x/python-ganttclient
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32ca6596307b90b6778f6d2d66c3e202a89b900f
python-ganttclient/nova/tests/test_compute.py
Mark Washenberger be3607d45e vm_state:=error on driver exceptions during resize 
Set vm_state to error if a driver raises an exception (of any type)
during resize_instance and finish_resize.

I want to highlight that there is a slight behavioral change here.
Before, on a MigrationError the exception was not reraised in the
resize_instance function. However, based on my understanding it is not
a big deal to make this change. The worst case is log duplication in
a fairly rare error state.

Change-Id: Ifd1ea66cf3f2e59ee06714f666e357a99936b4e3
2011-12-06 15:29:28 -05:00

2384 lines
98 KiB
Python
Raw Blame History

# 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
"""
from copy import copy
import mox
import nova
from nova import compute
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.network.quantum import client as quantum_client
from nova.notifier import test_notifier
from nova.scheduler import driver as scheduler_driver
from nova import rpc
from nova import test
from nova.tests import fake_network
from nova import utils
import nova.volume
LOG = logging.getLogger('nova.tests.compute')
FLAGS = flags.FLAGS
flags.DECLARE('stub_network', 'nova.compute.manager')
flags.DECLARE('live_migration_retry_count', 'nova.compute.manager')
class FakeTime(object):
def __init__(self):
self.counter = 0
def sleep(self, t):
self.counter += t
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 x in xrange(num_instances):
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 = utils.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': 1, 'ramdisk_id': 1}}
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 _create_fake_instance(self, params=None):
"""Create a test instance"""
if not params:
params = {}
inst = {}
inst['image_ref'] = 1
inst['reservation_id'] = 'r-fakeres'
inst['launch_time'] = '10'
inst['user_id'] = self.user_id
inst['project_id'] = self.project_id
type_id = instance_types.get_instance_type_by_name('m1.tiny')['id']
inst['instance_type_id'] = type_id
inst['ami_launch_index'] = 0
inst.update(params)
return db.instance_create(self.context, inst)
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['local_gb'] = '20'
inst['flavorid'] = '1'
inst['swap'] = '2048'
inst['rxtx_quota'] = 100
inst['rxtx_cap'] = 200
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 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_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(True)
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']
self.compute.run_instance(self.context, instance_uuid)
self.compute.rebuild_instance(self.context, instance_uuid)
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_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_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'])
console = self.compute.get_console_output(self.context,
instance['uuid'])
self.assert_(console)
self.compute.terminate_instance(self.context, instance['uuid'])
def test_ajax_console(self):
"""Make sure we can get console output from instance"""
instance = self._create_fake_instance()
self.compute.run_instance(self.context, instance['uuid'])
console = self.compute.get_ajax_console(self.context,
instance['uuid'])
self.assert_(set(['token', 'host', 'port']).issubset(console.keys()))
self.compute.terminate_instance(self.context, instance['uuid'])
def test_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'])
self.assert_(console)
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), 1)
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), 1)
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), 1)
inst_ref = db.instance_get_by_uuid(self.context, instance_uuid)
msg = test_notifier.NOTIFICATIONS[0]
self.assertEquals(msg['priority'], 'INFO')
self.assertEquals(msg['event_type'], 'compute.instance.create')
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 = "%s/images/1" % utils.generate_glance_url()
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"""
inst_ref = self._create_fake_instance()
self.compute.run_instance(self.context, inst_ref['uuid'])
test_notifier.NOTIFICATIONS = []
self.compute.terminate_instance(self.context, inst_ref['uuid'])
self.assertEquals(len(test_notifier.NOTIFICATIONS), 2)
msg = test_notifier.NOTIFICATIONS[0]
self.assertEquals(msg['priority'], 'INFO')
self.assertEquals(msg['event_type'], 'compute.instance.exists')
msg = test_notifier.NOTIFICATIONS[1]
self.assertEquals(msg['priority'], 'INFO')
self.assertEquals(msg['event_type'], 'compute.instance.delete')
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.assertTrue('display_name' in payload)
self.assertTrue('created_at' in payload)
self.assertTrue('launched_at' in payload)
image_ref_url = "%s/images/1" % utils.generate_glance_url()
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.Error,
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(quantum_client.QuantumServerException())
FLAGS.stub_network = False
self.mox.ReplayAll()
self.assertRaises(quantum_client.QuantumServerException,
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_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, False, 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)
self.stubs.Set(self.compute.network_api, 'get_instance_nw_info', fake)
context = self.context.elevated()
instance = self._create_fake_instance()
self.compute.prep_resize(context, instance['uuid'], 1)
migration_ref = db.migration_get_by_instance_and_status(context,
instance['uuid'], 'pre-migrating')
try:
self.compute.finish_resize(context, instance['uuid'],
int(migration_ref['id']), {})
except KeyError, e:
# Only catch key errors. We want other reasons for the test to
# fail to actually error out so we don't obscure anything
self.fail()
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 Exception()
def fake(*args, **kwargs):
pass
self.stubs.Set(self.compute.driver, 'finish_migration', throw_up)
self.stubs.Set(self.compute.network_api, 'get_instance_nw_info', fake)
context = self.context.elevated()
instance = self._create_fake_instance()
self.compute.prep_resize(context, instance['uuid'], 1)
migration_ref = db.migration_get_by_instance_and_status(context,
instance['uuid'], 'pre-migrating')
self.assertRaises(Exception, 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_resize_instance_notification(self):
"""Ensure notifications on instance migrate/resize"""
instance = self._create_fake_instance()
instance_uuid = instance['uuid']
context = self.context.elevated()
self.compute.run_instance(self.context, instance_uuid)
test_notifier.NOTIFICATIONS = []
db.instance_update(self.context, instance_uuid, {'host': 'foo'})
self.compute.prep_resize(context, instance_uuid, 1)
db.migration_get_by_instance_and_status(context,
instance_uuid,
'pre-migrating')
self.assertEquals(len(test_notifier.NOTIFICATIONS), 1)
msg = test_notifier.NOTIFICATIONS[0]
self.assertEquals(msg['priority'], 'INFO')
self.assertEquals(msg['event_type'], 'compute.instance.resize.prep')
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 = "%s/images/1" % utils.generate_glance_url()
self.assertEquals(payload['image_ref_url'], image_ref_url)
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)
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"""
context = self.context.elevated()
instance = self._create_fake_instance()
instance_uuid = instance['uuid']
def fake(*args, **kwargs):
pass
self.stubs.Set(self.compute.driver, 'finish_migration', fake)
self.stubs.Set(self.compute.driver, 'finish_revert_migration', fake)
self.stubs.Set(self.compute.network_api, 'get_instance_nw_info', fake)
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'])
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'])
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.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.Error, 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 Exception(reason='test failure')
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)
migration_ref = db.migration_get_by_instance_and_status(context,
inst_ref['uuid'], 'pre-migrating')
self.assertRaises(Exception, 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 _setup_other_managers(self):
self.volume_manager = utils.import_object(FLAGS.volume_manager)
self.network_manager = utils.import_object(FLAGS.network_manager)
self.compute_driver = utils.import_object(FLAGS.compute_driver)
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()
topic = db.queue_get_for(c, FLAGS.compute_topic, inst_ref['host'])
# start test
self.assertRaises(exception.FixedIpNotFoundForInstance,
self.compute.pre_live_migration,
c, inst_ref['id'], time=FakeTime())
# cleanup
db.instance_destroy(c, inst_ref['uuid'])
def test_pre_live_migration_works_correctly(self):
"""Confirm setup_compute_volume is called when volume is mounted."""
# 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 mocks
self.mox.StubOutWithMock(self.compute.driver, 'pre_live_migration')
self.compute.driver.pre_live_migration({'block_device_mapping': []})
dummy_nw_info = [[None, {'ips':'1.1.1.1'}]]
self.mox.StubOutWithMock(self.compute, '_get_instance_nw_info')
self.compute._get_instance_nw_info(c, mox.IsA(inst_ref)
).AndReturn(dummy_nw_info)
self.mox.StubOutWithMock(self.compute.driver, 'plug_vifs')
self.compute.driver.plug_vifs(mox.IsA(inst_ref), dummy_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), dummy_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['uuid'])
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'})
instance_id = inst_ref['id']
c = context.get_admin_context()
topic = db.queue_get_for(c, FLAGS.compute_topic, inst_ref['host'])
# creating volume testdata
volume_id = 1
db.volume_create(c, {'id': volume_id})
values = {'instance_id': instance_id, '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': instance_id}})
rpc.call(c, topic, {"method": "pre_live_migration",
"args": {'instance_id': instance_id,
'block_migration': True,
'disk': None}}).\
AndRaise(rpc.common.RemoteError('', '', ''))
# mocks for rollback
rpc.call(c, topic, {"method": "remove_volume_connection",
"args": {'instance_id': instance_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.RemoteError,
self.compute.live_migration,
c, instance_id, inst_ref['host'], True)
# cleanup
for bdms in db.block_device_mapping_get_all_by_instance(c,
instance_id):
db.block_device_mapping_destroy(c, bdms['id'])
db.volume_destroy(c, volume_id)
db.instance_destroy(c, inst_ref['uuid'])
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)
flo_ref = 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}})
# start test
self.mox.ReplayAll()
ret = self.compute.post_live_migration(c, i_ref, dest)
# make sure every data is rewritten to destinatioin hostname.
i_ref = db.instance_get(c, i_ref['id'])
c1 = (i_ref['host'] == dest)
flo_refs = db.floating_ip_get_all_by_host(c, dest)
c2 = (len(flo_refs) != 0 and flo_refs[0]['address'] == flo_addr)
self.assertTrue(c1 and c2)
# 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
error_list = self.compute.periodic_tasks(context.get_admin_context())
self.assertFalse(error_list)
instances = db.instance_get_all(context.get_admin_context())
LOG.info(_("After force-killing instances: %s"), instances)
self.assertEqual(len(instances), 1)
self.assertEqual(power_state.NOSTATE, instances[0]['power_state'])
class ComputeAPITestCase(BaseTestCase):
def setUp(self):
super(ComputeAPITestCase, self).setUp()
self.compute_api = compute.API()
self.fake_image = {
'id': 1,
'properties': {'kernel_id': 1, 'ramdisk_id': 1},
}
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(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['local_gb'] = 1
def fake_show(*args):
img = 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['local_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['local_gb'] = 2
inst_type['memory_mb'] = 2
def fake_show(*args):
img = 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['local_gb'] = 1
inst_type['memory_mb'] = 1
def fake_show(*args):
return 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_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'])
group = db.security_group_get(context.get_admin_context(
read_deleted=True), 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_uuid)
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_uuid)
def test_delete(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.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_uuid)
def test_delete_soft(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.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_uuid)
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_uuid)
def test_resume(self):
"""Ensure instance can be resumed"""
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.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_uuid)
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_uuid)
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)
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_uuid)
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_uuid)
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)
image_ref = instance["image_ref"]
password = "new_password"
self.compute_api.rebuild(self.context, instance, image_ref, password)
instance = db.instance_get_by_uuid(self.context, instance_uuid)
self.assertEqual(instance['task_state'], task_states.REBUILDING)
db.instance_destroy(self.context, instance_uuid)
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, instance_uuid)
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, instance_uuid)
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)
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):
"""Can't backup an instance which is already being backed up."""
instance = self._create_fake_instance()
self.compute_api.snapshot(self.context, instance, None, None)
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()
self.compute_api.backup(self.context, instance, None, None, None)
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.InstanceBackingUp,
self.compute_api.backup,
self.context,
instance,
None,
None,
None)
db.instance_destroy(self.context, instance_uuid)
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.InstanceSnapshotting,
self.compute_api.snapshot,
self.context,
instance,
None)
db.instance_destroy(self.context, instance_uuid)
def test_resize_confirm_through_api(self):
"""Ensure invalid flavors raise"""
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)
migration_ref = db.migration_create(context,
{'instance_uuid': instance['uuid'],
'status': 'finished'})
self.compute_api.confirm_resize(context, instance)
self.compute.terminate_instance(context, instance['uuid'])
def test_resize_revert_through_api(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.compute_api.resize(context, instance, '4')
# create a fake migration record (manager does this)
migration_ref = db.migration_create(context,
{'instance_uuid': instance['uuid'],
'status': 'finished'})
self.compute_api.revert_resize(context, instance)
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']
self.assertEqual(request_spec['original_host'], 'host2')
self.assertEqual(request_spec['avoid_original_host'], True)
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']
self.assertEqual(request_spec['original_host'], 'host2')
self.assertEqual(request_spec['avoid_original_host'], False)
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_get(self):
"""Test get instance"""
self.maxDiff = None
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"""
self.maxDiff = None
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['uuid'])
db.instance_destroy(c, instance2['uuid'])
db.instance_destroy(c, instance3['uuid'])
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$'})
self.assertEqual(len(instances), 2)
instance_uuids = [instance['uuid'] for instance in instances]
self.assertTrue(instance1['uuid'] in instance_uuids)
self.assertTrue(instance2['uuid'] in instance_uuids)
instances = self.compute_api.get_all(c,
search_opts={'instance_name': 'i.*2'})
self.assertEqual(len(instances), 1)
self.assertEqual(instances[0]['uuid'], instance2['uuid'])
db.instance_destroy(c, instance1['uuid'])
db.instance_destroy(c, instance2['uuid'])
db.instance_destroy(c, instance3['uuid'])
def test_get_all_by_multiple_options_at_once(self):
"""Test searching by multiple options at once"""
c = context.get_admin_context()
network_manager = fake_network.FakeNetworkManager()
self.stubs.Set(self.compute_api.network_api,
'get_instance_uuids_by_ip_filter',
network_manager.get_instance_uuids_by_ip_filter)
self.stubs.Set(network_manager.db,
'instance_get_id_to_uuid_mapping',
db.instance_get_id_to_uuid_mapping)
instance1 = self._create_fake_instance({'display_name': 'woot',
'id': 0})
instance2 = self._create_fake_instance({
'display_name': 'woo',
'id': 20})
instance3 = self._create_fake_instance({
'display_name': 'not-woot',
'id': 30})
# ip ends up matching 2nd octet here.. so all 3 match ip
# but 'name' only matches one
instances = self.compute_api.get_all(c,
search_opts={'ip': '.*\.1', 'name': 'not.*'})
self.assertEqual(len(instances), 1)
self.assertEqual(instances[0]['uuid'], instance3['uuid'])
# ip ends up matching any ip with a '1' in the last octet..
# so instance 1 and 3.. but name should only match #1
# but 'name' only matches one
instances = self.compute_api.get_all(c,
search_opts={'ip': '.*\.1$', '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['uuid'])
db.instance_destroy(c, instance2['uuid'])
db.instance_destroy(c, instance3['uuid'])
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['uuid'])
db.instance_destroy(c, instance2['uuid'])
db.instance_destroy(c, instance3['uuid'])
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)
self.assertRaises(exception.FlavorNotFound,
self.compute_api.get_all,
c, search_opts={'flavor': 99})
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['uuid'])
db.instance_destroy(c, instance2['uuid'])
db.instance_destroy(c, instance3['uuid'])
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['uuid'])
db.instance_destroy(c, instance2['uuid'])
db.instance_destroy(c, instance3['uuid'])
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['uuid'])
db.instance_destroy(c, instance1['uuid'])
db.instance_destroy(c, instance2['uuid'])
db.instance_destroy(c, instance3['uuid'])
db.instance_destroy(c, instance4['uuid'])
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['uuid'])
@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': 0x12345678,
'delete_on_termination': False},
# overwrite swap
{'device_name': '/dev/sdb2',
'snapshot_id': 0x23456789,
'delete_on_termination': False},
{'device_name': '/dev/sdb3',
'snapshot_id': 0x3456789A},
{'device_name': '/dev/sdb4',
'no_device': True},
# overwrite ephemeral
{'device_name': '/dev/sdc2',
'snapshot_id': 0x456789AB,
'delete_on_termination': False},
{'device_name': '/dev/sdc3',
'snapshot_id': 0x56789ABC},
{'device_name': '/dev/sdc4',
'no_device': True},
# volume
{'device_name': '/dev/sdd1',
'snapshot_id': 0x87654321,
'delete_on_termination': False},
{'device_name': '/dev/sdd2',
'snapshot_id': 0x98765432},
{'device_name': '/dev/sdd3',
'snapshot_id': 0xA9875463},
{'device_name': '/dev/sdd4',
'no_device': True}]
self.compute_api._update_image_block_device_mapping(
self.context, instance_type, instance['id'], 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['id'])]
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['id'], 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['id'])]
expected_result = [
{'snapshot_id': 0x12345678, 'device_name': '/dev/sda1'},
{'virtual_name': 'swap', 'device_name': '/dev/sdb1',
'volume_size': swap_size},
{'snapshot_id': 0x23456789, 'device_name': '/dev/sdb2'},
{'snapshot_id': 0x3456789A, 'device_name': '/dev/sdb3'},
{'no_device': True, 'device_name': '/dev/sdb4'},
{'virtual_name': 'ephemeral0', 'device_name': '/dev/sdc1'},
{'snapshot_id': 0x456789AB, 'device_name': '/dev/sdc2'},
{'snapshot_id': 0x56789ABC, 'device_name': '/dev/sdc3'},
{'no_device': True, 'device_name': '/dev/sdc4'},
{'snapshot_id': 0x87654321, 'device_name': '/dev/sdd1'},
{'snapshot_id': 0x98765432, 'device_name': '/dev/sdd2'},
{'snapshot_id': 0xA9875463, '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['id']):
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):
local_size = 2
swap_size = 3
inst_type = {'local_gb': local_size, 'swap': swap_size}
self.assertEqual(self.compute_api._volume_size(inst_type,
'ephemeral0'),
local_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, instance['id'])
def test_create_with_specified_reservation_id(self):
"""Verify building instances with a specified
reservation_id results in the correct reservation_id
being set
"""
# We need admin context to be able to specify our own
# reservation_ids.
context = self.context.elevated()
# 1 instance
(refs, resv_id) = self.compute_api.create(context,
instance_types.get_default_instance_type(), None,
min_count=1, max_count=1, reservation_id='meow')
try:
self.assertEqual(len(refs), 1)
self.assertEqual(resv_id, 'meow')
finally:
self.assertEqual(refs[0]['reservation_id'], resv_id)
db.instance_destroy(self.context, refs[0]['id'])
# 2 instances
(refs, resv_id) = self.compute_api.create(context,
instance_types.get_default_instance_type(), None,
min_count=2, max_count=2, reservation_id='woof')
try:
self.assertEqual(len(refs), 2)
self.assertEqual(resv_id, 'woof')
finally:
for instance in refs:
self.assertEqual(instance['reservation_id'], resv_id)
db.instance_destroy(self.context, instance['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()
instance_id = i_ref['id']
self.assertEqual(i_ref['name'], 'instance-%d' % i_ref['id'])
db.instance_destroy(self.context, i_ref['uuid'])
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['uuid'])
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['uuid'])
# 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['uuid'])
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.ApiError,
self.compute_api.attach_volume,
None,
None,
None,
'/dev/invalid')
def test_attach_volume(self):
instance_id = 1
instance_uuid = utils.gen_uuid()
volume_id = 1
for device in ('/dev/sda', '/dev/xvda'):
# creating mocks
self.mox.StubOutWithMock(self.compute_api.volume_api,
'check_attach')
self.mox.StubOutWithMock(self.compute_api, 'get')
self.mox.StubOutWithMock(rpc, 'cast')
rpc.cast(
mox.IgnoreArg(),
mox.IgnoreArg(), {"method": "attach_volume",
"args": {'volume_id': volume_id,
'instance_uuid': instance_uuid,
'mountpoint': device}})
self.compute_api.volume_api.check_attach(
mox.IgnoreArg(),
volume_id=volume_id).AndReturn(
{'id': volume_id, 'status': 'available',
'attach_status': 'detached'})
self.compute_api.get(
mox.IgnoreArg(),
mox.IgnoreArg()).AndReturn({
'id': instance_id,
'uuid': instance_uuid,
'host': 'fake'})
self.mox.ReplayAll()
self.compute_api.attach_volume(None, None, volume_id, device)
self.mox.UnsetStubs()
def test_vnc_console(self):
"""Make sure we can a vnc console for an instance."""
def vnc_rpc_call_wrapper(*args, **kwargs):
return {'token': 'asdf', 'host': '0.0.0.0', 'port': 8080}
self.stubs.Set(rpc, 'call', vnc_rpc_call_wrapper)
instance = self._create_fake_instance()
console = self.compute_api.get_vnc_console(self.context, instance)
self.compute_api.delete(self.context, instance)
def test_ajax_console(self):
"""Make sure we can a vnc console for an instance."""
def ajax_rpc_call_wrapper(*args, **kwargs):
return {'token': 'asdf', 'host': '0.0.0.0', 'port': 8080}
self.stubs.Set(rpc, 'call', ajax_rpc_call_wrapper)
instance = self._create_fake_instance()
console = self.compute_api.get_ajax_console(self.context, instance)
self.compute_api.delete(self.context, instance)
def test_console_output(self):
instance = self._create_fake_instance()
console = self.compute_api.get_console_output(self.context, instance)
def test_attach_volume(self):
"""Ensure instance can be soft rebooted"""
def fake_check_attach(*args, **kwargs):
pass
self.stubs.Set(nova.volume.api.API, 'check_attach', fake_check_attach)
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_get_actions(self):
expected = [{'id': 1,
'instance_id': 5,
'action': 'rebuild',
'error': '',
}]
def fake_get_actions(context, instance):
return expected
self.stubs.Set(nova.db, 'instance_get_actions',
fake_get_actions)
instance = self._create_fake_instance()
context = self.context.elevated()
actual = self.compute_api.get_actions(context, instance)
self.assertEqual(expected, actual)
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['uuid'])
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