# Copyright 2013: Mirantis Inc. # All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); you may # not use this file except in compliance with the License. You may obtain # a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the # License for the specific language governing permissions and limitations # under the License. import multiprocessing import random import re import string import uuid from ceilometerclient import exc as ceilometer_exc from glanceclient import exc import mock from neutronclient.common import exceptions as neutron_exceptions from novaclient import exceptions as nova_exceptions import six from swiftclient import exceptions as swift_exceptions from rally.benchmark import context from rally.benchmark.scenarios import base from rally.common import utils as rally_utils from rally import consts from rally import objects def generate_uuid(): return str(uuid.uuid4()) def generate_name(prefix="", length=12, choices=string.ascii_lowercase): """Generate pseudo-random name. :param prefix: str, custom prefix for genertated name :param length: int, length of autogenerated part of result name :param choices: str, chars that accurs in generated name :returns: str, pseudo-random name """ return prefix + "".join(random.choice(choices) for i in range(length)) def generate_mac(): """Generate pseudo-random MAC address. :returns: str, MAC address """ rand_str = generate_name(choices="0123456789abcdef", length=12) return ":".join(re.findall("..", rand_str)) def setup_dict(data, required=None, defaults=None): """Setup and validate dict scenario_base. on mandatory keys and default data. This function reduces code that constructs dict objects with specific schema (e.g. for API data). :param data: dict, input data :param required: list, mandatory keys to check :param defaults: dict, default data :returns: dict, with all keys set :raises: IndexError, ValueError """ required = required or [] for i in set(required) - set(data): raise IndexError("Missed: %s" % i) defaults = defaults or {} for i in set(data) - set(required) - set(defaults): raise ValueError("Unexpected: %s" % i) defaults.update(data) return defaults class FakeResource(object): def __init__(self, manager=None, name=None, status="ACTIVE", items=None, deployment_uuid=None, id=None): self.name = name or generate_uuid() self.status = status self.manager = manager self.uuid = generate_uuid() self.id = id or self.uuid self.items = items or {} self.deployment_uuid = deployment_uuid or generate_uuid() def __getattr__(self, name): # NOTE(msdubov): e.g. server.delete() -> manager.delete(server) def manager_func(*args, **kwargs): return getattr(self.manager, name)(self, *args, **kwargs) return manager_func def __getitem__(self, key): return self.items[key] class FakeServer(FakeResource): def suspend(self): self.status = "SUSPENDED" def lock(self): setattr(self, "OS-EXT-STS:locked", True) def unlock(self): setattr(self, "OS-EXT-STS:locked", False) class FakeFailedServer(FakeResource): def __init__(self, manager=None): super(FakeFailedServer, self).__init__(manager, status="ERROR") class FakeImage(FakeResource): def __init__(self, manager=None, id="image-id-0", min_ram=0, size=0, min_disk=0, name=None): super(FakeImage, self).__init__(manager, id=id, name=name) self.min_ram = min_ram self.size = size self.min_disk = min_disk self.update = mock.MagicMock() class FakeMurano(FakeResource): pass class FakeFailedImage(FakeResource): def __init__(self, manager=None): super(FakeFailedImage, self).__init__(manager, status="error") class FakeFloatingIP(FakeResource): pass class FakeFloatingIPPool(FakeResource): pass class FakeTenant(FakeResource): def __init__(self, manager, name): super(FakeTenant, self).__init__(manager, name=name) class FakeUser(FakeResource): pass class FakeService(FakeResource): pass class FakeNetwork(FakeResource): pass class FakeFlavor(FakeResource): def __init__(self, id="flavor-id-0", manager=None, ram=0, disk=0, name="flavor-name-0"): super(FakeFlavor, self).__init__(manager, id=id) self.ram = ram self.disk = disk self.name = name class FakeKeypair(FakeResource): pass class FakeStack(FakeResource): pass class FakeDomain(FakeResource): pass class FakeQuotas(FakeResource): pass class FakeSecurityGroup(FakeResource): def __init__(self, manager=None, rule_manager=None, id=None, name=None): super(FakeSecurityGroup, self).__init__(manager, id=id, name=name) self.rule_manager = rule_manager @property def rules(self): return [rule for rule in self.rule_manager.list() if rule.parent_group_id == self.id] class FakeSecurityGroupRule(FakeResource): def __init__(self, name, **kwargs): super(FakeSecurityGroupRule, self).__init__(name) if "cidr" in kwargs: kwargs["ip_range"] = {"cidr": kwargs["cidr"]} del kwargs["cidr"] for key, value in kwargs.items(): self.items[key] = value setattr(self, key, value) class FakeAlarm(FakeResource): def __init__(self, manager=None, **kwargs): super(FakeAlarm, self).__init__(manager) self.meter_name = kwargs.get("meter_name") self.threshold = kwargs.get("threshold") self.state = kwargs.get("state", "fake-alarm-state") self.alarm_id = kwargs.get("alarm_id", "fake-alarm-id") self.state = kwargs.get("state", "ok") self.optional_args = kwargs.get("optional_args", {}) class FakeSample(FakeResource): def __init__(self, manager=None, **kwargs): super(FakeSample, self).__init__(manager) self.counter_name = kwargs.get("counter_name", "fake-counter-name") self.counter_type = kwargs.get("counter_type", "fake-counter-type") self.counter_unit = kwargs.get("counter_unit", "fake-counter-unit") self.counter_volume = kwargs.get("counter_volume", 100) @property def resource_id(self): return "fake-resource-id" def to_dict(self): return {"counter_name": self.counter_name, "counter_type": self.counter_type, "counter_unit": self.counter_unit, "counter_volume": self.counter_volume, "resource_id": self.resource_id} class FakeVolume(FakeResource): @property def _info(self): return {"id": "uuid"} class FakeVolumeType(FakeResource): pass class FakeVolumeTransfer(FakeResource): pass class FakeVolumeSnapshot(FakeResource): pass class FakeVolumeBackup(FakeResource): pass class FakeRole(FakeResource): pass class FakeQueue(FakeResource): def __init__(self, manager=None, name="myqueue"): super(FakeQueue, self).__init__(manager, name) self.queue_name = name self.messages = FakeMessagesManager(name) def post(self, messages): for msg in messages: self.messages.create(**msg) def messages(self): return self.messages.list() class FakeDbInstance(FakeResource): pass class FakeMessage(FakeResource): def __init__(self, manager=None, **kwargs): super(FakeMessage, self).__init__(manager) self.body = kwargs.get("body", "fake-body") self.ttl = kwargs.get("ttl", 100) class FakeAvailabilityZone(FakeResource): def __init__(self, manager=None): super(FakeAvailabilityZone, self).__init__(manager) self.zoneName = mock.MagicMock() self.zoneState = mock.MagicMock() self.hosts = mock.MagicMock() class FakeWorkbook(FakeResource): def __init__(self, manager=None): super(FakeWorkbook, self).__init__(manager) self.workbook = mock.MagicMock() class FakeObject(FakeResource): pass class FakeManager(object): def __init__(self): super(FakeManager, self).__init__() self.cache = {} self.resources_order = [] def get(self, resource_uuid): return self.cache.get(resource_uuid, None) def delete(self, resource_uuid): cached = self.get(resource_uuid) if cached is not None: cached.status = "DELETED" del self.cache[resource_uuid] self.resources_order.remove(resource_uuid) def _cache(self, resource): self.resources_order.append(resource.uuid) self.cache[resource.uuid] = resource return resource def list(self, **kwargs): return [self.cache[key] for key in self.resources_order] def find(self, **kwargs): for resource in self.cache.values(): match = True for key, value in kwargs.items(): if getattr(resource, key, None) != value: match = False break if match: return resource class FakeServerManager(FakeManager): def __init__(self, image_mgr=None): super(FakeServerManager, self).__init__() self.images = image_mgr or FakeImageManager() def get(self, resource_uuid): server = self.cache.get(resource_uuid, None) if server is not None: return server raise nova_exceptions.NotFound("Server %s not found" % (resource_uuid)) def _create(self, server_class=FakeServer, name=None): server = self._cache(server_class(self)) if name is not None: server.name = name return server def create(self, name, image_id, flavor_id, **kwargs): return self._create(name=name) def create_image(self, server, name): image = self.images._create() return image.uuid def add_floating_ip(self, server, fip): pass def remove_floating_ip(self, server, fip): pass def delete(self, resource): if not isinstance(resource, six.string_types): resource = resource.id cached = self.get(resource) if cached is not None: cached.status = "DELETED" del self.cache[resource] self.resources_order.remove(resource) class FakeFailedServerManager(FakeServerManager): def create(self, name, image_id, flavor_id, **kwargs): return self._create(FakeFailedServer, name) class FakeImageManager(FakeManager): def __init__(self): super(FakeImageManager, self).__init__() def get(self, resource_uuid): image = self.cache.get(resource_uuid, None) if image is not None: return image raise exc.HTTPNotFound("Image %s not found" % (resource_uuid)) def _create(self, image_class=FakeImage, name=None, id=None): image = self._cache(image_class(self)) image.owner = "dummy" image.id = image.uuid if name is not None: image.name = name return image def create(self, name, copy_from, container_format, disk_format): return self._create(name=name) def delete(self, resource): if not isinstance(resource, six.string_types): resource = resource.id cached = self.get(resource) if cached is not None: cached.status = "DELETED" del self.cache[resource] self.resources_order.remove(resource) class FakePackageManager(FakeManager): def create(self, package_descr, package_arch, package_class=FakeMurano): package = self._cache(package_class(self)) package.name = package_arch.keys()[0] return package class FakeFailedImageManager(FakeImageManager): def create(self, name, copy_from, container_format, disk_format): return self._create(FakeFailedImage, name) class FakeFloatingIPsManager(FakeManager): def create(self): return FakeFloatingIP(self) class FakeFloatingIPPoolsManager(FakeManager): def create(self): return FakeFloatingIPPool(self) class FakeTenantsManager(FakeManager): def create(self, name): return self._cache(FakeTenant(self, name)) def update(self, tenant_id, name=None, description=None): tenant = self.get(tenant_id) name = name or (tenant.name + "_updated") desc = description or (tenant.name + "_description_updated") tenant.name = name tenant.description = desc return self._cache(tenant) class FakeNetworkManager(FakeManager): def create(self, net_id): net = FakeNetwork(self) net.id = net_id return self._cache(net) class FakeFlavorManager(FakeManager): def create(self): flv = FakeFlavor(self) return self._cache(flv) class FakeKeypairManager(FakeManager): def create(self, name, public_key=None): kp = FakeKeypair(self) kp.name = name or kp.name return self._cache(kp) def delete(self, resource): if not isinstance(resource, six.string_types): resource = resource.id cached = self.get(resource) if cached is not None: cached.status = "DELETED" del self.cache[resource] self.resources_order.remove(resource) class FakeStackManager(FakeManager): def create(self, name): stack = FakeStack(self) stack.name = name or stack.name return self._cache(stack) def delete(self, resource): if not isinstance(resource, six.string_types): resource = resource.id cached = self.get(resource) if cached is not None: cached.status = "DELETE_COMPLETE" del self.cache[resource] self.resources_order.remove(resource) class FakeDomainManager(FakeManager): def create(self, name): domain = FakeDomain(self) domain.name = name or domain.name return self._cache(domain) def delete(self, resource): if not isinstance(resource, six.string_types): resource = resource.id cached = self.get(resource) if cached is not None: cached.status = "DELETE_COMPLETE" del self.cache[resource] self.resources_order.remove(resource) class FakeNovaQuotasManager(FakeManager): def update(self, tenant_id, **kwargs): fq = FakeQuotas(self) return self._cache(fq) def delete(self, tenant_id): pass class FakeCinderQuotasManager(FakeManager): def update(self, tenant_id, **kwargs): fq = FakeQuotas(self) return self._cache(fq) def delete(self, tenant_id): pass class FakeSecurityGroupManager(FakeManager): def __init__(self, rule_manager=None): super(FakeSecurityGroupManager, self).__init__() self.rule_manager = rule_manager self.create("default") def create(self, name, description=""): sg = FakeSecurityGroup( manager=self, rule_manager=self.rule_manager) sg.name = name or sg.name sg.description = description return self._cache(sg) def to_dict(self, obj): return {"id": obj.id, "name": obj.name} def find(self, name, **kwargs): kwargs["name"] = name for resource in self.cache.values(): match = True for key, value in kwargs.items(): if getattr(resource, key, None) != value: match = False break if match: return resource raise nova_exceptions.NotFound("Security Group not found") def delete(self, resource): if not isinstance(resource, six.string_types): resource = resource.id cached = self.get(resource) if cached is not None: cached.status = "DELETED" del self.cache[resource] self.resources_order.remove(resource) class FakeSecurityGroupRuleManager(FakeManager): def __init__(self): super(FakeSecurityGroupRuleManager, self).__init__() def create(self, parent_group_id, **kwargs): kwargs["parent_group_id"] = parent_group_id sgr = FakeSecurityGroupRule(self, **kwargs) return self._cache(sgr) class FakeUsersManager(FakeManager): def create(self, username, password, email, tenant_id): user = FakeUser(manager=self, name=username) user.name = username or user.name return self._cache(user) class FakeServicesManager(FakeManager): def list(self): return [] class FakeVolumeManager(FakeManager): def __init__(self): super(FakeVolumeManager, self).__init__() self.__volumes = {} self.__tenant_id = generate_uuid() def create(self, size=None, **kwargs): volume = FakeVolume(self) volume.size = size or 1 volume.name = kwargs.get("display_name", volume.name) volume.status = "available" volume.tenant_id = self.__tenant_id self.__volumes[volume.id] = volume return self._cache(volume) def list(self): return self.__volumes.values() def delete(self, resource): super(FakeVolumeManager, self).delete(resource.id) del self.__volumes[resource.id] class FakeVolumeTypeManager(FakeManager): def create(self, name): vol_type = FakeVolumeType(self) vol_type.name = name or vol_type.name return self._cache(vol_type) class FakeVolumeTransferManager(FakeManager): def __init__(self): super(FakeVolumeTransferManager, self).__init__() self.__volume_transfers = {} def list(self): return self.__volume_transfers.values() def create(self, name): transfer = FakeVolumeTransfer(self) transfer.name = name or transfer.name self.__volume_transfers[transfer.id] = transfer return self._cache(transfer) def delete(self, resource): super(FakeVolumeTransferManager, self).delete(resource.id) del self.__volume_transfers[resource.id] class FakeVolumeSnapshotManager(FakeManager): def __init__(self): super(FakeVolumeSnapshotManager, self).__init__() self.__snapshots = {} self.__tenant_id = generate_uuid() def create(self, name, force=False, display_name=None): snapshot = FakeVolumeSnapshot(self) snapshot.name = name or snapshot.name snapshot.status = "available" snapshot.tenant_id = self.__tenant_id self.__snapshots[snapshot.id] = snapshot return self._cache(snapshot) def list(self): return self.__snapshots.values() def delete(self, resource): super(FakeVolumeSnapshotManager, self).delete(resource.id) del self.__snapshots[resource.id] class FakeVolumeBackupManager(FakeManager): def __init__(self): super(FakeVolumeBackupManager, self).__init__() self.__backups = {} self.__tenant_id = generate_uuid() def create(self, name): backup = FakeVolumeBackup(self) backup.name = name or backup.name self.__backups[backup.id] = backup return self._cache(backup) def list(self): return self.__backups.values() def delete(self, resource): super(FakeVolumeBackupManager, self).delete(resource.id) del self.__backups[resource.id] class FakeRolesManager(FakeManager): def create(self, role_id, name): role = FakeRole(self) role.name = name role.id = role_id return self._cache(role) def roles_for_user(self, user, tenant): role = FakeRole(self) role.name = "admin" return [role, ] def add_user_role(self, user, role, tenant): pass class FakeAlarmManager(FakeManager): def get(self, alarm_id): alarm = self.find(alarm_id=alarm_id) if alarm: return [alarm] raise ceilometer_exc.HTTPNotFound( "Alarm with %s not found" % (alarm_id)) def update(self, alarm_id, **fake_alarm_dict_diff): alarm = self.get(alarm_id)[0] for attr, value in six.iteritems(fake_alarm_dict_diff): setattr(alarm, attr, value) return alarm def create(self, **kwargs): alarm = FakeAlarm(self, **kwargs) return self._cache(alarm) def delete(self, alarm_id): alarm = self.find(alarm_id=alarm_id) if alarm is not None: alarm.status = "DELETED" del self.cache[alarm.id] self.resources_order.remove(alarm.id) def get_state(self, alarm_id): alarm = self.find(alarm_id=alarm_id) if alarm is not None: return getattr(alarm, "state", "fake-alarm-state") def get_history(self, alarm_id): return ["fake-alarm-history"] def set_state(self, alarm_id, state): alarm = self.find(alarm_id=alarm_id) if alarm is not None: return setattr(alarm, "state", state) class FakeSampleManager(FakeManager): def create(self, **kwargs): sample = FakeSample(self, **kwargs) return [self._cache(sample)] def list(self): return ["fake-samples"] class FakeMeterManager(FakeManager): def list(self): return ["fake-meter"] class FakeCeilometerResourceManager(FakeManager): def get(self, resource_id): return ["fake-resource-info"] def list(self): return ["fake-resource"] class FakeStatisticsManager(FakeManager): def list(self, meter): return ["%s-statistics" % meter] class FakeQueryManager(FakeManager): def query(self, filter, orderby, limit): return ["fake-query-result"] class FakeQueuesManager(FakeManager): def __init__(self): super(FakeQueuesManager, self).__init__() self.__queues = {} def create(self, name): queue = FakeQueue(self, name) self.__queues[queue.name] = queue return self._cache(queue) def list(self): return self.__queues.values() def delete(self, queue): super(FakeQueuesManager, self).delete(queue.name) del self.__queues[queue.name] class FakeDbInstanceManager(FakeManager): def __init__(self): super(FakeDbInstanceManager, self).__init__() self.__db_instances = {} def create(self, name, flavor_id, size): instance = FakeDbInstance(self) instance.name = name or instance.name instance.flavor_id = flavor_id instance.size = size return self._cache(instance) def list(self): return self.__db_instances.values() def delete(self, resource): if not isinstance(resource, six.string_types): resource = resource.id cached = self.get(resource) if cached is not None: cached.status = "DELETE_COMPLETE" del self.cache[resource] self.resources_order.remove(resource) class FakeMessagesManager(FakeManager): def __init__(self, queue="myqueue"): super(FakeMessagesManager, self).__init__() self.__queue = queue self.__messages = {} def create(self, **kwargs): message = FakeMessage(self, **kwargs) self.__messages[message.id] = message return self._cache(message) def list(self): return self.__messages.values() def delete(self, message): super(FakeMessagesManager, self).delete(message.id) del self.__messages[message.id] class FakeAvailabilityZonesManager(FakeManager): def __init__(self): super(FakeAvailabilityZonesManager, self).__init__() self.zones = FakeAvailabilityZone() def list(self): return [self.zones] class FakeWorkbookManager(FakeManager): def __init__(self): super(FakeWorkbookManager, self).__init__() self.workbook = FakeWorkbook() def list(self): return [self.workbook] class FakeObjectManager(FakeManager): def get_account(self, **kwargs): containers = self.list() return (mock.MagicMock(), [{"name": con.name} for con in containers]) def get_container(self, name, **kwargs): container = self.find(name=name) if container is None: raise swift_exceptions.ClientException("Container GET failed") return (mock.MagicMock(), [{"name": obj} for obj in container.items]) def put_container(self, name, **kwargs): if self.find(name=name): raise swift_exceptions.ClientException("Container PUT failed") self._cache(FakeObject(name=name)) def delete_container(self, name, **kwargs): container = self.find(name=name) if container is None or len(container.items.keys()) > 0: raise swift_exceptions.ClientException("Container DELETE failed") self.delete(container.uuid) def get_object(self, container_name, object_name, **kwargs): container = self.find(name=container_name) if container is None or object_name not in container.items: raise swift_exceptions.ClientException("Object GET failed") return (mock.MagicMock(), container.items[object_name]) def put_object(self, container_name, object_name, content, **kwargs): container = self.find(name=container_name) if container is None: raise swift_exceptions.ClientException("Object PUT failed") container.items[object_name] = content return mock.MagicMock() def delete_object(self, container_name, object_name, **kwargs): container = self.find(name=container_name) if container is None or object_name not in container.items: raise swift_exceptions.ClientException("Object DELETE failed") del container.items[object_name] class FakeServiceCatalog(object): def get_endpoints(self): return {"image": [{"publicURL": "http://fake.to"}], "metering": [{"publicURL": "http://fake.to"}]} def url_for(self, **kwargs): return "http://fake.to" class FakeGlanceClient(object): def __init__(self, failed_image_manager=False): if failed_image_manager: self.images = FakeFailedImageManager() else: self.images = FakeImageManager() class FakeMuranoClient(object): def __init__(self): self.packages = FakePackageManager() class FakeCinderClient(object): def __init__(self): self.volumes = FakeVolumeManager() self.volume_types = FakeVolumeTypeManager() self.transfers = FakeVolumeTransferManager() self.volume_snapshots = FakeVolumeSnapshotManager() self.backups = FakeVolumeBackupManager() self.quotas = FakeCinderQuotasManager() class FakeNovaClient(object): def __init__(self, failed_server_manager=False): self.images = FakeImageManager() if failed_server_manager: self.servers = FakeFailedServerManager(self.images) else: self.servers = FakeServerManager(self.images) self.floating_ips = FakeFloatingIPsManager() self.floating_ip_pools = FakeFloatingIPPoolsManager() self.networks = FakeNetworkManager() self.flavors = FakeFlavorManager() self.keypairs = FakeKeypairManager() self.security_group_rules = FakeSecurityGroupRuleManager() self.security_groups = FakeSecurityGroupManager( rule_manager=self.security_group_rules) self.quotas = FakeNovaQuotasManager() self.set_management_url = mock.MagicMock() self.availability_zones = FakeAvailabilityZonesManager() class FakeHeatClient(object): def __init__(self): self.stacks = FakeStackManager() class FakeDesignateClient(object): def __init__(self): self.domains = FakeDomainManager() class FakeKeystoneClient(object): def __init__(self): self.tenants = FakeTenantsManager() self.users = FakeUsersManager() self.roles = FakeRolesManager() self.project_id = "abc123" self.auth_url = "http://example.com:5000/v2.0/" self.auth_token = "fake" self.auth_user_id = generate_uuid() self.auth_tenant_id = generate_uuid() self.service_catalog = FakeServiceCatalog() self.services = FakeServicesManager() self.region_name = "RegionOne" self.auth_ref = mock.Mock() self.auth_ref.role_names = ["admin"] self.version = "v2.0" self.session = mock.Mock() self.authenticate = mock.MagicMock() def authenticate(self): return True def list_users(self): return self.users.list() def list_projects(self): return self.tenants.list() def list_services(self): return self.services.list() def list_roles(self): return self.roles.list() def delete_user(self, uuid): return self.users.delete(uuid) class FakeCeilometerClient(object): def __init__(self): self.alarms = FakeAlarmManager() self.meters = FakeMeterManager() self.resources = FakeCeilometerResourceManager() self.statistics = FakeStatisticsManager() self.samples = FakeSampleManager() self.query_alarms = FakeQueryManager() self.query_samples = FakeQueryManager() self.query_alarm_history = FakeQueryManager() class FakeNeutronClient(object): def __init__(self, **kwargs): self.__networks = {} self.__subnets = {} self.__routers = {} self.__ports = {} self.__pools = {} self.__tenant_id = kwargs.get("tenant_id", generate_uuid()) self.format = "json" self.version = "2.0" @staticmethod def _filter(resource_list, search_opts): return [res for res in resource_list if all(res[field] == value for field, value in search_opts.items())] def add_interface_router(self, router_id, data): subnet_id = data["subnet_id"] if (router_id not in self.__routers or subnet_id not in self.__subnets): raise neutron_exceptions.NeutronClientException subnet = self.__subnets[subnet_id] port = self.create_port( {"port": {"network_id": subnet["network_id"]}})["port"] port["device_id"] = router_id port["fixed_ips"].append({"subnet_id": subnet_id, "ip_address": subnet["gateway_ip"]}) return {"subnet_id": subnet_id, "tenant_id": port["tenant_id"], "port_id": port["id"], "id": router_id} def create_network(self, data): network = setup_dict(data["network"], defaults={"name": generate_name("net_"), "admin_state_up": True}) network_id = generate_uuid() network.update({"id": network_id, "status": "ACTIVE", "subnets": [], "provider:physical_network": None, "tenant_id": self.__tenant_id, "provider:network_type": "local", "router:external": True, "shared": False, "provider:segmentation_id": None}) self.__networks[network_id] = network return {"network": network} def create_pool(self, data): pool = setup_dict(data["pool"], required=["lb_method", "protocol", "subnet_id"], defaults={"name": generate_name("pool_"), "admin_state_up": True}) if pool["subnet_id"] not in self.__subnets: raise neutron_exceptions.NeutronClientException pool_id = generate_uuid() pool.update({"id": pool_id, "status": "PENDING_CREATE", "tenant_id": self.__tenant_id}) self.__pools[pool_id] = pool return {"pool": pool} def create_port(self, data): port = setup_dict(data["port"], required=["network_id"], defaults={"name": generate_name("port_"), "admin_state_up": True}) if port["network_id"] not in self.__networks: raise neutron_exceptions.NeutronClientException port_id = generate_uuid() port.update({"id": port_id, "status": "ACTIVE", "binding:host_id": "fakehost", "extra_dhcp_opts": [], "binding:vnic_type": "normal", "binding:vif_type": "ovs", "device_owner": "", "mac_address": generate_mac(), "binding:profile": {}, "binding:vif_details": {u"port_filter": True}, "security_groups": [], "fixed_ips": [], "device_id": "", "tenant_id": self.__tenant_id, "allowed_address_pairs": []}) self.__ports[port_id] = port return {"port": port} def create_router(self, data): router = setup_dict(data["router"], defaults={"name": generate_name("router_"), "external_gateway_info": None, "admin_state_up": True}) router_id = generate_uuid() router.update({"id": router_id, "status": "ACTIVE", "external_gateway_info": None, "tenant_id": self.__tenant_id}) self.__routers[router_id] = router return {"router": router} def create_subnet(self, data): subnet = setup_dict( data["subnet"], required=["network_id", "cidr", "ip_version"], defaults={"name": generate_name("subnet_"), "dns_nameservers": ["8.8.8.8", "8.8.4.4"]}) if subnet["network_id"] not in self.__networks: raise neutron_exceptions.NeutronClientException subnet_id = generate_uuid() subnet.update({"id": subnet_id, "enable_dhcp": True, "tenant_id": self.__tenant_id, "ipv6_ra_mode": None, "allocation_pools": [], "gateway_ip": re.sub("./.*$", "1", subnet["cidr"]), "ipv6_address_mode": None, "ip_version": 4, "host_routes": []}) self.__subnets[subnet_id] = subnet return {"subnet": subnet} def update_network(self, network_id, data): if network_id not in self.__networks: raise neutron_exceptions.NeutronClientException self.__networks[network_id].update(data) def update_subnet(self, subnet_id, data): if subnet_id not in self.__subnets: raise neutron_exceptions.NeutronClientException self.__subnets[subnet_id].update(data) def update_port(self, port_id, data): if port_id not in self.__ports: raise neutron_exceptions.NeutronClientException self.__ports[port_id].update(data) def update_router(self, router_id, data): if router_id not in self.__routers: raise neutron_exceptions.NeutronClientException self.__routers[router_id].update(data) def delete_network(self, network_id): if network_id not in self.__networks: raise neutron_exceptions.NeutronClientException for port in self.__ports.values(): if port["network_id"] == network_id: # Network is in use by port raise neutron_exceptions.NeutronClientException del self.__networks[network_id] return "" def delete_port(self, port_id): if port_id not in self.__ports: raise neutron_exceptions.PortNotFoundClient if self.__ports[port_id]["device_owner"]: # Port is owned by some device raise neutron_exceptions.NeutronClientException del self.__ports[port_id] return "" def delete_router(self, router_id): if router_id not in self.__routers: raise neutron_exceptions.NeutronClientException for port in self.__ports.values(): if port["device_id"] == router_id: # Router has active port raise neutron_exceptions.NeutronClientException del self.__routers[router_id] return "" def delete_subnet(self, subnet_id): if subnet_id not in self.__subnets: raise neutron_exceptions.NeutronClientException for port in self.__ports.values(): for fip in port["fixed_ips"]: if fip["subnet_id"] == subnet_id: # Subnet has IP allocation from some port raise neutron_exceptions.NeutronClientException del self.__subnets[subnet_id] return "" def list_networks(self, **search_opts): nets = self._filter(self.__networks.values(), search_opts) return {"networks": nets} def list_pools(self, **search_opts): pools = self._filter(self.__pools.values(), search_opts) return {"pools": pools} def list_ports(self, **search_opts): ports = self._filter(self.__ports.values(), search_opts) return {"ports": ports} def list_routers(self, **search_opts): routers = self._filter(self.__routers.values(), search_opts) return {"routers": routers} def list_subnets(self, **search_opts): subnets = self._filter(self.__subnets.values(), search_opts) return {"subnets": subnets} def remove_interface_router(self, router_id, data): subnet_id = data["subnet_id"] if (router_id not in self.__routers or subnet_id not in self.__subnets): raise neutron_exceptions.NeutronClientException subnet = self.__subnets[subnet_id] for port_id, port in self.__ports.items(): if port["device_id"] == router_id: for fip in port["fixed_ips"]: if fip["subnet_id"] == subnet_id: del self.__ports[port_id] return {"subnet_id": subnet_id, "tenant_id": subnet["tenant_id"], "port_id": port_id, "id": router_id} raise neutron_exceptions.NeutronClientException class FakeIronicClient(object): def __init__(self): # TODO(romcheg):Fake Manager subclasses to manage BM nodes. pass class FakeSaharaClient(object): def __init__(self): self.job_executions = mock.MagicMock() self.jobs = mock.MagicMock() self.job_binary_internals = mock.MagicMock() self.job_binaries = mock.MagicMock() self.data_sources = mock.MagicMock() self.clusters = mock.MagicMock() self.cluster_templates = mock.MagicMock() self.node_group_templates = mock.MagicMock() self.setup_list_methods() def setup_list_methods(self): mock_with_id = mock.MagicMock() mock_with_id.id = 42 # First call of list returns a list with one object, the next should # empty after delete. self.job_executions.list.side_effect = [[mock_with_id], []] self.jobs.list.side_effect = [[mock_with_id], []] self.job_binary_internals.list.side_effect = [[mock_with_id], []] self.job_binaries.list.side_effect = [[mock_with_id], []] self.data_sources.list.side_effect = [[mock_with_id], []] self.clusters.list.side_effect = [[mock_with_id], []] self.cluster_templates.list.side_effect = [[mock_with_id], []] self.node_group_templates.list.side_effect = [[mock_with_id], []] class FakeZaqarClient(object): def __init__(self): self.queues = FakeQueuesManager() def queue(self, name, **kwargs): return self.queues.create(name, **kwargs) class FakeTroveClient(object): def __init__(self): self.instances = FakeDbInstanceManager() class FakeMistralClient(object): def __init__(self): self.workbook = FakeWorkbookManager() class FakeSwiftClient(FakeObjectManager): pass class FakeEC2Client(object): def __init__(self): pass class FakeClients(object): def __init__(self, endpoint_=None): self._nova = None self._glance = None self._keystone = None self._cinder = None self._neutron = None self._sahara = None self._heat = None self._designate = None self._ceilometer = None self._zaqar = None self._trove = None self._mistral = None self._swift = None self._murano = None self._ec2 = None self._endpoint = endpoint_ or objects.Endpoint( "http://fake.example.org:5000/v2.0/", "fake_username", "fake_password", "fake_tenant_name") def keystone(self): if not self._keystone: self._keystone = FakeKeystoneClient() return self._keystone def verified_keystone(self): return self.keystone() def nova(self): if not self._nova: self._nova = FakeNovaClient() return self._nova def glance(self): if not self._glance: self._glance = FakeGlanceClient() return self._glance def cinder(self): if not self._cinder: self._cinder = FakeCinderClient() return self._cinder def neutron(self): if not self._neutron: self._neutron = FakeNeutronClient() return self._neutron def sahara(self): if not self._sahara: self._sahara = FakeSaharaClient() return self._sahara def heat(self): if not self._heat: self._heat = FakeHeatClient() return self._heat def designate(self): if not self._designate: self._designate = FakeDesignateClient() return self._designate def ceilometer(self): if not self._ceilometer: self._ceilometer = FakeCeilometerClient() return self._ceilometer def zaqar(self): if not self._zaqar: self._zaqar = FakeZaqarClient() return self._zaqar def trove(self): if not self._trove: self._trove = FakeTroveClient() return self._trove def mistral(self): if not self._mistral: self._mistral = FakeMistralClient() return self._mistral def swift(self): if not self._swift: self._swift = FakeSwiftClient() return self._swift def murano(self): if not self._murano: self._murano = FakeMuranoClient() return self._murano def ec2(self): if not self._ec2: self._ec2 = FakeEC2Client() return self._ec2 class FakeRunner(object): CONFIG_SCHEMA = { "type": "object", "$schema": consts.JSON_SCHEMA, "properties": { "type": { "type": "string", "enum": ["fake"] }, "a": { "type": "string" }, "b": { "type": "number" } }, "required": ["type", "a"] } class FakeScenario(base.Scenario): def idle_time(self): return 0 def do_it(self, **kwargs): pass def with_output(self, **kwargs): return {"data": {"a": 1}, "error": None} def too_long(self, **kwargs): pass def something_went_wrong(self, **kwargs): raise Exception("Something went wrong") def raise_timeout(self, **kwargs): raise multiprocessing.TimeoutError() class FakeTimer(rally_utils.Timer): def duration(self): return 10 def timestamp(self): return 0 @context.context(name="fake", order=1) class FakeContext(context.Context): CONFIG_SCHEMA = { "type": "object", "$schema": consts.JSON_SCHEMA, "properties": { "test": { "type": "integer" }, }, "additionalProperties": False } def setup(self): pass def cleanup(self): pass @context.context(name="fake_user_context", order=1) class FakeUserContext(FakeContext): admin = { "id": "adminuuid", "endpoint": objects.Endpoint("aurl", "aname", "apwd", "atenant") } user = { "id": "uuid", "endpoint": objects.Endpoint("url", "name", "pwd", "tenant"), "tenant_id": "uuid" } tenants = {"uuid": {"name": "tenant"}} def __init__(self, ctx): ctx.setdefault("task", mock.MagicMock()) super(FakeUserContext, self).__init__(ctx) self.context.setdefault("admin", FakeUserContext.admin) self.context.setdefault("users", [FakeUserContext.user]) self.context.setdefault("tenants", FakeUserContext.tenants) self.context.setdefault( "scenario_name", "NovaServers.boot_server_from_volume_and_delete") class FakeDeployment(dict): update_status = mock.Mock() class FakeTask(dict): def to_dict(self): return self