get back the right ones
collection_url = ('/role_assignments?scope.project.id=%s' %
self.project1['id'])
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(r,
expected_length=2,
resource_url=collection_url)
self.assertRoleAssignmentInListResponse(r, up_entity, link_url=up_url)
self.assertRoleAssignmentInListResponse(r, gp_entity, link_url=gp_url)
collection_url = ('/role_assignments?scope.domain.id=%s' %
self.domain['id'])
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(r,
expected_length=2,
resource_url=collection_url)
self.assertRoleAssignmentInListResponse(r, ud_entity, link_url=ud_url)
self.assertRoleAssignmentInListResponse(r, gd_entity, link_url=gd_url)
collection_url = '/role_assignments?user.id=%s' % self.user1['id']
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(r,
expected_length=2,
resource_url=collection_url)
self.assertRoleAssignmentInListResponse(r, up_entity, link_url=up_url)
self.assertRoleAssignmentInListResponse(r, ud_entity, link_url=ud_url)
collection_url = '/role_assignments?group.id=%s' % self.group1['id']
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(r,
expected_length=2,
resource_url=collection_url)
self.assertRoleAssignmentInListResponse(r, gd_entity, link_url=gd_url)
self.assertRoleAssignmentInListResponse(r, gp_entity, link_url=gp_url)
collection_url = '/role_assignments?role.id=%s' % self.role1['id']
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(r,
expected_length=2,
resource_url=collection_url)
self.assertRoleAssignmentInListResponse(r, gd_entity, link_url=gd_url)
self.assertRoleAssignmentInListResponse(r, gp_entity, link_url=gp_url)
# Let's try combining two filers together....
collection_url = (
'/role_assignments?user.id=%(user_id)s'
'&scope.project.id=%(project_id)s' % {
'user_id': self.user1['id'],
'project_id': self.project1['id']})
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(r,
expected_length=1,
resource_url=collection_url)
self.assertRoleAssignmentInListResponse(r, up_entity, link_url=up_url)
# Now for a harder one - filter for user with effective
# roles - this should return role assignment that were directly
# assigned as well as by virtue of group membership
collection_url = ('/role_assignments?effective&user.id=%s' %
self.user1['id'])
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(r,
expected_length=4,
resource_url=collection_url)
# Should have the two direct roles...
self.assertRoleAssignmentInListResponse(r, up_entity, link_url=up_url)
self.assertRoleAssignmentInListResponse(r, ud_entity, link_url=ud_url)
# ...and the two via group membership...
unused, up1_entity = _build_role_assignment_url_and_entity(
project_id=self.project1['id'], user_id=self.user1['id'],
role_id=self.role1['id'])
unused, ud1_entity = _build_role_assignment_url_and_entity(
domain_id=self.domain_id, user_id=self.user1['id'],
role_id=self.role1['id'])
gp1_url, unused = _build_role_assignment_url_and_entity(
project_id=self.project1['id'], group_id=self.group1['id'],
role_id=self.role1['id'])
gd1_url, unused = _build_role_assignment_url_and_entity(
domain_id=self.domain_id, group_id=self.group1['id'],
role_id=self.role1['id'])
self.assertRoleAssignmentInListResponse(r, up1_entity,
link_url=gp1_url)
self.assertRoleAssignmentInListResponse(r, ud1_entity,
link_url=gd1_url)
# ...and for the grand-daddy of them all, simulate the request
# that would generate the list of effective roles in a project
# scoped token.
collection_url = (
'/role_assignments?effective&user.id=%(user_id)s'
'&scope.project.id=%(project_id)s' % {
'user_id': self.user1['id'],
'project_id': self.project1['id']})
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(r,
expected_length=2,
resource_url=collection_url)
# Should have one direct role and one from group membership...
self.assertRoleAssignmentInListResponse(r, up_entity, link_url=up_url)
self.assertRoleAssignmentInListResponse(r, up1_entity,
link_url=gp1_url)
class AssignmentInheritanceTestCase(test_v3.RestfulTestCase):
"""Test inheritance crud and its effects."""
def config_overrides(self):
super(AssignmentInheritanceTestCase, self).config_overrides()
self.config_fixture.config(group='os_inherit', enabled=True)
def test_get_token_from_inherited_user_domain_role_grants(self):
# Create a new user to ensure that no grant is loaded from sample data
user = self.new_user_ref(domain_id=self.domain_id)
password = user['password']
user = self.identity_api.create_user(user)
user['password'] = password
# Define domain and project authentication data
domain_auth_data = self.build_authentication_request(
user_id=user['id'],
password=user['password'],
domain_id=self.domain_id)
project_auth_data = self.build_authentication_request(
user_id=user['id'],
password=user['password'],
project_id=self.project_id)
# Check the user cannot get a domain nor a project token
self.v3_authenticate_token(domain_auth_data, expected_status=401)
self.v3_authenticate_token(project_auth_data, expected_status=401)
# Grant non-inherited role for user on domain
non_inher_ud_url, non_inher_ud_entity = (
_build_role_assignment_url_and_entity(domain_id=self.domain_id,
user_id=user['id'],
role_id=self.role_id))
self.put(non_inher_ud_url)
# Check the user can get only a domain token
self.v3_authenticate_token(domain_auth_data)
self.v3_authenticate_token(project_auth_data, expected_status=401)
# Create inherited role
inherited_role = {'id': uuid.uuid4().hex, 'name': 'inherited'}
self.role_api.create_role(inherited_role['id'], inherited_role)
# Grant inherited role for user on domain
inher_ud_url, inher_ud_entity = _build_role_assignment_url_and_entity(
domain_id=self.domain_id, user_id=user['id'],
role_id=inherited_role['id'], inherited_to_projects=True)
self.put(inher_ud_url)
# Check the user can get both a domain and a project token
self.v3_authenticate_token(domain_auth_data)
self.v3_authenticate_token(project_auth_data)
# Delete inherited grant
self.delete(inher_ud_url)
# Check the user can only get a domain token
self.v3_authenticate_token(domain_auth_data)
self.v3_authenticate_token(project_auth_data, expected_status=401)
# Delete non-inherited grant
self.delete(non_inher_ud_url)
# Check the user cannot get a domain token anymore
self.v3_authenticate_token(domain_auth_data, expected_status=401)
def test_get_token_from_inherited_group_domain_role_grants(self):
# Create a new group and put a new user in it to
# ensure that no grant is loaded from sample data
user = self.new_user_ref(domain_id=self.domain_id)
password = user['password']
user = self.identity_api.create_user(user)
user['password'] = password
group = self.new_group_ref(domain_id=self.domain['id'])
group = self.identity_api.create_group(group)
self.identity_api.add_user_to_group(user['id'], group['id'])
# Define domain and project authentication data
domain_auth_data = self.build_authentication_request(
user_id=user['id'],
password=user['password'],
domain_id=self.domain_id)
project_auth_data = self.build_authentication_request(
user_id=user['id'],
password=user['password'],
project_id=self.project_id)
# Check the user cannot get a domain nor a project token
self.v3_authenticate_token(domain_auth_data, expected_status=401)
self.v3_authenticate_token(project_auth_data, expected_status=401)
# Grant non-inherited role for user on domain
non_inher_gd_url, non_inher_gd_entity = (
_build_role_assignment_url_and_entity(domain_id=self.domain_id,
user_id=user['id'],
role_id=self.role_id))
self.put(non_inher_gd_url)
# Check the user can get only a domain token
self.v3_authenticate_token(domain_auth_data)
self.v3_authenticate_token(project_auth_data, expected_status=401)
# Create inherited role
inherited_role = {'id': uuid.uuid4().hex, 'name': 'inherited'}
self.role_api.create_role(inherited_role['id'], inherited_role)
# Grant inherited role for user on domain
inher_gd_url, inher_gd_entity = _build_role_assignment_url_and_entity(
domain_id=self.domain_id, user_id=user['id'],
role_id=inherited_role['id'], inherited_to_projects=True)
self.put(inher_gd_url)
# Check the user can get both a domain and a project token
self.v3_authenticate_token(domain_auth_data)
self.v3_authenticate_token(project_auth_data)
# Delete inherited grant
self.delete(inher_gd_url)
# Check the user can only get a domain token
self.v3_authenticate_token(domain_auth_data)
self.v3_authenticate_token(project_auth_data, expected_status=401)
# Delete non-inherited grant
self.delete(non_inher_gd_url)
# Check the user cannot get a domain token anymore
self.v3_authenticate_token(domain_auth_data, expected_status=401)
def test_crud_user_inherited_domain_role_grants(self):
role_list = []
for _ in range(2):
role = {'id': uuid.uuid4().hex, 'name': uuid.uuid4().hex}
self.role_api.create_role(role['id'], role)
role_list.append(role)
# Create a non-inherited role as a spoiler
self.assignment_api.create_grant(
role_list[1]['id'], user_id=self.user['id'],
domain_id=self.domain_id)
base_collection_url = (
'/OS-INHERIT/domains/%(domain_id)s/users/%(user_id)s/roles' % {
'domain_id': self.domain_id,
'user_id': self.user['id']})
member_url = '%(collection_url)s/%(role_id)s/inherited_to_projects' % {
'collection_url': base_collection_url,
'role_id': role_list[0]['id']}
collection_url = base_collection_url + '/inherited_to_projects'
self.put(member_url)
# Check we can read it back
self.head(member_url)
r = self.get(collection_url)
self.assertValidRoleListResponse(r, ref=role_list[0],
resource_url=collection_url)
# Now delete and check its gone
self.delete(member_url)
r = self.get(collection_url)
self.assertValidRoleListResponse(r, expected_length=0,
resource_url=collection_url)
def test_list_role_assignments_for_inherited_domain_grants(self):
"""Call ``GET /role_assignments with inherited domain grants``.
Test Plan:
- Create 4 roles
- Create a domain with a user and two projects
- Assign two direct roles to project1
- Assign a spoiler role to project2
- Issue the URL to add inherited role to the domain
- Issue the URL to check it is indeed on the domain
- Issue the URL to check effective roles on project1 - this
should return 3 roles.
"""
role_list = []
for _ in range(4):
role = {'id': uuid.uuid4().hex, 'name': uuid.uuid4().hex}
self.role_api.create_role(role['id'], role)
role_list.append(role)
domain = self.new_domain_ref()
self.resource_api.create_domain(domain['id'], domain)
user1 = self.new_user_ref(
domain_id=domain['id'])
password = user1['password']
user1 = self.identity_api.create_user(user1)
user1['password'] = password
project1 = self.new_project_ref(
domain_id=domain['id'])
self.resource_api.create_project(project1['id'], project1)
project2 = self.new_project_ref(
domain_id=domain['id'])
self.resource_api.create_project(project2['id'], project2)
# Add some roles to the project
self.assignment_api.add_role_to_user_and_project(
user1['id'], project1['id'], role_list[0]['id'])
self.assignment_api.add_role_to_user_and_project(
user1['id'], project1['id'], role_list[1]['id'])
# ..and one on a different project as a spoiler
self.assignment_api.add_role_to_user_and_project(
user1['id'], project2['id'], role_list[2]['id'])
# Now create our inherited role on the domain
base_collection_url = (
'/OS-INHERIT/domains/%(domain_id)s/users/%(user_id)s/roles' % {
'domain_id': domain['id'],
'user_id': user1['id']})
member_url = '%(collection_url)s/%(role_id)s/inherited_to_projects' % {
'collection_url': base_collection_url,
'role_id': role_list[3]['id']}
collection_url = base_collection_url + '/inherited_to_projects'
self.put(member_url)
self.head(member_url)
r = self.get(collection_url)
self.assertValidRoleListResponse(r, ref=role_list[3],
resource_url=collection_url)
# Now use the list domain role assignments api to check if this
# is included
collection_url = (
'/role_assignments?user.id=%(user_id)s'
'&scope.domain.id=%(domain_id)s' % {
'user_id': user1['id'],
'domain_id': domain['id']})
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(r,
expected_length=1,
resource_url=collection_url)
ud_url, ud_entity = _build_role_assignment_url_and_entity(
domain_id=domain['id'], user_id=user1['id'],
role_id=role_list[3]['id'], inherited_to_projects=True)
self.assertRoleAssignmentInListResponse(r, ud_entity, link_url=ud_url)
# Now ask for effective list role assignments - the role should
# turn into a project role, along with the two direct roles that are
# on the project
collection_url = (
'/role_assignments?effective&user.id=%(user_id)s'
'&scope.project.id=%(project_id)s' % {
'user_id': user1['id'],
'project_id': project1['id']})
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(r,
expected_length=3,
resource_url=collection_url)
# An effective role for an inherited role will be a project
# entity, with a domain link to the inherited assignment
unused, up_entity = _build_role_assignment_url_and_entity(
project_id=project1['id'], user_id=user1['id'],
role_id=role_list[3]['id'])
ud_url, unused = _build_role_assignment_url_and_entity(
domain_id=domain['id'], user_id=user1['id'],
role_id=role_list[3]['id'], inherited_to_projects=True)
self.assertRoleAssignmentInListResponse(r, up_entity, link_url=ud_url)
def test_list_role_assignments_for_disabled_inheritance_extension(self):
"""Call ``GET /role_assignments with inherited domain grants``.
Test Plan:
- Issue the URL to add inherited role to the domain
- Issue the URL to check effective roles on project include the
inherited role
- Disable the extension
- Re-check the effective roles, proving the inherited role no longer
shows up.
"""
role_list = []
for _ in range(4):
role = {'id': uuid.uuid4().hex, 'name': uuid.uuid4().hex}
self.role_api.create_role(role['id'], role)
role_list.append(role)
domain = self.new_domain_ref()
self.resource_api.create_domain(domain['id'], domain)
user1 = self.new_user_ref(
domain_id=domain['id'])
password = user1['password']
user1 = self.identity_api.create_user(user1)
user1['password'] = password
project1 = self.new_project_ref(
domain_id=domain['id'])
self.resource_api.create_project(project1['id'], project1)
project2 = self.new_project_ref(
domain_id=domain['id'])
self.resource_api.create_project(project2['id'], project2)
# Add some roles to the project
self.assignment_api.add_role_to_user_and_project(
user1['id'], project1['id'], role_list[0]['id'])
self.assignment_api.add_role_to_user_and_project(
user1['id'], project1['id'], role_list[1]['id'])
# ..and one on a different project as a spoiler
self.assignment_api.add_role_to_user_and_project(
user1['id'], project2['id'], role_list[2]['id'])
# Now create our inherited role on the domain
base_collection_url = (
'/OS-INHERIT/domains/%(domain_id)s/users/%(user_id)s/roles' % {
'domain_id': domain['id'],
'user_id': user1['id']})
member_url = '%(collection_url)s/%(role_id)s/inherited_to_projects' % {
'collection_url': base_collection_url,
'role_id': role_list[3]['id']}
collection_url = base_collection_url + '/inherited_to_projects'
self.put(member_url)
self.head(member_url)
r = self.get(collection_url)
self.assertValidRoleListResponse(r, ref=role_list[3],
resource_url=collection_url)
# Get effective list role assignments - the role should
# turn into a project role, along with the two direct roles that are
# on the project
collection_url = (
'/role_assignments?effective&user.id=%(user_id)s'
'&scope.project.id=%(project_id)s' % {
'user_id': user1['id'],
'project_id': project1['id']})
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(r,
expected_length=3,
resource_url=collection_url)
unused, up_entity = _build_role_assignment_url_and_entity(
project_id=project1['id'], user_id=user1['id'],
role_id=role_list[3]['id'])
ud_url, unused = _build_role_assignment_url_and_entity(
domain_id=domain['id'], user_id=user1['id'],
role_id=role_list[3]['id'], inherited_to_projects=True)
self.assertRoleAssignmentInListResponse(r, up_entity, link_url=ud_url)
# Disable the extension and re-check the list, the role inherited
# from the project should no longer show up
self.config_fixture.config(group='os_inherit', enabled=False)
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(r,
expected_length=2,
resource_url=collection_url)
unused, up_entity = _build_role_assignment_url_and_entity(
project_id=project1['id'], user_id=user1['id'],
role_id=role_list[3]['id'])
ud_url, unused = _build_role_assignment_url_and_entity(
domain_id=domain['id'], user_id=user1['id'],
role_id=role_list[3]['id'], inherited_to_projects=True)
self.assertRoleAssignmentNotInListResponse(r, up_entity,
link_url=ud_url)
def test_list_role_assignments_for_inherited_group_domain_grants(self):
"""Call ``GET /role_assignments with inherited group domain grants``.
Test Plan:
- Create 4 roles
- Create a domain with a user and two projects
- Assign two direct roles to project1
- Assign a spoiler role to project2
- Issue the URL to add inherited role to the domain
- Issue the URL to check it is indeed on the domain
- Issue the URL to check effective roles on project1 - this
should return 3 roles.
"""
role_list = []
for _ in range(4):
role = {'id': uuid.uuid4().hex, 'name': uuid.uuid4().hex}
self.role_api.create_role(role['id'], role)
role_list.append(role)
domain = self.new_domain_ref()
self.resource_api.create_domain(domain['id'], domain)
user1 = self.new_user_ref(
domain_id=domain['id'])
password = user1['password']
user1 = self.identity_api.create_user(user1)
user1['password'] = password
user2 = self.new_user_ref(
domain_id=domain['id'])
password = user2['password']
user2 = self.identity_api.create_user(user2)
user2['password'] = password
group1 = self.new_group_ref(
domain_id=domain['id'])
group1 = self.identity_api.create_group(group1)
self.identity_api.add_user_to_group(user1['id'],
group1['id'])
self.identity_api.add_user_to_group(user2['id'],
group1['id'])
project1 = self.new_project_ref(
domain_id=domain['id'])
self.resource_api.create_project(project1['id'], project1)
project2 = self.new_project_ref(
domain_id=domain['id'])
self.resource_api.create_project(project2['id'], project2)
# Add some roles to the project
self.assignment_api.add_role_to_user_and_project(
user1['id'], project1['id'], role_list[0]['id'])
self.assignment_api.add_role_to_user_and_project(
user1['id'], project1['id'], role_list[1]['id'])
# ..and one on a different project as a spoiler
self.assignment_api.add_role_to_user_and_project(
user1['id'], project2['id'], role_list[2]['id'])
# Now create our inherited role on the domain
base_collection_url = (
'/OS-INHERIT/domains/%(domain_id)s/groups/%(group_id)s/roles' % {
'domain_id': domain['id'],
'group_id': group1['id']})
member_url = '%(collection_url)s/%(role_id)s/inherited_to_projects' % {
'collection_url': base_collection_url,
'role_id': role_list[3]['id']}
collection_url = base_collection_url + '/inherited_to_projects'
self.put(member_url)
self.head(member_url)
r = self.get(collection_url)
self.assertValidRoleListResponse(r, ref=role_list[3],
resource_url=collection_url)
# Now use the list domain role assignments api to check if this
# is included
collection_url = (
'/role_assignments?group.id=%(group_id)s'
'&scope.domain.id=%(domain_id)s' % {
'group_id': group1['id'],
'domain_id': domain['id']})
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(r,
expected_length=1,
resource_url=collection_url)
gd_url, gd_entity = _build_role_assignment_url_and_entity(
domain_id=domain['id'], group_id=group1['id'],
role_id=role_list[3]['id'], inherited_to_projects=True)
self.assertRoleAssignmentInListResponse(r, gd_entity, link_url=gd_url)
# Now ask for effective list role assignments - the role should
# turn into a user project role, along with the two direct roles
# that are on the project
collection_url = (
'/role_assignments?effective&user.id=%(user_id)s'
'&scope.project.id=%(project_id)s' % {
'user_id': user1['id'],
'project_id': project1['id']})
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(r,
expected_length=3,
resource_url=collection_url)
# An effective role for an inherited role will be a project
# entity, with a domain link to the inherited assignment
unused, up_entity = _build_role_assignment_url_and_entity(
project_id=project1['id'], user_id=user1['id'],
role_id=role_list[3]['id'])
gd_url, unused = _build_role_assignment_url_and_entity(
domain_id=domain['id'], group_id=group1['id'],
role_id=role_list[3]['id'], inherited_to_projects=True)
self.assertRoleAssignmentInListResponse(r, up_entity, link_url=gd_url)
def test_filtered_role_assignments_for_inherited_grants(self):
"""Call ``GET /role_assignments?scope.OS-INHERIT:inherited_to``.
Test Plan:
- Create 5 roles
- Create a domain with a user, group and two projects
- Assign three direct spoiler roles to projects
- Issue the URL to add an inherited user role to the domain
- Issue the URL to add an inherited group role to the domain
- Issue the URL to filter by inherited roles - this should
return just the 2 inherited roles.
"""
role_list = []
for _ in range(5):
role = {'id': uuid.uuid4().hex, 'name': uuid.uuid4().hex}
self.role_api.create_role(role['id'], role)
role_list.append(role)
domain = self.new_domain_ref()
self.resource_api.create_domain(domain['id'], domain)
user1 = self.new_user_ref(
domain_id=domain['id'])
password = user1['password']
user1 = self.identity_api.create_user(user1)
user1['password'] = password
group1 = self.new_group_ref(
domain_id=domain['id'])
group1 = self.identity_api.create_group(group1)
project1 = self.new_project_ref(
domain_id=domain['id'])
self.resource_api.create_project(project1['id'], project1)
project2 = self.new_project_ref(
domain_id=domain['id'])
self.resource_api.create_project(project2['id'], project2)
# Add some spoiler roles to the projects
self.assignment_api.add_role_to_user_and_project(
user1['id'], project1['id'], role_list[0]['id'])
self.assignment_api.add_role_to_user_and_project(
user1['id'], project2['id'], role_list[1]['id'])
# Create a non-inherited role as a spoiler
self.assignment_api.create_grant(
role_list[2]['id'], user_id=user1['id'], domain_id=domain['id'])
# Now create two inherited roles on the domain, one for a user
# and one for a domain
base_collection_url = (
'/OS-INHERIT/domains/%(domain_id)s/users/%(user_id)s/roles' % {
'domain_id': domain['id'],
'user_id': user1['id']})
member_url = '%(collection_url)s/%(role_id)s/inherited_to_projects' % {
'collection_url': base_collection_url,
'role_id': role_list[3]['id']}
collection_url = base_collection_url + '/inherited_to_projects'
self.put(member_url)
self.head(member_url)
r = self.get(collection_url)
self.assertValidRoleListResponse(r, ref=role_list[3],
resource_url=collection_url)
base_collection_url = (
'/OS-INHERIT/domains/%(domain_id)s/groups/%(group_id)s/roles' % {
'domain_id': domain['id'],
'group_id': group1['id']})
member_url = '%(collection_url)s/%(role_id)s/inherited_to_projects' % {
'collection_url': base_collection_url,
'role_id': role_list[4]['id']}
collection_url = base_collection_url + '/inherited_to_projects'
self.put(member_url)
self.head(member_url)
r = self.get(collection_url)
self.assertValidRoleListResponse(r, ref=role_list[4],
resource_url=collection_url)
# Now use the list role assignments api to get a list of inherited
# roles on the domain - should get back the two roles
collection_url = (
'/role_assignments?scope.OS-INHERIT:inherited_to=projects')
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(r,
expected_length=2,
resource_url=collection_url)
ud_url, ud_entity = _build_role_assignment_url_and_entity(
domain_id=domain['id'], user_id=user1['id'],
role_id=role_list[3]['id'], inherited_to_projects=True)
gd_url, gd_entity = _build_role_assignment_url_and_entity(
domain_id=domain['id'], group_id=group1['id'],
role_id=role_list[4]['id'], inherited_to_projects=True)
self.assertRoleAssignmentInListResponse(r, ud_entity, link_url=ud_url)
self.assertRoleAssignmentInListResponse(r, gd_entity, link_url=gd_url)
def _setup_hierarchical_projects_scenario(self):
"""Creates basic hierarchical projects scenario.
This basic scenario contains a root with one leaf project and
two roles with the following names: non-inherited and inherited.
"""
# Create project hierarchy
root = self.new_project_ref(domain_id=self.domain['id'])
leaf = self.new_project_ref(domain_id=self.domain['id'],
parent_id=root['id'])
self.resource_api.create_project(root['id'], root)
self.resource_api.create_project(leaf['id'], leaf)
# Create 'non-inherited' and 'inherited' roles
non_inherited_role = {'id': uuid.uuid4().hex, 'name': 'non-inherited'}
self.role_api.create_role(non_inherited_role['id'], non_inherited_role)
inherited_role = {'id': uuid.uuid4().hex, 'name': 'inherited'}
self.role_api.create_role(inherited_role['id'], inherited_role)
return (root['id'], leaf['id'],
non_inherited_role['id'], inherited_role['id'])
def test_get_token_from_inherited_user_project_role_grants(self):
# Create default scenario
root_id, leaf_id, non_inherited_role_id, inherited_role_id = (
self._setup_hierarchical_projects_scenario())
# Define root and leaf projects authentication data
root_project_auth_data = self.build_authentication_request(
user_id=self.user['id'],
password=self.user['password'],
project_id=root_id)
leaf_project_auth_data = self.build_authentication_request(
user_id=self.user['id'],
password=self.user['password'],
project_id=leaf_id)
# Check the user cannot get a token on root nor leaf project
self.v3_authenticate_token(root_project_auth_data, expected_status=401)
self.v3_authenticate_token(leaf_project_auth_data, expected_status=401)
# Grant non-inherited role for user on leaf project
non_inher_up_url, non_inher_up_entity = (
_build_role_assignment_url_and_entity(
project_id=leaf_id, user_id=self.user['id'],
role_id=non_inherited_role_id))
self.put(non_inher_up_url)
# Check the user can only get a token on leaf project
self.v3_authenticate_token(root_project_auth_data, expected_status=401)
self.v3_authenticate_token(leaf_project_auth_data)
# Grant inherited role for user on root project
inher_up_url, inher_up_entity = _build_role_assignment_url_and_entity(
project_id=root_id, user_id=self.user['id'],
role_id=inherited_role_id, inherited_to_projects=True)
self.put(inher_up_url)
# Check the user still can get a token only on leaf project
self.v3_authenticate_token(root_project_auth_data, expected_status=401)
self.v3_authenticate_token(leaf_project_auth_data)
# Delete non-inherited grant
self.delete(non_inher_up_url)
# Check the inherited role still applies for leaf project
self.v3_authenticate_token(root_project_auth_data, expected_status=401)
self.v3_authenticate_token(leaf_project_auth_data)
# Delete inherited grant
self.delete(inher_up_url)
# Check the user cannot get a token on leaf project anymore
self.v3_authenticate_token(leaf_project_auth_data, expected_status=401)
def test_get_token_from_inherited_group_project_role_grants(self):
# Create default scenario
root_id, leaf_id, non_inherited_role_id, inherited_role_id = (
self._setup_hierarchical_projects_scenario())
# Create group and add user to it
group = self.new_group_ref(domain_id=self.domain['id'])
group = self.identity_api.create_group(group)
self.identity_api.add_user_to_group(self.user['id'], group['id'])
# Define root and leaf projects authentication data
root_project_auth_data = self.build_authentication_request(
user_id=self.user['id'],
password=self.user['password'],
project_id=root_id)
leaf_project_auth_data = self.build_authentication_request(
user_id=self.user['id'],
password=self.user['password'],
project_id=leaf_id)
# Check the user cannot get a token on root nor leaf project
self.v3_authenticate_token(root_project_auth_data, expected_status=401)
self.v3_authenticate_token(leaf_project_auth_data, expected_status=401)
# Grant non-inherited role for group on leaf project
non_inher_gp_url, non_inher_gp_entity = (
_build_role_assignment_url_and_entity(
project_id=leaf_id, group_id=group['id'],
role_id=non_inherited_role_id))
self.put(non_inher_gp_url)
# Check the user can only get a token on leaf project
self.v3_authenticate_token(root_project_auth_data, expected_status=401)
self.v3_authenticate_token(leaf_project_auth_data)
# Grant inherited role for group on root project
inher_gp_url, inher_gp_entity = _build_role_assignment_url_and_entity(
project_id=root_id, group_id=group['id'],
role_id=inherited_role_id, inherited_to_projects=True)
self.put(inher_gp_url)
# Check the user still can get a token only on leaf project
self.v3_authenticate_token(root_project_auth_data, expected_status=401)
self.v3_authenticate_token(leaf_project_auth_data)
# Delete no-inherited grant
self.delete(non_inher_gp_url)
# Check the inherited role still applies for leaf project
self.v3_authenticate_token(leaf_project_auth_data)
# Delete inherited grant
self.delete(inher_gp_url)
# Check the user cannot get a token on leaf project anymore
self.v3_authenticate_token(leaf_project_auth_data, expected_status=401)
def test_get_role_assignments_for_project_hierarchy(self):
"""Call ``GET /role_assignments``.
Test Plan:
- Create 2 roles
- Create a hierarchy of projects with one root and one leaf project
- Issue the URL to add a non-inherited user role to the root project
- Issue the URL to add an inherited user role to the root project
- Issue the URL to get all role assignments - this should return just
2 roles (non-inherited and inherited) in the root project.
"""
# Create default scenario
root_id, leaf_id, non_inherited_role_id, inherited_role_id = (
self._setup_hierarchical_projects_scenario())
# Grant non-inherited role
non_inher_up_url, non_inher_up_entity = (
_build_role_assignment_url_and_entity(
project_id=root_id, user_id=self.user['id'],
role_id=non_inherited_role_id))
self.put(non_inher_up_url)
# Grant inherited role
inher_up_url, inher_up_entity = _build_role_assignment_url_and_entity(
project_id=root_id, user_id=self.user['id'],
role_id=inherited_role_id, inherited_to_projects=True)
self.put(inher_up_url)
# Get role assignments
collection_url = '/role_assignments'
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(r,
resource_url=collection_url)
# Assert that the user has non-inherited role on root project
self.assertRoleAssignmentInListResponse(r, non_inher_up_entity,
non_inher_up_url)
# Assert that the user has inherited role on root project
self.assertRoleAssignmentInListResponse(r, inher_up_entity,
inher_up_url)
# Assert that the user does not have non-inherited role on leaf project
non_inher_up_url = ('/projects/%s/users/%s/roles/%s' %
(leaf_id, self.user['id'], non_inherited_role_id))
non_inher_up_entity['scope']['project']['id'] = leaf_id
self.assertRoleAssignmentNotInListResponse(r, non_inher_up_entity,
non_inher_up_url)
# Assert that the user does not have inherited role on leaf project
inher_up_entity['scope']['project']['id'] = leaf_id
self.assertRoleAssignmentNotInListResponse(r, inher_up_entity,
inher_up_url)
def test_get_effective_role_assignments_for_project_hierarchy(self):
"""Call ``GET /role_assignments?effective``.
Test Plan:
- Create 2 roles
- Create a hierarchy of projects with one root and one leaf project
- Issue the URL to add a non-inherited user role to the root project
- Issue the URL to add an inherited user role to the root project
- Issue the URL to get effective role assignments - this should return
1 role (non-inherited) on the root project and 1 role (inherited) on
the leaf project.
"""
# Create default scenario
root_id, leaf_id, non_inherited_role_id, inherited_role_id = (
self._setup_hierarchical_projects_scenario())
# Grant non-inherited role
non_inher_up_url, non_inher_up_entity = (
_build_role_assignment_url_and_entity(
project_id=root_id, user_id=self.user['id'],
role_id=non_inherited_role_id))
self.put(non_inher_up_url)
# Grant inherited role
inher_up_url, inher_up_entity = _build_role_assignment_url_and_entity(
project_id=root_id, user_id=self.user['id'],
role_id=inherited_role_id, inherited_to_projects=True)
self.put(inher_up_url)
# Get effective role assignments
collection_url = '/role_assignments?effective'
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(r,
resource_url=collection_url)
# Assert that the user has non-inherited role on root project
self.assertRoleAssignmentInListResponse(r, non_inher_up_entity,
non_inher_up_url)
# Assert that the user does not have inherited role on root project
self.assertRoleAssignmentNotInListResponse(r, inher_up_entity,
inher_up_url)
# Assert that the user does not have non-inherited role on leaf project
non_inher_up_url = ('/projects/%s/users/%s/roles/%s' %
(leaf_id, self.user['id'], non_inherited_role_id))
non_inher_up_entity['scope']['project']['id'] = leaf_id
self.assertRoleAssignmentNotInListResponse(r, non_inher_up_entity,
non_inher_up_url)
# Assert that the user has inherited role on leaf project
inher_up_entity['scope']['project']['id'] = leaf_id
self.assertRoleAssignmentInListResponse(r, inher_up_entity,
inher_up_url)
def test_get_inherited_role_assignments_for_project_hierarchy(self):
"""Call ``GET /role_assignments?scope.OS-INHERIT:inherited_to``.
Test Plan:
- Create 2 roles
- Create a hierarchy of projects with one root and one leaf project
- Issue the URL to add a non-inherited user role to the root project
- Issue the URL to add an inherited user role to the root project
- Issue the URL to filter inherited to projects role assignments - this
should return 1 role (inherited) on the root project.
"""
# Create default scenario
root_id, leaf_id, non_inherited_role_id, inherited_role_id = (
self._setup_hierarchical_projects_scenario())
# Grant non-inherited role
non_inher_up_url, non_inher_up_entity = (
_build_role_assignment_url_and_entity(
project_id=root_id, user_id=self.user['id'],
role_id=non_inherited_role_id))
self.put(non_inher_up_url)
# Grant inherited role
inher_up_url, inher_up_entity = _build_role_assignment_url_and_entity(
project_id=root_id, user_id=self.user['id'],
role_id=inherited_role_id, inherited_to_projects=True)
self.put(inher_up_url)
# Get inherited role assignments
collection_url = ('/role_assignments'
'?scope.OS-INHERIT:inherited_to=projects')
r = self.get(collection_url)
self.assertValidRoleAssignmentListResponse(r,
resource_url=collection_url)
# Assert that the user does not have non-inherited role on root project
self.assertRoleAssignmentNotInListResponse(r, non_inher_up_entity,
non_inher_up_url)
# Assert that the user has inherited role on root project
self.assertRoleAssignmentInListResponse(r, inher_up_entity,
inher_up_url)
# Assert that the user does not have non-inherited role on leaf project
non_inher_up_url = ('/projects/%s/users/%s/roles/%s' %
(leaf_id, self.user['id'], non_inherited_role_id))
non_inher_up_entity['scope']['project']['id'] = leaf_id
self.assertRoleAssignmentNotInListResponse(r, non_inher_up_entity,
non_inher_up_url)
# Assert that the user does not have inherited role on leaf project
inher_up_entity['scope']['project']['id'] = leaf_id
self.assertRoleAssignmentNotInListResponse(r, inher_up_entity,
inher_up_url)
class AssignmentInheritanceDisabledTestCase(test_v3.RestfulTestCase):
"""Test inheritance crud and its effects."""
def config_overrides(self):
super(AssignmentInheritanceDisabledTestCase, self).config_overrides()
self.config_fixture.config(group='os_inherit', enabled=False)
def test_crud_inherited_role_grants_failed_if_disabled(self):
role = {'id': uuid.uuid4().hex, 'name': uuid.uuid4().hex}
self.role_api.create_role(role['id'], role)
base_collection_url = (
'/OS-INHERIT/domains/%(domain_id)s/users/%(user_id)s/roles' % {
'domain_id': self.domain_id,
'user_id': self.user['id']})
member_url = '%(collection_url)s/%(role_id)s/inherited_to_projects' % {
'collection_url': base_collection_url,
'role_id': role['id']}
collection_url = base_collection_url + '/inherited_to_projects'
self.put(member_url, expected_status=404)
self.head(member_url, expected_status=404)
self.get(collection_url, expected_status=404)
self.delete(member_url, expected_status=404)
class AssignmentV3toV2MethodsTestCase(tests.TestCase):
"""Test domain V3 to V2 conversion methods."""
def test_v2controller_filter_domain_id(self):
# V2.0 is not domain aware, ensure domain_id is popped off the ref.
other_data = uuid.uuid4().hex
domain_id = uuid.uuid4().hex
ref = {'domain_id': domain_id,
'other_data': other_data}
ref_no_domain = {'other_data': other_data}
expected_ref = ref_no_domain.copy()
updated_ref = controller.V2Controller.filter_domain_id(ref)
self.assertIs(ref, updated_ref)
self.assertDictEqual(ref, expected_ref)
# Make sure we don't error/muck up data if domain_id isn't present
updated_ref = controller.V2Controller.filter_domain_id(ref_no_domain)
self.assertIs(ref_no_domain, updated_ref)
self.assertDictEqual(ref_no_domain, expected_ref)
def test_v3controller_filter_domain_id(self):
# No data should be filtered out in this case.
other_data = uuid.uuid4().hex
domain_id = uuid.uuid4().hex
ref = {'domain_id': domain_id,
'other_data': other_data}
expected_ref = ref.copy()
updated_ref = controller.V3Controller.filter_domain_id(ref)
self.assertIs(ref, updated_ref)
self.assertDictEqual(ref, expected_ref)
View Git Blame Copy Permalink