diff --git a/keystone/api/_shared/EC2_S3_Resource.py b/keystone/api/_shared/EC2_S3_Resource.py index 803254816c..ff94286b6e 100644 --- a/keystone/api/_shared/EC2_S3_Resource.py +++ b/keystone/api/_shared/EC2_S3_Resource.py @@ -113,7 +113,9 @@ class ResourceBase(ks_flask.ResourceBase): project_id=cred.get('project_id'), access=loaded.get('access'), secret=loaded.get('secret'), - trust_id=loaded.get('trust_id') + trust_id=loaded.get('trust_id'), + app_cred_id=loaded.get('app_cred_id'), + access_token_id=loaded.get('access_token_id') ) # validate the signature @@ -132,8 +134,34 @@ class ResourceBase(ks_flask.ResourceBase): raise ks_exceptions.Unauthorized from e self._check_timestamp(credentials) - roles = PROVIDERS.assignment_api.get_roles_for_user_and_project( - user_ref['id'], project_ref['id']) + + trustee_user_id = None + auth_context = None + if cred_data['trust_id']: + trust = PROVIDERS.trust_api.get_trust(cred_data['trust_id']) + roles = [r['id'] for r in trust['roles']] + # NOTE(cmurphy): if this credential was created using a + # trust-scoped token with impersonation, the user_id will be for + # the trustor, not the trustee. In this case, issuing a + # trust-scoped token to the trustor will fail. In order to get a + # trust-scoped token, use the user ID of the trustee. With + # impersonation, the resulting token will still be for the trustor. + # Without impersonation, the token will be for the trustee. + if trust['impersonation'] is True: + trustee_user_id = trust['trustee_user_id'] + elif cred_data['app_cred_id']: + ac_client = PROVIDERS.application_credential_api + app_cred = ac_client.get_application_credential( + cred_data['app_cred_id']) + roles = [r['id'] for r in app_cred['roles']] + elif cred_data['access_token_id']: + access_token = PROVIDERS.oauth_api.get_access_token( + cred_data['access_token_id']) + roles = jsonutils.loads(access_token['role_ids']) + auth_context = {'access_token_id': cred_data['access_token_id']} + else: + roles = PROVIDERS.assignment_api.get_roles_for_user_and_project( + user_ref['id'], project_ref['id']) if not roles: raise ks_exceptions.Unauthorized(_('User not valid for project.')) @@ -144,7 +172,14 @@ class ResourceBase(ks_flask.ResourceBase): method_names = ['ec2credential'] + if trustee_user_id: + user_id = trustee_user_id + else: + user_id = user_ref['id'] token = PROVIDERS.token_provider_api.issue_token( - user_id=user_ref['id'], method_names=method_names, - project_id=project_ref['id']) + user_id=user_id, method_names=method_names, + project_id=project_ref['id'], + trust_id=cred_data['trust_id'], + app_cred_id=cred_data['app_cred_id'], + auth_context=auth_context) return token diff --git a/keystone/api/credentials.py b/keystone/api/credentials.py index 0889c6c8fe..2b81000e09 100644 --- a/keystone/api/credentials.py +++ b/keystone/api/credentials.py @@ -60,30 +60,41 @@ class CredentialResource(ks_flask.ResourceBase): ref['blob'] = jsonutils.dumps(blob) return ref - def _assign_unique_id(self, ref, trust_id=None): + def _validate_blob_json(self, ref): + try: + blob = jsonutils.loads(ref.get('blob')) + except (ValueError, TabError): + raise exception.ValidationError( + message=_('Invalid blob in credential')) + if not blob or not isinstance(blob, dict): + raise exception.ValidationError(attribute='blob', + target='credential') + if blob.get('access') is None: + raise exception.ValidationError(attribute='access', + target='credential') + return blob + + def _assign_unique_id( + self, ref, trust_id=None, app_cred_id=None, access_token_id=None): # Generates an assigns a unique identifier to a credential reference. if ref.get('type', '').lower() == 'ec2': - try: - blob = jsonutils.loads(ref.get('blob')) - except (ValueError, TabError): - raise exception.ValidationError( - message=_('Invalid blob in credential')) - if not blob or not isinstance(blob, dict): - raise exception.ValidationError(attribute='blob', - target='credential') - if blob.get('access') is None: - raise exception.ValidationError(attribute='access', - target='credential') - + blob = self._validate_blob_json(ref) ref = ref.copy() ref['id'] = hashlib.sha256( blob['access'].encode('utf8')).hexdigest() - # update the blob with the trust_id, so credentials created with - # a trust scoped token will result in trust scoped tokens when - # authentication via ec2tokens happens + # update the blob with the trust_id or app_cred_id, so credentials + # created with a trust- or app cred-scoped token will result in + # trust- or app cred-scoped tokens when authentication via + # ec2tokens happens if trust_id is not None: blob['trust_id'] = trust_id ref['blob'] = jsonutils.dumps(blob) + if app_cred_id is not None: + blob['app_cred_id'] = app_cred_id + ref['blob'] = jsonutils.dumps(blob) + if access_token_id is not None: + blob['access_token_id'] = access_token_id + ref['blob'] = jsonutils.dumps(blob) return ref else: return super(CredentialResource, self)._assign_unique_id(ref) @@ -146,23 +157,47 @@ class CredentialResource(ks_flask.ResourceBase): ) validation.lazy_validate(schema.credential_create, credential) trust_id = getattr(self.oslo_context, 'trust_id', None) + app_cred_id = getattr( + self.auth_context['token'], 'application_credential_id', None) + access_token_id = getattr( + self.auth_context['token'], 'access_token_id', None) ref = self._assign_unique_id( - self._normalize_dict(credential), trust_id=trust_id) + self._normalize_dict(credential), + trust_id=trust_id, app_cred_id=app_cred_id, + access_token_id=access_token_id) ref = PROVIDERS.credential_api.create_credential( ref['id'], ref, initiator=self.audit_initiator) return self.wrap_member(ref), http.client.CREATED + def _validate_blob_update_keys(self, credential, ref): + if credential.get('type', '').lower() == 'ec2': + new_blob = self._validate_blob_json(ref) + old_blob = credential.get('blob') + if isinstance(old_blob, str): + old_blob = jsonutils.loads(old_blob) + # if there was a scope set, prevent changing it or unsetting it + for key in ['trust_id', 'app_cred_id', 'access_token_id']: + if old_blob.get(key) != new_blob.get(key): + message = _('%s can not be updated for credential') % key + raise exception.ValidationError(message=message) + def patch(self, credential_id): # Update Credential ENFORCER.enforce_call( action='identity:update_credential', build_target=_build_target_enforcement ) - PROVIDERS.credential_api.get_credential(credential_id) + current = PROVIDERS.credential_api.get_credential(credential_id) credential = self.request_body_json.get('credential', {}) validation.lazy_validate(schema.credential_update, credential) + self._validate_blob_update_keys(current.copy(), credential.copy()) self._require_matching_id(credential) + # Check that the user hasn't illegally modified the owner or scope + target = {'credential': dict(current, **credential)} + ENFORCER.enforce_call( + action='identity:update_credential', target_attr=target + ) ref = PROVIDERS.credential_api.update_credential( credential_id, credential) return self.wrap_member(ref) diff --git a/keystone/api/users.py b/keystone/api/users.py index e4fa6761ed..f7f1ec0cfa 100644 --- a/keystone/api/users.py +++ b/keystone/api/users.py @@ -559,6 +559,25 @@ class UserAppCredListCreateResource(ks_flask.ResourceBase): role['name'])) return roles + def _get_roles(self, app_cred_data, token): + if app_cred_data.get('roles'): + roles = self._normalize_role_list(app_cred_data['roles']) + # NOTE(cmurphy): The user is not allowed to add a role that is not + # in their token. This is to prevent trustees or application + # credential users from escallating their privileges to include + # additional roles that the trustor or application credential + # creator has assigned on the project. + token_roles = [r['id'] for r in token.roles] + for role in roles: + if role['id'] not in token_roles: + detail = _('Cannot create an application credential with ' + 'unassigned role') + raise ks_exception.ApplicationCredentialValidationError( + detail=detail) + else: + roles = token.roles + return roles + def get(self, user_id): """List application credentials for user. @@ -594,8 +613,7 @@ class UserAppCredListCreateResource(ks_flask.ResourceBase): app_cred_data['secret'] = self._generate_secret() app_cred_data['user_id'] = user_id app_cred_data['project_id'] = project_id - app_cred_data['roles'] = self._normalize_role_list( - app_cred_data.get('roles', token.roles)) + app_cred_data['roles'] = self._get_roles(app_cred_data, token) if app_cred_data.get('expires_at'): app_cred_data['expires_at'] = utils.parse_expiration_date( app_cred_data['expires_at']) diff --git a/keystone/tests/unit/test_v3_application_credential.py b/keystone/tests/unit/test_v3_application_credential.py index 7fe02eb0b6..b60307c05a 100644 --- a/keystone/tests/unit/test_v3_application_credential.py +++ b/keystone/tests/unit/test_v3_application_credential.py @@ -174,6 +174,37 @@ class ApplicationCredentialTestCase(test_v3.RestfulTestCase): expected_status_code=http.client.FORBIDDEN, headers={'X-Auth-Token': token}) + def test_create_application_credential_with_trust(self): + second_role = unit.new_role_ref(name='reader') + PROVIDERS.role_api.create_role(second_role['id'], second_role) + PROVIDERS.assignment_api.add_role_to_user_and_project( + self.user_id, self.project_id, second_role['id']) + with self.test_client() as c: + pw_token = self.get_scoped_token() + # create a self-trust - only the roles are important for this test + trust_ref = unit.new_trust_ref( + trustor_user_id=self.user_id, + trustee_user_id=self.user_id, + project_id=self.project_id, + role_ids=[second_role['id']]) + resp = c.post('/v3/OS-TRUST/trusts', + headers={'X-Auth-Token': pw_token}, + json={'trust': trust_ref}) + trust_id = resp.json['trust']['id'] + trust_auth = self.build_authentication_request( + user_id=self.user_id, + password=self.user['password'], + trust_id=trust_id) + trust_token = self.v3_create_token( + trust_auth).headers['X-Subject-Token'] + app_cred = self._app_cred_body(roles=[{'id': self.role_id}]) + # only the roles from the trust token should be allowed, even if + # the user has the role assigned on the project + c.post('/v3/users/%s/application_credentials' % self.user_id, + headers={'X-Auth-Token': trust_token}, + json=app_cred, + expected_status_code=http.client.BAD_REQUEST) + def test_create_application_credential_allow_recursion(self): with self.test_client() as c: roles = [{'id': self.role_id}] diff --git a/keystone/tests/unit/test_v3_credential.py b/keystone/tests/unit/test_v3_credential.py index 81f2b70b71..4cce2d1bf8 100644 --- a/keystone/tests/unit/test_v3_credential.py +++ b/keystone/tests/unit/test_v3_credential.py @@ -21,12 +21,14 @@ import http.client from keystoneclient.contrib.ec2 import utils as ec2_utils from oslo_db import exception as oslo_db_exception from testtools import matchers +import urllib from keystone.api import ec2tokens from keystone.common import provider_api from keystone.common import utils from keystone.credential.providers import fernet as credential_fernet from keystone import exception +from keystone import oauth1 from keystone.tests import unit from keystone.tests.unit import ksfixtures from keystone.tests.unit import test_v3 @@ -63,6 +65,33 @@ class CredentialBaseTestCase(test_v3.RestfulTestCase): return json.dumps(blob), credential_id + def _test_get_token(self, access, secret): + """Test signature validation with the access/secret provided.""" + signer = ec2_utils.Ec2Signer(secret) + params = {'SignatureMethod': 'HmacSHA256', + 'SignatureVersion': '2', + 'AWSAccessKeyId': access} + request = {'host': 'foo', + 'verb': 'GET', + 'path': '/bar', + 'params': params} + signature = signer.generate(request) + + # Now make a request to validate the signed dummy request via the + # ec2tokens API. This proves the v3 ec2 credentials actually work. + sig_ref = {'access': access, + 'signature': signature, + 'host': 'foo', + 'verb': 'GET', + 'path': '/bar', + 'params': params} + r = self.post( + '/ec2tokens', + body={'ec2Credentials': sig_ref}, + expected_status=http.client.OK) + self.assertValidTokenResponse(r) + return r.result['token'] + class CredentialTestCase(CredentialBaseTestCase): """Test credential CRUD.""" @@ -258,6 +287,126 @@ class CredentialTestCase(CredentialBaseTestCase): 'credential_id': credential_id}, body={'credential': update_ref}) + def test_update_credential_non_owner(self): + """Call ``PATCH /credentials/{credential_id}``.""" + alt_user = unit.create_user( + PROVIDERS.identity_api, domain_id=self.domain_id) + alt_user_id = alt_user['id'] + alt_project = unit.new_project_ref(domain_id=self.domain_id) + alt_project_id = alt_project['id'] + PROVIDERS.resource_api.create_project( + alt_project['id'], alt_project) + alt_role = unit.new_role_ref(name='reader') + alt_role_id = alt_role['id'] + PROVIDERS.role_api.create_role(alt_role_id, alt_role) + PROVIDERS.assignment_api.add_role_to_user_and_project( + alt_user_id, alt_project_id, alt_role_id) + auth = self.build_authentication_request( + user_id=alt_user_id, + password=alt_user['password'], + project_id=alt_project_id) + ref = unit.new_credential_ref(user_id=alt_user_id, + project_id=alt_project_id) + r = self.post( + '/credentials', + auth=auth, + body={'credential': ref}) + self.assertValidCredentialResponse(r, ref) + credential_id = r.result.get('credential')['id'] + + # Cannot change the credential to be owned by another user + update_ref = {'user_id': self.user_id, 'project_id': self.project_id} + self.patch( + '/credentials/%(credential_id)s' % { + 'credential_id': credential_id}, + expected_status=403, + auth=auth, + body={'credential': update_ref}) + + def test_update_ec2_credential_change_trust_id(self): + """Call ``PATCH /credentials/{credential_id}``.""" + blob, ref = unit.new_ec2_credential(user_id=self.user['id'], + project_id=self.project_id) + blob['trust_id'] = uuid.uuid4().hex + ref['blob'] = json.dumps(blob) + r = self.post( + '/credentials', + body={'credential': ref}) + self.assertValidCredentialResponse(r, ref) + credential_id = r.result.get('credential')['id'] + # Try changing to a different trust + blob['trust_id'] = uuid.uuid4().hex + update_ref = {'blob': json.dumps(blob)} + self.patch( + '/credentials/%(credential_id)s' % { + 'credential_id': credential_id}, + body={'credential': update_ref}, + expected_status=http.client.BAD_REQUEST) + # Try removing the trust + del blob['trust_id'] + update_ref = {'blob': json.dumps(blob)} + self.patch( + '/credentials/%(credential_id)s' % { + 'credential_id': credential_id}, + body={'credential': update_ref}, + expected_status=http.client.BAD_REQUEST) + + def test_update_ec2_credential_change_app_cred_id(self): + """Call ``PATCH /credentials/{credential_id}``.""" + blob, ref = unit.new_ec2_credential(user_id=self.user['id'], + project_id=self.project_id) + blob['app_cred_id'] = uuid.uuid4().hex + ref['blob'] = json.dumps(blob) + r = self.post( + '/credentials', + body={'credential': ref}) + self.assertValidCredentialResponse(r, ref) + credential_id = r.result.get('credential')['id'] + # Try changing to a different app cred + blob['app_cred_id'] = uuid.uuid4().hex + update_ref = {'blob': json.dumps(blob)} + self.patch( + '/credentials/%(credential_id)s' % { + 'credential_id': credential_id}, + body={'credential': update_ref}, + expected_status=http.client.BAD_REQUEST) + # Try removing the app cred + del blob['app_cred_id'] + update_ref = {'blob': json.dumps(blob)} + self.patch( + '/credentials/%(credential_id)s' % { + 'credential_id': credential_id}, + body={'credential': update_ref}, + expected_status=http.client.BAD_REQUEST) + + def test_update_ec2_credential_change_access_token_id(self): + """Call ``PATCH /credentials/{credential_id}``.""" + blob, ref = unit.new_ec2_credential(user_id=self.user['id'], + project_id=self.project_id) + blob['access_token_id'] = uuid.uuid4().hex + ref['blob'] = json.dumps(blob) + r = self.post( + '/credentials', + body={'credential': ref}) + self.assertValidCredentialResponse(r, ref) + credential_id = r.result.get('credential')['id'] + # Try changing to a different access token + blob['access_token_id'] = uuid.uuid4().hex + update_ref = {'blob': json.dumps(blob)} + self.patch( + '/credentials/%(credential_id)s' % { + 'credential_id': credential_id}, + body={'credential': update_ref}, + expected_status=http.client.BAD_REQUEST) + # Try removing the access token + del blob['access_token_id'] + update_ref = {'blob': json.dumps(blob)} + self.patch( + '/credentials/%(credential_id)s' % { + 'credential_id': credential_id}, + body={'credential': update_ref}, + expected_status=http.client.BAD_REQUEST) + def test_delete_credential(self): """Call ``DELETE /credentials/{credential_id}``.""" self.delete( @@ -393,7 +542,7 @@ class CredentialTestCase(CredentialBaseTestCase): self.assertValidCredentialResponse(r, ref) -class TestCredentialTrustScoped(test_v3.RestfulTestCase): +class TestCredentialTrustScoped(CredentialBaseTestCase): """Test credential with trust scoped token.""" def setUp(self): @@ -446,7 +595,7 @@ class TestCredentialTrustScoped(test_v3.RestfulTestCase): token_id = r.headers.get('X-Subject-Token') # Create the credential with the trust scoped token - blob, ref = unit.new_ec2_credential(user_id=self.user['id'], + blob, ref = unit.new_ec2_credential(user_id=self.user_id, project_id=self.project_id) r = self.post('/credentials', body={'credential': ref}, token=token_id) @@ -463,6 +612,21 @@ class TestCredentialTrustScoped(test_v3.RestfulTestCase): self.assertEqual(hashlib.sha256(access).hexdigest(), r.result['credential']['id']) + # Create a role assignment to ensure that it is ignored and only the + # trust-delegated roles are used + role = unit.new_role_ref(name='reader') + role_id = role['id'] + PROVIDERS.role_api.create_role(role_id, role) + PROVIDERS.assignment_api.add_role_to_user_and_project( + self.user_id, self.project_id, role_id) + + ret_blob = json.loads(r.result['credential']['blob']) + ec2token = self._test_get_token( + access=ret_blob['access'], secret=ret_blob['secret']) + ec2_roles = [role['id'] for role in ec2token['roles']] + self.assertIn(self.role_id, ec2_roles) + self.assertNotIn(role_id, ec2_roles) + # Create second ec2 credential with the same access key id and check # for conflict. self.post( @@ -472,35 +636,230 @@ class TestCredentialTrustScoped(test_v3.RestfulTestCase): expected_status=http.client.CONFLICT) +class TestCredentialAppCreds(CredentialBaseTestCase): + """Test credential with application credential token.""" + + def setUp(self): + super(TestCredentialAppCreds, self).setUp() + self.useFixture( + ksfixtures.KeyRepository( + self.config_fixture, + 'credential', + credential_fernet.MAX_ACTIVE_KEYS + ) + ) + + def test_app_cred_ec2_credential(self): + """Test creating ec2 credential from an application credential. + + Call ``POST /credentials``. + """ + # Create the app cred + ref = unit.new_application_credential_ref(roles=[{'id': self.role_id}]) + del ref['id'] + r = self.post('/users/%s/application_credentials' % self.user_id, + body={'application_credential': ref}) + app_cred = r.result['application_credential'] + + # Get an application credential token + auth_data = self.build_authentication_request( + app_cred_id=app_cred['id'], + secret=app_cred['secret']) + r = self.v3_create_token(auth_data) + token_id = r.headers.get('X-Subject-Token') + + # Create the credential with the app cred token + blob, ref = unit.new_ec2_credential(user_id=self.user_id, + project_id=self.project_id) + r = self.post('/credentials', body={'credential': ref}, token=token_id) + + # We expect the response blob to contain the app_cred_id + ret_ref = ref.copy() + ret_blob = blob.copy() + ret_blob['app_cred_id'] = app_cred['id'] + ret_ref['blob'] = json.dumps(ret_blob) + self.assertValidCredentialResponse(r, ref=ret_ref) + + # Assert credential id is same as hash of access key id for + # ec2 credentials + access = blob['access'].encode('utf-8') + self.assertEqual(hashlib.sha256(access).hexdigest(), + r.result['credential']['id']) + + # Create a role assignment to ensure that it is ignored and only the + # roles in the app cred are used + role = unit.new_role_ref(name='reader') + role_id = role['id'] + PROVIDERS.role_api.create_role(role_id, role) + PROVIDERS.assignment_api.add_role_to_user_and_project( + self.user_id, self.project_id, role_id) + + ret_blob = json.loads(r.result['credential']['blob']) + ec2token = self._test_get_token( + access=ret_blob['access'], secret=ret_blob['secret']) + ec2_roles = [role['id'] for role in ec2token['roles']] + self.assertIn(self.role_id, ec2_roles) + self.assertNotIn(role_id, ec2_roles) + + # Create second ec2 credential with the same access key id and check + # for conflict. + self.post( + '/credentials', + body={'credential': ref}, + token=token_id, + expected_status=http.client.CONFLICT) + + +class TestCredentialAccessToken(CredentialBaseTestCase): + """Test credential with access token.""" + + def setUp(self): + super(TestCredentialAccessToken, self).setUp() + self.useFixture( + ksfixtures.KeyRepository( + self.config_fixture, + 'credential', + credential_fernet.MAX_ACTIVE_KEYS + ) + ) + self.base_url = 'http://localhost/v3' + + def _urllib_parse_qs_text_keys(self, content): + results = urllib.parse.parse_qs(content) + return {key.decode('utf-8'): value for key, value in results.items()} + + def _create_single_consumer(self): + endpoint = '/OS-OAUTH1/consumers' + + ref = {'description': uuid.uuid4().hex} + resp = self.post(endpoint, body={'consumer': ref}) + return resp.result['consumer'] + + def _create_request_token(self, consumer, project_id, base_url=None): + endpoint = '/OS-OAUTH1/request_token' + client = oauth1.Client(consumer['key'], + client_secret=consumer['secret'], + signature_method=oauth1.SIG_HMAC, + callback_uri="oob") + headers = {'requested_project_id': project_id} + if not base_url: + base_url = self.base_url + url, headers, body = client.sign(base_url + endpoint, + http_method='POST', + headers=headers) + return endpoint, headers + + def _create_access_token(self, consumer, token, base_url=None): + endpoint = '/OS-OAUTH1/access_token' + client = oauth1.Client(consumer['key'], + client_secret=consumer['secret'], + resource_owner_key=token.key, + resource_owner_secret=token.secret, + signature_method=oauth1.SIG_HMAC, + verifier=token.verifier) + if not base_url: + base_url = self.base_url + url, headers, body = client.sign(base_url + endpoint, + http_method='POST') + headers.update({'Content-Type': 'application/json'}) + return endpoint, headers + + def _get_oauth_token(self, consumer, token): + client = oauth1.Client(consumer['key'], + client_secret=consumer['secret'], + resource_owner_key=token.key, + resource_owner_secret=token.secret, + signature_method=oauth1.SIG_HMAC) + endpoint = '/auth/tokens' + url, headers, body = client.sign(self.base_url + endpoint, + http_method='POST') + headers.update({'Content-Type': 'application/json'}) + ref = {'auth': {'identity': {'oauth1': {}, 'methods': ['oauth1']}}} + return endpoint, headers, ref + + def _authorize_request_token(self, request_id): + if isinstance(request_id, bytes): + request_id = request_id.decode() + return '/OS-OAUTH1/authorize/%s' % (request_id) + + def _get_access_token(self): + consumer = self._create_single_consumer() + consumer_id = consumer['id'] + consumer_secret = consumer['secret'] + consumer = {'key': consumer_id, 'secret': consumer_secret} + + url, headers = self._create_request_token(consumer, self.project_id) + content = self.post( + url, headers=headers, + response_content_type='application/x-www-form-urlencoded') + credentials = self._urllib_parse_qs_text_keys(content.result) + request_key = credentials['oauth_token'][0] + request_secret = credentials['oauth_token_secret'][0] + request_token = oauth1.Token(request_key, request_secret) + + url = self._authorize_request_token(request_key) + body = {'roles': [{'id': self.role_id}]} + resp = self.put(url, body=body, expected_status=http.client.OK) + verifier = resp.result['token']['oauth_verifier'] + + request_token.set_verifier(verifier) + url, headers = self._create_access_token(consumer, request_token) + content = self.post( + url, headers=headers, + response_content_type='application/x-www-form-urlencoded') + credentials = self._urllib_parse_qs_text_keys(content.result) + access_key = credentials['oauth_token'][0] + access_secret = credentials['oauth_token_secret'][0] + access_token = oauth1.Token(access_key, access_secret) + + url, headers, body = self._get_oauth_token(consumer, access_token) + content = self.post(url, headers=headers, body=body) + return access_key, content.headers['X-Subject-Token'] + + def test_access_token_ec2_credential(self): + """Test creating ec2 credential from an oauth access token. + + Call ``POST /credentials``. + """ + access_key, token_id = self._get_access_token() + + # Create the credential with the access token + blob, ref = unit.new_ec2_credential(user_id=self.user_id, + project_id=self.project_id) + r = self.post('/credentials', body={'credential': ref}, token=token_id) + + # We expect the response blob to contain the access_token_id + ret_ref = ref.copy() + ret_blob = blob.copy() + ret_blob['access_token_id'] = access_key.decode('utf-8') + ret_ref['blob'] = json.dumps(ret_blob) + self.assertValidCredentialResponse(r, ref=ret_ref) + + # Assert credential id is same as hash of access key id for + # ec2 credentials + access = blob['access'].encode('utf-8') + self.assertEqual(hashlib.sha256(access).hexdigest(), + r.result['credential']['id']) + + # Create a role assignment to ensure that it is ignored and only the + # roles in the access token are used + role = unit.new_role_ref(name='reader') + role_id = role['id'] + PROVIDERS.role_api.create_role(role_id, role) + PROVIDERS.assignment_api.add_role_to_user_and_project( + self.user_id, self.project_id, role_id) + + ret_blob = json.loads(r.result['credential']['blob']) + ec2token = self._test_get_token( + access=ret_blob['access'], secret=ret_blob['secret']) + ec2_roles = [role['id'] for role in ec2token['roles']] + self.assertIn(self.role_id, ec2_roles) + self.assertNotIn(role_id, ec2_roles) + + class TestCredentialEc2(CredentialBaseTestCase): """Test v3 credential compatibility with ec2tokens.""" - def _validate_signature(self, access, secret): - """Test signature validation with the access/secret provided.""" - signer = ec2_utils.Ec2Signer(secret) - params = {'SignatureMethod': 'HmacSHA256', - 'SignatureVersion': '2', - 'AWSAccessKeyId': access} - request = {'host': 'foo', - 'verb': 'GET', - 'path': '/bar', - 'params': params} - signature = signer.generate(request) - - # Now make a request to validate the signed dummy request via the - # ec2tokens API. This proves the v3 ec2 credentials actually work. - sig_ref = {'access': access, - 'signature': signature, - 'host': 'foo', - 'verb': 'GET', - 'path': '/bar', - 'params': params} - r = self.post( - '/ec2tokens', - body={'ec2Credentials': sig_ref}, - expected_status=http.client.OK) - self.assertValidTokenResponse(r) - def test_ec2_credential_signature_validate(self): """Test signature validation with a v3 ec2 credential.""" blob, ref = unit.new_ec2_credential(user_id=self.user['id'], @@ -514,15 +873,15 @@ class TestCredentialEc2(CredentialBaseTestCase): cred_blob = json.loads(r.result['credential']['blob']) self.assertEqual(blob, cred_blob) - self._validate_signature(access=cred_blob['access'], - secret=cred_blob['secret']) + self._test_get_token(access=cred_blob['access'], + secret=cred_blob['secret']) def test_ec2_credential_signature_validate_legacy(self): """Test signature validation with a legacy v3 ec2 credential.""" cred_json, _ = self._create_dict_blob_credential() cred_blob = json.loads(cred_json) - self._validate_signature(access=cred_blob['access'], - secret=cred_blob['secret']) + self._test_get_token(access=cred_blob['access'], + secret=cred_blob['secret']) def _get_ec2_cred_uri(self): return '/users/%s/credentials/OS-EC2' % self.user_id @@ -538,8 +897,8 @@ class TestCredentialEc2(CredentialBaseTestCase): self.assertEqual(self.user_id, ec2_cred['user_id']) self.assertEqual(self.project_id, ec2_cred['tenant_id']) self.assertIsNone(ec2_cred['trust_id']) - self._validate_signature(access=ec2_cred['access'], - secret=ec2_cred['secret']) + self._test_get_token(access=ec2_cred['access'], + secret=ec2_cred['secret']) uri = '/'.join([self._get_ec2_cred_uri(), ec2_cred['access']]) self.assertThat(ec2_cred['links']['self'], matchers.EndsWith(uri)) diff --git a/releasenotes/notes/bug-1872733-2377f456a57ad32c.yaml b/releasenotes/notes/bug-1872733-2377f456a57ad32c.yaml new file mode 100644 index 0000000000..656822c2a8 --- /dev/null +++ b/releasenotes/notes/bug-1872733-2377f456a57ad32c.yaml @@ -0,0 +1,16 @@ +--- +critical: + - | + [`bug 1872733 `_] + Fixed a critical security issue in which an authenticated user could + escalate their privileges by altering a valid EC2 credential. +security: + - | + [`bug 1872733 `_] + Fixed a critical security issue in which an authenticated user could + escalate their privileges by altering a valid EC2 credential. +fixes: + - | + [`bug 1872733 `_] + Fixed a critical security issue in which an authenticated user could + escalate their privileges by altering a valid EC2 credential. diff --git a/releasenotes/notes/bug-1872735-0989e51d2248ce1e.yaml b/releasenotes/notes/bug-1872735-0989e51d2248ce1e.yaml new file mode 100644 index 0000000000..1aed863010 --- /dev/null +++ b/releasenotes/notes/bug-1872735-0989e51d2248ce1e.yaml @@ -0,0 +1,31 @@ +--- +critical: + - | + [`bug 1872735 `_] + Fixed a security issue in which a trustee or an application credential user + could create an EC2 credential or an application credential that would + permit them to get a token that elevated their role assignments beyond the + subset delegated to them in the trust or application credential. A new + attribute ``app_cred_id`` is now automatically added to the access blob of + an EC2 credential and the role list in the trust or application credential + is respected. +security: + - | + [`bug 1872735 `_] + Fixed a security issue in which a trustee or an application credential user + could create an EC2 credential or an application credential that would + permit them to get a token that elevated their role assignments beyond the + subset delegated to them in the trust or application credential. A new + attribute ``app_cred_id`` is now automatically added to the access blob of + an EC2 credential and the role list in the trust or application credential + is respected. +fixes: + - | + [`bug 1872735 `_] + Fixed a security issue in which a trustee or an application credential user + could create an EC2 credential or an application credential that would + permit them to get a token that elevated their role assignments beyond the + subset delegated to them in the trust or application credential. A new + attribute ``app_cred_id`` is now automatically added to the access blob of + an EC2 credential and the role list in the trust or application credential + is respected. diff --git a/releasenotes/notes/bug-1872755-2c81d3267b89f124.yaml b/releasenotes/notes/bug-1872755-2c81d3267b89f124.yaml new file mode 100644 index 0000000000..a30259ffa1 --- /dev/null +++ b/releasenotes/notes/bug-1872755-2c81d3267b89f124.yaml @@ -0,0 +1,19 @@ +--- +security: + - | + [`bug 1872755 `_] + Added validation to the EC2 credentials update API to ensure the metadata + labels 'trust_id' and 'app_cred_id' are not altered by the user. These + labels are used by keystone to determine the scope allowed by the + credential, and altering these automatic labels could enable an EC2 + credential holder to elevate their access beyond what is permitted by the + application credential or trust that was used to create the EC2 credential. +fixes: + - | + [`bug 1872755 `_] + Added validation to the EC2 credentials update API to ensure the metadata + labels 'trust_id' and 'app_cred_id' are not altered by the user. These + labels are used by keystone to determine the scope allowed by the + credential, and altering these automatic labels could enable an EC2 + credential holder to elevate their access beyond what is permitted by the + application credential or trust that was used to create the EC2 credential.