# Copyright 2013 IBM Corp. # # 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 netaddr from oslo_log import log as logging import six from tempest import clients from tempest.common import cred_client from tempest.common import cred_provider from tempest.common.utils import data_utils from tempest import config from tempest import exceptions from tempest.lib import exceptions as lib_exc CONF = config.CONF LOG = logging.getLogger(__name__) class DynamicCredentialProvider(cred_provider.CredentialProvider): def __init__(self, identity_version, name=None, network_resources=None, credentials_domain=None, admin_role=None, admin_creds=None): """Creates credentials dynamically for tests A credential provider that, based on an initial set of admin credentials, creates new credentials on the fly for tests to use and then discard. :param str identity_version: identity API version to use `v2` or `v3` :param str admin_role: name of the admin role added to admin users :param str name: names of dynamic resources include this parameter when specified :param str credentials_domain: name of the domain where the users are created. If not defined, the project domain from admin_credentials is used :param dict network_resources: network resources to be created for the created credentials :param Credentials admin_creds: initial admin credentials """ super(DynamicCredentialProvider, self).__init__( identity_version=identity_version, admin_role=admin_role, name=name, credentials_domain=credentials_domain, network_resources=network_resources) self.network_resources = network_resources self._creds = {} self.ports = [] self.default_admin_creds = admin_creds (self.identity_admin_client, self.tenants_admin_client, self.users_admin_client, self.roles_admin_client, self.domains_admin_client, self.networks_admin_client, self.routers_admin_client, self.subnets_admin_client, self.ports_admin_client, self.security_groups_admin_client) = self._get_admin_clients() # Domain where isolated credentials are provisioned (v3 only). # Use that of the admin account is None is configured. self.creds_domain_name = None if self.identity_version == 'v3': self.creds_domain_name = ( self.default_admin_creds.project_domain_name or self.credentials_domain) self.creds_client = cred_client.get_creds_client( self.identity_admin_client, self.tenants_admin_client, self.users_admin_client, self.roles_admin_client, self.domains_admin_client, self.creds_domain_name) def _get_admin_clients(self): """Returns a tuple with instances of the following admin clients (in this order): identity network """ os = clients.Manager(self.default_admin_creds) if self.identity_version == 'v2': return (os.identity_client, os.tenants_client, os.users_client, os.roles_client, None, os.networks_client, os.routers_client, os.subnets_client, os.ports_client, os.security_groups_client) else: return (os.identity_v3_client, os.projects_client, os.users_v3_client, os.roles_v3_client, os.domains_client, os.networks_client, os.routers_client, os.subnets_client, os.ports_client, os.security_groups_client) def _create_creds(self, suffix="", admin=False, roles=None): """Create random credentials under the following schema. If the name contains a '.' is the full class path of something, and we don't really care. If it isn't, it's probably a meaningful name, so use it. For logging purposes, -user and -tenant are long and redundant, don't use them. The user# will be sufficient to figure it out. """ if '.' in self.name: root = "" else: root = self.name project_name = data_utils.rand_name(root) + suffix project_desc = project_name + "-desc" project = self.creds_client.create_project( name=project_name, description=project_desc) username = data_utils.rand_name(root) + suffix user_password = data_utils.rand_password() email = data_utils.rand_name(root) + suffix + "@example.com" user = self.creds_client.create_user( username, user_password, project, email) if 'user' in user: user = user['user'] role_assigned = False if admin: self.creds_client.assign_user_role(user, project, self.admin_role) role_assigned = True # Add roles specified in config file for conf_role in CONF.auth.tempest_roles: self.creds_client.assign_user_role(user, project, conf_role) role_assigned = True # Add roles requested by caller if roles: for role in roles: self.creds_client.assign_user_role(user, project, role) role_assigned = True # NOTE(mtreinish) For a user to have access to a project with v3 auth # it must beassigned a role on the project. So we need to ensure that # our newly created user has a role on the newly created project. if self.identity_version == 'v3' and not role_assigned: self.creds_client.create_user_role('Member') self.creds_client.assign_user_role(user, project, 'Member') creds = self.creds_client.get_credentials(user, project, user_password) return cred_provider.TestResources(creds) def _create_network_resources(self, tenant_id): network = None subnet = None router = None # Make sure settings if self.network_resources: if self.network_resources['router']: if (not self.network_resources['subnet'] or not self.network_resources['network']): raise exceptions.InvalidConfiguration( 'A router requires a subnet and network') elif self.network_resources['subnet']: if not self.network_resources['network']: raise exceptions.InvalidConfiguration( 'A subnet requires a network') elif self.network_resources['dhcp']: raise exceptions.InvalidConfiguration('DHCP requires a subnet') data_utils.rand_name_root = data_utils.rand_name(self.name) if not self.network_resources or self.network_resources['network']: network_name = data_utils.rand_name_root + "-network" network = self._create_network(network_name, tenant_id) try: if not self.network_resources or self.network_resources['subnet']: subnet_name = data_utils.rand_name_root + "-subnet" subnet = self._create_subnet(subnet_name, tenant_id, network['id']) if not self.network_resources or self.network_resources['router']: router_name = data_utils.rand_name_root + "-router" router = self._create_router(router_name, tenant_id) self._add_router_interface(router['id'], subnet['id']) except Exception: try: if router: self._clear_isolated_router(router['id'], router['name']) if subnet: self._clear_isolated_subnet(subnet['id'], subnet['name']) if network: self._clear_isolated_network(network['id'], network['name']) except Exception as cleanup_exception: msg = "There was an exception trying to setup network " \ "resources for tenant %s, and this error happened " \ "trying to clean them up: %s" LOG.warning(msg % (tenant_id, cleanup_exception)) raise return network, subnet, router def _create_network(self, name, tenant_id): resp_body = self.networks_admin_client.create_network( name=name, tenant_id=tenant_id) return resp_body['network'] def _create_subnet(self, subnet_name, tenant_id, network_id): base_cidr = netaddr.IPNetwork(CONF.network.tenant_network_cidr) mask_bits = CONF.network.tenant_network_mask_bits for subnet_cidr in base_cidr.subnet(mask_bits): try: if self.network_resources: resp_body = self.subnets_admin_client.\ create_subnet( network_id=network_id, cidr=str(subnet_cidr), name=subnet_name, tenant_id=tenant_id, enable_dhcp=self.network_resources['dhcp'], ip_version=4) else: resp_body = self.subnets_admin_client.\ create_subnet(network_id=network_id, cidr=str(subnet_cidr), name=subnet_name, tenant_id=tenant_id, ip_version=4) break except lib_exc.BadRequest as e: if 'overlaps with another subnet' not in str(e): raise else: message = 'Available CIDR for subnet creation could not be found' raise Exception(message) return resp_body['subnet'] def _create_router(self, router_name, tenant_id): external_net_id = dict( network_id=CONF.network.public_network_id) resp_body = self.routers_admin_client.create_router( name=router_name, external_gateway_info=external_net_id, tenant_id=tenant_id) return resp_body['router'] def _add_router_interface(self, router_id, subnet_id): self.routers_admin_client.add_router_interface(router_id, subnet_id=subnet_id) def get_credentials(self, credential_type): if self._creds.get(str(credential_type)): credentials = self._creds[str(credential_type)] else: if credential_type in ['primary', 'alt', 'admin']: is_admin = (credential_type == 'admin') credentials = self._create_creds(admin=is_admin) else: credentials = self._create_creds(roles=credential_type) self._creds[str(credential_type)] = credentials # Maintained until tests are ported LOG.info("Acquired dynamic creds:\n credentials: %s" % credentials) if (CONF.service_available.neutron and not CONF.baremetal.driver_enabled and CONF.auth.create_isolated_networks): network, subnet, router = self._create_network_resources( credentials.tenant_id) credentials.set_resources(network=network, subnet=subnet, router=router) LOG.info("Created isolated network resources for : \n" + " credentials: %s" % credentials) return credentials def get_primary_creds(self): return self.get_credentials('primary') def get_admin_creds(self): return self.get_credentials('admin') def get_alt_creds(self): return self.get_credentials('alt') def get_creds_by_roles(self, roles, force_new=False): roles = list(set(roles)) # The roles list as a str will become the index as the dict key for # the created credentials set in the dynamic_creds dict. exist_creds = self._creds.get(str(roles)) # If force_new flag is True 2 cred sets with the same roles are needed # handle this by creating a separate index for old one to store it # separately for cleanup if exist_creds and force_new: new_index = str(roles) + '-' + str(len(self._creds)) self._creds[new_index] = exist_creds del self._creds[str(roles)] return self.get_credentials(roles) def _clear_isolated_router(self, router_id, router_name): client = self.routers_admin_client try: client.delete_router(router_id) except lib_exc.NotFound: LOG.warning('router with name: %s not found for delete' % router_name) def _clear_isolated_subnet(self, subnet_id, subnet_name): client = self.subnets_admin_client try: client.delete_subnet(subnet_id) except lib_exc.NotFound: LOG.warning('subnet with name: %s not found for delete' % subnet_name) def _clear_isolated_network(self, network_id, network_name): net_client = self.networks_admin_client try: net_client.delete_network(network_id) except lib_exc.NotFound: LOG.warning('network with name: %s not found for delete' % network_name) def _cleanup_default_secgroup(self, tenant): nsg_client = self.security_groups_admin_client resp_body = nsg_client.list_security_groups(tenant_id=tenant, name="default") secgroups_to_delete = resp_body['security_groups'] for secgroup in secgroups_to_delete: try: nsg_client.delete_security_group(secgroup['id']) except lib_exc.NotFound: LOG.warning('Security group %s, id %s not found for clean-up' % (secgroup['name'], secgroup['id'])) def _clear_isolated_net_resources(self): client = self.routers_admin_client for cred in self._creds: creds = self._creds.get(cred) if (not creds or not any([creds.router, creds.network, creds.subnet])): continue LOG.debug("Clearing network: %(network)s, " "subnet: %(subnet)s, router: %(router)s", {'network': creds.network, 'subnet': creds.subnet, 'router': creds.router}) if (not self.network_resources or (self.network_resources.get('router') and creds.subnet)): try: client.remove_router_interface( creds.router['id'], subnet_id=creds.subnet['id']) except lib_exc.NotFound: LOG.warning('router with name: %s not found for delete' % creds.router['name']) self._clear_isolated_router(creds.router['id'], creds.router['name']) if (not self.network_resources or self.network_resources.get('subnet')): self._clear_isolated_subnet(creds.subnet['id'], creds.subnet['name']) if (not self.network_resources or self.network_resources.get('network')): self._clear_isolated_network(creds.network['id'], creds.network['name']) def clear_creds(self): if not self._creds: return self._clear_isolated_net_resources() for creds in six.itervalues(self._creds): try: self.creds_client.delete_user(creds.user_id) except lib_exc.NotFound: LOG.warning("user with name: %s not found for delete" % creds.username) try: if CONF.service_available.neutron: self._cleanup_default_secgroup(creds.tenant_id) self.creds_client.delete_project(creds.tenant_id) except lib_exc.NotFound: LOG.warning("tenant with name: %s not found for delete" % creds.tenant_name) self._creds = {} def is_multi_user(self): return True def is_multi_tenant(self): return True def is_role_available(self, role): return True