# vim: tabstop=4 shiftwidth=4 softtabstop=4 # Copyright 2010 United States Government as represented by the # Administrator of the National Aeronautics and Space Administration. # Copyright 2011 Piston Cloud Computing, 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. """Tests for compute service""" import copy import datetime import sys import time import mox import nova import nova.common.policy from nova import compute from nova.compute import api as compute_api from nova.compute import aggregate_states from nova.compute import instance_types from nova.compute import manager as compute_manager from nova.compute import power_state from nova.compute import task_states from nova.compute import vm_states from nova import context from nova import db from nova import exception from nova import flags from nova.image import fake as fake_image from nova import log as logging from nova.notifier import test_notifier from nova.openstack.common import importutils import nova.policy from nova import rpc from nova.rpc import common as rpc_common from nova.scheduler import driver as scheduler_driver from nova import test from nova.tests import fake_network from nova import utils import nova.volume LOG = logging.getLogger(__name__) FLAGS = flags.FLAGS flags.DECLARE('stub_network', 'nova.compute.manager') flags.DECLARE('live_migration_retry_count', 'nova.compute.manager') flags.DECLARE('additional_compute_capabilities', 'nova.compute.manager') FAKE_IMAGE_REF = 'fake-image-ref' orig_rpc_call = rpc.call orig_rpc_cast = rpc.cast def rpc_call_wrapper(context, topic, msg, do_cast=True): """Stub out the scheduler creating the instance entry""" if (topic == FLAGS.scheduler_topic and msg['method'] == 'run_instance'): request_spec = msg['args']['request_spec'] scheduler = scheduler_driver.Scheduler num_instances = request_spec.get('num_instances', 1) instances = [] for num in xrange(num_instances): request_spec['instance_properties']['launch_index'] = num instance = scheduler().create_instance_db_entry( context, request_spec) encoded = scheduler_driver.encode_instance(instance) instances.append(encoded) return instances else: if do_cast: orig_rpc_cast(context, topic, msg) else: return orig_rpc_call(context, topic, msg) def rpc_cast_wrapper(context, topic, msg): """Stub out the scheduler creating the instance entry in the reservation_id case. """ rpc_call_wrapper(context, topic, msg, do_cast=True) def nop_report_driver_status(self): pass class BaseTestCase(test.TestCase): def setUp(self): super(BaseTestCase, self).setUp() self.flags(connection_type='fake', stub_network=True, notification_driver='nova.notifier.test_notifier', network_manager='nova.network.manager.FlatManager') self.compute = importutils.import_object(FLAGS.compute_manager) self.user_id = 'fake' self.project_id = 'fake' self.context = context.RequestContext(self.user_id, self.project_id) test_notifier.NOTIFICATIONS = [] def fake_show(meh, context, id): return {'id': 1, 'min_disk': None, 'min_ram': None, 'properties': {'kernel_id': 'fake_kernel_id', 'ramdisk_id': 'fake_ramdisk_id', 'something_else': 'meow'}} self.stubs.Set(fake_image._FakeImageService, 'show', fake_show) self.stubs.Set(rpc, 'call', rpc_call_wrapper) self.stubs.Set(rpc, 'cast', rpc_cast_wrapper) def tearDown(self): instances = db.instance_get_all(self.context.elevated()) for instance in instances: db.instance_destroy(self.context.elevated(), instance['id']) super(BaseTestCase, self).tearDown() def _create_fake_instance(self, params=None, type_name='m1.tiny'): """Create a test instance""" if not params: params = {} inst = {} inst['vm_state'] = vm_states.ACTIVE inst['image_ref'] = FAKE_IMAGE_REF inst['reservation_id'] = 'r-fakeres' inst['launch_time'] = '10' inst['user_id'] = self.user_id inst['project_id'] = self.project_id inst['host'] = 'fake_host' type_id = instance_types.get_instance_type_by_name(type_name)['id'] inst['instance_type_id'] = type_id inst['ami_launch_index'] = 0 inst['memory_mb'] = 0 inst['root_gb'] = 0 inst['ephemeral_gb'] = 0 inst.update(params) return db.instance_create(self.context, inst) def _create_instance(self, params=None, type_name='m1.tiny'): """Create a test instance. Returns uuid""" return self._create_fake_instance(params, type_name=type_name)['uuid'] def _create_instance_type(self, params=None): """Create a test instance type""" if not params: params = {} context = self.context.elevated() inst = {} inst['name'] = 'm1.small' inst['memory_mb'] = 1024 inst['vcpus'] = 1 inst['root_gb'] = 20 inst['ephemeral_gb'] = 10 inst['flavorid'] = '1' inst['swap'] = 2048 inst['rxtx_factor'] = 1 inst.update(params) return db.instance_type_create(context, inst)['id'] def _create_group(self): values = {'name': 'testgroup', 'description': 'testgroup', 'user_id': self.user_id, 'project_id': self.project_id} return db.security_group_create(self.context, values) class ComputeTestCase(BaseTestCase): def setUp(self): def fake_get_nw_info(cls, ctxt, instance, *args, **kwargs): self.assertTrue(ctxt.is_admin) return fake_network.fake_get_instance_nw_info(self.stubs, 1, 1, spectacular=True) super(ComputeTestCase, self).setUp() self.stubs.Set(nova.network.API, 'get_instance_nw_info', fake_get_nw_info) self.stubs.Set(nova.network.API, 'allocate_for_instance', fake_get_nw_info) def tearDown(self): super(ComputeTestCase, self).tearDown() utils.clear_time_override() def test_wrap_instance_fault(self): inst_uuid = "fake_uuid" called = {'fault_added': False} def did_it_add_fault(*args): called['fault_added'] = True self.stubs.Set(self.compute, 'add_instance_fault_from_exc', did_it_add_fault) @nova.compute.manager.wrap_instance_fault def failer(self2, context, instance_uuid): raise NotImplementedError() self.assertRaises(NotImplementedError, failer, self.compute, self.context, inst_uuid) self.assertTrue(called['fault_added']) def test_wrap_instance_fault_no_instance(self): inst_uuid = "fake_uuid" called = {'fault_added': False} def did_it_add_fault(*args): called['fault_added'] = True self.stubs.Set(self.compute, 'add_instance_fault_from_exc', did_it_add_fault) @nova.compute.manager.wrap_instance_fault def failer(self2, context, instance_uuid): raise exception.InstanceNotFound() self.assertRaises(exception.InstanceNotFound, failer, self.compute, self.context, inst_uuid) self.assertFalse(called['fault_added']) def test_create_instance_with_img_ref_associates_config_drive(self): """Make sure create associates a config drive.""" instance = self._create_fake_instance( params={'config_drive': '1234', }) try: self.compute.run_instance(self.context, instance['uuid']) instances = db.instance_get_all(context.get_admin_context()) instance = instances[0] self.assertTrue(instance.config_drive) finally: db.instance_destroy(self.context, instance['id']) def test_create_instance_associates_config_drive(self): """Make sure create associates a config drive.""" instance = self._create_fake_instance( params={'config_drive': '1234', }) try: self.compute.run_instance(self.context, instance['uuid']) instances = db.instance_get_all(context.get_admin_context()) instance = instances[0] self.assertTrue(instance.config_drive) finally: db.instance_destroy(self.context, instance['id']) def test_default_access_ip(self): self.flags(default_access_ip_network_name='test1', stub_network=False) instance = self._create_fake_instance() try: self.compute.run_instance(self.context, instance['uuid'], is_first_time=True) instances = db.instance_get_all(context.get_admin_context()) instance = instances[0] self.assertEqual(instance.access_ip_v4, '192.168.1.100') self.assertEqual(instance.access_ip_v6, '2001:db8:0:1::1') finally: db.instance_destroy(self.context, instance['id']) def test_no_default_access_ip(self): instance = self._create_fake_instance() try: self.compute.run_instance(self.context, instance['uuid'], is_first_time=True) instances = db.instance_get_all(context.get_admin_context()) instance = instances[0] self.assertFalse(instance.access_ip_v4) self.assertFalse(instance.access_ip_v6) finally: db.instance_destroy(self.context, instance['id']) def test_fail_to_schedule_persists(self): """check the persistence of the ERROR(scheduling) state""" self._create_instance(params={'vm_state': vm_states.ERROR, 'task_state': task_states.SCHEDULING}) #check state is failed even after the periodic poll self.compute.periodic_tasks(context.get_admin_context()) self._assert_state({'vm_state': vm_states.ERROR, 'task_state': task_states.SCHEDULING}) def test_run_instance_setup_block_device_mapping_fail(self): """ block device mapping failure test. Make sure that when there is a block device mapping problem, the instance goes to ERROR state, keeping the task state """ def fake(*args, **kwargs): raise test.TestingException() self.stubs.Set(nova.compute.manager.ComputeManager, '_setup_block_device_mapping', fake) instance_uuid = self._create_instance() self.assertRaises(test.TestingException, self.compute.run_instance, self.context, instance_uuid) #check state is failed even after the periodic poll self._assert_state({'vm_state': vm_states.ERROR, 'task_state': task_states.BLOCK_DEVICE_MAPPING}) self.compute.periodic_tasks(context.get_admin_context()) self._assert_state({'vm_state': vm_states.ERROR, 'task_state': task_states.BLOCK_DEVICE_MAPPING}) def test_run_instance_spawn_fail(self): """ spawn failure test. Make sure that when there is a spawning problem, the instance goes to ERROR state, keeping the task state""" def fake(*args, **kwargs): raise test.TestingException() self.stubs.Set(self.compute.driver, 'spawn', fake) instance_uuid = self._create_instance() self.assertRaises(test.TestingException, self.compute.run_instance, self.context, instance_uuid) #check state is failed even after the periodic poll self._assert_state({'vm_state': vm_states.ERROR, 'task_state': task_states.SPAWNING}) self.compute.periodic_tasks(context.get_admin_context()) self._assert_state({'vm_state': vm_states.ERROR, 'task_state': task_states.SPAWNING}) def test_can_terminate_on_error_state(self): """Make sure that the instance can be terminated in ERROR state""" elevated = context.get_admin_context() #check failed to schedule --> terminate instance_uuid = self._create_instance(params={'vm_state': vm_states.ERROR}) self.compute.terminate_instance(self.context, instance_uuid) self.assertRaises(exception.InstanceNotFound, db.instance_get_by_uuid, elevated, instance_uuid) def test_run_terminate(self): """Make sure it is possible to run and terminate instance""" instance = self._create_fake_instance() self.compute.run_instance(self.context, instance['uuid']) instances = db.instance_get_all(context.get_admin_context()) LOG.info(_("Running instances: %s"), instances) self.assertEqual(len(instances), 1) self.compute.terminate_instance(self.context, instance['uuid']) instances = db.instance_get_all(context.get_admin_context()) LOG.info(_("After terminating instances: %s"), instances) self.assertEqual(len(instances), 0) def test_run_terminate_timestamps(self): """Make sure timestamps are set for launched and destroyed""" instance = self._create_fake_instance() self.assertEqual(instance['launched_at'], None) self.assertEqual(instance['deleted_at'], None) launch = utils.utcnow() self.compute.run_instance(self.context, instance['uuid']) instance = db.instance_get_by_uuid(self.context, instance['uuid']) self.assert_(instance['launched_at'] > launch) self.assertEqual(instance['deleted_at'], None) terminate = utils.utcnow() self.compute.terminate_instance(self.context, instance['uuid']) context = self.context.elevated(read_deleted="only") instance = db.instance_get_by_uuid(context, instance['uuid']) self.assert_(instance['launched_at'] < terminate) self.assert_(instance['deleted_at'] > terminate) def test_stop(self): """Ensure instance can be stopped""" instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.compute.run_instance(self.context, instance_uuid) self.compute.stop_instance(self.context, instance_uuid) self.compute.terminate_instance(self.context, instance_uuid) def test_start(self): """Ensure instance can be started""" instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.compute.run_instance(self.context, instance_uuid) self.compute.stop_instance(self.context, instance_uuid) self.compute.start_instance(self.context, instance_uuid) self.compute.terminate_instance(self.context, instance_uuid) def test_rescue(self): """Ensure instance can be rescued and unrescued""" called = {'rescued': False, 'unrescued': False} def fake_rescue(self, context, instance_ref, network_info, image_meta): called['rescued'] = True self.stubs.Set(nova.virt.fake.FakeConnection, 'rescue', fake_rescue) def fake_unrescue(self, instance_ref, network_info): called['unrescued'] = True self.stubs.Set(nova.virt.fake.FakeConnection, 'unrescue', fake_unrescue) instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.compute.run_instance(self.context, instance_uuid) self.compute.rescue_instance(self.context, instance_uuid) self.assertTrue(called['rescued']) self.compute.unrescue_instance(self.context, instance_uuid) self.assertTrue(called['unrescued']) self.compute.terminate_instance(self.context, instance_uuid) def test_power_on(self): """Ensure instance can be powered on""" called = {'power_on': False} def fake_driver_power_on(self, instance): called['power_on'] = True self.stubs.Set(nova.virt.driver.ComputeDriver, 'power_on', fake_driver_power_on) instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.compute.run_instance(self.context, instance_uuid) self.compute.power_on_instance(self.context, instance_uuid) self.assertTrue(called['power_on']) self.compute.terminate_instance(self.context, instance_uuid) def test_power_off(self): """Ensure instance can be powered off""" called = {'power_off': False} def fake_driver_power_off(self, instance): called['power_off'] = True self.stubs.Set(nova.virt.driver.ComputeDriver, 'power_off', fake_driver_power_off) instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.compute.run_instance(self.context, instance_uuid) self.compute.power_off_instance(self.context, instance_uuid) self.assertTrue(called['power_off']) self.compute.terminate_instance(self.context, instance_uuid) def test_pause(self): """Ensure instance can be paused and unpaused""" instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.compute.run_instance(self.context, instance_uuid) self.compute.pause_instance(self.context, instance_uuid) self.compute.unpause_instance(self.context, instance_uuid) self.compute.terminate_instance(self.context, instance_uuid) def test_suspend(self): """ensure instance can be suspended and resumed""" instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.compute.run_instance(self.context, instance_uuid) self.compute.suspend_instance(self.context, instance_uuid) self.compute.resume_instance(self.context, instance_uuid) self.compute.terminate_instance(self.context, instance_uuid) def test_rebuild(self): """Ensure instance can be rebuilt""" instance = self._create_fake_instance() instance_uuid = instance['uuid'] image_ref = instance['image_ref'] self.compute.run_instance(self.context, instance_uuid) self.compute.rebuild_instance(self.context, instance_uuid, image_ref, image_ref) self.compute.terminate_instance(self.context, instance_uuid) def test_rebuild_launch_time(self): """Ensure instance can be rebuilt""" old_time = datetime.datetime(2012, 4, 1) cur_time = datetime.datetime(2012, 12, 21, 12, 21) utils.set_time_override(old_time) instance = self._create_fake_instance() instance_uuid = instance['uuid'] image_ref = instance['image_ref'] self.compute.run_instance(self.context, instance_uuid) utils.set_time_override(cur_time) self.compute.rebuild_instance(self.context, instance_uuid, image_ref, image_ref) instance = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEquals(cur_time, instance['launched_at']) self.compute.terminate_instance(self.context, instance_uuid) def test_reboot_soft(self): """Ensure instance can be soft rebooted""" instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.compute.run_instance(self.context, instance_uuid) db.instance_update(self.context, instance_uuid, {'task_state': task_states.REBOOTING}) reboot_type = "SOFT" self.compute.reboot_instance(self.context, instance_uuid, reboot_type) inst_ref = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(inst_ref['power_state'], power_state.RUNNING) self.assertEqual(inst_ref['task_state'], None) self.compute.terminate_instance(self.context, inst_ref['uuid']) def test_reboot_hard(self): """Ensure instance can be hard rebooted""" instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.compute.run_instance(self.context, instance_uuid) db.instance_update(self.context, instance_uuid, {'task_state': task_states.REBOOTING_HARD}) reboot_type = "HARD" self.compute.reboot_instance(self.context, instance_uuid, reboot_type) inst_ref = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(inst_ref['power_state'], power_state.RUNNING) self.assertEqual(inst_ref['task_state'], None) self.compute.terminate_instance(self.context, inst_ref['uuid']) def test_set_admin_password(self): """Ensure instance can have its admin password set""" instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.compute.run_instance(self.context, instance_uuid) db.instance_update(self.context, instance_uuid, {'task_state': task_states.UPDATING_PASSWORD}) inst_ref = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(inst_ref['vm_state'], vm_states.ACTIVE) self.assertEqual(inst_ref['task_state'], task_states.UPDATING_PASSWORD) self.compute.set_admin_password(self.context, instance_uuid) inst_ref = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(inst_ref['vm_state'], vm_states.ACTIVE) self.assertEqual(inst_ref['task_state'], None) self.compute.terminate_instance(self.context, inst_ref['uuid']) def test_set_admin_password_bad_state(self): """Test setting password while instance is rebuilding.""" instance = self._create_fake_instance() self.compute.run_instance(self.context, instance['uuid']) db.instance_update(self.context, instance['uuid'], { "power_state": power_state.NOSTATE, }) instance = db.instance_get_by_uuid(self.context, instance['uuid']) self.assertEqual(instance['power_state'], power_state.NOSTATE) def fake_driver_get_info(self2, _instance): return {'state': power_state.NOSTATE, 'max_mem': 0, 'mem': 0, 'num_cpu': 2, 'cpu_time': 0} self.stubs.Set(nova.virt.fake.FakeConnection, 'get_info', fake_driver_get_info) self.assertRaises(exception.Invalid, self.compute.set_admin_password, self.context, instance['uuid']) self.compute.terminate_instance(self.context, instance['uuid']) def test_set_admin_password_driver_error(self): """Ensure error is raised admin password set""" def fake_sleep(_time): pass self.stubs.Set(time, 'sleep', fake_sleep) def fake_driver_set_pass(self2, _instance, _pwd): raise exception.NotAuthorized(_('Internal error')) self.stubs.Set(nova.virt.fake.FakeConnection, 'set_admin_password', fake_driver_set_pass) instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.compute.run_instance(self.context, instance_uuid) db.instance_update(self.context, instance_uuid, {'task_state': task_states.UPDATING_PASSWORD}) inst_ref = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(inst_ref['vm_state'], vm_states.ACTIVE) self.assertEqual(inst_ref['task_state'], task_states.UPDATING_PASSWORD) #error raised from the driver should not reveal internal information #so a new error is raised self.assertRaises(exception.NovaException, self.compute.set_admin_password, self.context, instance_uuid) inst_ref = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(inst_ref['vm_state'], vm_states.ERROR) self.assertEqual(inst_ref['task_state'], task_states.UPDATING_PASSWORD) self.compute.terminate_instance(self.context, inst_ref['uuid']) def test_inject_file(self): """Ensure we can write a file to an instance""" called = {'inject': False} def fake_driver_inject_file(self2, instance, path, contents): self.assertEqual(path, "/tmp/test") self.assertEqual(contents, "File Contents") called['inject'] = True self.stubs.Set(nova.virt.fake.FakeConnection, 'inject_file', fake_driver_inject_file) instance = self._create_fake_instance() self.compute.run_instance(self.context, instance['uuid']) self.compute.inject_file(self.context, instance['uuid'], "/tmp/test", "File Contents") self.assertTrue(called['inject']) self.compute.terminate_instance(self.context, instance['uuid']) def test_inject_network_info(self): """Ensure we can inject network info""" called = {'inject': False} def fake_driver_inject_network(self, instance, network_info): called['inject'] = True self.stubs.Set(nova.virt.fake.FakeConnection, 'inject_network_info', fake_driver_inject_network) instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.compute.run_instance(self.context, instance_uuid) self.compute.inject_network_info(self.context, instance_uuid) self.assertTrue(called['inject']) self.compute.terminate_instance(self.context, instance_uuid) def test_reset_network(self): """Ensure we can reset networking on an instance""" called = {'reset': False} def fake_driver_reset_network(self, instance): called['reset'] = True self.stubs.Set(nova.virt.fake.FakeConnection, 'reset_network', fake_driver_reset_network) instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.compute.run_instance(self.context, instance_uuid) self.compute.reset_network(self.context, instance_uuid) self.assertTrue(called['reset']) self.compute.terminate_instance(self.context, instance_uuid) def test_agent_update(self): """Ensure instance can have its agent updated""" called = {'agent_update': False} def fake_driver_agent_update(self2, instance, url, md5hash): called['agent_update'] = True self.assertEqual(url, 'http://fake/url/') self.assertEqual(md5hash, 'fakehash') self.stubs.Set(nova.virt.fake.FakeConnection, 'agent_update', fake_driver_agent_update) instance = self._create_fake_instance() self.compute.run_instance(self.context, instance['uuid']) self.compute.agent_update(self.context, instance['uuid'], 'http://fake/url/', 'fakehash') self.assertTrue(called['agent_update']) self.compute.terminate_instance(self.context, instance['uuid']) def test_snapshot(self): """Ensure instance can be snapshotted""" instance = self._create_fake_instance() instance_uuid = instance['uuid'] name = "myfakesnapshot" self.compute.run_instance(self.context, instance_uuid) self.compute.snapshot_instance(self.context, instance_uuid, name) self.compute.terminate_instance(self.context, instance_uuid) def test_snapshot_fails(self): """Ensure task_state is set to None if snapshot fails""" def fake_snapshot(*args, **kwargs): raise test.TestingException() self.stubs.Set(self.compute.driver, 'snapshot', fake_snapshot) instance = self._create_fake_instance() self.compute.run_instance(self.context, instance['uuid']) self.assertRaises(test.TestingException, self.compute.snapshot_instance, self.context, instance['uuid'], "failing_snapshot") self._assert_state({'task_state': None}) self.compute.terminate_instance(self.context, instance['uuid']) def _assert_state(self, state_dict): """Assert state of VM is equal to state passed as parameter""" instances = db.instance_get_all(context.get_admin_context()) self.assertEqual(len(instances), 1) if 'vm_state' in state_dict: self.assertEqual(state_dict['vm_state'], instances[0]['vm_state']) if 'task_state' in state_dict: self.assertEqual(state_dict['task_state'], instances[0]['task_state']) if 'power_state' in state_dict: self.assertEqual(state_dict['power_state'], instances[0]['power_state']) def test_console_output(self): """Make sure we can get console output from instance""" instance = self._create_fake_instance() self.compute.run_instance(self.context, instance['uuid']) output = self.compute.get_console_output(self.context, instance['uuid']) self.assertEqual(output, 'FAKE CONSOLE OUTPUT\nANOTHER\nLAST LINE') self.compute.terminate_instance(self.context, instance['uuid']) def test_console_output_tail(self): """Make sure we can get console output from instance""" instance = self._create_fake_instance() self.compute.run_instance(self.context, instance['uuid']) output = self.compute.get_console_output(self.context, instance['uuid'], tail_length=2) self.assertEqual(output, 'ANOTHER\nLAST LINE') self.compute.terminate_instance(self.context, instance['uuid']) def test_novnc_vnc_console(self): """Make sure we can a vnc console for an instance.""" instance = self._create_fake_instance() self.compute.run_instance(self.context, instance['uuid']) console = self.compute.get_vnc_console(self.context, instance['uuid'], 'novnc') self.assert_(console) self.compute.terminate_instance(self.context, instance['uuid']) def test_xvpvnc_vnc_console(self): """Make sure we can a vnc console for an instance.""" instance = self._create_fake_instance() self.compute.run_instance(self.context, instance['uuid']) console = self.compute.get_vnc_console(self.context, instance['uuid'], 'xvpvnc') self.assert_(console) self.compute.terminate_instance(self.context, instance['uuid']) def test_invalid_vnc_console_type(self): """Make sure we can a vnc console for an instance.""" instance = self._create_fake_instance() self.compute.run_instance(self.context, instance['uuid']) self.assertRaises(exception.ConsoleTypeInvalid, self.compute.get_vnc_console, self.context, instance['uuid'], 'invalid') self.compute.terminate_instance(self.context, instance['uuid']) def test_diagnostics(self): """Make sure we can get diagnostics for an instance.""" instance = self._create_fake_instance() self.compute.run_instance(self.context, instance['uuid']) diagnostics = self.compute.get_diagnostics(self.context, instance['uuid']) self.assertEqual(diagnostics, 'FAKE_DIAGNOSTICS') self.compute.terminate_instance(self.context, instance['uuid']) def test_add_fixed_ip_usage_notification(self): def dummy(*args, **kwargs): pass self.stubs.Set(nova.network.API, 'add_fixed_ip_to_instance', dummy) self.stubs.Set(nova.compute.manager.ComputeManager, 'inject_network_info', dummy) self.stubs.Set(nova.compute.manager.ComputeManager, 'reset_network', dummy) instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.assertEquals(len(test_notifier.NOTIFICATIONS), 0) self.compute.add_fixed_ip_to_instance(self.context, instance_uuid, 1) self.assertEquals(len(test_notifier.NOTIFICATIONS), 2) self.compute.terminate_instance(self.context, instance_uuid) def test_remove_fixed_ip_usage_notification(self): def dummy(*args, **kwargs): pass self.stubs.Set(nova.network.API, 'remove_fixed_ip_from_instance', dummy) self.stubs.Set(nova.compute.manager.ComputeManager, 'inject_network_info', dummy) self.stubs.Set(nova.compute.manager.ComputeManager, 'reset_network', dummy) instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.assertEquals(len(test_notifier.NOTIFICATIONS), 0) self.compute.remove_fixed_ip_from_instance(self.context, instance_uuid, 1) self.assertEquals(len(test_notifier.NOTIFICATIONS), 2) self.compute.terminate_instance(self.context, instance_uuid) def test_run_instance_usage_notification(self): """Ensure run instance generates apropriate usage notification""" inst_ref = self._create_fake_instance() instance_uuid = inst_ref['uuid'] self.compute.run_instance(self.context, instance_uuid) self.assertEquals(len(test_notifier.NOTIFICATIONS), 2) inst_ref = db.instance_get_by_uuid(self.context, instance_uuid) msg = test_notifier.NOTIFICATIONS[0] self.assertEquals(msg['event_type'], 'compute.instance.create.start') # The last event is the one with the sugar in it. msg = test_notifier.NOTIFICATIONS[1] self.assertEquals(msg['priority'], 'INFO') self.assertEquals(msg['event_type'], 'compute.instance.create.end') payload = msg['payload'] self.assertEquals(payload['tenant_id'], self.project_id) self.assertEquals(payload['user_id'], self.user_id) self.assertEquals(payload['instance_id'], inst_ref.uuid) self.assertEquals(payload['instance_type'], 'm1.tiny') type_id = instance_types.get_instance_type_by_name('m1.tiny')['id'] self.assertEquals(str(payload['instance_type_id']), str(type_id)) self.assertEquals(payload['state'], 'active') self.assertTrue('display_name' in payload) self.assertTrue('created_at' in payload) self.assertTrue('launched_at' in payload) self.assertTrue(payload['launched_at']) image_ref_url = utils.generate_image_url(FAKE_IMAGE_REF) self.assertEquals(payload['image_ref_url'], image_ref_url) self.compute.terminate_instance(self.context, instance_uuid) def test_terminate_usage_notification(self): """Ensure terminate_instance generates apropriate usage notification""" old_time = datetime.datetime(2012, 4, 1) cur_time = datetime.datetime(2012, 12, 21, 12, 21) utils.set_time_override(old_time) inst_ref = self._create_fake_instance() self.compute.run_instance(self.context, inst_ref['uuid']) test_notifier.NOTIFICATIONS = [] utils.set_time_override(cur_time) self.compute.terminate_instance(self.context, inst_ref['uuid']) self.assertEquals(len(test_notifier.NOTIFICATIONS), 4) msg = test_notifier.NOTIFICATIONS[0] self.assertEquals(msg['priority'], 'INFO') self.assertEquals(msg['event_type'], 'compute.instance.delete.start') msg1 = test_notifier.NOTIFICATIONS[1] self.assertEquals(msg1['event_type'], 'compute.instance.shutdown.start') msg1 = test_notifier.NOTIFICATIONS[2] self.assertEquals(msg1['event_type'], 'compute.instance.shutdown.end') msg1 = test_notifier.NOTIFICATIONS[3] self.assertEquals(msg1['event_type'], 'compute.instance.delete.end') payload = msg1['payload'] self.assertEquals(payload['tenant_id'], self.project_id) self.assertEquals(payload['user_id'], self.user_id) self.assertEquals(payload['instance_id'], inst_ref.uuid) self.assertEquals(payload['instance_type'], 'm1.tiny') type_id = instance_types.get_instance_type_by_name('m1.tiny')['id'] self.assertEquals(str(payload['instance_type_id']), str(type_id)) self.assertTrue('display_name' in payload) self.assertTrue('created_at' in payload) self.assertTrue('launched_at' in payload) self.assertTrue('deleted_at' in payload) self.assertEqual(payload['deleted_at'], str(cur_time)) image_ref_url = utils.generate_image_url(FAKE_IMAGE_REF) self.assertEquals(payload['image_ref_url'], image_ref_url) def test_run_instance_existing(self): """Ensure failure when running an instance that already exists""" instance = self._create_fake_instance() self.compute.run_instance(self.context, instance['uuid']) self.assertRaises(exception.Invalid, self.compute.run_instance, self.context, instance['uuid']) self.compute.terminate_instance(self.context, instance['uuid']) def test_instance_set_to_error_on_uncaught_exception(self): """Test that instance is set to error state when exception is raised""" instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.mox.StubOutWithMock(self.compute.network_api, "allocate_for_instance") self.compute.network_api.allocate_for_instance( mox.IgnoreArg(), mox.IgnoreArg(), requested_networks=None, vpn=False).AndRaise(rpc_common.RemoteError()) self.flags(stub_network=False) self.mox.ReplayAll() self.assertRaises(rpc_common.RemoteError, self.compute.run_instance, self.context, instance_uuid) instance = db.instance_get_by_uuid(context.get_admin_context(), instance_uuid) self.assertEqual(vm_states.ERROR, instance['vm_state']) self.compute.terminate_instance(self.context, instance['uuid']) def test_instance_termination_exception_sets_error(self): """Test that we handle InstanceTerminationFailure which is propagated up from the underlying driver. """ instance = self._create_fake_instance() def fake_delete_instance(context, instance): raise exception.InstanceTerminationFailure(reason='') self.stubs.Set(self.compute, '_delete_instance', fake_delete_instance) self.compute.terminate_instance(self.context, instance['uuid']) instance = db.instance_get_by_uuid(self.context, instance['uuid']) self.assertEqual(instance['vm_state'], vm_states.ERROR) def test_network_is_deallocated_on_spawn_failure(self): """When a spawn fails the network must be deallocated""" instance = self._create_fake_instance() self.mox.StubOutWithMock(self.compute, "_setup_block_device_mapping") self.compute._setup_block_device_mapping( mox.IgnoreArg(), mox.IgnoreArg()).AndRaise(rpc.common.RemoteError('', '', '')) self.mox.ReplayAll() self.assertRaises(rpc.common.RemoteError, self.compute.run_instance, self.context, instance['uuid']) self.compute.terminate_instance(self.context, instance['uuid']) def test_get_lock(self): instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.assertFalse(self.compute.get_lock(self.context, instance_uuid)) db.instance_update(self.context, instance_uuid, {'locked': True}) self.assertTrue(self.compute.get_lock(self.context, instance_uuid)) def test_lock(self): """ensure locked instance cannot be changed""" instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.compute.run_instance(self.context, instance_uuid) non_admin_context = context.RequestContext(None, None, is_admin=False) # decorator should return False (fail) with locked nonadmin context self.compute.lock_instance(self.context, instance_uuid) ret_val = self.compute.reboot_instance(non_admin_context, instance_uuid) self.assertEqual(ret_val, False) # decorator should return None (success) with unlocked nonadmin context self.compute.unlock_instance(self.context, instance_uuid) ret_val = self.compute.reboot_instance(non_admin_context, instance_uuid) self.assertEqual(ret_val, None) self.compute.terminate_instance(self.context, instance_uuid) def test_finish_resize(self): """Contrived test to ensure finish_resize doesn't raise anything""" def fake(*args, **kwargs): pass self.stubs.Set(self.compute.driver, 'finish_migration', fake) context = self.context.elevated() instance = self._create_fake_instance() self.compute.prep_resize(context, instance['uuid'], 1, {}, filter_properties={}) migration_ref = db.migration_get_by_instance_and_status(context, instance['uuid'], 'pre-migrating') self.compute.finish_resize(context, instance['uuid'], int(migration_ref['id']), {}, {}) self.compute.terminate_instance(self.context, instance['uuid']) def test_finish_resize_handles_error(self): """Make sure we don't leave the instance in RESIZE on error""" def throw_up(*args, **kwargs): raise test.TestingException() def fake(*args, **kwargs): pass self.stubs.Set(self.compute.driver, 'finish_migration', throw_up) context = self.context.elevated() instance = self._create_fake_instance() self.compute.prep_resize(context, instance['uuid'], 1, {}, filter_properties={}) migration_ref = db.migration_get_by_instance_and_status(context, instance['uuid'], 'pre-migrating') self.assertRaises(test.TestingException, self.compute.finish_resize, context, instance['uuid'], int(migration_ref['id']), {}, {}) instance = db.instance_get_by_uuid(context, instance['uuid']) self.assertEqual(instance['vm_state'], vm_states.ERROR) self.compute.terminate_instance(self.context, instance['uuid']) def test_rebuild_instance_notification(self): """Ensure notifications on instance migrate/resize""" old_time = datetime.datetime(2012, 4, 1) cur_time = datetime.datetime(2012, 12, 21, 12, 21) utils.set_time_override(old_time) inst_ref = self._create_fake_instance() instance_uuid = inst_ref['uuid'] self.compute.run_instance(self.context, instance_uuid) utils.set_time_override(cur_time) test_notifier.NOTIFICATIONS = [] instance = db.instance_get_by_uuid(self.context, instance_uuid) image_ref = instance["image_ref"] new_image_ref = image_ref + '-new_image_ref' db.instance_update(self.context, instance_uuid, {'image_ref': new_image_ref}) password = "new_password" self.compute._rebuild_instance(self.context, instance_uuid, image_ref, new_image_ref, dict(new_pass=password)) instance = db.instance_get_by_uuid(self.context, instance_uuid) image_ref_url = utils.generate_image_url(image_ref) new_image_ref_url = utils.generate_image_url(new_image_ref) self.assertEquals(len(test_notifier.NOTIFICATIONS), 3) msg = test_notifier.NOTIFICATIONS[0] self.assertEquals(msg['event_type'], 'compute.instance.exists') self.assertEquals(msg['payload']['image_ref_url'], image_ref_url) msg = test_notifier.NOTIFICATIONS[1] self.assertEquals(msg['event_type'], 'compute.instance.rebuild.start') self.assertEquals(msg['payload']['image_ref_url'], new_image_ref_url) msg = test_notifier.NOTIFICATIONS[2] self.assertEquals(msg['event_type'], 'compute.instance.rebuild.end') self.assertEquals(msg['priority'], 'INFO') payload = msg['payload'] self.assertEquals(payload['tenant_id'], self.project_id) self.assertEquals(payload['user_id'], self.user_id) self.assertEquals(payload['instance_id'], instance_uuid) self.assertEquals(payload['instance_type'], 'm1.tiny') type_id = instance_types.get_instance_type_by_name('m1.tiny')['id'] self.assertEquals(str(payload['instance_type_id']), str(type_id)) self.assertTrue('display_name' in payload) self.assertTrue('created_at' in payload) self.assertTrue('launched_at' in payload) self.assertEqual(payload['launched_at'], str(cur_time)) self.assertEquals(payload['image_ref_url'], new_image_ref_url) self.compute.terminate_instance(self.context, instance_uuid) def test_finish_resize_instance_notification(self): """Ensure notifications on instance migrate/resize""" old_time = datetime.datetime(2012, 4, 1) cur_time = datetime.datetime(2012, 12, 21, 12, 21) utils.set_time_override(old_time) instance = self._create_fake_instance() instance_uuid = instance['uuid'] context = self.context.elevated() old_type_id = instance_types.get_instance_type_by_name( 'm1.tiny')['id'] new_type_id = instance_types.get_instance_type_by_name( 'm1.small')['id'] self.compute.run_instance(self.context, instance_uuid) db.instance_update(self.context, instance_uuid, {'host': 'foo'}) self.compute.prep_resize(context, instance_uuid, new_type_id, {}, filter_properties={}) migration_ref = db.migration_get_by_instance_and_status(context, instance_uuid, 'pre-migrating') self.compute.resize_instance(context, instance_uuid, migration_ref['id'], {}) utils.set_time_override(cur_time) test_notifier.NOTIFICATIONS = [] self.compute.finish_resize(context, instance['uuid'], int(migration_ref['id']), {}, {}) self.assertEquals(len(test_notifier.NOTIFICATIONS), 2) msg = test_notifier.NOTIFICATIONS[0] self.assertEquals(msg['event_type'], 'compute.instance.finish_resize.start') msg = test_notifier.NOTIFICATIONS[1] self.assertEquals(msg['event_type'], 'compute.instance.finish_resize.end') self.assertEquals(msg['priority'], 'INFO') payload = msg['payload'] self.assertEquals(payload['tenant_id'], self.project_id) self.assertEquals(payload['user_id'], self.user_id) self.assertEquals(payload['instance_id'], instance_uuid) self.assertEquals(payload['instance_type'], 'm1.small') self.assertEquals(str(payload['instance_type_id']), str(new_type_id)) self.assertTrue('display_name' in payload) self.assertTrue('created_at' in payload) self.assertTrue('launched_at' in payload) self.assertEqual(payload['launched_at'], str(cur_time)) image_ref_url = utils.generate_image_url(FAKE_IMAGE_REF) self.assertEquals(payload['image_ref_url'], image_ref_url) self.compute.terminate_instance(context, instance_uuid) def test_resize_instance_notification(self): """Ensure notifications on instance migrate/resize""" old_time = datetime.datetime(2012, 4, 1) cur_time = datetime.datetime(2012, 12, 21, 12, 21) utils.set_time_override(old_time) instance = self._create_fake_instance() instance_uuid = instance['uuid'] context = self.context.elevated() self.compute.run_instance(self.context, instance_uuid) utils.set_time_override(cur_time) test_notifier.NOTIFICATIONS = [] db.instance_update(self.context, instance_uuid, {'host': 'foo'}) self.compute.prep_resize(context, instance_uuid, 1, {}, filter_properties={}) db.migration_get_by_instance_and_status(context, instance_uuid, 'pre-migrating') self.assertEquals(len(test_notifier.NOTIFICATIONS), 3) msg = test_notifier.NOTIFICATIONS[0] self.assertEquals(msg['event_type'], 'compute.instance.exists') msg = test_notifier.NOTIFICATIONS[1] self.assertEquals(msg['event_type'], 'compute.instance.resize.prep.start') msg = test_notifier.NOTIFICATIONS[2] self.assertEquals(msg['event_type'], 'compute.instance.resize.prep.end') self.assertEquals(msg['priority'], 'INFO') payload = msg['payload'] self.assertEquals(payload['tenant_id'], self.project_id) self.assertEquals(payload['user_id'], self.user_id) self.assertEquals(payload['instance_id'], instance_uuid) self.assertEquals(payload['instance_type'], 'm1.tiny') type_id = instance_types.get_instance_type_by_name('m1.tiny')['id'] self.assertEquals(str(payload['instance_type_id']), str(type_id)) self.assertTrue('display_name' in payload) self.assertTrue('created_at' in payload) self.assertTrue('launched_at' in payload) image_ref_url = utils.generate_image_url(FAKE_IMAGE_REF) self.assertEquals(payload['image_ref_url'], image_ref_url) self.compute.terminate_instance(context, instance_uuid) def test_prep_resize_instance_migration_error(self): """Ensure prep_resize raise a migration error""" self.flags(host="foo", allow_resize_to_same_host=False) instance = self._create_fake_instance() instance_uuid = instance['uuid'] context = self.context.elevated() self.compute.run_instance(self.context, instance_uuid) db.instance_update(self.context, instance_uuid, {'host': 'foo'}) self.assertRaises(exception.MigrationError, self.compute.prep_resize, context, instance_uuid, 1, {}) self.compute.terminate_instance(context, instance_uuid) def test_resize_instance_driver_error(self): """Ensure instance status set to Error on resize error""" def throw_up(*args, **kwargs): raise test.TestingException() self.stubs.Set(self.compute.driver, 'migrate_disk_and_power_off', throw_up) instance = self._create_fake_instance() instance_uuid = instance['uuid'] context = self.context.elevated() self.compute.run_instance(self.context, instance_uuid) db.instance_update(self.context, instance_uuid, {'host': 'foo'}) self.compute.prep_resize(context, instance_uuid, 1, {}, filter_properties={}) migration_ref = db.migration_get_by_instance_and_status(context, instance_uuid, 'pre-migrating') #verify self.assertRaises(test.TestingException, self.compute.resize_instance, context, instance_uuid, migration_ref['id'], {}) instance = db.instance_get_by_uuid(context, instance_uuid) self.assertEqual(instance['vm_state'], vm_states.ERROR) self.compute.terminate_instance(context, instance_uuid) def test_resize_instance(self): """Ensure instance can be migrated/resized""" instance = self._create_fake_instance() instance_uuid = instance['uuid'] context = self.context.elevated() self.compute.run_instance(self.context, instance_uuid) db.instance_update(self.context, instance_uuid, {'host': 'foo'}) self.compute.prep_resize(context, instance_uuid, 1, {}, filter_properties={}) migration_ref = db.migration_get_by_instance_and_status(context, instance_uuid, 'pre-migrating') self.compute.resize_instance(context, instance_uuid, migration_ref['id'], {}) self.compute.terminate_instance(context, instance_uuid) def test_finish_revert_resize(self): """Ensure that the flavor is reverted to the original on revert""" def fake(*args, **kwargs): pass self.stubs.Set(self.compute.driver, 'finish_migration', fake) self.stubs.Set(self.compute.driver, 'finish_revert_migration', fake) context = self.context.elevated() instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.compute.run_instance(self.context, instance_uuid) # Confirm the instance size before the resize starts inst_ref = db.instance_get_by_uuid(context, instance_uuid) instance_type_ref = db.instance_type_get(context, inst_ref['instance_type_id']) self.assertEqual(instance_type_ref['flavorid'], '1') db.instance_update(self.context, instance_uuid, {'host': 'foo'}) new_instance_type_ref = db.instance_type_get_by_flavor_id(context, 3) self.compute.prep_resize(context, inst_ref['uuid'], new_instance_type_ref['id'], {}, filter_properties={}) migration_ref = db.migration_get_by_instance_and_status(context, inst_ref['uuid'], 'pre-migrating') self.compute.resize_instance(context, inst_ref['uuid'], migration_ref['id'], {}) self.compute.finish_resize(context, inst_ref['uuid'], int(migration_ref['id']), {}, {}) # Prove that the instance size is now the new size inst_ref = db.instance_get_by_uuid(context, instance_uuid) instance_type_ref = db.instance_type_get(context, inst_ref['instance_type_id']) self.assertEqual(instance_type_ref['flavorid'], '3') # Finally, revert and confirm the old flavor has been applied self.compute.revert_resize(context, inst_ref['uuid'], migration_ref['id']) self.compute.finish_revert_resize(context, inst_ref['uuid'], migration_ref['id']) instance = db.instance_get_by_uuid(context, instance['uuid']) self.assertEqual(instance['vm_state'], vm_states.ACTIVE) self.assertEqual(instance['task_state'], None) inst_ref = db.instance_get_by_uuid(context, instance_uuid) instance_type_ref = db.instance_type_get(context, inst_ref['instance_type_id']) self.assertEqual(instance_type_ref['flavorid'], '1') self.assertEqual(inst_ref['host'], migration_ref['source_compute']) self.compute.terminate_instance(context, inst_ref['uuid']) def test_get_by_flavor_id(self): type = instance_types.get_instance_type_by_flavor_id(1) self.assertEqual(type['name'], 'm1.tiny') def test_resize_same_source_fails(self): """Ensure instance fails to migrate when source and destination are the same host""" instance = self._create_fake_instance() self.compute.run_instance(self.context, instance['uuid']) instance = db.instance_get_by_uuid(self.context, instance['uuid']) self.assertRaises(exception.MigrationError, self.compute.prep_resize, self.context, instance['uuid'], 1, {}) self.compute.terminate_instance(self.context, instance['uuid']) def test_resize_instance_handles_migration_error(self): """Ensure vm_state is ERROR when error occurs""" def raise_migration_failure(*args): raise test.TestingException() self.stubs.Set(self.compute.driver, 'migrate_disk_and_power_off', raise_migration_failure) inst_ref = self._create_fake_instance() context = self.context.elevated() self.compute.run_instance(self.context, inst_ref['uuid']) db.instance_update(self.context, inst_ref['uuid'], {'host': 'foo'}) self.compute.prep_resize(context, inst_ref['uuid'], 1, {}, filter_properties={}) migration_ref = db.migration_get_by_instance_and_status(context, inst_ref['uuid'], 'pre-migrating') self.assertRaises(test.TestingException, self.compute.resize_instance, context, inst_ref['uuid'], migration_ref['id'], {}) inst_ref = db.instance_get_by_uuid(context, inst_ref['uuid']) self.assertEqual(inst_ref['vm_state'], vm_states.ERROR) self.compute.terminate_instance(context, inst_ref['uuid']) def test_pre_live_migration_instance_has_no_fixed_ip(self): """Confirm raising exception if instance doesn't have fixed_ip.""" # creating instance testdata inst_ref = self._create_fake_instance({'host': 'dummy'}) c = context.get_admin_context() # start test self.stubs.Set(time, 'sleep', lambda t: None) self.assertRaises(exception.FixedIpNotFoundForInstance, self.compute.pre_live_migration, c, inst_ref['id']) # cleanup db.instance_destroy(c, inst_ref['id']) def test_pre_live_migration_works_correctly(self): """Confirm setup_compute_volume is called when volume is mounted.""" def stupid(*args, **kwargs): return fake_network.fake_get_instance_nw_info(self.stubs, spectacular=True) self.stubs.Set(nova.compute.manager.ComputeManager, '_get_instance_nw_info', stupid) # creating instance testdata inst_ref = self._create_fake_instance({'host': 'dummy'}) c = context.get_admin_context() # creating mocks self.mox.StubOutWithMock(self.compute.driver, 'pre_live_migration') self.compute.driver.pre_live_migration({'block_device_mapping': []}) nw_info = fake_network.fake_get_instance_nw_info(self.stubs) self.mox.StubOutWithMock(self.compute.driver, 'plug_vifs') self.compute.driver.plug_vifs(mox.IsA(inst_ref), nw_info) self.mox.StubOutWithMock(self.compute.driver, 'ensure_filtering_rules_for_instance') self.compute.driver.ensure_filtering_rules_for_instance( mox.IsA(inst_ref), nw_info) # start test self.mox.ReplayAll() ret = self.compute.pre_live_migration(c, inst_ref['id']) self.assertEqual(ret, None) # cleanup db.instance_destroy(c, inst_ref['id']) def test_live_migration_dest_raises_exception(self): """Confirm exception when pre_live_migration fails.""" # creating instance testdata inst_ref = self._create_fake_instance({'host': 'dummy'}) c = context.get_admin_context() topic = db.queue_get_for(c, FLAGS.compute_topic, inst_ref['host']) # creating volume testdata volume_id = db.volume_create(c, {'size': 1})['id'] values = {'instance_uuid': inst_ref['uuid'], 'device_name': '/dev/vdc', 'delete_on_termination': False, 'volume_id': volume_id} db.block_device_mapping_create(c, values) # creating mocks self.mox.StubOutWithMock(rpc, 'call') rpc.call(c, FLAGS.volume_topic, {"method": "check_for_export", "args": {'instance_id': inst_ref['id']}}) self.mox.StubOutWithMock(self.compute.driver, 'get_instance_disk_info') self.compute.driver.get_instance_disk_info(inst_ref.name) rpc.call(c, topic, {"method": "pre_live_migration", "args": {'instance_id': inst_ref['id'], 'block_migration': True, 'disk': None} }).AndRaise(rpc.common.RemoteError('', '', '')) # mocks for rollback rpc.call(c, 'network', {'method': 'setup_networks_on_host', 'args': {'instance_id': inst_ref['id'], 'host': self.compute.host, 'teardown': False}}) rpc.call(c, topic, {"method": "remove_volume_connection", "args": {'instance_id': inst_ref['id'], 'volume_id': volume_id}}) rpc.cast(c, topic, {"method": "rollback_live_migration_at_destination", "args": {'instance_id': inst_ref['id']}}) # start test self.mox.ReplayAll() self.assertRaises(rpc_common.RemoteError, self.compute.live_migration, c, inst_ref['id'], inst_ref['host'], True) # cleanup for bdms in db.block_device_mapping_get_all_by_instance( c, inst_ref['uuid']): db.block_device_mapping_destroy(c, bdms['id']) db.volume_destroy(c, volume_id) db.instance_destroy(c, inst_ref['id']) def test_live_migration_works_correctly(self): """Confirm live_migration() works as expected correctly.""" # creating instance testdata instance = self._create_fake_instance({'host': 'dummy'}) instance_id = instance['id'] c = context.get_admin_context() inst_ref = db.instance_get(c, instance_id) topic = db.queue_get_for(c, FLAGS.compute_topic, inst_ref['host']) # create self.mox.StubOutWithMock(rpc, 'call') rpc.call(c, topic, {"method": "pre_live_migration", "args": {'instance_id': instance_id, 'block_migration': False, 'disk': None}}) # start test self.mox.ReplayAll() ret = self.compute.live_migration(c, inst_ref['id'], inst_ref['host']) self.assertEqual(ret, None) # cleanup db.instance_destroy(c, instance_id) def test_post_live_migration_working_correctly(self): """Confirm post_live_migration() works as expected correctly.""" dest = 'desthost' flo_addr = '1.2.1.2' # creating testdata c = context.get_admin_context() instance = self._create_fake_instance({ 'state_description': 'migrating', 'state': power_state.PAUSED}) instance_id = instance['id'] i_ref = db.instance_get(c, instance_id) db.instance_update(c, i_ref['id'], {'vm_state': vm_states.MIGRATING, 'power_state': power_state.PAUSED}) v_ref = db.volume_create(c, {'size': 1, 'instance_id': instance_id}) fix_addr = db.fixed_ip_create(c, {'address': '1.1.1.1', 'instance_id': instance_id}) fix_ref = db.fixed_ip_get_by_address(c, fix_addr) db.floating_ip_create(c, {'address': flo_addr, 'fixed_ip_id': fix_ref['id']}) # creating mocks self.mox.StubOutWithMock(self.compute.driver, 'unfilter_instance') self.compute.driver.unfilter_instance(i_ref, []) self.mox.StubOutWithMock(rpc, 'call') rpc.call(c, db.queue_get_for(c, FLAGS.compute_topic, dest), {"method": "post_live_migration_at_destination", "args": {'instance_id': i_ref['id'], 'block_migration': False}}) self.mox.StubOutWithMock(self.compute.driver, 'unplug_vifs') self.compute.driver.unplug_vifs(i_ref, []) rpc.call(c, 'network', {'method': 'setup_networks_on_host', 'args': {'instance_id': instance_id, 'host': self.compute.host, 'teardown': True}}) # start test self.mox.ReplayAll() self.compute.post_live_migration(c, i_ref, dest) # make sure floating ips are rewritten to destinatioin hostname. flo_refs = db.floating_ip_get_all_by_host(c, dest) self.assertTrue(flo_refs) self.assertEqual(flo_refs[0]['address'], flo_addr) # cleanup db.instance_destroy(c, instance_id) db.volume_destroy(c, v_ref['id']) db.floating_ip_destroy(c, flo_addr) def test_run_kill_vm(self): """Detect when a vm is terminated behind the scenes""" self.stubs.Set(compute_manager.ComputeManager, '_report_driver_status', nop_report_driver_status) instance = self._create_fake_instance() self.compute.run_instance(self.context, instance['uuid']) instances = db.instance_get_all(context.get_admin_context()) LOG.info(_("Running instances: %s"), instances) self.assertEqual(len(instances), 1) instance_name = instances[0].name self.compute.driver.test_remove_vm(instance_name) # Force the compute manager to do its periodic poll ctxt = context.get_admin_context() self.compute._sync_power_states(ctxt) instances = db.instance_get_all(ctxt) LOG.info(_("After force-killing instances: %s"), instances) self.assertEqual(len(instances), 1) self.assertEqual(power_state.NOSTATE, instances[0]['power_state']) def test_add_instance_fault(self): exc_info = None instance_uuid = str(utils.gen_uuid()) def fake_db_fault_create(ctxt, values): self.assertTrue(values['details'].startswith('test')) self.assertTrue('raise NotImplementedError' in values['details']) del values['details'] expected = { 'code': 500, 'message': 'NotImplementedError', 'instance_uuid': instance_uuid, } self.assertEquals(expected, values) try: raise NotImplementedError('test') except Exception: exc_info = sys.exc_info() self.stubs.Set(nova.db, 'instance_fault_create', fake_db_fault_create) ctxt = context.get_admin_context() self.compute.add_instance_fault_from_exc(ctxt, instance_uuid, NotImplementedError('test'), exc_info) def test_add_instance_fault_user_error(self): exc_info = None instance_uuid = str(utils.gen_uuid()) def fake_db_fault_create(ctxt, values): expected = { 'code': 400, 'message': 'Invalid', 'details': 'fake details', 'instance_uuid': instance_uuid, } self.assertEquals(expected, values) user_exc = exception.Invalid('fake details', code=400) try: raise user_exc except Exception: exc_info = sys.exc_info() self.stubs.Set(nova.db, 'instance_fault_create', fake_db_fault_create) ctxt = context.get_admin_context() self.compute.add_instance_fault_from_exc(ctxt, instance_uuid, user_exc, exc_info) def test_add_instance_fault_no_exc_info(self): instance_uuid = str(utils.gen_uuid()) def fake_db_fault_create(ctxt, values): expected = { 'code': 500, 'message': 'NotImplementedError', 'details': 'test', 'instance_uuid': instance_uuid, } self.assertEquals(expected, values) self.stubs.Set(nova.db, 'instance_fault_create', fake_db_fault_create) ctxt = context.get_admin_context() self.compute.add_instance_fault_from_exc(ctxt, instance_uuid, NotImplementedError('test')) def test_get_additional_capabilities(self): self.flags(additional_compute_capabilities=['test3=xyzzy', 'test4', 'nothertest=blat']) caps = compute_manager._get_additional_capabilities() all_caps = dict(test3='xyzzy', test4=True, nothertest='blat') for c, val in all_caps.items(): self.assertTrue(c in caps, c) self.assertEquals(val, caps[c]) def test_report_driver_status(self): test_caps = dict(test1=1024, test2='foo', nothertest='bar') self.flags(additional_compute_capabilities=['test3=xyzzy', 'test4', 'nothertest=blat']) self.mox.StubOutWithMock(self.compute.driver, 'get_host_stats') self.compute.driver.get_host_stats(refresh=True).AndReturn(test_caps) self.compute._last_host_check = 0 self.mox.ReplayAll() self.compute._report_driver_status(context) caps = self.compute.last_capabilities all_caps = dict(test1=1024, test2='foo', test3='xyzzy', test4=True, nothertest='bar') for c, val in all_caps.items(): self.assertTrue(c in caps, c) self.assertEquals(val, caps[c]) def test_cleanup_running_deleted_instances(self): admin_context = context.get_admin_context() deleted_at = utils.utcnow() - datetime.timedelta(hours=1, minutes=5) instance = self._create_fake_instance({"deleted_at": deleted_at, "deleted": True}) self.compute.host = instance['host'] self.mox.StubOutWithMock(self.compute.driver, 'list_instances') self.compute.driver.list_instances().AndReturn([instance['name']]) FLAGS.running_deleted_instance_timeout = 3600 FLAGS.running_deleted_instance_action = 'reap' self.mox.StubOutWithMock(self.compute.db, "instance_get_all_by_host") self.compute.db.instance_get_all_by_host(admin_context, self.compute.host ).AndReturn([instance]) self.mox.StubOutWithMock(self.compute, "_shutdown_instance") self.compute._shutdown_instance(admin_context, instance, 'Terminating').AndReturn(None) self.mox.StubOutWithMock(self.compute, "_cleanup_volumes") self.compute._cleanup_volumes(admin_context, instance['uuid']).AndReturn(None) self.mox.ReplayAll() self.compute._cleanup_running_deleted_instances(admin_context) def test_running_deleted_instances(self): self.mox.StubOutWithMock(self.compute.driver, 'list_instances') self.compute.driver.list_instances().AndReturn(['herp', 'derp']) self.compute.host = 'host' instance1 = mox.MockAnything() instance1.name = 'herp' instance1.deleted = True instance1.deleted_at = "sometimeago" instance2 = mox.MockAnything() instance2.name = 'derp' instance2.deleted = False instance2.deleted_at = None self.mox.StubOutWithMock(utils, 'is_older_than') utils.is_older_than('sometimeago', FLAGS.running_deleted_instance_timeout).AndReturn(True) self.mox.StubOutWithMock(self.compute.db, "instance_get_all_by_host") self.compute.db.instance_get_all_by_host('context', 'host').AndReturn( [instance1, instance2]) self.mox.ReplayAll() val = self.compute._running_deleted_instances('context') self.assertEqual(val, [instance1]) def test_heal_instance_info_cache(self): # Update on every call for the test self.flags(heal_instance_info_cache_interval=-1) ctxt = context.get_admin_context() instance_map = {} instances = [] for x in xrange(5): uuid = 'fake-uuid-%s' % x instance_map[uuid] = {'uuid': uuid, 'host': FLAGS.host} instances.append(instance_map[uuid]) call_info = {'get_all_by_host': 0, 'get_by_uuid': 0, 'get_nw_info': 0, 'expected_instance': None} def fake_instance_get_all_by_host(context, host): call_info['get_all_by_host'] += 1 return instances[:] def fake_instance_get_by_uuid(context, instance_uuid): if instance_uuid not in instance_map: raise exception.InstanceNotFound call_info['get_by_uuid'] += 1 return instance_map[instance_uuid] # NOTE(comstud): Override the stub in setUp() def fake_get_instance_nw_info(context, instance): # Note that this exception gets caught in compute/manager # and is ignored. However, the below increment of # 'get_nw_info' won't happen, and you'll get an assert # failure checking it below. self.assertEqual(instance, call_info['expected_instance']) call_info['get_nw_info'] += 1 self.stubs.Set(db, 'instance_get_all_by_host', fake_instance_get_all_by_host) self.stubs.Set(db, 'instance_get_by_uuid', fake_instance_get_by_uuid) self.stubs.Set(self.compute.network_api, 'get_instance_nw_info', fake_get_instance_nw_info) call_info['expected_instance'] = instances[0] self.compute._heal_instance_info_cache(ctxt) self.assertEqual(call_info['get_all_by_host'], 1) self.assertEqual(call_info['get_by_uuid'], 0) self.assertEqual(call_info['get_nw_info'], 1) call_info['expected_instance'] = instances[1] self.compute._heal_instance_info_cache(ctxt) self.assertEqual(call_info['get_all_by_host'], 1) self.assertEqual(call_info['get_by_uuid'], 1) self.assertEqual(call_info['get_nw_info'], 2) # Make an instance switch hosts instances[2]['host'] = 'not-me' # Make an instance disappear instance_map.pop(instances[3]['uuid']) # '2' and '3' should be skipped.. call_info['expected_instance'] = instances[4] self.compute._heal_instance_info_cache(ctxt) self.assertEqual(call_info['get_all_by_host'], 1) # Incremented for '2' and '4'.. '3' caused a raise above. self.assertEqual(call_info['get_by_uuid'], 3) self.assertEqual(call_info['get_nw_info'], 3) # Should be no more left. self.assertEqual(len(self.compute._instance_uuids_to_heal), 0) # This should cause a DB query now so we get first instance # back again call_info['expected_instance'] = instances[0] self.compute._heal_instance_info_cache(ctxt) self.assertEqual(call_info['get_all_by_host'], 2) # Stays the same, beacuse the instance came from the DB self.assertEqual(call_info['get_by_uuid'], 3) self.assertEqual(call_info['get_nw_info'], 4) class ComputeAPITestCase(BaseTestCase): def setUp(self): def fake_get_nw_info(cls, ctxt, instance): self.assertTrue(ctxt.is_admin) return fake_network.fake_get_instance_nw_info(self.stubs, 1, 1, spectacular=True) super(ComputeAPITestCase, self).setUp() self.stubs.Set(nova.network.API, 'get_instance_nw_info', fake_get_nw_info) self.compute_api = compute.API() self.fake_image = { 'id': 1, 'properties': {'kernel_id': 'fake_kernel_id', 'ramdisk_id': 'fake_ramdisk_id'}, } def _run_instance(self): instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.compute.run_instance(self.context, instance_uuid) instance = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(instance['task_state'], None) return instance, instance_uuid def test_create_with_too_little_ram(self): """Test an instance type with too little memory""" inst_type = instance_types.get_default_instance_type() inst_type['memory_mb'] = 1 def fake_show(*args): img = copy.copy(self.fake_image) img['min_ram'] = 2 return img self.stubs.Set(fake_image._FakeImageService, 'show', fake_show) self.assertRaises(exception.InstanceTypeMemoryTooSmall, self.compute_api.create, self.context, inst_type, None) # Now increase the inst_type memory and make sure all is fine. inst_type['memory_mb'] = 2 (refs, resv_id) = self.compute_api.create(self.context, inst_type, None) db.instance_destroy(self.context, refs[0]['id']) def test_create_with_too_little_disk(self): """Test an instance type with too little disk space""" inst_type = instance_types.get_default_instance_type() inst_type['root_gb'] = 1 def fake_show(*args): img = copy.copy(self.fake_image) img['min_disk'] = 2 return img self.stubs.Set(fake_image._FakeImageService, 'show', fake_show) self.assertRaises(exception.InstanceTypeDiskTooSmall, self.compute_api.create, self.context, inst_type, None) # Now increase the inst_type disk space and make sure all is fine. inst_type['root_gb'] = 2 (refs, resv_id) = self.compute_api.create(self.context, inst_type, None) db.instance_destroy(self.context, refs[0]['id']) def test_create_just_enough_ram_and_disk(self): """Test an instance type with just enough ram and disk space""" inst_type = instance_types.get_default_instance_type() inst_type['root_gb'] = 2 inst_type['memory_mb'] = 2 def fake_show(*args): img = copy.copy(self.fake_image) img['min_ram'] = 2 img['min_disk'] = 2 return img self.stubs.Set(fake_image._FakeImageService, 'show', fake_show) (refs, resv_id) = self.compute_api.create(self.context, inst_type, None) db.instance_destroy(self.context, refs[0]['id']) def test_create_with_no_ram_and_disk_reqs(self): """Test an instance type with no min_ram or min_disk""" inst_type = instance_types.get_default_instance_type() inst_type['root_gb'] = 1 inst_type['memory_mb'] = 1 def fake_show(*args): return copy.copy(self.fake_image) self.stubs.Set(fake_image._FakeImageService, 'show', fake_show) (refs, resv_id) = self.compute_api.create(self.context, inst_type, None) db.instance_destroy(self.context, refs[0]['id']) def test_create_instance_defaults_display_name(self): """Verify that an instance cannot be created without a display_name.""" cases = [dict(), dict(display_name=None)] for instance in cases: (ref, resv_id) = self.compute_api.create(self.context, instance_types.get_default_instance_type(), None, **instance) try: self.assertNotEqual(ref[0]['display_name'], None) finally: db.instance_destroy(self.context, ref[0]['id']) def test_create_instance_sets_system_metadata(self): """Make sure image properties are copied into system metadata.""" (ref, resv_id) = self.compute_api.create( self.context, instance_type=instance_types.get_default_instance_type(), image_href=None) try: sys_metadata = db.instance_system_metadata_get(self.context, ref[0]['uuid']) self.assertEqual(sys_metadata, {'image_kernel_id': 'fake_kernel_id', 'image_ramdisk_id': 'fake_ramdisk_id', 'image_something_else': 'meow'}) finally: db.instance_destroy(self.context, ref[0]['id']) def test_create_instance_associates_security_groups(self): """Make sure create associates security groups""" group = self._create_group() (ref, resv_id) = self.compute_api.create( self.context, instance_type=instance_types.get_default_instance_type(), image_href=None, security_group=['testgroup']) try: self.assertEqual(len(db.security_group_get_by_instance( self.context, ref[0]['id'])), 1) group = db.security_group_get(self.context, group['id']) self.assert_(len(group.instances) == 1) finally: db.security_group_destroy(self.context, group['id']) db.instance_destroy(self.context, ref[0]['id']) def test_create_instance_with_invalid_security_group_raises(self): instance_type = instance_types.get_default_instance_type() pre_build_len = len(db.instance_get_all(context.get_admin_context())) self.assertRaises(exception.SecurityGroupNotFoundForProject, self.compute_api.create, self.context, instance_type=instance_type, image_href=None, security_group=['this_is_a_fake_sec_group']) self.assertEqual(pre_build_len, len(db.instance_get_all(context.get_admin_context()))) def test_default_hostname_generator(self): cases = [(None, 'server-1'), ('Hello, Server!', 'hello-server'), ('<}\x1fh\x10e\x08l\x02l\x05o\x12!{>', 'hello'), ('hello_server', 'hello-server')] for display_name, hostname in cases: (ref, resv_id) = self.compute_api.create(self.context, instance_types.get_default_instance_type(), None, display_name=display_name) try: self.assertEqual(ref[0]['hostname'], hostname) finally: db.instance_destroy(self.context, ref[0]['id']) def test_destroy_instance_disassociates_security_groups(self): """Make sure destroying disassociates security groups""" group = self._create_group() (ref, resv_id) = self.compute_api.create( self.context, instance_type=instance_types.get_default_instance_type(), image_href=None, security_group=['testgroup']) try: db.instance_destroy(self.context, ref[0]['id']) group = db.security_group_get(self.context, group['id']) self.assert_(len(group.instances) == 0) finally: db.security_group_destroy(self.context, group['id']) def test_destroy_security_group_disassociates_instances(self): """Make sure destroying security groups disassociates instances""" group = self._create_group() (ref, resv_id) = self.compute_api.create( self.context, instance_type=instance_types.get_default_instance_type(), image_href=None, security_group=['testgroup']) try: db.security_group_destroy(self.context, group['id']) admin_deleted_context = context.get_admin_context( read_deleted="only") group = db.security_group_get(admin_deleted_context, group['id']) self.assert_(len(group.instances) == 0) finally: db.instance_destroy(self.context, ref[0]['id']) def test_start(self): instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.compute.run_instance(self.context, instance_uuid) self.compute.stop_instance(self.context, instance_uuid) instance = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(instance['task_state'], None) self.compute_api.start(self.context, instance) instance = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(instance['task_state'], task_states.STARTING) db.instance_destroy(self.context, instance['id']) def test_stop(self): instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.compute.run_instance(self.context, instance_uuid) instance = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(instance['task_state'], None) self.compute_api.stop(self.context, instance) instance = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(instance['task_state'], task_states.STOPPING) db.instance_destroy(self.context, instance['id']) def test_start_shutdown(self): def check_state(instance_uuid, power_state_, vm_state_, task_state_): instance = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(instance['power_state'], power_state_) self.assertEqual(instance['vm_state'], vm_state_) self.assertEqual(instance['task_state'], task_state_) def start_check_state(instance_uuid, power_state_, vm_state_, task_state_): instance = db.instance_get_by_uuid(self.context, instance_uuid) self.compute_api.start(self.context, instance) check_state(instance_uuid, power_state_, vm_state_, task_state_) instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.compute.run_instance(self.context, instance_uuid) check_state(instance_uuid, power_state.RUNNING, vm_states.ACTIVE, None) # NOTE(yamahata): emulate compute.manager._sync_power_state() that # the instance is shutdown by itself db.instance_update(self.context, instance_uuid, {'power_state': power_state.NOSTATE, 'vm_state': vm_states.SHUTOFF}) check_state(instance_uuid, power_state.NOSTATE, vm_states.SHUTOFF, None) start_check_state(instance_uuid, power_state.NOSTATE, vm_states.SHUTOFF, None) db.instance_update(self.context, instance_uuid, {'shutdown_terminate': False}) start_check_state(instance_uuid, power_state.NOSTATE, vm_states.STOPPED, task_states.STARTING) db.instance_destroy(self.context, instance['id']) def test_delete(self): instance, instance_uuid = self._run_instance() self.compute_api.delete(self.context, instance) instance = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(instance['task_state'], task_states.DELETING) db.instance_destroy(self.context, instance['id']) def test_delete_fail(self): instance, instance_uuid = self._run_instance() instance = db.instance_update(self.context, instance_uuid, {'disable_terminate': True}) self.compute_api.delete(self.context, instance) instance = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(instance['task_state'], None) db.instance_destroy(self.context, instance['id']) def test_delete_soft(self): instance, instance_uuid = self._run_instance() self.compute_api.soft_delete(self.context, instance) instance = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(instance['task_state'], task_states.POWERING_OFF) db.instance_destroy(self.context, instance['id']) def test_delete_soft_fail(self): instance, instance_uuid = self._run_instance() instance = db.instance_update(self.context, instance_uuid, {'disable_terminate': True}) self.compute_api.soft_delete(self.context, instance) instance = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(instance['task_state'], None) db.instance_destroy(self.context, instance['id']) def test_force_delete(self): """Ensure instance can be deleted after a soft delete""" instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.compute.run_instance(self.context, instance_uuid) instance = db.instance_get_by_uuid(self.context, instance_uuid) self.compute_api.soft_delete(self.context, instance) instance = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(instance['task_state'], task_states.POWERING_OFF) self.compute_api.force_delete(self.context, instance) instance = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(instance['task_state'], task_states.DELETING) def test_suspend(self): """Ensure instance can be suspended""" instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.compute.run_instance(self.context, instance_uuid) self.assertEqual(instance['task_state'], None) self.compute_api.suspend(self.context, instance) instance = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(instance['task_state'], task_states.SUSPENDING) db.instance_destroy(self.context, instance['id']) def test_resume(self): """Ensure instance can be resumed (if suspended)""" instance = self._create_fake_instance() instance_uuid = instance['uuid'] instance_id = instance['id'] self.compute.run_instance(self.context, instance_uuid) db.instance_update(self.context, instance_id, {'vm_state': vm_states.SUSPENDED}) instance = db.instance_get(self.context, instance_id) self.assertEqual(instance['task_state'], None) self.compute_api.resume(self.context, instance) instance = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(instance['task_state'], task_states.RESUMING) db.instance_destroy(self.context, instance['id']) def test_pause(self): """Ensure instance can be paused""" instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.compute.run_instance(self.context, instance_uuid) self.assertEqual(instance['task_state'], None) self.compute_api.pause(self.context, instance) instance = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(instance['task_state'], task_states.PAUSING) db.instance_destroy(self.context, instance['id']) def test_unpause(self): """Ensure instance can be unpaused""" instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.compute.run_instance(self.context, instance_uuid) self.assertEqual(instance['task_state'], None) self.compute.pause_instance(self.context, instance_uuid) # set the state that the instance gets when pause finishes db.instance_update(self.context, instance['uuid'], {'vm_state': vm_states.PAUSED}) instance = db.instance_get_by_uuid(self.context, instance['uuid']) self.compute_api.unpause(self.context, instance) instance = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(instance['task_state'], task_states.UNPAUSING) db.instance_destroy(self.context, instance['id']) def test_restore(self): """Ensure instance can be restored from a soft delete""" instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.compute.run_instance(self.context, instance_uuid) instance = db.instance_get_by_uuid(self.context, instance_uuid) self.compute_api.soft_delete(self.context, instance) instance = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(instance['task_state'], task_states.POWERING_OFF) self.compute_api.restore(self.context, instance) instance = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(instance['task_state'], task_states.POWERING_ON) db.instance_destroy(self.context, instance['id']) def test_rebuild(self): inst_ref = self._create_fake_instance() instance_uuid = inst_ref['uuid'] self.compute.run_instance(self.context, instance_uuid) instance = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(instance['task_state'], None) # Make sure Compute API updates the image_ref before casting to # compute manager. orig_update = self.compute_api.update info = {'image_ref': None} def update_wrapper(*args, **kwargs): if 'image_ref' in kwargs: info['image_ref'] = kwargs['image_ref'] return orig_update(*args, **kwargs) self.stubs.Set(self.compute_api, 'update', update_wrapper) image_ref = instance["image_ref"] + '-new_image_ref' password = "new_password" self.compute_api.rebuild(self.context, instance, image_ref, password) self.assertEqual(info['image_ref'], image_ref) instance = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(instance['vm_state'], vm_states.REBUILDING) db.instance_destroy(self.context, instance['id']) def test_reboot_soft(self): """Ensure instance can be soft rebooted""" inst_ref = self._create_fake_instance() instance_uuid = inst_ref['uuid'] self.compute.run_instance(self.context, instance_uuid) inst_ref = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(inst_ref['task_state'], None) reboot_type = "SOFT" self.compute_api.reboot(self.context, inst_ref, reboot_type) inst_ref = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(inst_ref['task_state'], task_states.REBOOTING) db.instance_destroy(self.context, inst_ref['id']) def test_reboot_hard(self): """Ensure instance can be hard rebooted""" inst_ref = self._create_fake_instance() instance_uuid = inst_ref['uuid'] self.compute.run_instance(self.context, instance_uuid) inst_ref = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(inst_ref['task_state'], None) reboot_type = "HARD" self.compute_api.reboot(self.context, inst_ref, reboot_type) inst_ref = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(inst_ref['task_state'], task_states.REBOOTING_HARD) db.instance_destroy(self.context, inst_ref['id']) def test_hostname_create(self): """Ensure instance hostname is set during creation.""" inst_type = instance_types.get_instance_type_by_name('m1.tiny') (instances, _) = self.compute_api.create(self.context, inst_type, None, display_name='test host') self.assertEqual('test-host', instances[0]['hostname']) def test_set_admin_password(self): """Ensure instance can have its admin password set""" instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.compute.run_instance(self.context, instance_uuid) inst_ref = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(inst_ref['vm_state'], vm_states.ACTIVE) self.assertEqual(inst_ref['task_state'], None) self.compute_api.set_admin_password(self.context, inst_ref) inst_ref = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(inst_ref['vm_state'], vm_states.ACTIVE) self.assertEqual(inst_ref['task_state'], task_states.UPDATING_PASSWORD) self.compute.terminate_instance(self.context, instance_uuid) def test_rescue_unrescue(self): instance = self._create_fake_instance() instance_uuid = instance['uuid'] self.compute.run_instance(self.context, instance_uuid) instance = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(instance['vm_state'], vm_states.ACTIVE) self.assertEqual(instance['task_state'], None) self.compute_api.rescue(self.context, instance) instance = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(instance['vm_state'], vm_states.ACTIVE) self.assertEqual(instance['task_state'], task_states.RESCUING) params = {'vm_state': vm_states.RESCUED, 'task_state': None} db.instance_update(self.context, instance_uuid, params) instance = db.instance_get_by_uuid(self.context, instance_uuid) self.compute_api.unrescue(self.context, instance) instance = db.instance_get_by_uuid(self.context, instance_uuid) self.assertEqual(instance['vm_state'], vm_states.RESCUED) self.assertEqual(instance['task_state'], task_states.UNRESCUING) self.compute.terminate_instance(self.context, instance_uuid) def test_snapshot(self): """Ensure a snapshot of an instance can be created""" instance = self._create_fake_instance() image = self.compute_api.snapshot(self.context, instance, 'snap1', {'extra_param': 'value1'}) self.assertEqual(image['name'], 'snap1') properties = image['properties'] self.assertTrue('backup_type' not in properties) self.assertEqual(properties['image_type'], 'snapshot') self.assertEqual(properties['instance_uuid'], instance['uuid']) self.assertEqual(properties['extra_param'], 'value1') db.instance_destroy(self.context, instance['id']) def test_snapshot_minram_mindisk_VHD(self): """Ensure a snapshots min_ram and min_disk are correct. A snapshot of a non-shrinkable VHD should have min_ram and min_disk set to that of the original instances flavor. """ def fake_show(*args): img = copy.copy(self.fake_image) img['disk_format'] = 'vhd' return img self.stubs.Set(fake_image._FakeImageService, 'show', fake_show) instance = self._create_fake_instance() inst_params = {'root_gb': 2, 'memory_mb': 256} instance['instance_type'].update(inst_params) image = self.compute_api.snapshot(self.context, instance, 'snap1', {'extra_param': 'value1'}) self.assertEqual(image['name'], 'snap1') self.assertEqual(image['min_ram'], 256) self.assertEqual(image['min_disk'], 2) properties = image['properties'] self.assertTrue('backup_type' not in properties) self.assertEqual(properties['image_type'], 'snapshot') self.assertEqual(properties['instance_uuid'], instance['uuid']) self.assertEqual(properties['extra_param'], 'value1') db.instance_destroy(self.context, instance['id']) def test_snapshot_minram_mindisk(self): """Ensure a snapshots min_ram and min_disk are correct. A snapshot of an instance should have min_ram and min_disk set to that of the instances original image unless that image had a disk format of vhd. """ def fake_show(*args): img = copy.copy(self.fake_image) img['disk_format'] = 'raw' img['min_ram'] = 512 img['min_disk'] = 1 return img self.stubs.Set(fake_image._FakeImageService, 'show', fake_show) instance = self._create_fake_instance() image = self.compute_api.snapshot(self.context, instance, 'snap1', {'extra_param': 'value1'}) self.assertEqual(image['name'], 'snap1') self.assertEqual(image['min_ram'], 512) self.assertEqual(image['min_disk'], 1) properties = image['properties'] self.assertTrue('backup_type' not in properties) self.assertEqual(properties['image_type'], 'snapshot') self.assertEqual(properties['instance_uuid'], instance['uuid']) self.assertEqual(properties['extra_param'], 'value1') db.instance_destroy(self.context, instance['id']) def test_snapshot_minram_mindisk_img_missing_minram(self): """Ensure a snapshots min_ram and min_disk are correct. Do not show an attribute that the orig img did not have. """ def fake_show(*args): img = copy.copy(self.fake_image) img['disk_format'] = 'raw' img['min_disk'] = 1 return img self.stubs.Set(fake_image._FakeImageService, 'show', fake_show) instance = self._create_fake_instance() image = self.compute_api.snapshot(self.context, instance, 'snap1', {'extra_param': 'value1'}) self.assertEqual(image['name'], 'snap1') self.assertFalse('min_ram' in image) self.assertEqual(image['min_disk'], 1) properties = image['properties'] self.assertTrue('backup_type' not in properties) self.assertEqual(properties['image_type'], 'snapshot') self.assertEqual(properties['instance_uuid'], instance['uuid']) self.assertEqual(properties['extra_param'], 'value1') db.instance_destroy(self.context, instance['id']) def test_snapshot_minram_mindisk_no_image(self): """Ensure a snapshots min_ram and min_disk are correct. A snapshots min_ram and min_disk should be set to default if an instances original image cannot be found. """ def fake_show(*args): raise exception.ImageNotFound self.stubs.Set(fake_image._FakeImageService, 'show', fake_show) instance = self._create_fake_instance() image = self.compute_api.snapshot(self.context, instance, 'snap1', {'extra_param': 'value1'}) self.assertEqual(image['name'], 'snap1') # min_ram and min_disk are not returned when set to default self.assertFalse('min_ram' in image) self.assertFalse('min_disk' in image) properties = image['properties'] self.assertTrue('backup_type' not in properties) self.assertEqual(properties['image_type'], 'snapshot') self.assertEqual(properties['instance_uuid'], instance['uuid']) self.assertEqual(properties['extra_param'], 'value1') db.instance_destroy(self.context, instance['id']) def test_backup(self): """Can't backup an instance which is already being backed up.""" instance = self._create_fake_instance() image = self.compute_api.backup(self.context, instance, 'backup1', 'DAILY', None, {'extra_param': 'value1'}) self.assertEqual(image['name'], 'backup1') properties = image['properties'] self.assertEqual(properties['backup_type'], 'DAILY') self.assertEqual(properties['image_type'], 'backup') self.assertEqual(properties['instance_uuid'], instance['uuid']) self.assertEqual(properties['extra_param'], 'value1') db.instance_destroy(self.context, instance['id']) def test_backup_conflict(self): """Can't backup an instance which is already being backed up.""" instance = self._create_fake_instance() instance_uuid = instance['uuid'] instance_values = {'task_state': task_states.IMAGE_BACKUP} db.instance_update(self.context, instance_uuid, instance_values) instance = self.compute_api.get(self.context, instance_uuid) self.assertRaises(exception.InstanceInvalidState, self.compute_api.backup, self.context, instance, None, None, None) db.instance_destroy(self.context, instance['id']) def test_snapshot_conflict(self): """Can't snapshot an instance which is already being snapshotted.""" instance = self._create_fake_instance() instance_uuid = instance['uuid'] instance_values = {'task_state': task_states.IMAGE_SNAPSHOT} db.instance_update(self.context, instance_uuid, instance_values) instance = self.compute_api.get(self.context, instance_uuid) self.assertRaises(exception.InstanceInvalidState, self.compute_api.snapshot, self.context, instance, None) db.instance_destroy(self.context, instance['id']) def test_resize_confirm_through_api(self): instance = self._create_fake_instance() context = self.context.elevated() self.compute.run_instance(self.context, instance['uuid']) instance = db.instance_get_by_uuid(context, instance['uuid']) self.compute_api.resize(context, instance, '4') # create a fake migration record (manager does this) db.migration_create(context, {'instance_uuid': instance['uuid'], 'status': 'finished'}) # set the state that the instance gets when resize finishes db.instance_update(self.context, instance['uuid'], {'task_state': task_states.RESIZE_VERIFY, 'vm_state': vm_states.ACTIVE}) instance = db.instance_get_by_uuid(context, instance['uuid']) self.compute_api.confirm_resize(context, instance) self.compute.terminate_instance(context, instance['uuid']) def test_resize_revert_through_api(self): instance = self._create_fake_instance() context = self.context.elevated() instance = db.instance_get_by_uuid(context, instance['uuid']) self.compute.run_instance(self.context, instance['uuid']) self.compute_api.resize(context, instance, '4') # create a fake migration record (manager does this) db.migration_create(context, {'instance_uuid': instance['uuid'], 'status': 'finished'}) # set the state that the instance gets when resize finishes db.instance_update(self.context, instance['uuid'], {'task_state': task_states.RESIZE_VERIFY, 'vm_state': vm_states.ACTIVE}) instance = db.instance_get_by_uuid(context, instance['uuid']) self.compute_api.revert_resize(context, instance) instance = db.instance_get_by_uuid(context, instance['uuid']) self.assertEqual(instance['vm_state'], vm_states.RESIZING) self.assertEqual(instance['task_state'], task_states.RESIZE_REVERTING) self.compute.terminate_instance(context, instance['uuid']) def test_resize_invalid_flavor_fails(self): """Ensure invalid flavors raise""" instance = self._create_fake_instance() context = self.context.elevated() instance = db.instance_get_by_uuid(context, instance['uuid']) self.compute.run_instance(self.context, instance['uuid']) self.assertRaises(exception.NotFound, self.compute_api.resize, context, instance, 200) self.compute.terminate_instance(context, instance['uuid']) def test_resize_same_size_fails(self): """Ensure invalid flavors raise""" context = self.context.elevated() instance = self._create_fake_instance() instance = db.instance_get_by_uuid(context, instance['uuid']) self.compute.run_instance(self.context, instance['uuid']) self.assertRaises(exception.CannotResizeToSameSize, self.compute_api.resize, context, instance, 1) self.compute.terminate_instance(context, instance['uuid']) def test_migrate(self): context = self.context.elevated() instance = self._create_fake_instance() instance = db.instance_get_by_uuid(context, instance['uuid']) self.compute.run_instance(self.context, instance['uuid']) # Migrate simply calls resize() without a flavor_id. self.compute_api.resize(context, instance, None) self.compute.terminate_instance(context, instance['uuid']) def test_resize_request_spec(self): def _fake_cast(context, args): request_spec = args['args']['request_spec'] filter_properties = args['args']['filter_properties'] instance_properties = request_spec['instance_properties'] self.assertEqual(instance_properties['host'], 'host2') self.assertIn('host2', filter_properties['ignore_hosts']) self.stubs.Set(self.compute_api, '_cast_scheduler_message', _fake_cast) context = self.context.elevated() instance = self._create_fake_instance(dict(host='host2')) instance = db.instance_get_by_uuid(context, instance['uuid']) self.compute.run_instance(self.context, instance['uuid']) try: self.compute_api.resize(context, instance, None) finally: self.compute.terminate_instance(context, instance['uuid']) def test_resize_request_spec_noavoid(self): def _fake_cast(context, args): request_spec = args['args']['request_spec'] filter_properties = args['args']['filter_properties'] instance_properties = request_spec['instance_properties'] self.assertEqual(instance_properties['host'], 'host2') self.assertNotIn('host2', filter_properties['ignore_hosts']) self.stubs.Set(self.compute_api, '_cast_scheduler_message', _fake_cast) self.flags(allow_resize_to_same_host=True) context = self.context.elevated() instance = self._create_fake_instance(dict(host='host2')) instance = db.instance_get_by_uuid(context, instance['uuid']) self.compute.run_instance(self.context, instance['uuid']) try: self.compute_api.resize(context, instance, None) finally: self.compute.terminate_instance(context, instance['uuid']) def test_associate_floating_ip(self): """Ensure we can associate a floating ip with an instance""" called = {'associate': False} def fake_associate_ip_network_api(self, ctxt, floating_address, fixed_address): called['associate'] = True self.stubs.Set(nova.network.API, 'associate_floating_ip', fake_associate_ip_network_api) instance = self._create_fake_instance() instance_uuid = instance['uuid'] address = '0.1.2.3' self.compute.run_instance(self.context, instance_uuid) self.compute_api.associate_floating_ip(self.context, instance, address) self.assertTrue(called['associate']) self.compute.terminate_instance(self.context, instance_uuid) def test_associate_floating_ip_no_fixed_ip(self): """Should fail if instance has no fixed ip.""" def fake_get_nw_info(self, ctxt, instance): return [] self.stubs.Set(nova.network.API, 'get_instance_nw_info', fake_get_nw_info) instance = self._create_fake_instance() instance_uuid = instance['uuid'] address = '0.1.2.3' self.compute.run_instance(self.context, instance_uuid) self.assertRaises(exception.FixedIpNotFoundForInstance, self.compute_api.associate_floating_ip, self.context, instance, address) self.compute.terminate_instance(self.context, instance_uuid) def test_get(self): """Test get instance""" c = context.get_admin_context() exp_instance = self._create_fake_instance() expected = dict(exp_instance.iteritems()) expected['name'] = exp_instance['name'] def fake_db_get(context, instance_uuid): return exp_instance self.stubs.Set(db, 'instance_get_by_uuid', fake_db_get) instance = self.compute_api.get(c, exp_instance['uuid']) self.assertEquals(expected, instance) def test_get_with_integer_id(self): """Test get instance with an integer id""" c = context.get_admin_context() exp_instance = self._create_fake_instance() expected = dict(exp_instance.iteritems()) expected['name'] = exp_instance['name'] def fake_db_get(context, instance_id): return exp_instance self.stubs.Set(db, 'instance_get', fake_db_get) instance = self.compute_api.get(c, exp_instance['id']) self.assertEquals(expected, instance) def test_get_all_by_name_regexp(self): """Test searching instances by name (display_name)""" c = context.get_admin_context() instance1 = self._create_fake_instance({'display_name': 'woot'}) instance2 = self._create_fake_instance({ 'display_name': 'woo'}) instance3 = self._create_fake_instance({ 'display_name': 'not-woot'}) instances = self.compute_api.get_all(c, search_opts={'name': 'woo.*'}) self.assertEqual(len(instances), 2) instance_uuids = [instance['uuid'] for instance in instances] self.assertTrue(instance1['uuid'] in instance_uuids) self.assertTrue(instance2['uuid'] in instance_uuids) instances = self.compute_api.get_all(c, search_opts={'name': 'woot.*'}) instance_uuids = [instance['uuid'] for instance in instances] self.assertEqual(len(instances), 1) self.assertTrue(instance1['uuid'] in instance_uuids) instances = self.compute_api.get_all(c, search_opts={'name': '.*oot.*'}) self.assertEqual(len(instances), 2) instance_uuids = [instance['uuid'] for instance in instances] self.assertTrue(instance1['uuid'] in instance_uuids) self.assertTrue(instance3['uuid'] in instance_uuids) instances = self.compute_api.get_all(c, search_opts={'name': 'n.*'}) self.assertEqual(len(instances), 1) instance_uuids = [instance['uuid'] for instance in instances] self.assertTrue(instance3['uuid'] in instance_uuids) instances = self.compute_api.get_all(c, search_opts={'name': 'noth.*'}) self.assertEqual(len(instances), 0) db.instance_destroy(c, instance1['id']) db.instance_destroy(c, instance2['id']) db.instance_destroy(c, instance3['id']) def test_get_all_by_instance_name_regexp(self): """Test searching instances by name""" self.flags(instance_name_template='instance-%d') c = context.get_admin_context() instance1 = self._create_fake_instance() instance2 = self._create_fake_instance({'id': 2}) instance3 = self._create_fake_instance({'id': 10}) instances = self.compute_api.get_all(c, search_opts={'instance_name': 'instance.*'}) self.assertEqual(len(instances), 3) instances = self.compute_api.get_all(c, search_opts={'instance_name': '.*\-\d$'}) self.assertEqual(len(instances), 2) instance_uuids = [instance['uuid'] for instance in instances] self.assertTrue(instance1['uuid'] in instance_uuids) self.assertTrue(instance2['uuid'] in instance_uuids) instances = self.compute_api.get_all(c, search_opts={'instance_name': 'i.*2'}) self.assertEqual(len(instances), 1) self.assertEqual(instances[0]['uuid'], instance2['uuid']) db.instance_destroy(c, instance1['id']) db.instance_destroy(c, instance2['id']) db.instance_destroy(c, instance3['id']) def test_get_all_by_multiple_options_at_once(self): """Test searching by multiple options at once""" c = context.get_admin_context() network_manager = fake_network.FakeNetworkManager() self.stubs.Set(self.compute_api.network_api, 'get_instance_uuids_by_ip_filter', network_manager.get_instance_uuids_by_ip_filter) self.stubs.Set(network_manager.db, 'instance_get_id_to_uuid_mapping', db.instance_get_id_to_uuid_mapping) instance1 = self._create_fake_instance({'display_name': 'woot', 'id': 0}) instance2 = self._create_fake_instance({ 'display_name': 'woo', 'id': 20}) instance3 = self._create_fake_instance({ 'display_name': 'not-woot', 'id': 30}) # ip ends up matching 2nd octet here.. so all 3 match ip # but 'name' only matches one instances = self.compute_api.get_all(c, search_opts={'ip': '.*\.1', 'name': 'not.*'}) self.assertEqual(len(instances), 1) self.assertEqual(instances[0]['uuid'], instance3['uuid']) # ip ends up matching any ip with a '1' in the last octet.. # so instance 1 and 3.. but name should only match #1 # but 'name' only matches one instances = self.compute_api.get_all(c, search_opts={'ip': '.*\.1$', 'name': '^woo.*'}) self.assertEqual(len(instances), 1) self.assertEqual(instances[0]['uuid'], instance1['uuid']) # same as above but no match on name (name matches instance1 # but the ip query doesn't instances = self.compute_api.get_all(c, search_opts={'ip': '.*\.2$', 'name': '^woot.*'}) self.assertEqual(len(instances), 0) # ip matches all 3... ipv6 matches #2+#3...name matches #3 instances = self.compute_api.get_all(c, search_opts={'ip': '.*\.1', 'name': 'not.*', 'ip6': '^.*12.*34.*'}) self.assertEqual(len(instances), 1) self.assertEqual(instances[0]['uuid'], instance3['uuid']) db.instance_destroy(c, instance1['id']) db.instance_destroy(c, instance2['id']) db.instance_destroy(c, instance3['id']) def test_get_all_by_image(self): """Test searching instances by image""" c = context.get_admin_context() instance1 = self._create_fake_instance({'image_ref': '1234'}) instance2 = self._create_fake_instance({'image_ref': '4567'}) instance3 = self._create_fake_instance({'image_ref': '4567'}) instances = self.compute_api.get_all(c, search_opts={'image': '123'}) self.assertEqual(len(instances), 0) instances = self.compute_api.get_all(c, search_opts={'image': '1234'}) self.assertEqual(len(instances), 1) self.assertEqual(instances[0]['uuid'], instance1['uuid']) instances = self.compute_api.get_all(c, search_opts={'image': '4567'}) self.assertEqual(len(instances), 2) instance_uuids = [instance['uuid'] for instance in instances] self.assertTrue(instance2['uuid'] in instance_uuids) self.assertTrue(instance3['uuid'] in instance_uuids) # Test passing a list as search arg instances = self.compute_api.get_all(c, search_opts={'image': ['1234', '4567']}) self.assertEqual(len(instances), 3) db.instance_destroy(c, instance1['id']) db.instance_destroy(c, instance2['id']) db.instance_destroy(c, instance3['id']) def test_get_all_by_flavor(self): """Test searching instances by image""" c = context.get_admin_context() instance1 = self._create_fake_instance({'instance_type_id': 1}) instance2 = self._create_fake_instance({'instance_type_id': 2}) instance3 = self._create_fake_instance({'instance_type_id': 2}) # NOTE(comstud): Migrations set up the instance_types table # for us. Therefore, we assume the following is true for # these tests: # instance_type_id 1 == flavor 3 # instance_type_id 2 == flavor 1 # instance_type_id 3 == flavor 4 # instance_type_id 4 == flavor 5 # instance_type_id 5 == flavor 2 instances = self.compute_api.get_all(c, search_opts={'flavor': 5}) self.assertEqual(len(instances), 0) # ensure unknown filter maps to an empty list, not an exception instances = self.compute_api.get_all(c, search_opts={'flavor': 99}) self.assertEqual(instances, []) instances = self.compute_api.get_all(c, search_opts={'flavor': 3}) self.assertEqual(len(instances), 1) self.assertEqual(instances[0]['id'], instance1['id']) instances = self.compute_api.get_all(c, search_opts={'flavor': 1}) self.assertEqual(len(instances), 2) instance_uuids = [instance['uuid'] for instance in instances] self.assertTrue(instance2['uuid'] in instance_uuids) self.assertTrue(instance3['uuid'] in instance_uuids) db.instance_destroy(c, instance1['id']) db.instance_destroy(c, instance2['id']) db.instance_destroy(c, instance3['id']) def test_get_all_by_state(self): """Test searching instances by state""" c = context.get_admin_context() instance1 = self._create_fake_instance({ 'power_state': power_state.SHUTDOWN, }) instance2 = self._create_fake_instance({ 'power_state': power_state.RUNNING, }) instance3 = self._create_fake_instance({ 'power_state': power_state.RUNNING, }) instances = self.compute_api.get_all(c, search_opts={'power_state': power_state.SUSPENDED}) self.assertEqual(len(instances), 0) instances = self.compute_api.get_all(c, search_opts={'power_state': power_state.SHUTDOWN}) self.assertEqual(len(instances), 1) self.assertEqual(instances[0]['uuid'], instance1['uuid']) instances = self.compute_api.get_all(c, search_opts={'power_state': power_state.RUNNING}) self.assertEqual(len(instances), 2) instance_uuids = [instance['uuid'] for instance in instances] self.assertTrue(instance2['uuid'] in instance_uuids) self.assertTrue(instance3['uuid'] in instance_uuids) # Test passing a list as search arg instances = self.compute_api.get_all(c, search_opts={'power_state': [power_state.SHUTDOWN, power_state.RUNNING]}) self.assertEqual(len(instances), 3) db.instance_destroy(c, instance1['id']) db.instance_destroy(c, instance2['id']) db.instance_destroy(c, instance3['id']) def test_get_all_by_metadata(self): """Test searching instances by metadata""" c = context.get_admin_context() instance0 = self._create_fake_instance() instance1 = self._create_fake_instance({ 'metadata': {'key1': 'value1'}}) instance2 = self._create_fake_instance({ 'metadata': {'key2': 'value2'}}) instance3 = self._create_fake_instance({ 'metadata': {'key3': 'value3'}}) instance4 = self._create_fake_instance({ 'metadata': {'key3': 'value3', 'key4': 'value4'}}) # get all instances instances = self.compute_api.get_all(c, search_opts={'metadata': {}}) self.assertEqual(len(instances), 5) # wrong key/value combination instances = self.compute_api.get_all(c, search_opts={'metadata': {'key1': 'value3'}}) self.assertEqual(len(instances), 0) # non-existing keys instances = self.compute_api.get_all(c, search_opts={'metadata': {'key5': 'value1'}}) self.assertEqual(len(instances), 0) # find existing instance instances = self.compute_api.get_all(c, search_opts={'metadata': {'key2': 'value2'}}) self.assertEqual(len(instances), 1) self.assertEqual(instances[0]['uuid'], instance2['uuid']) instances = self.compute_api.get_all(c, search_opts={'metadata': {'key3': 'value3'}}) self.assertEqual(len(instances), 2) instance_uuids = [instance['uuid'] for instance in instances] self.assertTrue(instance3['uuid'] in instance_uuids) self.assertTrue(instance4['uuid'] in instance_uuids) # multiple criterias as a dict instances = self.compute_api.get_all(c, search_opts={'metadata': {'key3': 'value3', 'key4': 'value4'}}) self.assertEqual(len(instances), 1) self.assertEqual(instances[0]['uuid'], instance4['uuid']) # multiple criterias as a list instances = self.compute_api.get_all(c, search_opts={'metadata': [{'key4': 'value4'}, {'key3': 'value3'}]}) self.assertEqual(len(instances), 1) self.assertEqual(instances[0]['uuid'], instance4['uuid']) db.instance_destroy(c, instance0['id']) db.instance_destroy(c, instance1['id']) db.instance_destroy(c, instance2['id']) db.instance_destroy(c, instance3['id']) db.instance_destroy(c, instance4['id']) def test_instance_metadata(self): """Test searching instances by state""" _context = context.get_admin_context() instance = self._create_fake_instance({'metadata': {'key1': 'value1'}}) metadata = self.compute_api.get_instance_metadata(_context, instance) self.assertEqual(metadata, {'key1': 'value1'}) self.compute_api.update_instance_metadata(_context, instance, {'key2': 'value2'}) metadata = self.compute_api.get_instance_metadata(_context, instance) self.assertEqual(metadata, {'key1': 'value1', 'key2': 'value2'}) new_metadata = {'key2': 'bah', 'key3': 'value3'} self.compute_api.update_instance_metadata(_context, instance, new_metadata, delete=True) metadata = self.compute_api.get_instance_metadata(_context, instance) self.assertEqual(metadata, new_metadata) self.compute_api.delete_instance_metadata(_context, instance, 'key2') metadata = self.compute_api.get_instance_metadata(_context, instance) self.assertEqual(metadata, {'key3': 'value3'}) db.instance_destroy(_context, instance['id']) def test_get_instance_faults(self): """Get an instances latest fault""" instance = self._create_fake_instance() fault_fixture = { 'code': 404, 'instance_uuid': instance['uuid'], 'message': "HTTPNotFound", 'details': "Stock details for test", 'created_at': datetime.datetime(2010, 10, 10, 12, 0, 0), } def return_fault(_ctxt, instance_uuids): return dict.fromkeys(instance_uuids, [fault_fixture]) self.stubs.Set(nova.db, 'instance_fault_get_by_instance_uuids', return_fault) _context = context.get_admin_context() output = self.compute_api.get_instance_faults(_context, [instance]) expected = {instance['uuid']: [fault_fixture]} self.assertEqual(output, expected) db.instance_destroy(_context, instance['id']) @staticmethod def _parse_db_block_device_mapping(bdm_ref): attr_list = ('delete_on_termination', 'device_name', 'no_device', 'virtual_name', 'volume_id', 'volume_size', 'snapshot_id') bdm = {} for attr in attr_list: val = bdm_ref.get(attr, None) if val: bdm[attr] = val return bdm def test_update_block_device_mapping(self): swap_size = 1 instance_type = {'swap': swap_size} instance = self._create_fake_instance() mappings = [ {'virtual': 'ami', 'device': 'sda1'}, {'virtual': 'root', 'device': '/dev/sda1'}, {'virtual': 'swap', 'device': 'sdb4'}, {'virtual': 'swap', 'device': 'sdb3'}, {'virtual': 'swap', 'device': 'sdb2'}, {'virtual': 'swap', 'device': 'sdb1'}, {'virtual': 'ephemeral0', 'device': 'sdc1'}, {'virtual': 'ephemeral1', 'device': 'sdc2'}, {'virtual': 'ephemeral2', 'device': 'sdc3'}] block_device_mapping = [ # root {'device_name': '/dev/sda1', 'snapshot_id': '00000000-aaaa-bbbb-cccc-000000000000', 'delete_on_termination': False}, # overwrite swap {'device_name': '/dev/sdb2', 'snapshot_id': '11111111-aaaa-bbbb-cccc-111111111111', 'delete_on_termination': False}, {'device_name': '/dev/sdb3', 'snapshot_id': '22222222-aaaa-bbbb-cccc-222222222222'}, {'device_name': '/dev/sdb4', 'no_device': True}, # overwrite ephemeral {'device_name': '/dev/sdc2', 'snapshot_id': '33333333-aaaa-bbbb-cccc-333333333333', 'delete_on_termination': False}, {'device_name': '/dev/sdc3', 'snapshot_id': '44444444-aaaa-bbbb-cccc-444444444444'}, {'device_name': '/dev/sdc4', 'no_device': True}, # volume {'device_name': '/dev/sdd1', 'snapshot_id': '55555555-aaaa-bbbb-cccc-555555555555', 'delete_on_termination': False}, {'device_name': '/dev/sdd2', 'snapshot_id': '66666666-aaaa-bbbb-cccc-666666666666'}, {'device_name': '/dev/sdd3', 'snapshot_id': '77777777-aaaa-bbbb-cccc-777777777777'}, {'device_name': '/dev/sdd4', 'no_device': True}] self.compute_api._update_image_block_device_mapping( self.context, instance_type, instance['uuid'], mappings) bdms = [self._parse_db_block_device_mapping(bdm_ref) for bdm_ref in db.block_device_mapping_get_all_by_instance( self.context, instance['uuid'])] expected_result = [ {'virtual_name': 'swap', 'device_name': '/dev/sdb1', 'volume_size': swap_size}, {'virtual_name': 'ephemeral0', 'device_name': '/dev/sdc1'}, # NOTE(yamahata): ATM only ephemeral0 is supported. # they're ignored for now #{'virtual_name': 'ephemeral1', 'device_name': '/dev/sdc2'}, #{'virtual_name': 'ephemeral2', 'device_name': '/dev/sdc3'} ] bdms.sort() expected_result.sort() self.assertDictListMatch(bdms, expected_result) self.compute_api._update_block_device_mapping( self.context, instance_types.get_default_instance_type(), instance['uuid'], block_device_mapping) bdms = [self._parse_db_block_device_mapping(bdm_ref) for bdm_ref in db.block_device_mapping_get_all_by_instance( self.context, instance['uuid'])] expected_result = [ {'snapshot_id': '00000000-aaaa-bbbb-cccc-000000000000', 'device_name': '/dev/sda1'}, {'virtual_name': 'swap', 'device_name': '/dev/sdb1', 'volume_size': swap_size}, {'snapshot_id': '11111111-aaaa-bbbb-cccc-111111111111', 'device_name': '/dev/sdb2'}, {'snapshot_id': '22222222-aaaa-bbbb-cccc-222222222222', 'device_name': '/dev/sdb3'}, {'no_device': True, 'device_name': '/dev/sdb4'}, {'virtual_name': 'ephemeral0', 'device_name': '/dev/sdc1'}, {'snapshot_id': '33333333-aaaa-bbbb-cccc-333333333333', 'device_name': '/dev/sdc2'}, {'snapshot_id': '44444444-aaaa-bbbb-cccc-444444444444', 'device_name': '/dev/sdc3'}, {'no_device': True, 'device_name': '/dev/sdc4'}, {'snapshot_id': '55555555-aaaa-bbbb-cccc-555555555555', 'device_name': '/dev/sdd1'}, {'snapshot_id': '66666666-aaaa-bbbb-cccc-666666666666', 'device_name': '/dev/sdd2'}, {'snapshot_id': '77777777-aaaa-bbbb-cccc-777777777777', 'device_name': '/dev/sdd3'}, {'no_device': True, 'device_name': '/dev/sdd4'}] bdms.sort() expected_result.sort() self.assertDictListMatch(bdms, expected_result) for bdm in db.block_device_mapping_get_all_by_instance( self.context, instance['uuid']): db.block_device_mapping_destroy(self.context, bdm['id']) instance = db.instance_get_by_uuid(self.context, instance['uuid']) self.compute.terminate_instance(self.context, instance['uuid']) def test_volume_size(self): ephemeral_size = 2 swap_size = 3 inst_type = {'ephemeral_gb': ephemeral_size, 'swap': swap_size} self.assertEqual(self.compute_api._volume_size(inst_type, 'ephemeral0'), ephemeral_size) self.assertEqual(self.compute_api._volume_size(inst_type, 'ephemeral1'), 0) self.assertEqual(self.compute_api._volume_size(inst_type, 'swap'), swap_size) def test_reservation_id_one_instance(self): """Verify building an instance has a reservation_id that matches return value from create""" (refs, resv_id) = self.compute_api.create(self.context, instance_types.get_default_instance_type(), None) try: self.assertEqual(len(refs), 1) self.assertEqual(refs[0]['reservation_id'], resv_id) finally: db.instance_destroy(self.context, refs[0]['id']) def test_reservation_ids_two_instances(self): """Verify building 2 instances at once results in a reservation_id being returned equal to reservation id set in both instances """ (refs, resv_id) = self.compute_api.create(self.context, instance_types.get_default_instance_type(), None, min_count=2, max_count=2) try: self.assertEqual(len(refs), 2) self.assertNotEqual(resv_id, None) finally: for instance in refs: self.assertEqual(instance['reservation_id'], resv_id) db.instance_destroy(self.context, refs[0]['id']) def test_instance_name_template(self): """Test the instance_name template""" self.flags(instance_name_template='instance-%d') i_ref = self._create_fake_instance() self.assertEqual(i_ref['name'], 'instance-%d' % i_ref['id']) db.instance_destroy(self.context, i_ref['id']) self.flags(instance_name_template='instance-%(uuid)s') i_ref = self._create_fake_instance() self.assertEqual(i_ref['name'], 'instance-%s' % i_ref['uuid']) db.instance_destroy(self.context, i_ref['id']) self.flags(instance_name_template='%(id)d-%(uuid)s') i_ref = self._create_fake_instance() self.assertEqual(i_ref['name'], '%d-%s' % (i_ref['id'], i_ref['uuid'])) db.instance_destroy(self.context, i_ref['id']) # not allowed.. default is uuid self.flags(instance_name_template='%(name)s') i_ref = self._create_fake_instance() self.assertEqual(i_ref['name'], i_ref['uuid']) db.instance_destroy(self.context, i_ref['id']) def test_add_remove_fixed_ip(self): instance = self._create_fake_instance() self.compute_api.add_fixed_ip(self.context, instance, '1') self.compute_api.remove_fixed_ip(self.context, instance, '192.168.1.1') self.compute_api.delete(self.context, instance) def test_attach_volume_invalid(self): self.assertRaises(exception.InvalidDevicePath, self.compute_api.attach_volume, self.context, None, None, '/dev/invalid') def test_vnc_console(self): """Make sure we can a vnc console for an instance.""" fake_instance = {'uuid': 'fake_uuid', 'host': 'fake_compute_host'} fake_console_type = "novnc" fake_connect_info = {'token': 'fake_token', 'console_type': fake_console_type, 'host': 'fake_console_host', 'port': 'fake_console_port', 'internal_access_path': 'fake_access_path', 'access_url': 'fake_console_url'} self.mox.StubOutWithMock(rpc, 'call') rpc_msg1 = {'method': 'get_vnc_console', 'args': {'instance_uuid': fake_instance['uuid'], 'console_type': fake_console_type}} # 2nd rpc.call receives almost everything from fake_connect_info # except 'access_url' rpc_msg2_args = dict([(k, v) for k, v in fake_connect_info.items() if k != 'access_url']) rpc_msg2 = {'method': 'authorize_console', 'args': rpc_msg2_args} rpc.call(self.context, 'compute.%s' % fake_instance['host'], rpc_msg1).AndReturn(fake_connect_info) rpc.call(self.context, FLAGS.consoleauth_topic, rpc_msg2).AndReturn(None) self.mox.ReplayAll() console = self.compute_api.get_vnc_console(self.context, fake_instance, fake_console_type) self.assertEqual(console, {'url': 'fake_console_url'}) def test_console_output(self): fake_instance = {'uuid': 'fake_uuid', 'host': 'fake_compute_host'} fake_tail_length = 699 fake_console_output = 'fake console output' self.mox.StubOutWithMock(rpc, 'call') rpc_msg = {'method': 'get_console_output', 'args': {'instance_uuid': fake_instance['uuid'], 'tail_length': fake_tail_length}} rpc.call(self.context, 'compute.%s' % fake_instance['host'], rpc_msg).AndReturn(fake_console_output) self.mox.ReplayAll() output = self.compute_api.get_console_output(self.context, fake_instance, tail_length=fake_tail_length) self.assertEqual(output, fake_console_output) def test_attach_volume(self): """Ensure instance can be soft rebooted""" def fake_check_attach(*args, **kwargs): pass def fake_reserve_volume(*args, **kwargs): pass def fake_volume_get(self, context, volume_id): return {'id': volume_id} self.stubs.Set(nova.volume.api.API, 'get', fake_volume_get) self.stubs.Set(nova.volume.api.API, 'check_attach', fake_check_attach) self.stubs.Set(nova.volume.api.API, 'reserve_volume', fake_reserve_volume) instance = self._create_fake_instance() self.compute_api.attach_volume(self.context, instance, 1, '/dev/vdb') def test_inject_network_info(self): instance = self._create_fake_instance() self.compute.run_instance(self.context, instance['uuid']) instance = self.compute_api.get(self.context, instance['uuid']) self.compute_api.inject_network_info(self.context, instance) self.compute_api.delete(self.context, instance) def test_reset_network(self): instance = self._create_fake_instance() self.compute.run_instance(self.context, instance['uuid']) instance = self.compute_api.get(self.context, instance['uuid']) self.compute_api.reset_network(self.context, instance) def test_lock(self): instance = self._create_fake_instance() self.compute_api.lock(self.context, instance) self.compute_api.delete(self.context, instance) def test_unlock(self): instance = self._create_fake_instance() self.compute_api.unlock(self.context, instance) self.compute_api.delete(self.context, instance) def test_get_lock(self): instance = self._create_fake_instance() self.assertFalse(self.compute_api.get_lock(self.context, instance)) db.instance_update(self.context, instance['uuid'], {'locked': True}) self.assertTrue(self.compute_api.get_lock(self.context, instance)) def test_add_remove_security_group(self): instance = self._create_fake_instance() self.compute.run_instance(self.context, instance['uuid']) instance = self.compute_api.get(self.context, instance['uuid']) security_group_name = self._create_group()['name'] self.compute_api.add_security_group(self.context, instance, security_group_name) self.compute_api.remove_security_group(self.context, instance, security_group_name) def test_get_diagnostics(self): instance = self._create_fake_instance() self.compute_api.get_diagnostics(self.context, instance) self.compute_api.delete(self.context, instance) def test_inject_file(self): """Ensure we can write a file to an instance""" instance = self._create_fake_instance() self.compute_api.inject_file(self.context, instance, "/tmp/test", "File Contents") db.instance_destroy(self.context, instance['id']) def fake_rpc_method(context, topic, msg, do_cast=True): pass def _create_service_entries(context, values={'avail_zone1': ['fake_host1', 'fake_host2'], 'avail_zone2': ['fake_host3'], }): for avail_zone, hosts in values.iteritems(): for host in hosts: db.service_create(context, {'host': host, 'binary': 'nova-compute', 'topic': 'compute', 'report_count': 0, 'availability_zone': avail_zone}) return values class ComputeAPIAggrTestCase(test.TestCase): """This is for unit coverage of aggregate-related methods defined in nova.compute.api.""" def setUp(self): super(ComputeAPIAggrTestCase, self).setUp() self.api = compute_api.AggregateAPI() self.context = context.get_admin_context() self.stubs.Set(rpc, 'call', fake_rpc_method) self.stubs.Set(rpc, 'cast', fake_rpc_method) def test_create_invalid_availability_zone(self): """Ensure InvalidAggregateAction is raised with wrong avail_zone.""" self.assertRaises(exception.InvalidAggregateAction, self.api.create_aggregate, self.context, 'fake_aggr', 'fake_avail_zone') def test_update_aggregate_metadata(self): _create_service_entries(self.context, {'fake_zone': ['fake_host']}) aggr = self.api.create_aggregate(self.context, 'fake_aggregate', 'fake_zone') metadata = {'foo_key1': 'foo_value1', 'foo_key2': 'foo_value2', } aggr = self.api.update_aggregate_metadata(self.context, aggr['id'], metadata) metadata['foo_key1'] = None expected = self.api.update_aggregate_metadata(self.context, aggr['id'], metadata) self.assertDictMatch(expected['metadata'], {'foo_key2': 'foo_value2'}) def test_delete_aggregate(self): """Ensure we can delete an aggregate.""" _create_service_entries(self.context, {'fake_zone': ['fake_host']}) aggr = self.api.create_aggregate(self.context, 'fake_aggregate', 'fake_zone') self.api.delete_aggregate(self.context, aggr['id']) expected = db.aggregate_get(self.context.elevated(read_deleted='yes'), aggr['id']) self.assertNotEqual(aggr['operational_state'], expected['operational_state']) def test_delete_non_empty_aggregate(self): """Ensure InvalidAggregateAction is raised when non empty aggregate.""" _create_service_entries(self.context, {'fake_availability_zone': ['fake_host']}) aggr = self.api.create_aggregate(self.context, 'fake_aggregate', 'fake_availability_zone') self.api.add_host_to_aggregate(self.context, aggr['id'], 'fake_host') self.assertRaises(exception.InvalidAggregateAction, self.api.delete_aggregate, self.context, aggr['id']) def test_add_host_to_aggregate(self): """Ensure we can add a host to an aggregate.""" values = _create_service_entries(self.context) fake_zone = values.keys()[0] fake_host = values[fake_zone][0] aggr = self.api.create_aggregate(self.context, 'fake_aggregate', fake_zone) aggr = self.api.add_host_to_aggregate(self.context, aggr['id'], fake_host) self.assertEqual(aggr['operational_state'], aggregate_states.CHANGING) def test_add_host_to_aggregate_multiple(self): """Ensure we can add multiple hosts to an aggregate.""" values = _create_service_entries(self.context) fake_zone = values.keys()[0] aggr = self.api.create_aggregate(self.context, 'fake_aggregate', fake_zone) # let's mock the fact that the aggregate is active already! status = {'operational_state': aggregate_states.ACTIVE} db.aggregate_update(self.context, aggr['id'], status) for host in values[fake_zone]: aggr = self.api.add_host_to_aggregate(self.context, aggr['id'], host) self.assertEqual(len(aggr['hosts']), len(values[fake_zone])) self.assertEqual(aggr['operational_state'], aggregate_states.ACTIVE) def test_add_host_to_aggregate_invalid_changing_status(self): """Ensure InvalidAggregateAction is raised when adding host while aggregate is not ready.""" values = _create_service_entries(self.context) fake_zone = values.keys()[0] fake_host = values[fake_zone][0] aggr = self.api.create_aggregate(self.context, 'fake_aggregate', fake_zone) aggr = self.api.add_host_to_aggregate(self.context, aggr['id'], fake_host) self.assertEqual(aggr['operational_state'], aggregate_states.CHANGING) self.assertRaises(exception.InvalidAggregateAction, self.api.add_host_to_aggregate, self.context, aggr['id'], fake_host) def test_add_host_to_aggregate_invalid_dismissed_status(self): """Ensure InvalidAggregateAction is raised when aggregate is deleted.""" _create_service_entries(self.context, {'fake_zone': ['fake_host']}) aggr = self.api.create_aggregate(self.context, 'fake_aggregate', 'fake_zone') # let's mock the fact that the aggregate is dismissed! status = {'operational_state': aggregate_states.DISMISSED} db.aggregate_update(self.context, aggr['id'], status) self.assertRaises(exception.InvalidAggregateAction, self.api.add_host_to_aggregate, self.context, aggr['id'], 'fake_host') def test_add_host_to_aggregate_invalid_error_status(self): """Ensure InvalidAggregateAction is raised when aggregate is in error.""" _create_service_entries(self.context, {'fake_zone': ['fake_host']}) aggr = self.api.create_aggregate(self.context, 'fake_aggregate', 'fake_zone') # let's mock the fact that the aggregate is in error! status = {'operational_state': aggregate_states.ERROR} db.aggregate_update(self.context, aggr['id'], status) self.assertRaises(exception.InvalidAggregateAction, self.api.add_host_to_aggregate, self.context, aggr['id'], 'fake_host') def test_add_host_to_aggregate_zones_mismatch(self): """Ensure InvalidAggregateAction is raised when zones don't match.""" _create_service_entries(self.context, {'fake_zoneX': ['fake_host1'], 'fake_zoneY': ['fake_host2']}) aggr = self.api.create_aggregate(self.context, 'fake_aggregate', 'fake_zoneY') self.assertRaises(exception.InvalidAggregateAction, self.api.add_host_to_aggregate, self.context, aggr['id'], 'fake_host1') def test_add_host_to_aggregate_raise_not_found(self): """Ensure ComputeHostNotFound is raised when adding invalid host.""" _create_service_entries(self.context, {'fake_zone': ['fake_host']}) aggr = self.api.create_aggregate(self.context, 'fake_aggregate', 'fake_zone') self.assertRaises(exception.ComputeHostNotFound, self.api.add_host_to_aggregate, self.context, aggr['id'], 'invalid_host') def test_remove_host_from_aggregate_active(self): """Ensure we can remove a host from an aggregate.""" values = _create_service_entries(self.context) fake_zone = values.keys()[0] aggr = self.api.create_aggregate(self.context, 'fake_aggregate', fake_zone) # let's mock the fact that the aggregate is active already! status = {'operational_state': aggregate_states.ACTIVE} db.aggregate_update(self.context, aggr['id'], status) for host in values[fake_zone]: aggr = self.api.add_host_to_aggregate(self.context, aggr['id'], host) expected = self.api.remove_host_from_aggregate(self.context, aggr['id'], values[fake_zone][0]) self.assertEqual(len(aggr['hosts']) - 1, len(expected['hosts'])) self.assertEqual(expected['operational_state'], aggregate_states.ACTIVE) def test_remove_host_from_aggregate_error(self): """Ensure we can remove a host from an aggregate even if in error.""" values = _create_service_entries(self.context) fake_zone = values.keys()[0] aggr = self.api.create_aggregate(self.context, 'fake_aggregate', fake_zone) # let's mock the fact that the aggregate is ready! status = {'operational_state': aggregate_states.ACTIVE} db.aggregate_update(self.context, aggr['id'], status) for host in values[fake_zone]: aggr = self.api.add_host_to_aggregate(self.context, aggr['id'], host) # let's mock the fact that the aggregate is in error! status = {'operational_state': aggregate_states.ERROR} expected = self.api.remove_host_from_aggregate(self.context, aggr['id'], values[fake_zone][0]) self.assertEqual(len(aggr['hosts']) - 1, len(expected['hosts'])) self.assertEqual(expected['operational_state'], aggregate_states.ACTIVE) def test_remove_host_from_aggregate_invalid_dismissed_status(self): """Ensure InvalidAggregateAction is raised when aggregate is deleted.""" _create_service_entries(self.context, {'fake_zone': ['fake_host']}) aggr = self.api.create_aggregate(self.context, 'fake_aggregate', 'fake_zone') # let's mock the fact that the aggregate is dismissed! status = {'operational_state': aggregate_states.DISMISSED} db.aggregate_update(self.context, aggr['id'], status) self.assertRaises(exception.InvalidAggregateAction, self.api.remove_host_from_aggregate, self.context, aggr['id'], 'fake_host') def test_remove_host_from_aggregate_invalid_changing_status(self): """Ensure InvalidAggregateAction is raised when aggregate is changing.""" _create_service_entries(self.context, {'fake_zone': ['fake_host']}) aggr = self.api.create_aggregate(self.context, 'fake_aggregate', 'fake_zone') # let's mock the fact that the aggregate is changing! status = {'operational_state': aggregate_states.CHANGING} db.aggregate_update(self.context, aggr['id'], status) self.assertRaises(exception.InvalidAggregateAction, self.api.remove_host_from_aggregate, self.context, aggr['id'], 'fake_host') def test_remove_host_from_aggregate_raise_not_found(self): """Ensure ComputeHostNotFound is raised when removing invalid host.""" _create_service_entries(self.context, {'fake_zone': ['fake_host']}) aggr = self.api.create_aggregate(self.context, 'fake_aggregate', 'fake_zone') self.assertRaises(exception.ComputeHostNotFound, self.api.remove_host_from_aggregate, self.context, aggr['id'], 'invalid_host') class ComputeAggrTestCase(BaseTestCase): """This is for unit coverage of aggregate-related methods defined in nova.compute.manager.""" def setUp(self): super(ComputeAggrTestCase, self).setUp() self.context = context.get_admin_context() values = {'name': 'test_aggr', 'availability_zone': 'test_zone', } self.aggr = db.aggregate_create(self.context, values) def test_add_aggregate_host(self): def fake_driver_add_to_aggregate(context, aggregate, host): fake_driver_add_to_aggregate.called = True return {"foo": "bar"} self.stubs.Set(self.compute.driver, "add_to_aggregate", fake_driver_add_to_aggregate) self.compute.add_aggregate_host(self.context, self.aggr.id, "host") self.assertTrue(fake_driver_add_to_aggregate.called) def test_add_aggregate_host_raise_err(self): """Ensure the undo operation works correctly on add.""" def fake_driver_add_to_aggregate(context, aggregate, host): raise exception.AggregateError self.stubs.Set(self.compute.driver, "add_to_aggregate", fake_driver_add_to_aggregate) state = {'operational_state': aggregate_states.ACTIVE} db.aggregate_update(self.context, self.aggr.id, state) db.aggregate_host_add(self.context, self.aggr.id, 'fake_host') self.assertRaises(exception.AggregateError, self.compute.add_aggregate_host, self.context, self.aggr.id, "fake_host") excepted = db.aggregate_get(self.context, self.aggr.id) self.assertEqual(excepted.operational_state, aggregate_states.ERROR) self.assertEqual(excepted.hosts, []) def test_remove_aggregate_host(self): def fake_driver_remove_from_aggregate(context, aggregate, host): fake_driver_remove_from_aggregate.called = True self.assertEqual("host", host, "host") return {"foo": "bar"} self.stubs.Set(self.compute.driver, "remove_from_aggregate", fake_driver_remove_from_aggregate) self.compute.remove_aggregate_host(self.context, self.aggr.id, "host") self.assertTrue(fake_driver_remove_from_aggregate.called) def test_remove_aggregate_host_raise_err(self): """Ensure the undo operation works correctly on remove.""" def fake_driver_remove_from_aggregate(context, aggregate, host): raise exception.AggregateError self.stubs.Set(self.compute.driver, "remove_from_aggregate", fake_driver_remove_from_aggregate) state = {'operational_state': aggregate_states.ACTIVE} db.aggregate_update(self.context, self.aggr.id, state) self.assertRaises(exception.AggregateError, self.compute.remove_aggregate_host, self.context, self.aggr.id, "fake_host") excepted = db.aggregate_get(self.context, self.aggr.id) self.assertEqual(excepted.operational_state, aggregate_states.ERROR) self.assertEqual(excepted.hosts, ['fake_host']) class ComputePolicyTestCase(BaseTestCase): def setUp(self): super(ComputePolicyTestCase, self).setUp() nova.policy.reset() nova.policy.init() self.compute_api = compute.API() def tearDown(self): super(ComputePolicyTestCase, self).tearDown() nova.policy.reset() def _set_rules(self, rules): nova.common.policy.set_brain(nova.common.policy.HttpBrain(rules)) def test_actions_are_prefixed(self): self.mox.StubOutWithMock(nova.policy, 'enforce') nova.policy.enforce(self.context, 'compute:reboot', {}) self.mox.ReplayAll() nova.compute.api.check_policy(self.context, 'reboot', {}) def test_wrapped_method(self): instance = self._create_fake_instance() # Reset this to None for this policy check. If it's set, it # tries to do a compute_api.update() and we're not testing for # that here. instance['host'] = None self.compute.run_instance(self.context, instance['uuid']) # force delete to fail rules = {"compute:delete": [["false:false"]]} self._set_rules(rules) self.assertRaises(exception.PolicyNotAuthorized, self.compute_api.delete, self.context, instance) # reset rules to allow deletion rules = {"compute:delete": []} self._set_rules(rules) self.compute_api.delete(self.context, instance) def test_create_fail(self): rules = {"compute:create": [["false:false"]]} self._set_rules(rules) self.assertRaises(exception.PolicyNotAuthorized, self.compute_api.create, self.context, '1', '1') def test_create_attach_volume_fail(self): rules = { "compute:create": [], "compute:create:attach_network": [["false:false"]], "compute:create:attach_volume": [], } self._set_rules(rules) self.assertRaises(exception.PolicyNotAuthorized, self.compute_api.create, self.context, '1', '1', requested_networks='blah', block_device_mapping='blah') def test_create_attach_network_fail(self): rules = { "compute:create": [], "compute:create:attach_network": [], "compute:create:attach_volume": [["false:false"]], } self._set_rules(rules) self.assertRaises(exception.PolicyNotAuthorized, self.compute_api.create, self.context, '1', '1', requested_networks='blah', block_device_mapping='blah') def test_get_fail(self): instance = self._create_fake_instance() rules = { "compute:get": [["false:false"]], } self._set_rules(rules) self.assertRaises(exception.PolicyNotAuthorized, self.compute_api.get, self.context, instance['uuid']) def test_get_all_fail(self): rules = { "compute:get_all": [["false:false"]], } self._set_rules(rules) self.assertRaises(exception.PolicyNotAuthorized, self.compute_api.get_all, self.context) def test_get_instance_faults(self): instance1 = self._create_fake_instance() instance2 = self._create_fake_instance() instances = [instance1, instance2] rules = { "compute:get_instance_faults": [["false:false"]], } self._set_rules(rules) self.assertRaises(exception.PolicyNotAuthorized, self.compute_api.get_instance_faults, self.context, instances) class ComputeHostAPITestCase(BaseTestCase): def setUp(self): super(ComputeHostAPITestCase, self).setUp() self.host_api = compute_api.HostAPI() def _rpc_call_stub(self, call_info): def fake_rpc_call(context, topic, msg): call_info['context'] = context call_info['topic'] = topic call_info['msg'] = msg self.stubs.Set(rpc, 'call', fake_rpc_call) def test_set_host_enabled(self): ctxt = context.RequestContext('fake', 'fake') call_info = {} self._rpc_call_stub(call_info) self.host_api.set_host_enabled(ctxt, 'fake_host', 'fake_enabled') self.assertEqual(call_info['context'], ctxt) self.assertEqual(call_info['topic'], 'compute.fake_host') self.assertEqual(call_info['msg'], {'method': 'set_host_enabled', 'args': {'enabled': 'fake_enabled'}}) def test_host_power_action(self): ctxt = context.RequestContext('fake', 'fake') call_info = {} self._rpc_call_stub(call_info) self.host_api.host_power_action(ctxt, 'fake_host', 'fake_action') self.assertEqual(call_info['context'], ctxt) self.assertEqual(call_info['topic'], 'compute.fake_host') self.assertEqual(call_info['msg'], {'method': 'host_power_action', 'args': {'action': 'fake_action'}}) def test_set_host_maintenance(self): ctxt = context.RequestContext('fake', 'fake') call_info = {} self._rpc_call_stub(call_info) self.host_api.set_host_maintenance(ctxt, 'fake_host', 'fake_mode') self.assertEqual(call_info['context'], ctxt) self.assertEqual(call_info['topic'], 'compute.fake_host') self.assertEqual(call_info['msg'], {'method': 'host_maintenance_mode', 'args': {'host': 'fake_host', 'mode': 'fake_mode'}}) class KeypairAPITestCase(BaseTestCase): def setUp(self): super(KeypairAPITestCase, self).setUp() self.keypair_api = compute_api.KeypairAPI() self.ctxt = context.RequestContext('fake', 'fake') self._keypair_db_call_stubs() self.pub_key = 'ssh-rsa AAAAB3NzaC1yc2EAAAADAQABAAABAQDLnVkqJu9WVf' \ '/5StU3JCrBR2r1s1j8K1tux+5XeSvdqaM8lMFNorzbY5iyoBbRS56gy' \ '1jmm43QsMPJsrpfUZKcJpRENSe3OxIIwWXRoiapZe78u/a9xKwj0avF' \ 'YMcws9Rk9iAB7W4K1nEJbyCPl5lRBoyqeHBqrnnuXWEgGxJCK0Ah6wc' \ 'OzwlEiVjdf4kxzXrwPHyi7Ea1qvnNXTziF8yYmUlH4C8UXfpTQckwSw' \ 'pDyxZUc63P8q+vPbs3Q2kw+/7vvkCKHJAXVI+oCiyMMfffoTq16M1xf' \ 'V58JstgtTqAXG+ZFpicGajREUE/E3hO5MGgcHmyzIrWHKpe1n3oEGuz' self.fingerprint = '4e:48:c6:a0:4a:f9:dd:b5:4c:85:54:5a:af:43:47:5a' def _keypair_db_call_stubs(self): def db_key_pair_get_all_by_user(self, user_id): return [] def db_key_pair_create(self, keypair): pass def db_key_pair_destroy(context, user_id, name): pass self.stubs.Set(db, "key_pair_get_all_by_user", db_key_pair_get_all_by_user) self.stubs.Set(db, "key_pair_create", db_key_pair_create) self.stubs.Set(db, "key_pair_destroy", db_key_pair_destroy) def test_create_keypair(self): keypair = self.keypair_api.create_key_pair(self.ctxt, self.ctxt.user_id, 'foo') self.assertEqual('foo', keypair['name']) def test_create_keypair_name_too_long(self): self.assertRaises(exception.InvalidKeypair, self.keypair_api.create_key_pair, self.ctxt, self.ctxt.user_id, 'x' * 256) def test_create_keypair_invalid_chars(self): self.assertRaises(exception.InvalidKeypair, self.keypair_api.create_key_pair, self.ctxt, self.ctxt.user_id, '* BAD CHARACTERS! *') def test_create_keypair_already_exists(self): def db_key_pair_get(context, user_id, name): pass self.stubs.Set(db, "key_pair_get", db_key_pair_get) self.assertRaises(exception.KeyPairExists, self.keypair_api.create_key_pair, self.ctxt, self.ctxt.user_id, 'foo') def test_create_keypair_quota_limit(self): def db_key_pair_count_by_user_max(self, user_id): return FLAGS.quota_key_pairs self.stubs.Set(db, "key_pair_count_by_user", db_key_pair_count_by_user_max) self.assertRaises(exception.KeypairLimitExceeded, self.keypair_api.create_key_pair, self.ctxt, self.ctxt.user_id, 'foo') def test_import_keypair(self): keypair = self.keypair_api.import_key_pair(self.ctxt, self.ctxt.user_id, 'foo', self.pub_key) self.assertEqual('foo', keypair['name']) self.assertEqual(self.fingerprint, keypair['fingerprint']) self.assertEqual(self.pub_key, keypair['public_key']) def test_import_keypair_bad_public_key(self): self.assertRaises(exception.InvalidKeypair, self.keypair_api.import_key_pair, self.ctxt, self.ctxt.user_id, 'foo', 'bad key data') def test_import_keypair_name_too_long(self): self.assertRaises(exception.InvalidKeypair, self.keypair_api.import_key_pair, self.ctxt, self.ctxt.user_id, 'x' * 256, self.pub_key) def test_import_keypair_invalid_chars(self): self.assertRaises(exception.InvalidKeypair, self.keypair_api.import_key_pair, self.ctxt, self.ctxt.user_id, '* BAD CHARACTERS! *', self.pub_key) def test_import_keypair_quota_limit(self): def db_key_pair_count_by_user_max(self, user_id): return FLAGS.quota_key_pairs self.stubs.Set(db, "key_pair_count_by_user", db_key_pair_count_by_user_max) self.assertRaises(exception.KeypairLimitExceeded, self.keypair_api.import_key_pair, self.ctxt, self.ctxt.user_id, 'foo', self.pub_key)