openstack
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nova
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nova/nova/tests/test_libvirt.py

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# vim: tabstop=4 shiftwidth=4 softtabstop=4
#
# Copyright 2010 OpenStack LLC
# Copyright 2012 University Of Minho
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
import copy
import errno
import eventlet
import json
import mox
import os
import re
import shutil
import tempfile
from lxml import etree
from xml.dom import minidom
from nova.api.ec2 import cloud
from nova.compute import instance_types
from nova.compute import power_state
from nova.compute import vm_mode
from nova.compute import vm_states
from nova import context
from nova import db
from nova import exception
from nova import flags
from nova.openstack.common import importutils
from nova.openstack.common import jsonutils
from nova.openstack.common import log as logging
from nova import test
from nova.tests import fake_libvirt_utils
from nova.tests import fake_network
import nova.tests.image.fake
from nova import utils
from nova.virt.disk import api as disk
from nova.virt import driver
from nova.virt import firewall as base_firewall
from nova.virt import images
from nova.virt.libvirt import config
from nova.virt.libvirt import driver as libvirt_driver
from nova.virt.libvirt import firewall
from nova.virt.libvirt import imagebackend
from nova.virt.libvirt import utils as libvirt_utils
from nova.virt.libvirt import volume
from nova.virt.libvirt import volume_nfs
from nova.volume import driver as volume_driver
try:
import libvirt
except ImportError:
import nova.tests.fakelibvirt as libvirt
libvirt_driver.libvirt = libvirt
FLAGS = flags.FLAGS
LOG = logging.getLogger(__name__)
_fake_network_info = fake_network.fake_get_instance_nw_info
_fake_stub_out_get_nw_info = fake_network.stub_out_nw_api_get_instance_nw_info
_ipv4_like = fake_network.ipv4_like
def _concurrency(wait, done, target):
wait.wait()
done.send()
class FakeVirDomainSnapshot(object):
def __init__(self, dom=None):
self.dom = dom
def delete(self, flags):
pass
class FakeVirtDomain(object):
def __init__(self, fake_xml=None):
if fake_xml:
self._fake_dom_xml = fake_xml
else:
self._fake_dom_xml = """
<domain type='kvm'>
<devices>
<disk type='file'>
<source file='filename'/>
</disk>
</devices>
</domain>
"""
def name(self):
return "fake-domain %s" % self
def info(self):
return [power_state.RUNNING, None, None, None, None]
def create(self):
pass
def managedSave(self, *args):
pass
def createWithFlags(self, launch_flags):
pass
def XMLDesc(self, *args):
return self._fake_dom_xml
class LibvirtVolumeTestCase(test.TestCase):
def setUp(self):
super(LibvirtVolumeTestCase, self).setUp()
self.executes = []
def fake_execute(*cmd, **kwargs):
self.executes.append(cmd)
return None, None
self.stubs.Set(utils, 'execute', fake_execute)
class FakeLibvirtDriver(object):
def __init__(self, hyperv="QEMU"):
self.hyperv = hyperv
def get_hypervisor_type(self):
return self.hyperv
def get_all_block_devices(self):
return []
self.fake_conn = FakeLibvirtDriver()
self.connr = {
'ip': '127.0.0.1',
'initiator': 'fake_initiator',
'host': 'fake_host'
}
def test_libvirt_volume_driver_serial(self):
vol_driver = volume_driver.VolumeDriver()
libvirt_driver = volume.LibvirtVolumeDriver(self.fake_conn)
name = 'volume-00000001'
vol = {'id': 1, 'name': name}
connection_info = {
'driver_volume_type': 'fake',
'data': {
'device_path': '/foo',
},
'serial': 'fake_serial',
}
mount_device = "vde"
conf = libvirt_driver.connect_volume(connection_info, mount_device)
tree = conf.format_dom()
self.assertEqual(tree.get('type'), 'block')
self.assertEqual(tree.find('./serial').text, 'fake_serial')
def test_libvirt_iscsi_driver(self):
# NOTE(vish) exists is to make driver assume connecting worked
self.stubs.Set(os.path, 'exists', lambda x: True)
vol_driver = volume_driver.ISCSIDriver()
libvirt_driver = volume.LibvirtISCSIVolumeDriver(self.fake_conn)
location = '10.0.2.15:3260'
name = 'volume-00000001'
iqn = 'iqn.2010-10.org.openstack:%s' % name
vol = {'id': 1,
'name': name,
'provider_auth': None,
'provider_location': '%s,fake %s' % (location, iqn)}
connection_info = vol_driver.initialize_connection(vol, self.connr)
mount_device = "vde"
conf = libvirt_driver.connect_volume(connection_info, mount_device)
tree = conf.format_dom()
dev_str = '/dev/disk/by-path/ip-%s-iscsi-%s-lun-1' % (location, iqn)
self.assertEqual(tree.get('type'), 'block')
self.assertEqual(tree.find('./source').get('dev'), dev_str)
libvirt_driver.disconnect_volume(connection_info, mount_device)
connection_info = vol_driver.terminate_connection(vol, self.connr)
expected_commands = [('iscsiadm', '-m', 'node', '-T', iqn,
'-p', location),
('iscsiadm', '-m', 'node', '-T', iqn,
'-p', location, '--login'),
('iscsiadm', '-m', 'node', '-T', iqn,
'-p', location, '--op', 'update',
'-n', 'node.startup', '-v', 'automatic'),
('iscsiadm', '-m', 'node', '-T', iqn,
'-p', location, '--op', 'update',
'-n', 'node.startup', '-v', 'manual'),
('iscsiadm', '-m', 'node', '-T', iqn,
'-p', location, '--logout'),
('iscsiadm', '-m', 'node', '-T', iqn,
'-p', location, '--op', 'delete')]
self.assertEqual(self.executes, expected_commands)
def test_libvirt_iscsi_driver_still_in_use(self):
# NOTE(vish) exists is to make driver assume connecting worked
self.stubs.Set(os.path, 'exists', lambda x: True)
vol_driver = volume_driver.ISCSIDriver()
libvirt_driver = volume.LibvirtISCSIVolumeDriver(self.fake_conn)
location = '10.0.2.15:3260'
name = 'volume-00000001'
iqn = 'iqn.2010-10.org.openstack:%s' % name
devs = ['/dev/disk/by-path/ip-%s-iscsi-%s-lun-1' % (location, iqn)]
self.stubs.Set(self.fake_conn, 'get_all_block_devices', lambda: devs)
vol = {'id': 1,
'name': name,
'provider_auth': None,
'provider_location': '%s,fake %s' % (location, iqn)}
connection_info = vol_driver.initialize_connection(vol, self.connr)
mount_device = "vde"
conf = libvirt_driver.connect_volume(connection_info, mount_device)
tree = conf.format_dom()
dev_str = '/dev/disk/by-path/ip-%s-iscsi-%s-lun-1' % (location, iqn)
self.assertEqual(tree.get('type'), 'block')
self.assertEqual(tree.find('./source').get('dev'), dev_str)
libvirt_driver.disconnect_volume(connection_info, mount_device)
connection_info = vol_driver.terminate_connection(vol, self.connr)
expected_commands = [('iscsiadm', '-m', 'node', '-T', iqn,
'-p', location),
('iscsiadm', '-m', 'node', '-T', iqn,
'-p', location, '--login'),
('iscsiadm', '-m', 'node', '-T', iqn,
'-p', location, '--op', 'update',
'-n', 'node.startup', '-v', 'automatic')]
self.assertEqual(self.executes, expected_commands)
def test_libvirt_sheepdog_driver(self):
vol_driver = volume_driver.SheepdogDriver()
libvirt_driver = volume.LibvirtNetVolumeDriver(self.fake_conn)
name = 'volume-00000001'
vol = {'id': 1, 'name': name}
connection_info = vol_driver.initialize_connection(vol, self.connr)
mount_device = "vde"
conf = libvirt_driver.connect_volume(connection_info, mount_device)
tree = conf.format_dom()
self.assertEqual(tree.get('type'), 'network')
self.assertEqual(tree.find('./source').get('protocol'), 'sheepdog')
self.assertEqual(tree.find('./source').get('name'), name)
libvirt_driver.disconnect_volume(connection_info, mount_device)
connection_info = vol_driver.terminate_connection(vol, self.connr)
def test_libvirt_rbd_driver(self):
vol_driver = volume_driver.RBDDriver()
libvirt_driver = volume.LibvirtNetVolumeDriver(self.fake_conn)
name = 'volume-00000001'
vol = {'id': 1, 'name': name}
connection_info = vol_driver.initialize_connection(vol, self.connr)
mount_device = "vde"
conf = libvirt_driver.connect_volume(connection_info, mount_device)
tree = conf.format_dom()
self.assertEqual(tree.get('type'), 'network')
self.assertEqual(tree.find('./source').get('protocol'), 'rbd')
rbd_name = '%s/%s' % (FLAGS.rbd_pool, name)
self.assertEqual(tree.find('./source').get('name'), rbd_name)
self.assertEqual(tree.find('./source/auth'), None)
libvirt_driver.disconnect_volume(connection_info, mount_device)
connection_info = vol_driver.terminate_connection(vol, self.connr)
def test_libvirt_rbd_driver_auth_enabled(self):
vol_driver = volume_driver.RBDDriver()
libvirt_driver = volume.LibvirtNetVolumeDriver(self.fake_conn)
name = 'volume-00000001'
vol = {'id': 1, 'name': name}
connection_info = vol_driver.initialize_connection(vol, self.connr)
uuid = '875a8070-d0b9-4949-8b31-104d125c9a64'
user = 'foo'
secret_type = 'ceph'
connection_info['data']['auth_enabled'] = True
connection_info['data']['auth_username'] = user
connection_info['data']['secret_type'] = secret_type
connection_info['data']['secret_uuid'] = uuid
mount_device = "vde"
conf = libvirt_driver.connect_volume(connection_info, mount_device)
tree = conf.format_dom()
self.assertEqual(tree.get('type'), 'network')
self.assertEqual(tree.find('./source').get('protocol'), 'rbd')
rbd_name = '%s/%s' % (FLAGS.rbd_pool, name)
self.assertEqual(tree.find('./source').get('name'), rbd_name)
self.assertEqual(tree.find('./auth').get('username'), user)
self.assertEqual(tree.find('./auth/secret').get('type'), secret_type)
self.assertEqual(tree.find('./auth/secret').get('uuid'), uuid)
libvirt_driver.disconnect_volume(connection_info, mount_device)
connection_info = vol_driver.terminate_connection(vol, self.connr)
def test_libvirt_rbd_driver_auth_disabled(self):
vol_driver = volume_driver.RBDDriver()
libvirt_driver = volume.LibvirtNetVolumeDriver(self.fake_conn)
name = 'volume-00000001'
vol = {'id': 1, 'name': name}
connection_info = vol_driver.initialize_connection(vol, self.connr)
uuid = '875a8070-d0b9-4949-8b31-104d125c9a64'
user = 'foo'
secret_type = 'ceph'
connection_info['data']['auth_enabled'] = False
connection_info['data']['auth_username'] = user
connection_info['data']['secret_type'] = secret_type
connection_info['data']['secret_uuid'] = uuid
mount_device = "vde"
conf = libvirt_driver.connect_volume(connection_info, mount_device)
tree = conf.format_dom()
self.assertEqual(tree.get('type'), 'network')
self.assertEqual(tree.find('./source').get('protocol'), 'rbd')
rbd_name = '%s/%s' % (FLAGS.rbd_pool, name)
self.assertEqual(tree.find('./source').get('name'), rbd_name)
self.assertEqual(tree.find('./auth'), None)
libvirt_driver.disconnect_volume(connection_info, mount_device)
connection_info = vol_driver.terminate_connection(vol, self.connr)
def test_libvirt_lxc_volume(self):
self.stubs.Set(os.path, 'exists', lambda x: True)
vol_driver = volume_driver.ISCSIDriver()
libvirt_driver = volume.LibvirtISCSIVolumeDriver(self.fake_conn)
location = '10.0.2.15:3260'
name = 'volume-00000001'
iqn = 'iqn.2010-10.org.openstack:%s' % name
vol = {'id': 1,
'name': name,
'provider_auth': None,
'provider_location': '%s,fake %s' % (location, iqn)}
connection_info = vol_driver.initialize_connection(vol, self.connr)
mount_device = "vde"
conf = libvirt_driver.connect_volume(connection_info, mount_device)
tree = conf.format_dom()
dev_str = '/dev/disk/by-path/ip-%s-iscsi-%s-lun-1' % (location, iqn)
self.assertEqual(tree.get('type'), 'block')
self.assertEqual(tree.find('./source').get('dev'), dev_str)
libvirt_driver.disconnect_volume(connection_info, mount_device)
connection_info = vol_driver.terminate_connection(vol, self.connr)
def test_libvirt_nfs_driver(self):
# NOTE(vish) exists is to make driver assume connecting worked
mnt_base = '/mnt'
self.flags(nfs_mount_point_base=mnt_base)
libvirt_driver = volume_nfs.NfsVolumeDriver(self.fake_conn)
export_string = '192.168.1.1:/nfs/share1'
name = 'volume-00001'
export_mnt_base = os.path.join(mnt_base,
libvirt_driver.get_hash_str(export_string))
file_path = os.path.join(export_mnt_base, name)
connection_info = {'data': {'export': export_string, 'name': name}}
mount_device = "vde"
conf = libvirt_driver.connect_volume(connection_info, mount_device)
tree = conf.format_dom()
self.assertEqual(tree.get('type'), 'file')
self.assertEqual(tree.find('./source').get('file'), file_path)
libvirt_driver.disconnect_volume(connection_info, mount_device)
expected_commands = [
('stat', export_mnt_base),
('mount', '-t', 'nfs', export_string, export_mnt_base)]
self.assertEqual(self.executes, expected_commands)
class CacheConcurrencyTestCase(test.TestCase):
def setUp(self):
super(CacheConcurrencyTestCase, self).setUp()
self.flags(instances_path='nova.compute.manager')
# utils.synchronized() will create the lock_path for us if it
# doesn't already exist. It will also delete it when it's done,
# which can cause race conditions with the multiple threads we
# use for tests. So, create the path here so utils.synchronized()
# won't delete it out from under one of the threads.
self.lock_path = os.path.join(FLAGS.instances_path, 'locks')
utils.ensure_tree(self.lock_path)
def fake_exists(fname):
basedir = os.path.join(FLAGS.instances_path, FLAGS.base_dir_name)
if fname == basedir or fname == self.lock_path:
return True
return False
def fake_execute(*args, **kwargs):
pass
def fake_extend(image, size):
pass
self.stubs.Set(os.path, 'exists', fake_exists)
self.stubs.Set(utils, 'execute', fake_execute)
self.stubs.Set(imagebackend.disk, 'extend', fake_extend)
imagebackend.libvirt_utils = fake_libvirt_utils
def tearDown(self):
imagebackend.libvirt_utils = libvirt_utils
# Make sure the lock_path for this test is cleaned up
if os.path.exists(self.lock_path):
shutil.rmtree(self.lock_path)
super(CacheConcurrencyTestCase, self).tearDown()
def test_same_fname_concurrency(self):
"""Ensures that the same fname cache runs at a sequentially"""
backend = imagebackend.Backend(False)
wait1 = eventlet.event.Event()
done1 = eventlet.event.Event()
thr1 = eventlet.spawn(backend.image('instance', 'name').cache,
_concurrency, 'fname', None, wait=wait1, done=done1)
wait2 = eventlet.event.Event()
done2 = eventlet.event.Event()
thr2 = eventlet.spawn(backend.image('instance', 'name').cache,
_concurrency, 'fname', None, wait=wait2, done=done2)
wait2.send()
eventlet.sleep(0)
try:
self.assertFalse(done2.ready())
finally:
wait1.send()
done1.wait()
eventlet.sleep(0)
self.assertTrue(done2.ready())
# Wait on greenthreads to assert they didn't raise exceptions
# during execution
thr1.wait()
thr2.wait()
def test_different_fname_concurrency(self):
"""Ensures that two different fname caches are concurrent"""
backend = imagebackend.Backend(False)
wait1 = eventlet.event.Event()
done1 = eventlet.event.Event()
thr1 = eventlet.spawn(backend.image('instance', 'name').cache,
_concurrency, 'fname2', None, wait=wait1, done=done1)
wait2 = eventlet.event.Event()
done2 = eventlet.event.Event()
thr2 = eventlet.spawn(backend.image('instance', 'name').cache,
_concurrency, 'fname1', None, wait=wait2, done=done2)
wait2.send()
eventlet.sleep(0)
try:
self.assertTrue(done2.ready())
finally:
wait1.send()
eventlet.sleep(0)
# Wait on greenthreads to assert they didn't raise exceptions
# during execution
thr1.wait()
thr2.wait()
class FakeVolumeDriver(object):
def __init__(self, *args, **kwargs):
pass
def attach_volume(self, *args):
pass
def detach_volume(self, *args):
pass
def get_xml(self, *args):
return ""
class LibvirtConnTestCase(test.TestCase):
def setUp(self):
super(LibvirtConnTestCase, self).setUp()
self.flags(fake_call=True)
self.user_id = 'fake'
self.project_id = 'fake'
self.context = context.get_admin_context()
self.flags(instances_path='')
self.flags(libvirt_snapshots_directory='')
self.call_libvirt_dependant_setup = False
libvirt_driver.libvirt_utils = fake_libvirt_utils
def fake_extend(image, size):
pass
self.stubs.Set(libvirt_driver.disk, 'extend', fake_extend)
nova.tests.image.fake.stub_out_image_service(self.stubs)
def tearDown(self):
libvirt_driver.libvirt_utils = libvirt_utils
nova.tests.image.fake.FakeImageService_reset()
super(LibvirtConnTestCase, self).tearDown()
test_instance = {'memory_kb': '1024000',
'basepath': '/some/path',
'bridge_name': 'br100',
'vcpus': 2,
'project_id': 'fake',
'bridge': 'br101',
'image_ref': '155d900f-4e14-4e4c-a73d-069cbf4541e6',
'root_gb': 10,
'ephemeral_gb': 20,
'instance_type_id': '5'} # m1.small
def create_fake_libvirt_mock(self, **kwargs):
"""Defining mocks for LibvirtDriver(libvirt is not used)."""
# A fake libvirt.virConnect
class FakeLibvirtDriver(object):
def defineXML(self, xml):
return FakeVirtDomain()
# Creating mocks
volume_driver = 'iscsi=nova.tests.test_libvirt.FakeVolumeDriver'
self.flags(libvirt_volume_drivers=[volume_driver])
fake = FakeLibvirtDriver()
# Customizing above fake if necessary
for key, val in kwargs.items():
fake.__setattr__(key, val)
self.flags(libvirt_vif_driver="nova.tests.fake_network.FakeVIFDriver")
self.mox.StubOutWithMock(libvirt_driver.LibvirtDriver, '_conn')
libvirt_driver.LibvirtDriver._conn = fake
def fake_lookup(self, instance_name):
return FakeVirtDomain()
def fake_execute(self, *args):
open(args[-1], "a").close()
def create_service(self, **kwargs):
service_ref = {'host': kwargs.get('host', 'dummy'),
'binary': 'nova-compute',
'topic': 'compute',
'report_count': 0,
'availability_zone': 'zone'}
return db.service_create(context.get_admin_context(), service_ref)
def test_get_connector(self):
initiator = 'fake.initiator.iqn'
ip = 'fakeip'
host = 'fakehost'
self.flags(my_ip=ip)
self.flags(host=host)
conn = libvirt_driver.LibvirtDriver(True)
expected = {
'ip': ip,
'initiator': initiator,
'host': host
}
volume = {
'id': 'fake'
}
result = conn.get_volume_connector(volume)
self.assertDictMatch(expected, result)
def test_get_guest_config(self):
conn = libvirt_driver.LibvirtDriver(True)
instance_ref = db.instance_create(self.context, self.test_instance)
cfg = conn.get_guest_config(instance_ref,
_fake_network_info(self.stubs, 1),
None, None)
self.assertEquals(cfg.acpi, True)
self.assertEquals(cfg.memory, 1024 * 1024 * 2)
self.assertEquals(cfg.vcpus, 1)
self.assertEquals(cfg.os_type, vm_mode.HVM)
self.assertEquals(cfg.os_boot_dev, "hd")
self.assertEquals(cfg.os_root, None)
self.assertEquals(len(cfg.devices), 7)
self.assertEquals(type(cfg.devices[0]),
config.LibvirtConfigGuestDisk)
self.assertEquals(type(cfg.devices[1]),
config.LibvirtConfigGuestDisk)
self.assertEquals(type(cfg.devices[2]),
config.LibvirtConfigGuestInterface)
self.assertEquals(type(cfg.devices[3]),
config.LibvirtConfigGuestSerial)
self.assertEquals(type(cfg.devices[4]),
config.LibvirtConfigGuestSerial)
self.assertEquals(type(cfg.devices[5]),
config.LibvirtConfigGuestInput)
self.assertEquals(type(cfg.devices[6]),
config.LibvirtConfigGuestGraphics)
self.assertEquals(type(cfg.clock),
config.LibvirtConfigGuestClock)
self.assertEquals(cfg.clock.offset, "utc")
self.assertEquals(len(cfg.clock.timers), 2)
self.assertEquals(type(cfg.clock.timers[0]),
config.LibvirtConfigGuestTimer)
self.assertEquals(type(cfg.clock.timers[1]),
config.LibvirtConfigGuestTimer)
self.assertEquals(cfg.clock.timers[0].name, "pit")
self.assertEquals(cfg.clock.timers[0].tickpolicy,
"delay")
self.assertEquals(cfg.clock.timers[1].name, "rtc")
self.assertEquals(cfg.clock.timers[1].tickpolicy,
"catchup")
def test_get_guest_config_with_two_nics(self):
conn = libvirt_driver.LibvirtDriver(True)
instance_ref = db.instance_create(self.context, self.test_instance)
cfg = conn.get_guest_config(instance_ref,
_fake_network_info(self.stubs, 2),
None, None)
self.assertEquals(cfg.acpi, True)
self.assertEquals(cfg.memory, 1024 * 1024 * 2)
self.assertEquals(cfg.vcpus, 1)
self.assertEquals(cfg.os_type, vm_mode.HVM)
self.assertEquals(cfg.os_boot_dev, "hd")
self.assertEquals(cfg.os_root, None)
self.assertEquals(len(cfg.devices), 8)
self.assertEquals(type(cfg.devices[0]),
config.LibvirtConfigGuestDisk)
self.assertEquals(type(cfg.devices[1]),
config.LibvirtConfigGuestDisk)
self.assertEquals(type(cfg.devices[2]),
config.LibvirtConfigGuestInterface)
self.assertEquals(type(cfg.devices[3]),
config.LibvirtConfigGuestInterface)
self.assertEquals(type(cfg.devices[4]),
config.LibvirtConfigGuestSerial)
self.assertEquals(type(cfg.devices[5]),
config.LibvirtConfigGuestSerial)
self.assertEquals(type(cfg.devices[6]),
config.LibvirtConfigGuestInput)
self.assertEquals(type(cfg.devices[7]),
config.LibvirtConfigGuestGraphics)
def test_get_guest_config_with_root_device_name(self):
self.flags(libvirt_type='uml')
conn = libvirt_driver.LibvirtDriver(True)
instance_ref = db.instance_create(self.context, self.test_instance)
cfg = conn.get_guest_config(instance_ref, [], None, None,
{'root_device_name': 'dev/vdb'})
self.assertEquals(cfg.acpi, False)
self.assertEquals(cfg.memory, 1024 * 1024 * 2)
self.assertEquals(cfg.vcpus, 1)
self.assertEquals(cfg.os_type, "uml")
self.assertEquals(cfg.os_boot_dev, None)
self.assertEquals(cfg.os_root, 'dev/vdb')
self.assertEquals(len(cfg.devices), 3)
self.assertEquals(type(cfg.devices[0]),
config.LibvirtConfigGuestDisk)
self.assertEquals(type(cfg.devices[1]),
config.LibvirtConfigGuestDisk)
self.assertEquals(type(cfg.devices[2]),
config.LibvirtConfigGuestConsole)
def test_get_guest_config_with_block_device(self):
conn = libvirt_driver.LibvirtDriver(True)
instance_ref = db.instance_create(self.context, self.test_instance)
conn_info = {'driver_volume_type': 'fake'}
info = {'block_device_mapping': [
{'connection_info': conn_info, 'mount_device': '/dev/vdc'},
{'connection_info': conn_info, 'mount_device': '/dev/vdd'}]}
cfg = conn.get_guest_config(instance_ref, [], None, None, info)
self.assertEquals(type(cfg.devices[2]),
config.LibvirtConfigGuestDisk)
self.assertEquals(cfg.devices[2].target_dev, 'vdc')
self.assertEquals(type(cfg.devices[3]),
config.LibvirtConfigGuestDisk)
self.assertEquals(cfg.devices[3].target_dev, 'vdd')
def test_get_guest_cpu_config_none(self):
self.flags(libvirt_cpu_mode="none")
conn = libvirt_driver.LibvirtDriver(True)
instance_ref = db.instance_create(self.context, self.test_instance)
conf = conn.get_guest_config(instance_ref,
_fake_network_info(self.stubs, 1),
None, None)
self.assertEquals(conf.cpu, None)
def test_get_guest_cpu_config_default_kvm(self):
self.flags(libvirt_type="kvm",
libvirt_cpu_mode=None)
def get_lib_version_stub(self):
return (0 * 1000 * 1000) + (9 * 1000) + 11
self.stubs.Set(libvirt.virConnect,
"getLibVersion",
get_lib_version_stub)
conn = libvirt_driver.LibvirtDriver(True)
instance_ref = db.instance_create(self.context, self.test_instance)
conf = conn.get_guest_config(instance_ref,
_fake_network_info(self.stubs, 1),
None, None)
self.assertEquals(type(conf.cpu),
config.LibvirtConfigGuestCPU)
self.assertEquals(conf.cpu.mode, "host-model")
self.assertEquals(conf.cpu.model, None)
def test_get_guest_cpu_config_default_uml(self):
self.flags(libvirt_type="uml",
libvirt_cpu_mode=None)
conn = libvirt_driver.LibvirtDriver(True)
instance_ref = db.instance_create(self.context, self.test_instance)
conf = conn.get_guest_config(instance_ref,
_fake_network_info(self.stubs, 1),
None, None)
self.assertEquals(conf.cpu, None)
def test_get_guest_cpu_config_default_lxc(self):
self.flags(libvirt_type="lxc",
libvirt_cpu_mode=None)
conn = libvirt_driver.LibvirtDriver(True)
instance_ref = db.instance_create(self.context, self.test_instance)
conf = conn.get_guest_config(instance_ref,
_fake_network_info(self.stubs, 1),
None, None)
self.assertEquals(conf.cpu, None)
def test_get_guest_cpu_config_host_passthrough_new(self):
def get_lib_version_stub(self):
return (0 * 1000 * 1000) + (9 * 1000) + 11
self.stubs.Set(libvirt.virConnect,
"getLibVersion",
get_lib_version_stub)
conn = libvirt_driver.LibvirtDriver(True)
instance_ref = db.instance_create(self.context, self.test_instance)
self.flags(libvirt_cpu_mode="host-passthrough")
conf = conn.get_guest_config(instance_ref,
_fake_network_info(self.stubs, 1),
None, None)
self.assertEquals(type(conf.cpu),
config.LibvirtConfigGuestCPU)
self.assertEquals(conf.cpu.mode, "host-passthrough")
self.assertEquals(conf.cpu.model, None)
def test_get_guest_cpu_config_host_model_new(self):
def get_lib_version_stub(self):
return (0 * 1000 * 1000) + (9 * 1000) + 11
self.stubs.Set(libvirt.virConnect,
"getLibVersion",
get_lib_version_stub)
conn = libvirt_driver.LibvirtDriver(True)
instance_ref = db.instance_create(self.context, self.test_instance)
self.flags(libvirt_cpu_mode="host-model")
conf = conn.get_guest_config(instance_ref,
_fake_network_info(self.stubs, 1),
None, None)
self.assertEquals(type(conf.cpu),
config.LibvirtConfigGuestCPU)
self.assertEquals(conf.cpu.mode, "host-model")
self.assertEquals(conf.cpu.model, None)
def test_get_guest_cpu_config_custom_new(self):
def get_lib_version_stub(self):
return (0 * 1000 * 1000) + (9 * 1000) + 11
self.stubs.Set(libvirt.virConnect,
"getLibVersion",
get_lib_version_stub)
conn = libvirt_driver.LibvirtDriver(True)
instance_ref = db.instance_create(self.context, self.test_instance)
self.flags(libvirt_cpu_mode="custom")
self.flags(libvirt_cpu_model="Penryn")
conf = conn.get_guest_config(instance_ref,
_fake_network_info(self.stubs, 1),
None, None)
self.assertEquals(type(conf.cpu),
config.LibvirtConfigGuestCPU)
self.assertEquals(conf.cpu.mode, "custom")
self.assertEquals(conf.cpu.model, "Penryn")
def test_get_guest_cpu_config_host_passthrough_old(self):
def get_lib_version_stub(self):
return (0 * 1000 * 1000) + (9 * 1000) + 7
self.stubs.Set(libvirt.virConnect, "getLibVersion",
get_lib_version_stub)
conn = libvirt_driver.LibvirtDriver(True)
instance_ref = db.instance_create(self.context, self.test_instance)
self.flags(libvirt_cpu_mode="host-passthrough")
self.assertRaises(exception.NovaException,
conn.get_guest_config,
instance_ref,
_fake_network_info(self.stubs, 1),
None, None)
def test_get_guest_cpu_config_host_model_old(self):
def get_lib_version_stub(self):
return (0 * 1000 * 1000) + (9 * 1000) + 7
# Ensure we have a predictable host CPU
def get_host_capabilities_stub(self):
cpu = config.LibvirtConfigGuestCPU()
cpu.model = "Opteron_G4"
cpu.vendor = "AMD"
caps = config.LibvirtConfigCaps()
caps.host = config.LibvirtConfigCapsHost()
caps.host.cpu = cpu
return caps
self.stubs.Set(libvirt.virConnect,
"getLibVersion",
get_lib_version_stub)
self.stubs.Set(libvirt_driver.LibvirtDriver,
"get_host_capabilities",
get_host_capabilities_stub)
conn = libvirt_driver.LibvirtDriver(True)
instance_ref = db.instance_create(self.context, self.test_instance)
self.flags(libvirt_cpu_mode="host-model")
conf = conn.get_guest_config(instance_ref,
_fake_network_info(self.stubs, 1),
None, None)
self.assertEquals(type(conf.cpu),
config.LibvirtConfigGuestCPU)
self.assertEquals(conf.cpu.mode, None)
self.assertEquals(conf.cpu.model, "Opteron_G4")
self.assertEquals(conf.cpu.vendor, "AMD")
def test_get_guest_cpu_config_custom_old(self):
def get_lib_version_stub(self):
return (0 * 1000 * 1000) + (9 * 1000) + 7
self.stubs.Set(libvirt.virConnect,
"getLibVersion",
get_lib_version_stub)
conn = libvirt_driver.LibvirtDriver(True)
instance_ref = db.instance_create(self.context, self.test_instance)
self.flags(libvirt_cpu_mode="custom")
self.flags(libvirt_cpu_model="Penryn")
conf = conn.get_guest_config(instance_ref,
_fake_network_info(self.stubs, 1),
None, None)
self.assertEquals(type(conf.cpu),
config.LibvirtConfigGuestCPU)
self.assertEquals(conf.cpu.mode, None)
self.assertEquals(conf.cpu.model, "Penryn")
def test_xml_and_uri_no_ramdisk_no_kernel(self):
instance_data = dict(self.test_instance)
self._check_xml_and_uri(instance_data,
expect_kernel=False, expect_ramdisk=False)
def test_xml_and_uri_no_ramdisk_no_kernel_xen_hvm(self):
instance_data = dict(self.test_instance)
instance_data.update({'vm_mode': vm_mode.HVM})
self._check_xml_and_uri(instance_data, expect_kernel=False,
expect_ramdisk=False, expect_xen_hvm=True)
def test_xml_and_uri_no_ramdisk_no_kernel_xen_pv(self):
instance_data = dict(self.test_instance)
instance_data.update({'vm_mode': vm_mode.XEN})
self._check_xml_and_uri(instance_data, expect_kernel=False,
expect_ramdisk=False, expect_xen_hvm=False,
xen_only=True)
def test_xml_and_uri_no_ramdisk(self):
instance_data = dict(self.test_instance)
instance_data['kernel_id'] = 'aki-deadbeef'
self._check_xml_and_uri(instance_data,
expect_kernel=True, expect_ramdisk=False)
def test_xml_and_uri_no_kernel(self):
instance_data = dict(self.test_instance)
instance_data['ramdisk_id'] = 'ari-deadbeef'
self._check_xml_and_uri(instance_data,
expect_kernel=False, expect_ramdisk=False)
def test_xml_and_uri(self):
instance_data = dict(self.test_instance)
instance_data['ramdisk_id'] = 'ari-deadbeef'
instance_data['kernel_id'] = 'aki-deadbeef'
self._check_xml_and_uri(instance_data,
expect_kernel=True, expect_ramdisk=True)
def test_xml_and_uri_rescue(self):
instance_data = dict(self.test_instance)
instance_data['ramdisk_id'] = 'ari-deadbeef'
instance_data['kernel_id'] = 'aki-deadbeef'
self._check_xml_and_uri(instance_data, expect_kernel=True,
expect_ramdisk=True, rescue=instance_data)
def test_xml_and_uri_rescue_no_kernel_no_ramdisk(self):
instance_data = dict(self.test_instance)
self._check_xml_and_uri(instance_data, expect_kernel=False,
expect_ramdisk=False, rescue=instance_data)
def test_xml_and_uri_rescue_no_kernel(self):
instance_data = dict(self.test_instance)
instance_data['ramdisk_id'] = 'aki-deadbeef'
self._check_xml_and_uri(instance_data, expect_kernel=False,
expect_ramdisk=True, rescue=instance_data)
def test_xml_and_uri_rescue_no_ramdisk(self):
instance_data = dict(self.test_instance)
instance_data['kernel_id'] = 'aki-deadbeef'
self._check_xml_and_uri(instance_data, expect_kernel=True,
expect_ramdisk=False, rescue=instance_data)
def test_xml_uuid(self):
instance_data = dict(self.test_instance)
self._check_xml_and_uuid(instance_data)
def test_lxc_container_and_uri(self):
instance_data = dict(self.test_instance)
self._check_xml_and_container(instance_data)
def test_xml_disk_prefix(self):
instance_data = dict(self.test_instance)
self._check_xml_and_disk_prefix(instance_data)
def test_xml_disk_driver(self):
instance_data = dict(self.test_instance)
self._check_xml_and_disk_driver(instance_data)
def test_xml_disk_bus_virtio(self):
self._check_xml_and_disk_bus({"disk_format": "raw"},
None,
(("disk", "virtio", "vda"),))
def test_xml_disk_bus_ide(self):
self._check_xml_and_disk_bus({"disk_format": "iso"},
None,
(("cdrom", "ide", "hda"),))
def test_xml_disk_bus_ide_and_virtio(self):
swap = {'device_name': '/dev/vdc',
'swap_size': 1}
ephemerals = [{'num': 0,
'virtual_name': 'ephemeral0',
'device_name': '/dev/vdb',
'size': 1}]
block_device_info = {
'swap': swap,
'ephemerals': ephemerals}
self._check_xml_and_disk_bus({"disk_format": "iso"},
block_device_info,
(("cdrom", "ide", "hda"),
("disk", "virtio", "vdb"),
("disk", "virtio", "vdc")))
def test_list_instances(self):
self.mox.StubOutWithMock(libvirt_driver.LibvirtDriver, '_conn')
libvirt_driver.LibvirtDriver._conn.lookupByID = self.fake_lookup
libvirt_driver.LibvirtDriver._conn.numOfDomains = lambda: 2
libvirt_driver.LibvirtDriver._conn.listDomainsID = lambda: [0, 1]
self.mox.ReplayAll()
conn = libvirt_driver.LibvirtDriver(False)
instances = conn.list_instances()
# Only one should be listed, since domain with ID 0 must be skiped
self.assertEquals(len(instances), 1)
def test_list_instances_when_instance_deleted(self):
def fake_lookup(instance_name):
raise libvirt.libvirtError("we deleted an instance!")
self.mox.StubOutWithMock(libvirt_driver.LibvirtDriver, '_conn')
libvirt_driver.LibvirtDriver._conn.lookupByID = fake_lookup
libvirt_driver.LibvirtDriver._conn.numOfDomains = lambda: 1
libvirt_driver.LibvirtDriver._conn.listDomainsID = lambda: [0, 1]
self.mox.ReplayAll()
conn = libvirt_driver.LibvirtDriver(False)
instances = conn.list_instances()
# None should be listed, since we fake deleted the last one
self.assertEquals(len(instances), 0)
def test_get_all_block_devices(self):
xml = [
# NOTE(vish): id 0 is skipped
None,
"""
<domain type='kvm'>
<devices>
<disk type='file'>
<source file='filename'/>
</disk>
<disk type='block'>
<source dev='/path/to/dev/1'/>
</disk>
</devices>
</domain>
""",
"""
<domain type='kvm'>
<devices>
<disk type='file'>
<source file='filename'/>
</disk>
</devices>
</domain>
""",
"""
<domain type='kvm'>
<devices>
<disk type='file'>
<source file='filename'/>
</disk>
<disk type='block'>
<source dev='/path/to/dev/3'/>
</disk>
</devices>
</domain>
""",
]
def fake_lookup(id):
return FakeVirtDomain(xml[id])
self.mox.StubOutWithMock(libvirt_driver.LibvirtDriver, '_conn')
libvirt_driver.LibvirtDriver._conn.numOfDomains = lambda: 4
libvirt_driver.LibvirtDriver._conn.listDomainsID = lambda: range(4)
libvirt_driver.LibvirtDriver._conn.lookupByID = fake_lookup
self.mox.ReplayAll()
conn = libvirt_driver.LibvirtDriver(False)
devices = conn.get_all_block_devices()
self.assertEqual(devices, ['/path/to/dev/1', '/path/to/dev/3'])
def test_get_disks(self):
xml = [
# NOTE(vish): id 0 is skipped
None,
"""
<domain type='kvm'>
<devices>
<disk type='file'>
<source file='filename'/>
<target dev='vda' bus='virtio'/>
</disk>
<disk type='block'>
<source dev='/path/to/dev/1'/>
<target dev='vdb' bus='virtio'/>
</disk>
</devices>
</domain>
""",
"""
<domain type='kvm'>
<devices>
<disk type='file'>
<source file='filename'/>
<target dev='vda' bus='virtio'/>
</disk>
</devices>
</domain>
""",
"""
<domain type='kvm'>
<devices>
<disk type='file'>
<source file='filename'/>
<target dev='vda' bus='virtio'/>
</disk>
<disk type='block'>
<source dev='/path/to/dev/3'/>
<target dev='vdb' bus='virtio'/>
</disk>
</devices>
</domain>
""",
]
def fake_lookup(id):
return FakeVirtDomain(xml[id])
def fake_lookup_name(name):
return FakeVirtDomain(xml[1])
self.mox.StubOutWithMock(libvirt_driver.LibvirtDriver, '_conn')
libvirt_driver.LibvirtDriver._conn.numOfDomains = lambda: 4
libvirt_driver.LibvirtDriver._conn.listDomainsID = lambda: range(4)
libvirt_driver.LibvirtDriver._conn.lookupByID = fake_lookup
libvirt_driver.LibvirtDriver._conn.lookupByName = fake_lookup_name
self.mox.ReplayAll()
conn = libvirt_driver.LibvirtDriver(False)
devices = conn.get_disks(conn.list_instances()[0])
self.assertEqual(devices, ['vda', 'vdb'])
def test_snapshot_in_ami_format(self):
self.flags(libvirt_snapshots_directory='./')
# Start test
image_service = nova.tests.image.fake.FakeImageService()
# Assign different image_ref from nova/images/fakes for testing ami
test_instance = copy.deepcopy(self.test_instance)
test_instance["image_ref"] = 'c905cedb-7281-47e4-8a62-f26bc5fc4c77'
# Assuming that base image already exists in image_service
instance_ref = db.instance_create(self.context, test_instance)
properties = {'instance_id': instance_ref['id'],
'user_id': str(self.context.user_id)}
snapshot_name = 'test-snap'
sent_meta = {'name': snapshot_name, 'is_public': False,
'status': 'creating', 'properties': properties}
# Create new image. It will be updated in snapshot method
# To work with it from snapshot, the single image_service is needed
recv_meta = image_service.create(context, sent_meta)
self.mox.StubOutWithMock(libvirt_driver.LibvirtDriver, '_conn')
libvirt_driver.LibvirtDriver._conn.lookupByName = self.fake_lookup
self.mox.StubOutWithMock(libvirt_driver.utils, 'execute')
libvirt_driver.utils.execute = self.fake_execute
self.mox.ReplayAll()
conn = libvirt_driver.LibvirtDriver(False)
conn.snapshot(self.context, instance_ref, recv_meta['id'])
snapshot = image_service.show(context, recv_meta['id'])
self.assertEquals(snapshot['properties']['image_state'], 'available')
self.assertEquals(snapshot['status'], 'active')
self.assertEquals(snapshot['disk_format'], 'ami')
self.assertEquals(snapshot['name'], snapshot_name)
def test_lxc_snapshot_in_ami_format(self):
self.flags(libvirt_snapshots_directory='./',
libvirt_type='lxc')
# Start test
image_service = nova.tests.image.fake.FakeImageService()
# Assign different image_ref from nova/images/fakes for testing ami
test_instance = copy.deepcopy(self.test_instance)
test_instance["image_ref"] = 'c905cedb-7281-47e4-8a62-f26bc5fc4c77'
# Assuming that base image already exists in image_service
instance_ref = db.instance_create(self.context, test_instance)
properties = {'instance_id': instance_ref['id'],
'user_id': str(self.context.user_id)}
snapshot_name = 'test-snap'
sent_meta = {'name': snapshot_name, 'is_public': False,
'status': 'creating', 'properties': properties}
# Create new image. It will be updated in snapshot method
# To work with it from snapshot, the single image_service is needed
recv_meta = image_service.create(context, sent_meta)
self.mox.StubOutWithMock(libvirt_driver.LibvirtDriver, '_conn')
libvirt_driver.LibvirtDriver._conn.lookupByName = self.fake_lookup
self.mox.StubOutWithMock(libvirt_driver.utils, 'execute')
libvirt_driver.utils.execute = self.fake_execute
libvirt_driver.libvirt_utils.disk_type = "qcow2"
self.mox.ReplayAll()
conn = libvirt_driver.LibvirtDriver(False)
conn.snapshot(self.context, instance_ref, recv_meta['id'])
snapshot = image_service.show(context, recv_meta['id'])
self.assertEquals(snapshot['properties']['image_state'], 'available')
self.assertEquals(snapshot['status'], 'active')
self.assertEquals(snapshot['disk_format'], 'ami')
self.assertEquals(snapshot['name'], snapshot_name)
def test_snapshot_in_raw_format(self):
self.flags(libvirt_snapshots_directory='./')
# Start test
image_service = nova.tests.image.fake.FakeImageService()
# Assuming that base image already exists in image_service
instance_ref = db.instance_create(self.context, self.test_instance)
properties = {'instance_id': instance_ref['id'],
'user_id': str(self.context.user_id)}
snapshot_name = 'test-snap'
sent_meta = {'name': snapshot_name, 'is_public': False,
'status': 'creating', 'properties': properties}
# Create new image. It will be updated in snapshot method
# To work with it from snapshot, the single image_service is needed
recv_meta = image_service.create(context, sent_meta)
self.mox.StubOutWithMock(libvirt_driver.LibvirtDriver, '_conn')
libvirt_driver.LibvirtDriver._conn.lookupByName = self.fake_lookup
self.mox.StubOutWithMock(libvirt_driver.utils, 'execute')
libvirt_driver.utils.execute = self.fake_execute
self.mox.ReplayAll()
conn = libvirt_driver.LibvirtDriver(False)
conn.snapshot(self.context, instance_ref, recv_meta['id'])
snapshot = image_service.show(context, recv_meta['id'])
self.assertEquals(snapshot['properties']['image_state'], 'available')
self.assertEquals(snapshot['status'], 'active')
self.assertEquals(snapshot['disk_format'], 'raw')
self.assertEquals(snapshot['name'], snapshot_name)
def test_lxc_snapshot_in_raw_format(self):
self.flags(libvirt_snapshots_directory='./',
libvirt_type='lxc')
# Start test
image_service = nova.tests.image.fake.FakeImageService()
# Assuming that base image already exists in image_service
instance_ref = db.instance_create(self.context, self.test_instance)
properties = {'instance_id': instance_ref['id'],
'user_id': str(self.context.user_id)}
snapshot_name = 'test-snap'
sent_meta = {'name': snapshot_name, 'is_public': False,
'status': 'creating', 'properties': properties}
# Create new image. It will be updated in snapshot method
# To work with it from snapshot, the single image_service is needed
recv_meta = image_service.create(context, sent_meta)
self.mox.StubOutWithMock(libvirt_driver.LibvirtDriver, '_conn')
libvirt_driver.LibvirtDriver._conn.lookupByName = self.fake_lookup
self.mox.StubOutWithMock(libvirt_driver.utils, 'execute')
libvirt_driver.utils.execute = self.fake_execute
self.stubs.Set(libvirt_driver.libvirt_utils, 'disk_type', 'raw')
def convert_image(source, dest, out_format):
libvirt_driver.libvirt_utils.files[dest] = ''
images.convert_image = convert_image
self.mox.ReplayAll()
conn = libvirt_driver.LibvirtDriver(False)
conn.snapshot(self.context, instance_ref, recv_meta['id'])
snapshot = image_service.show(context, recv_meta['id'])
self.assertEquals(snapshot['properties']['image_state'], 'available')
self.assertEquals(snapshot['status'], 'active')
self.assertEquals(snapshot['disk_format'], 'raw')
self.assertEquals(snapshot['name'], snapshot_name)
def test_snapshot_in_qcow2_format(self):
self.flags(snapshot_image_format='qcow2',
libvirt_snapshots_directory='./')
# Start test
image_service = nova.tests.image.fake.FakeImageService()
# Assuming that base image already exists in image_service
instance_ref = db.instance_create(self.context, self.test_instance)
properties = {'instance_id': instance_ref['id'],
'user_id': str(self.context.user_id)}
snapshot_name = 'test-snap'
sent_meta = {'name': snapshot_name, 'is_public': False,
'status': 'creating', 'properties': properties}
# Create new image. It will be updated in snapshot method
# To work with it from snapshot, the single image_service is needed
recv_meta = image_service.create(context, sent_meta)
self.mox.StubOutWithMock(libvirt_driver.LibvirtDriver, '_conn')
libvirt_driver.LibvirtDriver._conn.lookupByName = self.fake_lookup
self.mox.StubOutWithMock(libvirt_driver.utils, 'execute')
libvirt_driver.utils.execute = self.fake_execute
self.mox.ReplayAll()
conn = libvirt_driver.LibvirtDriver(False)
conn.snapshot(self.context, instance_ref, recv_meta['id'])
snapshot = image_service.show(context, recv_meta['id'])
self.assertEquals(snapshot['properties']['image_state'], 'available')
self.assertEquals(snapshot['status'], 'active')
self.assertEquals(snapshot['disk_format'], 'qcow2')
self.assertEquals(snapshot['name'], snapshot_name)
def test_lxc_snapshot_in_qcow2_format(self):
self.flags(snapshot_image_format='qcow2',
libvirt_snapshots_directory='./',
libvirt_type='lxc')
# Start test
image_service = nova.tests.image.fake.FakeImageService()
# Assuming that base image already exists in image_service
instance_ref = db.instance_create(self.context, self.test_instance)
properties = {'instance_id': instance_ref['id'],
'user_id': str(self.context.user_id)}
snapshot_name = 'test-snap'
sent_meta = {'name': snapshot_name, 'is_public': False,
'status': 'creating', 'properties': properties}
# Create new image. It will be updated in snapshot method
# To work with it from snapshot, the single image_service is needed
recv_meta = image_service.create(context, sent_meta)
self.mox.StubOutWithMock(libvirt_driver.LibvirtDriver, '_conn')
libvirt_driver.LibvirtDriver._conn.lookupByName = self.fake_lookup
self.mox.StubOutWithMock(libvirt_driver.utils, 'execute')
libvirt_driver.utils.execute = self.fake_execute
libvirt_driver.libvirt_utils.disk_type = "qcow2"
self.mox.ReplayAll()
conn = libvirt_driver.LibvirtDriver(False)
conn.snapshot(self.context, instance_ref, recv_meta['id'])
snapshot = image_service.show(context, recv_meta['id'])
self.assertEquals(snapshot['properties']['image_state'], 'available')
self.assertEquals(snapshot['status'], 'active')
self.assertEquals(snapshot['disk_format'], 'qcow2')
self.assertEquals(snapshot['name'], snapshot_name)
def test_snapshot_no_image_architecture(self):
self.flags(libvirt_snapshots_directory='./')
# Start test
image_service = nova.tests.image.fake.FakeImageService()
# Assign different image_ref from nova/images/fakes for
# testing different base image
test_instance = copy.deepcopy(self.test_instance)
test_instance["image_ref"] = '76fa36fc-c930-4bf3-8c8a-ea2a2420deb6'
# Assuming that base image already exists in image_service
instance_ref = db.instance_create(self.context, test_instance)
properties = {'instance_id': instance_ref['id'],
'user_id': str(self.context.user_id)}
snapshot_name = 'test-snap'
sent_meta = {'name': snapshot_name, 'is_public': False,
'status': 'creating', 'properties': properties}
# Create new image. It will be updated in snapshot method
# To work with it from snapshot, the single image_service is needed
recv_meta = image_service.create(context, sent_meta)
self.mox.StubOutWithMock(libvirt_driver.LibvirtDriver, '_conn')
libvirt_driver.LibvirtDriver._conn.lookupByName = self.fake_lookup
self.mox.StubOutWithMock(libvirt_driver.utils, 'execute')
libvirt_driver.utils.execute = self.fake_execute
self.mox.ReplayAll()
conn = libvirt_driver.LibvirtDriver(False)
conn.snapshot(self.context, instance_ref, recv_meta['id'])
snapshot = image_service.show(context, recv_meta['id'])
self.assertEquals(snapshot['properties']['image_state'], 'available')
self.assertEquals(snapshot['status'], 'active')
self.assertEquals(snapshot['name'], snapshot_name)
def test_lxc_snapshot_no_image_architecture(self):
self.flags(libvirt_snapshots_directory='./',
libvirt_type='lxc')
# Start test
image_service = nova.tests.image.fake.FakeImageService()
# Assign different image_ref from nova/images/fakes for
# testing different base image
test_instance = copy.deepcopy(self.test_instance)
test_instance["image_ref"] = '76fa36fc-c930-4bf3-8c8a-ea2a2420deb6'
# Assuming that base image already exists in image_service
instance_ref = db.instance_create(self.context, test_instance)
properties = {'instance_id': instance_ref['id'],
'user_id': str(self.context.user_id)}
snapshot_name = 'test-snap'
sent_meta = {'name': snapshot_name, 'is_public': False,
'status': 'creating', 'properties': properties}
# Create new image. It will be updated in snapshot method
# To work with it from snapshot, the single image_service is needed
recv_meta = image_service.create(context, sent_meta)
self.mox.StubOutWithMock(libvirt_driver.LibvirtDriver, '_conn')
libvirt_driver.LibvirtDriver._conn.lookupByName = self.fake_lookup
self.mox.StubOutWithMock(libvirt_driver.utils, 'execute')
libvirt_driver.utils.execute = self.fake_execute
self.mox.ReplayAll()
conn = libvirt_driver.LibvirtDriver(False)
conn.snapshot(self.context, instance_ref, recv_meta['id'])
snapshot = image_service.show(context, recv_meta['id'])
self.assertEquals(snapshot['properties']['image_state'], 'available')
self.assertEquals(snapshot['status'], 'active')
self.assertEquals(snapshot['name'], snapshot_name)
def test_snapshot_no_original_image(self):
self.flags(libvirt_snapshots_directory='./')
# Start test
image_service = nova.tests.image.fake.FakeImageService()
# Assign a non-existent image
test_instance = copy.deepcopy(self.test_instance)
test_instance["image_ref"] = '661122aa-1234-dede-fefe-babababababa'
instance_ref = db.instance_create(self.context, test_instance)
properties = {'instance_id': instance_ref['id'],
'user_id': str(self.context.user_id)}
snapshot_name = 'test-snap'
sent_meta = {'name': snapshot_name, 'is_public': False,
'status': 'creating', 'properties': properties}
recv_meta = image_service.create(context, sent_meta)
self.mox.StubOutWithMock(libvirt_driver.LibvirtDriver, '_conn')
libvirt_driver.LibvirtDriver._conn.lookupByName = self.fake_lookup
self.mox.StubOutWithMock(libvirt_driver.utils, 'execute')
libvirt_driver.utils.execute = self.fake_execute
self.mox.ReplayAll()
conn = libvirt_driver.LibvirtDriver(False)
conn.snapshot(self.context, instance_ref, recv_meta['id'])
snapshot = image_service.show(context, recv_meta['id'])
self.assertEquals(snapshot['properties']['image_state'], 'available')
self.assertEquals(snapshot['status'], 'active')
self.assertEquals(snapshot['name'], snapshot_name)
def test_lxc_snapshot_no_original_image(self):
self.flags(libvirt_snapshots_directory='./',
libvirt_type='lxc')
# Start test
image_service = nova.tests.image.fake.FakeImageService()
# Assign a non-existent image
test_instance = copy.deepcopy(self.test_instance)
test_instance["image_ref"] = '661122aa-1234-dede-fefe-babababababa'
instance_ref = db.instance_create(self.context, test_instance)
properties = {'instance_id': instance_ref['id'],
'user_id': str(self.context.user_id)}
snapshot_name = 'test-snap'
sent_meta = {'name': snapshot_name, 'is_public': False,
'status': 'creating', 'properties': properties}
recv_meta = image_service.create(context, sent_meta)
self.mox.StubOutWithMock(libvirt_driver.LibvirtDriver, '_conn')
libvirt_driver.LibvirtDriver._conn.lookupByName = self.fake_lookup
self.mox.StubOutWithMock(libvirt_driver.utils, 'execute')
libvirt_driver.utils.execute = self.fake_execute
self.mox.ReplayAll()
conn = libvirt_driver.LibvirtDriver(False)
conn.snapshot(self.context, instance_ref, recv_meta['id'])
snapshot = image_service.show(context, recv_meta['id'])
self.assertEquals(snapshot['properties']['image_state'], 'available')
self.assertEquals(snapshot['status'], 'active')
self.assertEquals(snapshot['name'], snapshot_name)
def test_attach_invalid_volume_type(self):
self.create_fake_libvirt_mock()
libvirt_driver.LibvirtDriver._conn.lookupByName = self.fake_lookup
self.mox.ReplayAll()
conn = libvirt_driver.LibvirtDriver(False)
self.assertRaises(exception.VolumeDriverNotFound,
conn.attach_volume,
{"driver_volume_type": "badtype"},
"fake",
"/dev/fake")
def test_multi_nic(self):
instance_data = dict(self.test_instance)
network_info = _fake_network_info(self.stubs, 2)
conn = libvirt_driver.LibvirtDriver(True)
instance_ref = db.instance_create(self.context, instance_data)
xml = conn.to_xml(instance_ref, network_info, None, False)
tree = etree.fromstring(xml)
interfaces = tree.findall("./devices/interface")
self.assertEquals(len(interfaces), 2)
parameters = interfaces[0].findall('./filterref/parameter')
self.assertEquals(interfaces[0].get('type'), 'bridge')
self.assertEquals(parameters[0].get('name'), 'IP')
self.assertTrue(_ipv4_like(parameters[0].get('value'), '192.168'))
def _check_xml_and_container(self, instance):
user_context = context.RequestContext(self.user_id,
self.project_id)
instance_ref = db.instance_create(user_context, instance)
self.flags(libvirt_type='lxc')
conn = libvirt_driver.LibvirtDriver(True)
self.assertEquals(conn.uri, 'lxc:///')
network_info = _fake_network_info(self.stubs, 1)
xml = conn.to_xml(instance_ref, network_info)
tree = etree.fromstring(xml)
check = [
(lambda t: t.find('.').get('type'), 'lxc'),
(lambda t: t.find('./os/type').text, 'exe'),
(lambda t: t.find('./devices/filesystem/target').get('dir'), '/')]
for i, (check, expected_result) in enumerate(check):
self.assertEqual(check(tree),
expected_result,
'%s failed common check %d' % (xml, i))
target = tree.find('./devices/filesystem/source').get('dir')
self.assertTrue(len(target) > 0)
def _check_xml_and_disk_prefix(self, instance):
user_context = context.RequestContext(self.user_id,
self.project_id)
instance_ref = db.instance_create(user_context, instance)
type_disk_map = {
'qemu': [
(lambda t: t.find('.').get('type'), 'qemu'),
(lambda t: t.find('./devices/disk/target').get('dev'), 'vda')],
'xen': [
(lambda t: t.find('.').get('type'), 'xen'),
(lambda t: t.find('./devices/disk/target').get('dev'), 'sda')],
'kvm': [
(lambda t: t.find('.').get('type'), 'kvm'),
(lambda t: t.find('./devices/disk/target').get('dev'), 'vda')],
'uml': [
(lambda t: t.find('.').get('type'), 'uml'),
(lambda t: t.find('./devices/disk/target').get('dev'), 'ubda')]
}
for (libvirt_type, checks) in type_disk_map.iteritems():
self.flags(libvirt_type=libvirt_type)
conn = libvirt_driver.LibvirtDriver(True)
network_info = _fake_network_info(self.stubs, 1)
xml = conn.to_xml(instance_ref, network_info)
tree = etree.fromstring(xml)
for i, (check, expected_result) in enumerate(checks):
self.assertEqual(check(tree),
expected_result,
'%s != %s failed check %d' %
(check(tree), expected_result, i))
def _check_xml_and_disk_driver(self, image_meta):
os_open = os.open
directio_supported = True
def os_open_stub(path, flags, *args, **kwargs):
if flags & os.O_DIRECT:
if not directio_supported:
raise OSError(errno.EINVAL,
'%s: %s' % (os.strerror(errno.EINVAL), path))
flags &= ~os.O_DIRECT
return os_open(path, flags, *args, **kwargs)
self.stubs.Set(os, 'open', os_open_stub)
def connection_supports_direct_io_stub(*args, **kwargs):
return directio_supported
self.stubs.Set(libvirt_driver.LibvirtDriver,
'_supports_direct_io', connection_supports_direct_io_stub)
user_context = context.RequestContext(self.user_id, self.project_id)
instance_ref = db.instance_create(user_context, self.test_instance)
network_info = _fake_network_info(self.stubs, 1)
xml = libvirt_driver.LibvirtDriver(True).to_xml(instance_ref,
network_info,
image_meta)
tree = etree.fromstring(xml)
disks = tree.findall('./devices/disk/driver')
for disk in disks:
self.assertEqual(disk.get("cache"), "none")
directio_supported = False
# The O_DIRECT availability is cached on first use in
# LibvirtDriver, hence we re-create it here
xml = libvirt_driver.LibvirtDriver(True).to_xml(instance_ref,
network_info,
image_meta)
tree = etree.fromstring(xml)
disks = tree.findall('./devices/disk/driver')
for disk in disks:
self.assertEqual(disk.get("cache"), "writethrough")
def _check_xml_and_disk_bus(self, image_meta,
block_device_info, wantConfig):
user_context = context.RequestContext(self.user_id, self.project_id)
instance_ref = db.instance_create(user_context, self.test_instance)
network_info = _fake_network_info(self.stubs, 1)
xml = libvirt_driver.LibvirtDriver(True).to_xml(
instance_ref,
network_info,
image_meta,
block_device_info=block_device_info)
tree = etree.fromstring(xml)
got_disks = tree.findall('./devices/disk')
got_disk_targets = tree.findall('./devices/disk/target')
for i in range(len(wantConfig)):
want_device_type = wantConfig[i][0]
want_device_bus = wantConfig[i][1]
want_device_dev = wantConfig[i][2]
got_device_type = got_disks[i].get('device')
got_device_bus = got_disk_targets[i].get('bus')
got_device_dev = got_disk_targets[i].get('dev')
self.assertEqual(got_device_type, want_device_type)
self.assertEqual(got_device_bus, want_device_bus)
self.assertEqual(got_device_dev, want_device_dev)
def _check_xml_and_uuid(self, image_meta):
user_context = context.RequestContext(self.user_id, self.project_id)
instance_ref = db.instance_create(user_context, self.test_instance)
network_info = _fake_network_info(self.stubs, 1)
xml = libvirt_driver.LibvirtDriver(True).to_xml(instance_ref,
network_info,
image_meta)
tree = etree.fromstring(xml)
self.assertEqual(tree.find('./uuid').text,
instance_ref['uuid'])
def _check_xml_and_uri(self, instance, expect_ramdisk, expect_kernel,
rescue=None, expect_xen_hvm=False, xen_only=False):
user_context = context.RequestContext(self.user_id, self.project_id)
instance_ref = db.instance_create(user_context, instance)
network_ref = db.project_get_networks(context.get_admin_context(),
self.project_id)[0]
type_uri_map = {'qemu': ('qemu:///system',
[(lambda t: t.find('.').get('type'), 'qemu'),
(lambda t: t.find('./os/type').text,
vm_mode.HVM),
(lambda t: t.find('./devices/emulator'), None)]),
'kvm': ('qemu:///system',
[(lambda t: t.find('.').get('type'), 'kvm'),
(lambda t: t.find('./os/type').text,
vm_mode.HVM),
(lambda t: t.find('./devices/emulator'), None)]),
'uml': ('uml:///system',
[(lambda t: t.find('.').get('type'), 'uml'),
(lambda t: t.find('./os/type').text,
vm_mode.UML)]),
'xen': ('xen:///',
[(lambda t: t.find('.').get('type'), 'xen'),
(lambda t: t.find('./os/type').text,
vm_mode.XEN)])}
if expect_xen_hvm or xen_only:
hypervisors_to_check = ['xen']
else:
hypervisors_to_check = ['qemu', 'kvm', 'xen']
if expect_xen_hvm:
type_uri_map = {}
type_uri_map['xen'] = ('xen:///',
[(lambda t: t.find('.').get('type'),
'xen'),
(lambda t: t.find('./os/type').text,
vm_mode.HVM)])
for hypervisor_type in hypervisors_to_check:
check_list = type_uri_map[hypervisor_type][1]
if rescue:
suffix = '.rescue'
else:
suffix = ''
if expect_kernel:
check = (lambda t: t.find('./os/kernel').text.split(
'/')[1], 'kernel' + suffix)
else:
check = (lambda t: t.find('./os/kernel'), None)
check_list.append(check)
# Hypervisors that only support vm_mode.HVM should
# not produce configuration that results in kernel
# arguments
if not expect_kernel and hypervisor_type in ['qemu', 'kvm']:
check = (lambda t: t.find('./os/root'), None)
check_list.append(check)
check = (lambda t: t.find('./os/cmdline'), None)
check_list.append(check)
if expect_ramdisk:
check = (lambda t: t.find('./os/initrd').text.split(
'/')[1], 'ramdisk' + suffix)
else:
check = (lambda t: t.find('./os/initrd'), None)
check_list.append(check)
if hypervisor_type in ['qemu', 'kvm']:
check = (lambda t: t.findall('./devices/serial')[0].get(
'type'), 'file')
check_list.append(check)
check = (lambda t: t.findall('./devices/serial')[1].get(
'type'), 'pty')
check_list.append(check)
check = (lambda t: t.findall('./devices/serial/source')[0].get(
'path').split('/')[1], 'console.log')
check_list.append(check)
else:
check = (lambda t: t.find('./devices/console').get(
'type'), 'pty')
check_list.append(check)
parameter = './devices/interface/filterref/parameter'
common_checks = [
(lambda t: t.find('.').tag, 'domain'),
(lambda t: t.find(parameter).get('name'), 'IP'),
(lambda t: _ipv4_like(t.find(parameter).get('value'), '192.168'),
True),
(lambda t: t.find('./memory').text, '2097152')]
if rescue:
common_checks += [
(lambda t: t.findall('./devices/disk/source')[0].get(
'file').split('/')[1], 'disk.rescue'),
(lambda t: t.findall('./devices/disk/source')[1].get(
'file').split('/')[1], 'disk')]
else:
common_checks += [(lambda t: t.findall(
'./devices/disk/source')[0].get('file').split('/')[1],
'disk')]
common_checks += [(lambda t: t.findall(
'./devices/disk/source')[1].get('file').split('/')[1],
'disk.local')]
for (libvirt_type, (expected_uri, checks)) in type_uri_map.iteritems():
self.flags(libvirt_type=libvirt_type)
conn = libvirt_driver.LibvirtDriver(True)
self.assertEquals(conn.uri, expected_uri)
network_info = _fake_network_info(self.stubs, 1)
xml = conn.to_xml(instance_ref, network_info, None, rescue)
tree = etree.fromstring(xml)
for i, (check, expected_result) in enumerate(checks):
self.assertEqual(check(tree),
expected_result,
'%s != %s failed check %d' %
(check(tree), expected_result, i))
for i, (check, expected_result) in enumerate(common_checks):
self.assertEqual(check(tree),
expected_result,
'%s != %s failed common check %d' %
(check(tree), expected_result, i))
# This test is supposed to make sure we don't
# override a specifically set uri
#
# Deliberately not just assigning this string to FLAGS.libvirt_uri and
# checking against that later on. This way we make sure the
# implementation doesn't fiddle around with the FLAGS.
testuri = 'something completely different'
self.flags(libvirt_uri=testuri)
for (libvirt_type, (expected_uri, checks)) in type_uri_map.iteritems():
self.flags(libvirt_type=libvirt_type)
conn = libvirt_driver.LibvirtDriver(True)
self.assertEquals(conn.uri, testuri)
db.instance_destroy(user_context, instance_ref['uuid'])
def test_ensure_filtering_rules_for_instance_timeout(self):
"""ensure_filtering_fules_for_instance() finishes with timeout."""
# Preparing mocks
def fake_none(self, *args):
return
def fake_raise(self):
raise libvirt.libvirtError('ERR')
class FakeTime(object):
def __init__(self):
self.counter = 0
def sleep(self, t):
self.counter += t
fake_timer = FakeTime()
# _fake_network_info must be called before create_fake_libvirt_mock(),
# as _fake_network_info calls importutils.import_class() and
# create_fake_libvirt_mock() mocks importutils.import_class().
network_info = _fake_network_info(self.stubs, 1)
self.create_fake_libvirt_mock()
instance_ref = db.instance_create(self.context, self.test_instance)
# Start test
self.mox.ReplayAll()
try:
conn = libvirt_driver.LibvirtDriver(False)
self.stubs.Set(conn.firewall_driver,
'setup_basic_filtering',
fake_none)
self.stubs.Set(conn.firewall_driver,
'prepare_instance_filter',
fake_none)
self.stubs.Set(conn.firewall_driver,
'instance_filter_exists',
fake_none)
conn.ensure_filtering_rules_for_instance(instance_ref,
network_info,
time_module=fake_timer)
except exception.NovaException, e:
msg = ('The firewall filter for %s does not exist' %
instance_ref['name'])
c1 = (0 <= str(e).find(msg))
self.assertTrue(c1)
self.assertEqual(29, fake_timer.counter, "Didn't wait the expected "
"amount of time")
db.instance_destroy(self.context, instance_ref['uuid'])
def test_check_can_live_migrate_dest_all_pass_with_block_migration(self):
instance_ref = db.instance_create(self.context, self.test_instance)
dest = "fake_host_2"
src = instance_ref['host']
conn = libvirt_driver.LibvirtDriver(False)
self.mox.StubOutWithMock(conn, '_get_compute_info')
self.mox.StubOutWithMock(conn, '_create_shared_storage_test_file')
self.mox.StubOutWithMock(conn, '_compare_cpu')
conn._get_compute_info(self.context, FLAGS.host).AndReturn(
{'disk_available_least': 400})
# _check_cpu_match
conn._get_compute_info(self.context,
src).AndReturn({'cpu_info': "asdf"})
conn._compare_cpu("asdf")
# mounted_on_same_shared_storage
filename = "file"
conn._create_shared_storage_test_file().AndReturn(filename)
self.mox.ReplayAll()
return_value = conn.check_can_live_migrate_destination(self.context,
instance_ref, True)
self.assertDictMatch(return_value,
{"filename": "file",
'disk_available_mb': 409600,
"disk_over_commit": False,
"block_migration": True})
def test_check_can_live_migrate_dest_all_pass_no_block_migration(self):
instance_ref = db.instance_create(self.context, self.test_instance)
dest = "fake_host_2"
src = instance_ref['host']
conn = libvirt_driver.LibvirtDriver(False)
self.mox.StubOutWithMock(conn, '_get_compute_info')
self.mox.StubOutWithMock(conn, '_create_shared_storage_test_file')
self.mox.StubOutWithMock(conn, '_compare_cpu')
# _check_cpu_match
conn._get_compute_info(self.context,
src).AndReturn({'cpu_info': "asdf"})
conn._compare_cpu("asdf")
# mounted_on_same_shared_storage
filename = "file"
conn._create_shared_storage_test_file().AndReturn(filename)
self.mox.ReplayAll()
return_value = conn.check_can_live_migrate_destination(self.context,
instance_ref, False)
self.assertDictMatch(return_value,
{"filename": "file",
"block_migration": False,
"disk_over_commit": False,
"disk_available_mb": None})
def test_check_can_live_migrate_dest_incompatible_cpu_raises(self):
instance_ref = db.instance_create(self.context, self.test_instance)
dest = "fake_host_2"
src = instance_ref['host']
conn = libvirt_driver.LibvirtDriver(False)
self.mox.StubOutWithMock(conn, '_get_compute_info')
self.mox.StubOutWithMock(conn, '_compare_cpu')
conn._get_compute_info(self.context, src).AndReturn(
{'cpu_info': "asdf"})
conn._compare_cpu("asdf").AndRaise(exception.InvalidCPUInfo)
self.mox.ReplayAll()
self.assertRaises(exception.InvalidCPUInfo,
conn.check_can_live_migrate_destination,
self.context, instance_ref, False)
def test_check_can_live_migrate_dest_cleanup_works_correctly(self):
instance_ref = db.instance_create(self.context, self.test_instance)
dest_check_data = {"filename": "file",
"block_migration": True,
"disk_over_commit": False,
"disk_available_mb": 1024}
conn = libvirt_driver.LibvirtDriver(False)
self.mox.StubOutWithMock(conn, '_cleanup_shared_storage_test_file')
conn._cleanup_shared_storage_test_file("file")
self.mox.ReplayAll()
conn.check_can_live_migrate_destination_cleanup(self.context,
dest_check_data)
def test_check_can_live_migrate_source_works_correctly(self):
instance_ref = db.instance_create(self.context, self.test_instance)
dest_check_data = {"filename": "file",
"block_migration": True,
"disk_over_commit": False,
"disk_available_mb": 1024}
conn = libvirt_driver.LibvirtDriver(False)
self.mox.StubOutWithMock(conn, "_check_shared_storage_test_file")
conn._check_shared_storage_test_file("file").AndReturn(False)
self.mox.StubOutWithMock(conn, "_assert_dest_node_has_enough_disk")
conn._assert_dest_node_has_enough_disk(self.context, instance_ref,
dest_check_data['disk_available_mb'],
False)
self.mox.ReplayAll()
conn.check_can_live_migrate_source(self.context, instance_ref,
dest_check_data)
def test_check_can_live_migrate_dest_fail_shared_storage_with_blockm(self):
instance_ref = db.instance_create(self.context, self.test_instance)
dest_check_data = {"filename": "file",
"block_migration": True,
"disk_over_commit": False,
'disk_available_mb': 1024}
conn = libvirt_driver.LibvirtDriver(False)
self.mox.StubOutWithMock(conn, "_check_shared_storage_test_file")
conn._check_shared_storage_test_file("file").AndReturn(True)
self.mox.ReplayAll()
self.assertRaises(exception.InvalidLocalStorage,
conn.check_can_live_migrate_source,
self.context, instance_ref, dest_check_data)
def test_check_can_live_migrate_no_shared_storage_no_blck_mig_raises(self):
instance_ref = db.instance_create(self.context, self.test_instance)
dest_check_data = {"filename": "file",
"block_migration": False,
"disk_over_commit": False,
'disk_available_mb': 1024}
conn = libvirt_driver.LibvirtDriver(False)
self.mox.StubOutWithMock(conn, "_check_shared_storage_test_file")
conn._check_shared_storage_test_file("file").AndReturn(False)
self.mox.ReplayAll()
self.assertRaises(exception.InvalidSharedStorage,
conn.check_can_live_migrate_source,
self.context, instance_ref, dest_check_data)
def test_check_can_live_migrate_source_with_dest_not_enough_disk(self):
instance_ref = db.instance_create(self.context, self.test_instance)
dest = "fake_host_2"
src = instance_ref['host']
conn = libvirt_driver.LibvirtDriver(False)
self.mox.StubOutWithMock(conn, "_check_shared_storage_test_file")
conn._check_shared_storage_test_file("file").AndReturn(False)
self.mox.StubOutWithMock(conn, "get_instance_disk_info")
conn.get_instance_disk_info(instance_ref["name"]).AndReturn(
'[{"virt_disk_size":2}]')
dest_check_data = {"filename": "file",
"disk_available_mb": 0,
"block_migration": True,
"disk_over_commit": False}
self.mox.ReplayAll()
self.assertRaises(exception.MigrationError,
conn.check_can_live_migrate_source,
self.context, instance_ref, dest_check_data)
def test_live_migration_raises_exception(self):
"""Confirms recover method is called when exceptions are raised."""
# Preparing data
self.compute = importutils.import_object(FLAGS.compute_manager)
instance_dict = {'host': 'fake',
'power_state': power_state.RUNNING,
'vm_state': vm_states.ACTIVE}
instance_ref = db.instance_create(self.context, self.test_instance)
instance_ref = db.instance_update(self.context, instance_ref['uuid'],
instance_dict)
vol_dict = {'status': 'migrating', 'size': 1}
volume_ref = db.volume_create(self.context, vol_dict)
db.volume_attached(self.context,
volume_ref['id'],
instance_ref['uuid'],
'/dev/fake')
# Preparing mocks
vdmock = self.mox.CreateMock(libvirt.virDomain)
self.mox.StubOutWithMock(vdmock, "migrateToURI")
_bandwidth = FLAGS.live_migration_bandwidth
vdmock.migrateToURI(FLAGS.live_migration_uri % 'dest',
mox.IgnoreArg(),
None,
_bandwidth).AndRaise(libvirt.libvirtError('ERR'))
def fake_lookup(instance_name):
if instance_name == instance_ref.name:
return vdmock
self.create_fake_libvirt_mock(lookupByName=fake_lookup)
self.mox.StubOutWithMock(self.compute, "_rollback_live_migration")
self.compute._rollback_live_migration(self.context, instance_ref,
'dest', False)
#start test
self.mox.ReplayAll()
conn = libvirt_driver.LibvirtDriver(False)
self.assertRaises(libvirt.libvirtError,
conn._live_migration,
self.context, instance_ref, 'dest', False,
self.compute._rollback_live_migration)
instance_ref = db.instance_get(self.context, instance_ref['id'])
self.assertTrue(instance_ref['vm_state'] == vm_states.ACTIVE)
self.assertTrue(instance_ref['power_state'] == power_state.RUNNING)
volume_ref = db.volume_get(self.context, volume_ref['id'])
self.assertTrue(volume_ref['status'] == 'in-use')
db.volume_destroy(self.context, volume_ref['id'])
db.instance_destroy(self.context, instance_ref['uuid'])
def test_pre_live_migration_works_correctly_mocked(self):
# Creating testdata
vol = {'block_device_mapping': [
{'connection_info': 'dummy', 'mount_device': '/dev/sda'},
{'connection_info': 'dummy', 'mount_device': '/dev/sdb'}]}
conn = libvirt_driver.LibvirtDriver(False)
class FakeNetworkInfo():
def fixed_ips(self):
return ["test_ip_addr"]
inst_ref = {'id': 'foo'}
c = context.get_admin_context()
nw_info = FakeNetworkInfo()
# Creating mocks
self.mox.StubOutWithMock(driver, "block_device_info_get_mapping")
driver.block_device_info_get_mapping(vol
).AndReturn(vol['block_device_mapping'])
self.mox.StubOutWithMock(conn, "volume_driver_method")
for v in vol['block_device_mapping']:
conn.volume_driver_method('connect_volume',
v['connection_info'],
v['mount_device'].rpartition("/")[2])
self.mox.StubOutWithMock(conn, 'plug_vifs')
conn.plug_vifs(mox.IsA(inst_ref), nw_info)
self.mox.ReplayAll()
result = conn.pre_live_migration(c, inst_ref, vol, nw_info)
self.assertEqual(result, None)
def test_pre_block_migration_works_correctly(self):
# Replace instances_path since this testcase creates tmpfile
with utils.tempdir() as tmpdir:
self.flags(instances_path=tmpdir)
# Test data
instance_ref = db.instance_create(self.context, self.test_instance)
dummy_info = [{'path': '%s/disk' % tmpdir,
'disk_size': 10737418240,
'type': 'raw',
'backing_file': ''},
{'backing_file': 'otherdisk_1234567',
'path': '%s/otherdisk' % tmpdir,
'virt_disk_size': 10737418240}]
dummyjson = json.dumps(dummy_info)
# qemu-img should be mockd since test environment might not have
# large disk space.
self.mox.StubOutWithMock(imagebackend.Image, 'cache')
imagebackend.Image.cache(context=mox.IgnoreArg(),
fetch_func=mox.IgnoreArg(),
filename='otherdisk',
image_id=123456,
project_id='fake',
size=10737418240L,
user_id=None).AndReturn(None)
self.mox.ReplayAll()
conn = libvirt_driver.LibvirtDriver(False)
conn.pre_block_migration(self.context, instance_ref,
dummyjson)
self.assertTrue(os.path.exists('%s/%s/' %
(tmpdir, instance_ref.name)))
db.instance_destroy(self.context, instance_ref['uuid'])
def test_get_instance_disk_info_works_correctly(self):
# Test data
instance_ref = db.instance_create(self.context, self.test_instance)
dummyxml = ("<domain type='kvm'><name>instance-0000000a</name>"
"<devices>"
"<disk type='file'><driver name='qemu' type='raw'/>"
"<source file='/test/disk'/>"
"<target dev='vda' bus='virtio'/></disk>"
"<disk type='file'><driver name='qemu' type='qcow2'/>"
"<source file='/test/disk.local'/>"
"<target dev='vdb' bus='virtio'/></disk>"
"</devices></domain>")
# Preparing mocks
vdmock = self.mox.CreateMock(libvirt.virDomain)
self.mox.StubOutWithMock(vdmock, "XMLDesc")
vdmock.XMLDesc(0).AndReturn(dummyxml)
def fake_lookup(instance_name):
if instance_name == instance_ref.name:
return vdmock
self.create_fake_libvirt_mock(lookupByName=fake_lookup)
GB = 1024 * 1024 * 1024
fake_libvirt_utils.disk_sizes['/test/disk'] = 10 * GB
fake_libvirt_utils.disk_sizes['/test/disk.local'] = 20 * GB
fake_libvirt_utils.disk_backing_files['/test/disk.local'] = 'file'
self.mox.StubOutWithMock(os.path, "getsize")
os.path.getsize('/test/disk').AndReturn((10737418240))
os.path.getsize('/test/disk.local').AndReturn((21474836480))
ret = ("image: /test/disk\n"
"file format: raw\n"
"virtual size: 20G (21474836480 bytes)\n"
"disk size: 3.1G\n"
"cluster_size: 2097152\n"
"backing file: /test/dummy (actual path: /backing/file)\n")
self.mox.StubOutWithMock(utils, "execute")
utils.execute('env', 'LC_ALL=C', 'LANG=C', 'qemu-img', 'info',
'/test/disk.local').AndReturn((ret, ''))
self.mox.ReplayAll()
conn = libvirt_driver.LibvirtDriver(False)
info = conn.get_instance_disk_info(instance_ref.name)
info = jsonutils.loads(info)
self.assertEquals(info[0]['type'], 'raw')
self.assertEquals(info[0]['path'], '/test/disk')
self.assertEquals(info[0]['disk_size'], 10737418240)
self.assertEquals(info[0]['backing_file'], "")
self.assertEquals(info[1]['type'], 'qcow2')
self.assertEquals(info[1]['path'], '/test/disk.local')
self.assertEquals(info[1]['virt_disk_size'], 21474836480)
self.assertEquals(info[1]['backing_file'], "file")
db.instance_destroy(self.context, instance_ref['uuid'])
def test_spawn_with_network_info(self):
# Preparing mocks
def fake_none(self, instance):
return
# _fake_network_info must be called before create_fake_libvirt_mock(),
# as _fake_network_info calls importutils.import_class() and
# create_fake_libvirt_mock() mocks importutils.import_class().
network_info = _fake_network_info(self.stubs, 1)
self.create_fake_libvirt_mock()
instance_ref = self.test_instance
instance_ref['image_ref'] = 123456 # we send an int to test sha1 call
instance = db.instance_create(self.context, instance_ref)
# Start test
self.mox.ReplayAll()
conn = libvirt_driver.LibvirtDriver(False)
self.stubs.Set(conn.firewall_driver,
'setup_basic_filtering',
fake_none)
self.stubs.Set(conn.firewall_driver,
'prepare_instance_filter',
fake_none)
try:
conn.spawn(self.context, instance, None, [], 'herp',
network_info=network_info)
except Exception, e:
# assert that no exception is raised due to sha1 receiving an int
self.assertEqual(-1, unicode(e).find('must be string or buffer'
', not int'))
self.assertNotIn('Unexpected method call', unicode(e))
path = os.path.join(FLAGS.instances_path, instance.name)
if os.path.isdir(path):
shutil.rmtree(path)
path = os.path.join(FLAGS.instances_path, FLAGS.base_dir_name)
if os.path.isdir(path):
shutil.rmtree(os.path.join(FLAGS.instances_path,
FLAGS.base_dir_name))
def test_get_console_output_file(self):
fake_libvirt_utils.files['console.log'] = '01234567890'
with utils.tempdir() as tmpdir:
self.flags(instances_path=tmpdir)
instance_ref = self.test_instance
instance_ref['image_ref'] = 123456
instance = db.instance_create(self.context, instance_ref)
console_dir = (os.path.join(tmpdir, instance['name']))
console_log = '%s/console.log' % (console_dir)
fake_dom_xml = """
<domain type='kvm'>
<devices>
<disk type='file'>
<source file='filename'/>
</disk>
<console type='file'>
<source path='%s'/>
<target port='0'/>
</console>
</devices>
</domain>
""" % console_log
def fake_lookup(id):
return FakeVirtDomain(fake_dom_xml)
self.create_fake_libvirt_mock()
libvirt_driver.LibvirtDriver._conn.lookupByName = fake_lookup
libvirt_driver.libvirt_utils = fake_libvirt_utils
conn = libvirt_driver.LibvirtDriver(False)
try:
prev_max = libvirt_driver.MAX_CONSOLE_BYTES
libvirt_driver.MAX_CONSOLE_BYTES = 5
output = conn.get_console_output(instance)
finally:
libvirt_driver.MAX_CONSOLE_BYTES = prev_max
self.assertEquals('67890', output)
def test_get_console_output_pty(self):
fake_libvirt_utils.files['pty'] = '01234567890'
with utils.tempdir() as tmpdir:
self.flags(instances_path=tmpdir)
instance_ref = self.test_instance
instance_ref['image_ref'] = 123456
instance = db.instance_create(self.context, instance_ref)
console_dir = (os.path.join(tmpdir, instance['name']))
pty_file = '%s/fake_pty' % (console_dir)
fake_dom_xml = """
<domain type='kvm'>
<devices>
<disk type='file'>
<source file='filename'/>
</disk>
<console type='pty'>
<source path='%s'/>
<target port='0'/>
</console>
</devices>
</domain>
""" % pty_file
def fake_lookup(id):
return FakeVirtDomain(fake_dom_xml)
def _fake_flush(self, fake_pty):
return 'foo'
def _fake_append_to_file(self, data, fpath):
return 'pty'
self.create_fake_libvirt_mock()
libvirt_driver.LibvirtDriver._conn.lookupByName = fake_lookup
libvirt_driver.LibvirtDriver._flush_libvirt_console = _fake_flush
libvirt_driver.LibvirtDriver._append_to_file = _fake_append_to_file
libvirt_driver.libvirt_utils = fake_libvirt_utils
conn = libvirt_driver.LibvirtDriver(False)
try:
prev_max = libvirt_driver.MAX_CONSOLE_BYTES
libvirt_driver.MAX_CONSOLE_BYTES = 5
output = conn.get_console_output(instance)
finally:
libvirt_driver.MAX_CONSOLE_BYTES = prev_max
self.assertEquals('67890', output)
def test_get_host_ip_addr(self):
conn = libvirt_driver.LibvirtDriver(False)
ip = conn.get_host_ip_addr()
self.assertEquals(ip, FLAGS.my_ip)
def test_broken_connection(self):
for (error, domain) in (
(libvirt.VIR_ERR_SYSTEM_ERROR, libvirt.VIR_FROM_REMOTE),
(libvirt.VIR_ERR_SYSTEM_ERROR, libvirt.VIR_FROM_RPC)):
conn = libvirt_driver.LibvirtDriver(False)
self.mox.StubOutWithMock(conn, "_wrapped_conn")
self.mox.StubOutWithMock(conn._wrapped_conn, "getCapabilities")
self.mox.StubOutWithMock(libvirt.libvirtError, "get_error_code")
self.mox.StubOutWithMock(libvirt.libvirtError, "get_error_domain")
conn._wrapped_conn.getCapabilities().AndRaise(
libvirt.libvirtError("fake failure"))
libvirt.libvirtError.get_error_code().AndReturn(error)
libvirt.libvirtError.get_error_domain().AndReturn(domain)
self.mox.ReplayAll()
self.assertFalse(conn._test_connection())
self.mox.UnsetStubs()
def test_volume_in_mapping(self):
conn = libvirt_driver.LibvirtDriver(False)
swap = {'device_name': '/dev/sdb',
'swap_size': 1}
ephemerals = [{'num': 0,
'virtual_name': 'ephemeral0',
'device_name': '/dev/sdc1',
'size': 1},
{'num': 2,
'virtual_name': 'ephemeral2',
'device_name': '/dev/sdd',
'size': 1}]
block_device_mapping = [{'mount_device': '/dev/sde',
'device_path': 'fake_device'},
{'mount_device': '/dev/sdf',
'device_path': 'fake_device'}]
block_device_info = {
'root_device_name': '/dev/sda',
'swap': swap,
'ephemerals': ephemerals,
'block_device_mapping': block_device_mapping}
def _assert_volume_in_mapping(device_name, true_or_false):
self.assertEquals(conn._volume_in_mapping(device_name,
block_device_info),
true_or_false)
_assert_volume_in_mapping('sda', False)
_assert_volume_in_mapping('sdb', True)
_assert_volume_in_mapping('sdc1', True)
_assert_volume_in_mapping('sdd', True)
_assert_volume_in_mapping('sde', True)
_assert_volume_in_mapping('sdf', True)
_assert_volume_in_mapping('sdg', False)
_assert_volume_in_mapping('sdh1', False)
def test_immediate_delete(self):
def fake_lookup_by_name(instance_name):
raise exception.InstanceNotFound()
conn = libvirt_driver.LibvirtDriver(False)
self.stubs.Set(conn, '_lookup_by_name', fake_lookup_by_name)
instance = db.instance_create(self.context, self.test_instance)
conn.destroy(instance, {})
def test_destroy_undefines(self):
mock = self.mox.CreateMock(libvirt.virDomain)
mock.destroy()
mock.undefineFlags(1).AndReturn(1)
self.mox.ReplayAll()
def fake_lookup_by_name(instance_name):
return mock
def fake_get_info(instance_name):
return {'state': power_state.SHUTDOWN}
conn = libvirt_driver.LibvirtDriver(False)
self.stubs.Set(conn, '_lookup_by_name', fake_lookup_by_name)
self.stubs.Set(conn, 'get_info', fake_get_info)
instance = {"name": "instancename", "id": "instanceid",
"uuid": "875a8070-d0b9-4949-8b31-104d125c9a64"}
conn.destroy(instance, [])
def test_destroy_undefines_no_undefine_flags(self):
mock = self.mox.CreateMock(libvirt.virDomain)
mock.destroy()
mock.undefineFlags(1).AndRaise(libvirt.libvirtError('Err'))
mock.undefine()
self.mox.ReplayAll()
def fake_lookup_by_name(instance_name):
return mock
def fake_get_info(instance_name):
return {'state': power_state.SHUTDOWN}
conn = libvirt_driver.LibvirtDriver(False)
self.stubs.Set(conn, '_lookup_by_name', fake_lookup_by_name)
self.stubs.Set(conn, 'get_info', fake_get_info)
instance = {"name": "instancename", "id": "instanceid",
"uuid": "875a8070-d0b9-4949-8b31-104d125c9a64"}
conn.destroy(instance, [])
def test_destroy_undefines_no_attribute_with_managed_save(self):
mock = self.mox.CreateMock(libvirt.virDomain)
mock.destroy()
mock.undefineFlags(1).AndRaise(AttributeError())
mock.hasManagedSaveImage(0).AndReturn(True)
mock.managedSaveRemove(0)
mock.undefine()
self.mox.ReplayAll()
def fake_lookup_by_name(instance_name):
return mock
def fake_get_info(instance_name):
return {'state': power_state.SHUTDOWN}
conn = libvirt_driver.LibvirtDriver(False)
self.stubs.Set(conn, '_lookup_by_name', fake_lookup_by_name)
self.stubs.Set(conn, 'get_info', fake_get_info)
instance = {"name": "instancename", "id": "instanceid",
"uuid": "875a8070-d0b9-4949-8b31-104d125c9a64"}
conn.destroy(instance, [])
def test_destroy_undefines_no_attribute_no_managed_save(self):
mock = self.mox.CreateMock(libvirt.virDomain)
mock.destroy()
mock.undefineFlags(1).AndRaise(AttributeError())
mock.hasManagedSaveImage(0).AndRaise(AttributeError())
mock.undefine()
self.mox.ReplayAll()
def fake_lookup_by_name(instance_name):
return mock
def fake_get_info(instance_name):
return {'state': power_state.SHUTDOWN}
conn = libvirt_driver.LibvirtDriver(False)
self.stubs.Set(conn, '_lookup_by_name', fake_lookup_by_name)
self.stubs.Set(conn, 'get_info', fake_get_info)
instance = {"name": "instancename", "id": "instanceid",
"uuid": "875a8070-d0b9-4949-8b31-104d125c9a64"}
conn.destroy(instance, [])
def test_private_destroy_not_found(self):
mock = self.mox.CreateMock(libvirt.virDomain)
mock.destroy()
self.mox.ReplayAll()
def fake_lookup_by_name(instance_name):
return mock
def fake_get_info(instance_name):
raise exception.InstanceNotFound()
conn = libvirt_driver.LibvirtDriver(False)
self.stubs.Set(conn, '_lookup_by_name', fake_lookup_by_name)
self.stubs.Set(conn, 'get_info', fake_get_info)
instance = {"name": "instancename", "id": "instanceid",
"uuid": "875a8070-d0b9-4949-8b31-104d125c9a64"}
# NOTE(vish): verifies destory doesn't raise if the instance disappears
conn._destroy(instance)
def test_available_least_handles_missing(self):
"""Ensure destroy calls managedSaveRemove for saved instance"""
conn = libvirt_driver.LibvirtDriver(False)
def list_instances():
return ['fake']
self.stubs.Set(conn, 'list_instances', list_instances)
def get_info(instance_name):
raise exception.InstanceNotFound()
self.stubs.Set(conn, 'get_instance_disk_info', get_info)
result = conn.get_disk_available_least()
space = fake_libvirt_utils.get_fs_info(FLAGS.instances_path)['free']
self.assertEqual(result, space / 1024 ** 3)
def test_cpu_info(self):
conn = libvirt_driver.LibvirtDriver(True)
def get_host_capabilities_stub(self):
cpu = config.LibvirtConfigCPU()
cpu.model = "Opteron_G4"
cpu.vendor = "AMD"
cpu.arch = "x86_64"
cpu.cores = 2
cpu.threads = 1
cpu.sockets = 4
cpu.add_feature(config.LibvirtConfigCPUFeature("extapic"))
cpu.add_feature(config.LibvirtConfigCPUFeature("3dnow"))
caps = config.LibvirtConfigCaps()
caps.host = config.LibvirtConfigCapsHost()
caps.host.cpu = cpu
guest = config.LibvirtConfigGuest()
guest.ostype = vm_mode.HVM
guest.arch = "x86_64"
guest.domtype = ["kvm"]
caps.guests.append(guest)
guest = config.LibvirtConfigGuest()
guest.ostype = vm_mode.HVM
guest.arch = "i686"
guest.domtype = ["kvm"]
caps.guests.append(guest)
return caps
self.stubs.Set(libvirt_driver.LibvirtDriver,
'get_host_capabilities',
get_host_capabilities_stub)
want = {"vendor": "AMD",
"features": ["extapic", "3dnow"],
"model": "Opteron_G4",
"arch": "x86_64",
"topology": {"cores": 2, "threads": 1, "sockets": 4}}
got = jsonutils.loads(conn.get_cpu_info())
self.assertEqual(want, got)
def test_diagnostic_vcpus_exception(self):
xml = """
<domain type='kvm'>
<devices>
<disk type='file'>
<source file='filename'/>
<target dev='vda' bus='virtio'/>
</disk>
<disk type='block'>
<source dev='/path/to/dev/1'/>
<target dev='vdb' bus='virtio'/>
</disk>
<interface type='network'>
<mac address='52:54:00:a4:38:38'/>
<source network='default'/>
<target dev='vnet0'/>
</interface>
</devices>
</domain>
"""
class DiagFakeDomain(FakeVirtDomain):
def __init__(self):
super(DiagFakeDomain, self).__init__(fake_xml=xml)
def vcpus(self):
raise libvirt.libvirtError('vcpus missing')
def blockStats(self, path):
return (169L, 688640L, 0L, 0L, -1L)
def interfaceStats(self, path):
return (4408L, 82L, 0L, 0L, 0L, 0L, 0L, 0L)
def memoryStats(self):
return {'actual': 220160L, 'rss': 200164L}
def maxMemory(self):
return 280160L
def fake_lookup_name(name):
return DiagFakeDomain()
self.mox.StubOutWithMock(libvirt_driver.LibvirtDriver, '_conn')
libvirt_driver.LibvirtDriver._conn.lookupByName = fake_lookup_name
conn = libvirt_driver.LibvirtDriver(False)
actual = conn.get_diagnostics({"name": "testvirt"})
expect = {'vda_read': 688640L,
'vda_read_req': 169L,
'vda_write': 0L,
'vda_write_req': 0L,
'vda_errors': -1L,
'vdb_read': 688640L,
'vdb_read_req': 169L,
'vdb_write': 0L,
'vdb_write_req': 0L,
'vdb_errors': -1L,
'memory': 280160L,
'memory-actual': 220160L,
'memory-rss': 200164L,
'vnet0_rx': 4408L,
'vnet0_rx_drop': 0L,
'vnet0_rx_errors': 0L,
'vnet0_rx_packets': 82L,
'vnet0_tx': 0L,
'vnet0_tx_drop': 0L,
'vnet0_tx_errors': 0L,
'vnet0_tx_packets': 0L,
}
self.assertEqual(actual, expect)
def test_diagnostic_blockstats_exception(self):
xml = """
<domain type='kvm'>
<devices>
<disk type='file'>
<source file='filename'/>
<target dev='vda' bus='virtio'/>
</disk>
<disk type='block'>
<source dev='/path/to/dev/1'/>
<target dev='vdb' bus='virtio'/>
</disk>
<interface type='network'>
<mac address='52:54:00:a4:38:38'/>
<source network='default'/>
<target dev='vnet0'/>
</interface>
</devices>
</domain>
"""
class DiagFakeDomain(FakeVirtDomain):
def __init__(self):
super(DiagFakeDomain, self).__init__(fake_xml=xml)
def vcpus(self):
return ([(0, 1, 15340000000L, 0),
(1, 1, 1640000000L, 0),
(2, 1, 3040000000L, 0),
(3, 1, 1420000000L, 0)],
[(True, False),
(True, False),
(True, False),
(True, False)])
def blockStats(self, path):
raise libvirt.libvirtError('blockStats missing')
def interfaceStats(self, path):
return (4408L, 82L, 0L, 0L, 0L, 0L, 0L, 0L)
def memoryStats(self):
return {'actual': 220160L, 'rss': 200164L}
def maxMemory(self):
return 280160L
def fake_lookup_name(name):
return DiagFakeDomain()
self.mox.StubOutWithMock(libvirt_driver.LibvirtDriver, '_conn')
libvirt_driver.LibvirtDriver._conn.lookupByName = fake_lookup_name
conn = libvirt_driver.LibvirtDriver(False)
actual = conn.get_diagnostics({"name": "testvirt"})
expect = {'cpu0_time': 15340000000L,
'cpu1_time': 1640000000L,
'cpu2_time': 3040000000L,
'cpu3_time': 1420000000L,
'memory': 280160L,
'memory-actual': 220160L,
'memory-rss': 200164L,
'vnet0_rx': 4408L,
'vnet0_rx_drop': 0L,
'vnet0_rx_errors': 0L,
'vnet0_rx_packets': 82L,
'vnet0_tx': 0L,
'vnet0_tx_drop': 0L,
'vnet0_tx_errors': 0L,
'vnet0_tx_packets': 0L,
}
self.assertEqual(actual, expect)
def test_diagnostic_interfacestats_exception(self):
xml = """
<domain type='kvm'>
<devices>
<disk type='file'>
<source file='filename'/>
<target dev='vda' bus='virtio'/>
</disk>
<disk type='block'>
<source dev='/path/to/dev/1'/>
<target dev='vdb' bus='virtio'/>
</disk>
<interface type='network'>
<mac address='52:54:00:a4:38:38'/>
<source network='default'/>
<target dev='vnet0'/>
</interface>
</devices>
</domain>
"""
class DiagFakeDomain(FakeVirtDomain):
def __init__(self):
super(DiagFakeDomain, self).__init__(fake_xml=xml)
def vcpus(self):
return ([(0, 1, 15340000000L, 0),
(1, 1, 1640000000L, 0),
(2, 1, 3040000000L, 0),
(3, 1, 1420000000L, 0)],
[(True, False),
(True, False),
(True, False),
(True, False)])
def blockStats(self, path):
return (169L, 688640L, 0L, 0L, -1L)
def interfaceStats(self, path):
raise libvirt.libvirtError('interfaceStat missing')
def memoryStats(self):
return {'actual': 220160L, 'rss': 200164L}
def maxMemory(self):
return 280160L
def fake_lookup_name(name):
return DiagFakeDomain()
self.mox.StubOutWithMock(libvirt_driver.LibvirtDriver, '_conn')
libvirt_driver.LibvirtDriver._conn.lookupByName = fake_lookup_name
conn = libvirt_driver.LibvirtDriver(False)
actual = conn.get_diagnostics({"name": "testvirt"})
expect = {'cpu0_time': 15340000000L,
'cpu1_time': 1640000000L,
'cpu2_time': 3040000000L,
'cpu3_time': 1420000000L,
'vda_read': 688640L,
'vda_read_req': 169L,
'vda_write': 0L,
'vda_write_req': 0L,
'vda_errors': -1L,
'vdb_read': 688640L,
'vdb_read_req': 169L,
'vdb_write': 0L,
'vdb_write_req': 0L,
'vdb_errors': -1L,
'memory': 280160L,
'memory-actual': 220160L,
'memory-rss': 200164L,
}
self.assertEqual(actual, expect)
def test_diagnostic_memorystats_exception(self):
xml = """
<domain type='kvm'>
<devices>
<disk type='file'>
<source file='filename'/>
<target dev='vda' bus='virtio'/>
</disk>
<disk type='block'>
<source dev='/path/to/dev/1'/>
<target dev='vdb' bus='virtio'/>
</disk>
<interface type='network'>
<mac address='52:54:00:a4:38:38'/>
<source network='default'/>
<target dev='vnet0'/>
</interface>
</devices>
</domain>
"""
class DiagFakeDomain(FakeVirtDomain):
def __init__(self):
super(DiagFakeDomain, self).__init__(fake_xml=xml)
def vcpus(self):
return ([(0, 1, 15340000000L, 0),
(1, 1, 1640000000L, 0),
(2, 1, 3040000000L, 0),
(3, 1, 1420000000L, 0)],
[(True, False),
(True, False),
(True, False),
(True, False)])
def blockStats(self, path):
return (169L, 688640L, 0L, 0L, -1L)
def interfaceStats(self, path):
return (4408L, 82L, 0L, 0L, 0L, 0L, 0L, 0L)
def memoryStats(self):
raise libvirt.libvirtError('memoryStats missing')
def maxMemory(self):
return 280160L
def fake_lookup_name(name):
return DiagFakeDomain()
self.mox.StubOutWithMock(libvirt_driver.LibvirtDriver, '_conn')
libvirt_driver.LibvirtDriver._conn.lookupByName = fake_lookup_name
conn = libvirt_driver.LibvirtDriver(False)
actual = conn.get_diagnostics({"name": "testvirt"})
expect = {'cpu0_time': 15340000000L,
'cpu1_time': 1640000000L,
'cpu2_time': 3040000000L,
'cpu3_time': 1420000000L,
'vda_read': 688640L,
'vda_read_req': 169L,
'vda_write': 0L,
'vda_write_req': 0L,
'vda_errors': -1L,
'vdb_read': 688640L,
'vdb_read_req': 169L,
'vdb_write': 0L,
'vdb_write_req': 0L,
'vdb_errors': -1L,
'memory': 280160L,
'vnet0_rx': 4408L,
'vnet0_rx_drop': 0L,
'vnet0_rx_errors': 0L,
'vnet0_rx_packets': 82L,
'vnet0_tx': 0L,
'vnet0_tx_drop': 0L,
'vnet0_tx_errors': 0L,
'vnet0_tx_packets': 0L,
}
self.assertEqual(actual, expect)
def test_diagnostic_full(self):
xml = """
<domain type='kvm'>
<devices>
<disk type='file'>
<source file='filename'/>
<target dev='vda' bus='virtio'/>
</disk>
<disk type='block'>
<source dev='/path/to/dev/1'/>
<target dev='vdb' bus='virtio'/>
</disk>
<interface type='network'>
<mac address='52:54:00:a4:38:38'/>
<source network='default'/>
<target dev='vnet0'/>
</interface>
</devices>
</domain>
"""
class DiagFakeDomain(FakeVirtDomain):
def __init__(self):
super(DiagFakeDomain, self).__init__(fake_xml=xml)
def vcpus(self):
return ([(0, 1, 15340000000L, 0),
(1, 1, 1640000000L, 0),
(2, 1, 3040000000L, 0),
(3, 1, 1420000000L, 0)],
[(True, False),
(True, False),
(True, False),
(True, False)])
def blockStats(self, path):
return (169L, 688640L, 0L, 0L, -1L)
def interfaceStats(self, path):
return (4408L, 82L, 0L, 0L, 0L, 0L, 0L, 0L)
def memoryStats(self):
return {'actual': 220160L, 'rss': 200164L}
def maxMemory(self):
return 280160L
def fake_lookup_name(name):
return DiagFakeDomain()
self.mox.StubOutWithMock(libvirt_driver.LibvirtDriver, '_conn')
libvirt_driver.LibvirtDriver._conn.lookupByName = fake_lookup_name
conn = libvirt_driver.LibvirtDriver(False)
actual = conn.get_diagnostics({"name": "testvirt"})
expect = {'cpu0_time': 15340000000L,
'cpu1_time': 1640000000L,
'cpu2_time': 3040000000L,
'cpu3_time': 1420000000L,
'vda_read': 688640L,
'vda_read_req': 169L,
'vda_write': 0L,
'vda_write_req': 0L,
'vda_errors': -1L,
'vdb_read': 688640L,
'vdb_read_req': 169L,
'vdb_write': 0L,
'vdb_write_req': 0L,
'vdb_errors': -1L,
'memory': 280160L,
'memory-actual': 220160L,
'memory-rss': 200164L,
'vnet0_rx': 4408L,
'vnet0_rx_drop': 0L,
'vnet0_rx_errors': 0L,
'vnet0_rx_packets': 82L,
'vnet0_tx': 0L,
'vnet0_tx_drop': 0L,
'vnet0_tx_errors': 0L,
'vnet0_tx_packets': 0L,
}
self.assertEqual(actual, expect)
def test_get_instance_capabilities(self):
conn = libvirt_driver.LibvirtDriver(True)
def get_host_capabilities_stub(self):
caps = config.LibvirtConfigCaps()
guest = config.LibvirtConfigGuest()
guest.ostype = 'hvm'
guest.arch = 'x86_64'
guest.domtype = ['kvm', 'qemu']
caps.guests.append(guest)
guest = config.LibvirtConfigGuest()
guest.ostype = 'hvm'
guest.arch = 'i686'
guest.domtype = ['kvm']
caps.guests.append(guest)
return caps
self.stubs.Set(libvirt_driver.LibvirtDriver,
'get_host_capabilities',
get_host_capabilities_stub)
want = [('x86_64', 'kvm', 'hvm'),
('x86_64', 'qemu', 'hvm'),
('i686', 'kvm', 'hvm')]
got = conn.get_instance_capabilities()
self.assertEqual(want, got)
class HostStateTestCase(test.TestCase):
cpu_info = ('{"vendor": "Intel", "model": "pentium", "arch": "i686", '
'"features": ["ssse3", "monitor", "pni", "sse2", "sse", '
'"fxsr", "clflush", "pse36", "pat", "cmov", "mca", "pge", '
'"mtrr", "sep", "apic"], '
'"topology": {"cores": "1", "threads": "1", "sockets": "1"}}')
instance_caps = [("x86_64", "kvm", "hvm"), ("i686", "kvm", "hvm")]
class FakeConnection(object):
"""Fake connection object"""
def get_vcpu_total(self):
return 1
def get_vcpu_used(self):
return 0
def get_cpu_info(self):
return HostStateTestCase.cpu_info
def get_local_gb_total(self):
return 100
def get_local_gb_used(self):
return 20
def get_memory_mb_total(self):
return 497
def get_memory_mb_used(self):
return 88
def get_hypervisor_type(self):
return 'QEMU'
def get_hypervisor_version(self):
return 13091
def get_hypervisor_hostname(self):
return 'compute1'
def get_host_uptime(self):
return ('10:01:16 up 1:36, 6 users, '
'load average: 0.21, 0.16, 0.19')
def get_disk_available_least(self):
return 13091
def get_instance_capabilities(self):
return HostStateTestCase.instance_caps
def test_update_status(self):
self.mox.StubOutWithMock(libvirt_driver, 'LibvirtDriver')
libvirt_driver.LibvirtDriver(True).AndReturn(self.FakeConnection())
self.mox.ReplayAll()
hs = libvirt_driver.HostState(True)
stats = hs._stats
self.assertEquals(stats["vcpus"], 1)
self.assertEquals(stats["vcpus_used"], 0)
self.assertEquals(stats["cpu_info"],
{"vendor": "Intel", "model": "pentium", "arch": "i686",
"features": ["ssse3", "monitor", "pni", "sse2", "sse",
"fxsr", "clflush", "pse36", "pat", "cmov",
"mca", "pge", "mtrr", "sep", "apic"],
"topology": {"cores": "1", "threads": "1", "sockets": "1"}
})
self.assertEquals(stats["disk_total"], 100)
self.assertEquals(stats["disk_used"], 20)
self.assertEquals(stats["disk_available"], 80)
self.assertEquals(stats["host_memory_total"], 497)
self.assertEquals(stats["host_memory_free"], 409)
self.assertEquals(stats["hypervisor_type"], 'QEMU')
self.assertEquals(stats["hypervisor_version"], 13091)
self.assertEquals(stats["hypervisor_hostname"], 'compute1')
class NWFilterFakes:
def __init__(self):
self.filters = {}
def nwfilterLookupByName(self, name):
if name in self.filters:
return self.filters[name]
raise libvirt.libvirtError('Filter Not Found')
def filterDefineXMLMock(self, xml):
class FakeNWFilterInternal:
def __init__(self, parent, name):
self.name = name
self.parent = parent
def undefine(self):
del self.parent.filters[self.name]
pass
tree = etree.fromstring(xml)
name = tree.get('name')
if name not in self.filters:
self.filters[name] = FakeNWFilterInternal(self, name)
return True
class IptablesFirewallTestCase(test.TestCase):
def setUp(self):
super(IptablesFirewallTestCase, self).setUp()
self.user_id = 'fake'
self.project_id = 'fake'
self.context = context.RequestContext(self.user_id, self.project_id)
class FakeLibvirtDriver(object):
def nwfilterDefineXML(*args, **kwargs):
"""setup_basic_rules in nwfilter calls this."""
pass
self.fake_libvirt_connection = FakeLibvirtDriver()
self.fw = firewall.IptablesFirewallDriver(
get_connection=lambda: self.fake_libvirt_connection)
in_nat_rules = [
'# Generated by iptables-save v1.4.10 on Sat Feb 19 00:03:19 2011',
'*nat',
':PREROUTING ACCEPT [1170:189210]',
':INPUT ACCEPT [844:71028]',
':OUTPUT ACCEPT [5149:405186]',
':POSTROUTING ACCEPT [5063:386098]',
]
in_filter_rules = [
'# Generated by iptables-save v1.4.4 on Mon Dec 6 11:54:13 2010',
'*filter',
':INPUT ACCEPT [969615:281627771]',
':FORWARD ACCEPT [0:0]',
':OUTPUT ACCEPT [915599:63811649]',
':nova-block-ipv4 - [0:0]',
'[0:0] -A INPUT -i virbr0 -p tcp -m tcp --dport 67 -j ACCEPT ',
'[0:0] -A FORWARD -d 192.168.122.0/24 -o virbr0 -m state --state RELATED'
',ESTABLISHED -j ACCEPT ',
'[0:0] -A FORWARD -s 192.168.122.0/24 -i virbr0 -j ACCEPT ',
'[0:0] -A FORWARD -i virbr0 -o virbr0 -j ACCEPT ',
'[0:0] -A FORWARD -o virbr0 -j REJECT '
'--reject-with icmp-port-unreachable ',
'[0:0] -A FORWARD -i virbr0 -j REJECT '
'--reject-with icmp-port-unreachable ',
'COMMIT',
'# Completed on Mon Dec 6 11:54:13 2010',
]
in6_filter_rules = [
'# Generated by ip6tables-save v1.4.4 on Tue Jan 18 23:47:56 2011',
'*filter',
':INPUT ACCEPT [349155:75810423]',
':FORWARD ACCEPT [0:0]',
':OUTPUT ACCEPT [349256:75777230]',
'COMMIT',
'# Completed on Tue Jan 18 23:47:56 2011',
]
def _create_instance_ref(self):
return db.instance_create(self.context,
{'user_id': 'fake',
'project_id': 'fake',
'instance_type_id': 1})
def test_static_filters(self):
instance_ref = self._create_instance_ref()
src_instance_ref = self._create_instance_ref()
admin_ctxt = context.get_admin_context()
secgroup = db.security_group_create(admin_ctxt,
{'user_id': 'fake',
'project_id': 'fake',
'name': 'testgroup',
'description': 'test group'})
src_secgroup = db.security_group_create(admin_ctxt,
{'user_id': 'fake',
'project_id': 'fake',
'name': 'testsourcegroup',
'description': 'src group'})
db.security_group_rule_create(admin_ctxt,
{'parent_group_id': secgroup['id'],
'protocol': 'icmp',
'from_port': -1,
'to_port': -1,
'cidr': '192.168.11.0/24'})
db.security_group_rule_create(admin_ctxt,
{'parent_group_id': secgroup['id'],
'protocol': 'icmp',
'from_port': 8,
'to_port': -1,
'cidr': '192.168.11.0/24'})
db.security_group_rule_create(admin_ctxt,
{'parent_group_id': secgroup['id'],
'protocol': 'tcp',
'from_port': 80,
'to_port': 81,
'cidr': '192.168.10.0/24'})
db.security_group_rule_create(admin_ctxt,
{'parent_group_id': secgroup['id'],
'protocol': 'tcp',
'from_port': 80,
'to_port': 81,
'group_id': src_secgroup['id']})
db.security_group_rule_create(admin_ctxt,
{'parent_group_id': secgroup['id'],
'group_id': src_secgroup['id']})
db.instance_add_security_group(admin_ctxt, instance_ref['uuid'],
secgroup['id'])
db.instance_add_security_group(admin_ctxt, src_instance_ref['uuid'],
src_secgroup['id'])
instance_ref = db.instance_get(admin_ctxt, instance_ref['id'])
src_instance_ref = db.instance_get(admin_ctxt, src_instance_ref['id'])
# self.fw.add_instance(instance_ref)
def fake_iptables_execute(*cmd, **kwargs):
process_input = kwargs.get('process_input', None)
if cmd == ('ip6tables-save', '-c', '-t', 'filter'):
return '\n'.join(self.in6_filter_rules), None
if cmd == ('iptables-save', '-c', '-t', 'filter'):
return '\n'.join(self.in_filter_rules), None
if cmd == ('iptables-save', '-c', '-t', 'nat'):
return '\n'.join(self.in_nat_rules), None
if cmd == ('iptables-restore', '-c',):
lines = process_input.split('\n')
if '*filter' in lines:
self.out_rules = lines
return '', ''
if cmd == ('ip6tables-restore', '-c',):
lines = process_input.split('\n')
if '*filter' in lines:
self.out6_rules = lines
return '', ''
print cmd, kwargs
network_model = _fake_network_info(self.stubs, 1, spectacular=True)
from nova.network import linux_net
linux_net.iptables_manager.execute = fake_iptables_execute
_fake_stub_out_get_nw_info(self.stubs, lambda *a, **kw: network_model)
network_info = network_model.legacy()
self.fw.prepare_instance_filter(instance_ref, network_info)
self.fw.apply_instance_filter(instance_ref, network_info)
in_rules = filter(lambda l: not l.startswith('#'),
self.in_filter_rules)
for rule in in_rules:
if not 'nova' in rule:
self.assertTrue(rule in self.out_rules,
'Rule went missing: %s' % rule)
instance_chain = None
for rule in self.out_rules:
# This is pretty crude, but it'll do for now
# last two octets change
if re.search('-d 192.168.[0-9]{1,3}.[0-9]{1,3} -j', rule):
instance_chain = rule.split(' ')[-1]
break
self.assertTrue(instance_chain, "The instance chain wasn't added")
security_group_chain = None
for rule in self.out_rules:
# This is pretty crude, but it'll do for now
if '-A %s -j' % instance_chain in rule:
security_group_chain = rule.split(' ')[-1]
break
self.assertTrue(security_group_chain,
"The security group chain wasn't added")
regex = re.compile('\[0\:0\] -A .* -j ACCEPT -p icmp '
'-s 192.168.11.0/24')
self.assertTrue(len(filter(regex.match, self.out_rules)) > 0,
"ICMP acceptance rule wasn't added")
regex = re.compile('\[0\:0\] -A .* -j ACCEPT -p icmp -m icmp '
'--icmp-type 8 -s 192.168.11.0/24')
self.assertTrue(len(filter(regex.match, self.out_rules)) > 0,
"ICMP Echo Request acceptance rule wasn't added")
for ip in network_model.fixed_ips():
if ip['version'] != 4:
continue
regex = re.compile('\[0\:0\] -A .* -j ACCEPT -p tcp -m multiport '
'--dports 80:81 -s %s' % ip['address'])
self.assertTrue(len(filter(regex.match, self.out_rules)) > 0,
"TCP port 80/81 acceptance rule wasn't added")
regex = re.compile('\[0\:0\] -A .* -j ACCEPT -s '
'%s' % ip['address'])
self.assertTrue(len(filter(regex.match, self.out_rules)) > 0,
"Protocol/port-less acceptance rule wasn't added")
regex = re.compile('\[0\:0\] -A .* -j ACCEPT -p tcp '
'-m multiport --dports 80:81 -s 192.168.10.0/24')
self.assertTrue(len(filter(regex.match, self.out_rules)) > 0,
"TCP port 80/81 acceptance rule wasn't added")
db.instance_destroy(admin_ctxt, instance_ref['uuid'])
def test_filters_for_instance_with_ip_v6(self):
self.flags(use_ipv6=True)
network_info = _fake_network_info(self.stubs, 1)
rulesv4, rulesv6 = self.fw._filters_for_instance("fake", network_info)
self.assertEquals(len(rulesv4), 2)
self.assertEquals(len(rulesv6), 1)
def test_filters_for_instance_without_ip_v6(self):
self.flags(use_ipv6=False)
network_info = _fake_network_info(self.stubs, 1)
rulesv4, rulesv6 = self.fw._filters_for_instance("fake", network_info)
self.assertEquals(len(rulesv4), 2)
self.assertEquals(len(rulesv6), 0)
def test_multinic_iptables(self):
ipv4_rules_per_addr = 1
ipv4_addr_per_network = 2
ipv6_rules_per_addr = 1
ipv6_addr_per_network = 1
networks_count = 5
instance_ref = self._create_instance_ref()
network_info = _fake_network_info(self.stubs, networks_count,
ipv4_addr_per_network)
ipv4_len = len(self.fw.iptables.ipv4['filter'].rules)
ipv6_len = len(self.fw.iptables.ipv6['filter'].rules)
inst_ipv4, inst_ipv6 = self.fw.instance_rules(instance_ref,
network_info)
self.fw.prepare_instance_filter(instance_ref, network_info)
ipv4 = self.fw.iptables.ipv4['filter'].rules
ipv6 = self.fw.iptables.ipv6['filter'].rules
ipv4_network_rules = len(ipv4) - len(inst_ipv4) - ipv4_len
ipv6_network_rules = len(ipv6) - len(inst_ipv6) - ipv6_len
self.assertEquals(ipv4_network_rules,
ipv4_rules_per_addr * ipv4_addr_per_network * networks_count)
self.assertEquals(ipv6_network_rules,
ipv6_rules_per_addr * ipv6_addr_per_network * networks_count)
def test_do_refresh_security_group_rules(self):
instance_ref = self._create_instance_ref()
self.mox.StubOutWithMock(self.fw,
'instance_rules')
self.mox.StubOutWithMock(self.fw,
'add_filters_for_instance',
use_mock_anything=True)
self.fw.instance_rules(instance_ref,
mox.IgnoreArg()).AndReturn((None, None))
self.fw.add_filters_for_instance(instance_ref, mox.IgnoreArg(),
mox.IgnoreArg())
self.fw.instance_rules(instance_ref,
mox.IgnoreArg()).AndReturn((None, None))
self.fw.add_filters_for_instance(instance_ref, mox.IgnoreArg(),
mox.IgnoreArg())
self.mox.ReplayAll()
self.fw.prepare_instance_filter(instance_ref, mox.IgnoreArg())
self.fw.instances[instance_ref['id']] = instance_ref
self.fw.do_refresh_security_group_rules("fake")
def test_unfilter_instance_undefines_nwfilter(self):
admin_ctxt = context.get_admin_context()
fakefilter = NWFilterFakes()
_xml_mock = fakefilter.filterDefineXMLMock
self.fw.nwfilter._conn.nwfilterDefineXML = _xml_mock
_lookup_name = fakefilter.nwfilterLookupByName
self.fw.nwfilter._conn.nwfilterLookupByName = _lookup_name
instance_ref = self._create_instance_ref()
network_info = _fake_network_info(self.stubs, 1)
self.fw.setup_basic_filtering(instance_ref, network_info)
self.fw.prepare_instance_filter(instance_ref, network_info)
self.fw.apply_instance_filter(instance_ref, network_info)
original_filter_count = len(fakefilter.filters)
self.fw.unfilter_instance(instance_ref, network_info)
# should undefine just the instance filter
self.assertEqual(original_filter_count - len(fakefilter.filters), 1)
db.instance_destroy(admin_ctxt, instance_ref['uuid'])
def test_provider_firewall_rules(self):
# setup basic instance data
instance_ref = self._create_instance_ref()
# FRAGILE: peeks at how the firewall names chains
chain_name = 'inst-%s' % instance_ref['id']
# create a firewall via setup_basic_filtering like libvirt_conn.spawn
# should have a chain with 0 rules
network_info = _fake_network_info(self.stubs, 1)
self.fw.setup_basic_filtering(instance_ref, network_info)
self.assertTrue('provider' in self.fw.iptables.ipv4['filter'].chains)
rules = [rule for rule in self.fw.iptables.ipv4['filter'].rules
if rule.chain == 'provider']
self.assertEqual(0, len(rules))
admin_ctxt = context.get_admin_context()
# add a rule and send the update message, check for 1 rule
provider_fw0 = db.provider_fw_rule_create(admin_ctxt,
{'protocol': 'tcp',
'cidr': '10.99.99.99/32',
'from_port': 1,
'to_port': 65535})
self.fw.refresh_provider_fw_rules()
rules = [rule for rule in self.fw.iptables.ipv4['filter'].rules
if rule.chain == 'provider']
self.assertEqual(1, len(rules))
# Add another, refresh, and make sure number of rules goes to two
provider_fw1 = db.provider_fw_rule_create(admin_ctxt,
{'protocol': 'udp',
'cidr': '10.99.99.99/32',
'from_port': 1,
'to_port': 65535})
self.fw.refresh_provider_fw_rules()
rules = [rule for rule in self.fw.iptables.ipv4['filter'].rules
if rule.chain == 'provider']
self.assertEqual(2, len(rules))
# create the instance filter and make sure it has a jump rule
self.fw.prepare_instance_filter(instance_ref, network_info)
self.fw.apply_instance_filter(instance_ref, network_info)
inst_rules = [rule for rule in self.fw.iptables.ipv4['filter'].rules
if rule.chain == chain_name]
jump_rules = [rule for rule in inst_rules if '-j' in rule.rule]
provjump_rules = []
# IptablesTable doesn't make rules unique internally
for rule in jump_rules:
if 'provider' in rule.rule and rule not in provjump_rules:
provjump_rules.append(rule)
self.assertEqual(1, len(provjump_rules))
# remove a rule from the db, cast to compute to refresh rule
db.provider_fw_rule_destroy(admin_ctxt, provider_fw1['id'])
self.fw.refresh_provider_fw_rules()
rules = [rule for rule in self.fw.iptables.ipv4['filter'].rules
if rule.chain == 'provider']
self.assertEqual(1, len(rules))
class NWFilterTestCase(test.TestCase):
def setUp(self):
super(NWFilterTestCase, self).setUp()
class Mock(object):
pass
self.user_id = 'fake'
self.project_id = 'fake'
self.context = context.RequestContext(self.user_id, self.project_id)
self.fake_libvirt_connection = Mock()
self.fw = firewall.NWFilterFirewall(
lambda: self.fake_libvirt_connection)
def test_cidr_rule_nwfilter_xml(self):
cloud_controller = cloud.CloudController()
cloud_controller.create_security_group(self.context,
'testgroup',
'test group description')
cloud_controller.authorize_security_group_ingress(self.context,
'testgroup',
from_port='80',
to_port='81',
ip_protocol='tcp',
cidr_ip='0.0.0.0/0')
security_group = db.security_group_get_by_name(self.context,
'fake',
'testgroup')
self.teardown_security_group()
def teardown_security_group(self):
cloud_controller = cloud.CloudController()
cloud_controller.delete_security_group(self.context, 'testgroup')
def setup_and_return_security_group(self):
cloud_controller = cloud.CloudController()
cloud_controller.create_security_group(self.context,
'testgroup',
'test group description')
cloud_controller.authorize_security_group_ingress(self.context,
'testgroup',
from_port='80',
to_port='81',
ip_protocol='tcp',
cidr_ip='0.0.0.0/0')
return db.security_group_get_by_name(self.context, 'fake', 'testgroup')
def _create_instance(self):
return db.instance_create(self.context,
{'user_id': 'fake',
'project_id': 'fake',
'instance_type_id': 1})
def _create_instance_type(self, params=None):
"""Create a test instance"""
if not params:
params = {}
context = self.context.elevated()
inst = {}
inst['name'] = 'm1.small'
inst['memory_mb'] = '1024'
inst['vcpus'] = '1'
inst['root_gb'] = '10'
inst['ephemeral_gb'] = '20'
inst['flavorid'] = '1'
inst['swap'] = '2048'
inst['rxtx_factor'] = 1
inst.update(params)
return db.instance_type_create(context, inst)['id']
def test_creates_base_rule_first(self):
# These come pre-defined by libvirt
self.defined_filters = ['no-mac-spoofing',
'no-ip-spoofing',
'no-arp-spoofing',
'allow-dhcp-server']
self.recursive_depends = {}
for f in self.defined_filters:
self.recursive_depends[f] = []
def _filterDefineXMLMock(xml):
dom = minidom.parseString(xml)
name = dom.firstChild.getAttribute('name')
self.recursive_depends[name] = []
for f in dom.getElementsByTagName('filterref'):
ref = f.getAttribute('filter')
self.assertTrue(ref in self.defined_filters,
('%s referenced filter that does ' +
'not yet exist: %s') % (name, ref))
dependencies = [ref] + self.recursive_depends[ref]
self.recursive_depends[name] += dependencies
self.defined_filters.append(name)
return True
self.fake_libvirt_connection.nwfilterDefineXML = _filterDefineXMLMock
instance_ref = self._create_instance()
inst_id = instance_ref['id']
inst_uuid = instance_ref['uuid']
def _ensure_all_called(mac, allow_dhcp):
instance_filter = 'nova-instance-%s-%s' % (instance_ref['name'],
mac.translate(None, ':'))
requiredlist = ['no-arp-spoofing', 'no-ip-spoofing',
'no-mac-spoofing']
if allow_dhcp:
requiredlist.append('allow-dhcp-server')
for required in requiredlist:
self.assertTrue(required in
self.recursive_depends[instance_filter],
"Instance's filter does not include %s" %
required)
self.security_group = self.setup_and_return_security_group()
db.instance_add_security_group(self.context, inst_uuid,
self.security_group.id)
instance = db.instance_get(self.context, inst_id)
network_info = _fake_network_info(self.stubs, 1)
# since there is one (network_info) there is one vif
# pass this vif's mac to _ensure_all_called()
# to set the instance_filter properly
mac = network_info[0][1]['mac']
self.fw.setup_basic_filtering(instance, network_info)
allow_dhcp = False
for (network, mapping) in network_info:
if mapping['dhcp_server']:
allow_dhcp = True
break
_ensure_all_called(mac, allow_dhcp)
db.instance_remove_security_group(self.context, inst_uuid,
self.security_group.id)
self.teardown_security_group()
db.instance_destroy(context.get_admin_context(), instance_ref['uuid'])
def test_unfilter_instance_undefines_nwfilters(self):
admin_ctxt = context.get_admin_context()
fakefilter = NWFilterFakes()
self.fw._conn.nwfilterDefineXML = fakefilter.filterDefineXMLMock
self.fw._conn.nwfilterLookupByName = fakefilter.nwfilterLookupByName
instance_ref = self._create_instance()
inst_id = instance_ref['id']
inst_uuid = instance_ref['uuid']
self.security_group = self.setup_and_return_security_group()
db.instance_add_security_group(self.context, inst_uuid,
self.security_group.id)
instance = db.instance_get(self.context, inst_id)
network_info = _fake_network_info(self.stubs, 1)
self.fw.setup_basic_filtering(instance, network_info)
original_filter_count = len(fakefilter.filters)
self.fw.unfilter_instance(instance, network_info)
self.assertEqual(original_filter_count - len(fakefilter.filters), 1)
db.instance_destroy(admin_ctxt, instance_ref['uuid'])
class LibvirtUtilsTestCase(test.TestCase):
def test_get_iscsi_initiator(self):
self.mox.StubOutWithMock(utils, 'execute')
initiator = 'fake.initiator.iqn'
rval = ("junk\nInitiatorName=%s\njunk\n" % initiator, None)
utils.execute('cat', '/etc/iscsi/initiatorname.iscsi',
run_as_root=True).AndReturn(rval)
# Start test
self.mox.ReplayAll()
result = libvirt_utils.get_iscsi_initiator()
self.assertEqual(initiator, result)
def test_create_image(self):
self.mox.StubOutWithMock(utils, 'execute')
utils.execute('qemu-img', 'create', '-f', 'raw',
'/some/path', '10G')
utils.execute('qemu-img', 'create', '-f', 'qcow2',
'/some/stuff', '1234567891234')
# Start test
self.mox.ReplayAll()
libvirt_utils.create_image('raw', '/some/path', '10G')
libvirt_utils.create_image('qcow2', '/some/stuff', '1234567891234')
def test_create_cow_image(self):
self.mox.StubOutWithMock(utils, 'execute')
utils.execute('qemu-img', 'create', '-f', 'qcow2',
'-o', 'backing_file=/some/path',
'/the/new/cow')
# Start test
self.mox.ReplayAll()
libvirt_utils.create_cow_image('/some/path', '/the/new/cow')
def test_pick_disk_driver_name(self):
type_map = {'kvm': ([True, 'qemu'], [False, 'qemu'], [None, 'qemu']),
'qemu': ([True, 'qemu'], [False, 'qemu'], [None, 'qemu']),
'xen': ([True, 'phy'], [False, 'tap'], [None, 'tap']),
'uml': ([True, None], [False, None], [None, None]),
'lxc': ([True, None], [False, None], [None, None])}
for (libvirt_type, checks) in type_map.iteritems():
self.flags(libvirt_type=libvirt_type)
for (is_block_dev, expected_result) in checks:
result = libvirt_utils.pick_disk_driver_name(is_block_dev)
self.assertEquals(result, expected_result)
def test_get_disk_size(self):
self.mox.StubOutWithMock(utils, 'execute')
utils.execute('env', 'LC_ALL=C', 'LANG=C', 'qemu-img', 'info',
'/some/path').AndReturn(('''image: 00000001
file format: raw
virtual size: 4.4M (4592640 bytes)
disk size: 4.4M''', ''))
# Start test
self.mox.ReplayAll()
self.assertEquals(disk.get_disk_size('/some/path'), 4592640)
def test_copy_image(self):
dst_fd, dst_path = tempfile.mkstemp()
try:
os.close(dst_fd)
src_fd, src_path = tempfile.mkstemp()
try:
with os.fdopen(src_fd, 'w') as fp:
fp.write('canary')
libvirt_utils.copy_image(src_path, dst_path)
with open(dst_path, 'r') as fp:
self.assertEquals(fp.read(), 'canary')
finally:
os.unlink(src_path)
finally:
os.unlink(dst_path)
def test_mkfs(self):
self.mox.StubOutWithMock(utils, 'execute')
utils.execute('mkfs', '-t', 'ext4', '-F', '/my/block/dev')
utils.execute('mkswap', '/my/swap/block/dev')
self.mox.ReplayAll()
libvirt_utils.mkfs('ext4', '/my/block/dev')
libvirt_utils.mkfs('swap', '/my/swap/block/dev')
def test_write_to_file(self):
dst_fd, dst_path = tempfile.mkstemp()
try:
os.close(dst_fd)
libvirt_utils.write_to_file(dst_path, 'hello')
with open(dst_path, 'r') as fp:
self.assertEquals(fp.read(), 'hello')
finally:
os.unlink(dst_path)
def test_write_to_file_with_umask(self):
dst_fd, dst_path = tempfile.mkstemp()
try:
os.close(dst_fd)
os.unlink(dst_path)
libvirt_utils.write_to_file(dst_path, 'hello', umask=0277)
with open(dst_path, 'r') as fp:
self.assertEquals(fp.read(), 'hello')
mode = os.stat(dst_path).st_mode
self.assertEquals(mode & 0277, 0)
finally:
os.unlink(dst_path)
def test_chown(self):
self.mox.StubOutWithMock(utils, 'execute')
utils.execute('chown', 'soren', '/some/path', run_as_root=True)
self.mox.ReplayAll()
libvirt_utils.chown('/some/path', 'soren')
def _do_test_extract_snapshot(self, dest_format='raw', out_format='raw'):
self.mox.StubOutWithMock(utils, 'execute')
utils.execute('qemu-img', 'convert', '-f', 'qcow2', '-O', out_format,
'-s', 'snap1', '/path/to/disk/image', '/extracted/snap')
# Start test
self.mox.ReplayAll()
libvirt_utils.extract_snapshot('/path/to/disk/image', 'qcow2',
'snap1', '/extracted/snap', dest_format)
def test_extract_snapshot_raw(self):
self._do_test_extract_snapshot()
def test_extract_snapshot_iso(self):
self._do_test_extract_snapshot(dest_format='iso')
def test_extract_snapshot_qcow2(self):
self._do_test_extract_snapshot(dest_format='qcow2', out_format='qcow2')
def test_load_file(self):
dst_fd, dst_path = tempfile.mkstemp()
try:
os.close(dst_fd)
# We have a test for write_to_file. If that is sound, this suffices
libvirt_utils.write_to_file(dst_path, 'hello')
self.assertEquals(libvirt_utils.load_file(dst_path), 'hello')
finally:
os.unlink(dst_path)
def test_file_open(self):
dst_fd, dst_path = tempfile.mkstemp()
try:
os.close(dst_fd)
# We have a test for write_to_file. If that is sound, this suffices
libvirt_utils.write_to_file(dst_path, 'hello')
with libvirt_utils.file_open(dst_path, 'r') as fp:
self.assertEquals(fp.read(), 'hello')
finally:
os.unlink(dst_path)
def test_get_fs_info(self):
class FakeStatResult(object):
def __init__(self):
self.f_bsize = 4096
self.f_frsize = 4096
self.f_blocks = 2000
self.f_bfree = 1000
self.f_bavail = 900
self.f_files = 2000
self.f_ffree = 1000
self.f_favail = 900
self.f_flag = 4096
self.f_namemax = 255
self.path = None
def fake_statvfs(path):
self.path = path
return FakeStatResult()
self.stubs.Set(os, 'statvfs', fake_statvfs)
fs_info = libvirt_utils.get_fs_info('/some/file/path')
self.assertEquals('/some/file/path', self.path)
self.assertEquals(8192000, fs_info['total'])
self.assertEquals(3686400, fs_info['free'])
self.assertEquals(4096000, fs_info['used'])
def test_fetch_image(self):
self.mox.StubOutWithMock(images, 'fetch_to_raw')
context = 'opaque context'
target = '/tmp/targetfile'
image_id = '4'
user_id = 'fake'
project_id = 'fake'
images.fetch_to_raw(context, image_id, target, user_id, project_id)
self.mox.ReplayAll()
libvirt_utils.fetch_image(context, target, image_id,
user_id, project_id)
def test_get_disk_backing_file(self):
with_actual_path = False
def fake_execute(*args, **kwargs):
if with_actual_path:
return ("some: output\n"
"backing file: /foo/bar/baz (actual path: /a/b/c)\n"
"...: ...\n"), ''
else:
return ("some: output\n"
"backing file: /foo/bar/baz\n"
"...: ...\n"), ''
self.stubs.Set(utils, 'execute', fake_execute)
out = libvirt_utils.get_disk_backing_file('')
self.assertEqual(out, 'baz')
with_actual_path = True
out = libvirt_utils.get_disk_backing_file('')
self.assertEqual(out, 'c')
class LibvirtDriverTestCase(test.TestCase):
"""Test for nova.virt.libvirt.libvirt_driver.LibvirtDriver."""
def setUp(self):
super(LibvirtDriverTestCase, self).setUp()
self.libvirtconnection = libvirt_driver.LibvirtDriver(read_only=True)
def _create_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'] = 'fake'
inst['project_id'] = 'fake'
type_id = instance_types.get_instance_type_by_name('m1.tiny')['id']
inst['instance_type_id'] = type_id
inst['ami_launch_index'] = 0
inst['host'] = 'host1'
inst['root_gb'] = 10
inst['ephemeral_gb'] = 20
inst['config_drive'] = 1
inst['kernel_id'] = 2
inst['ramdisk_id'] = 3
inst['config_drive_id'] = 1
inst['key_data'] = 'ABCDEFG'
inst.update(params)
return db.instance_create(context.get_admin_context(), inst)
def test_migrate_disk_and_power_off_exception(self):
"""Test for nova.virt.libvirt.libvirt_driver.LivirtConnection
.migrate_disk_and_power_off. """
self.counter = 0
def fake_get_instance_disk_info(instance):
return '[]'
def fake_destroy(instance):
pass
def fake_get_host_ip_addr():
return '10.0.0.1'
def fake_execute(*args, **kwargs):
self.counter += 1
if self.counter == 1:
assert False, "intentional failure"
def fake_os_path_exists(path):
return True
self.stubs.Set(self.libvirtconnection, 'get_instance_disk_info',
fake_get_instance_disk_info)
self.stubs.Set(self.libvirtconnection, '_destroy', fake_destroy)
self.stubs.Set(self.libvirtconnection, 'get_host_ip_addr',
fake_get_host_ip_addr)
self.stubs.Set(utils, 'execute', fake_execute)
self.stubs.Set(os.path, 'exists', fake_os_path_exists)
ins_ref = self._create_instance()
self.assertRaises(AssertionError,
self.libvirtconnection.migrate_disk_and_power_off,
None, ins_ref, '10.0.0.2', None, None)
def test_migrate_disk_and_power_off(self):
"""Test for nova.virt.libvirt.libvirt_driver.LivirtConnection
.migrate_disk_and_power_off. """
disk_info = [{'type': 'qcow2', 'path': '/test/disk',
'virt_disk_size': '10737418240',
'backing_file': '/base/disk',
'disk_size':'83886080'},
{'type': 'raw', 'path': '/test/disk.local',
'virt_disk_size': '10737418240',
'backing_file': '/base/disk.local',
'disk_size':'83886080'}]
disk_info_text = jsonutils.dumps(disk_info)
def fake_get_instance_disk_info(instance):
return disk_info_text
def fake_destroy(instance):
pass
def fake_get_host_ip_addr():
return '10.0.0.1'
def fake_execute(*args, **kwargs):
pass
self.stubs.Set(self.libvirtconnection, 'get_instance_disk_info',
fake_get_instance_disk_info)
self.stubs.Set(self.libvirtconnection, '_destroy', fake_destroy)
self.stubs.Set(self.libvirtconnection, 'get_host_ip_addr',
fake_get_host_ip_addr)
self.stubs.Set(utils, 'execute', fake_execute)
ins_ref = self._create_instance()
""" dest is different host case """
out = self.libvirtconnection.migrate_disk_and_power_off(
None, ins_ref, '10.0.0.2', None, None)
self.assertEquals(out, disk_info_text)
""" dest is same host case """
out = self.libvirtconnection.migrate_disk_and_power_off(
None, ins_ref, '10.0.0.1', None, None)
self.assertEquals(out, disk_info_text)
def test_wait_for_running(self):
def fake_get_info(instance):
if instance['name'] == "not_found":
raise exception.NotFound
elif instance['name'] == "running":
return {'state': power_state.RUNNING}
else:
return {'state': power_state.SHUTDOWN}
self.stubs.Set(self.libvirtconnection, 'get_info',
fake_get_info)
""" instance not found case """
self.assertRaises(exception.NotFound,
self.libvirtconnection._wait_for_running,
{'name': 'not_found',
'uuid': 'not_found_uuid'})
""" instance is running case """
self.assertRaises(utils.LoopingCallDone,
self.libvirtconnection._wait_for_running,
{'name': 'running',
'uuid': 'running_uuid'})
""" else case """
self.libvirtconnection._wait_for_running({'name': 'else',
'uuid': 'other_uuid'})
def test_finish_migration(self):
"""Test for nova.virt.libvirt.libvirt_driver.LivirtConnection
.finish_migration. """
disk_info = [{'type': 'qcow2', 'path': '/test/disk',
'local_gb': 10, 'backing_file': '/base/disk'},
{'type': 'raw', 'path': '/test/disk.local',
'local_gb': 10, 'backing_file': '/base/disk.local'}]
disk_info_text = jsonutils.dumps(disk_info)
def fake_can_resize_fs(path, size, use_cow=False):
return False
def fake_extend(path, size):
pass
def fake_to_xml(instance, network_info, image_meta=None, rescue=None,
block_device_info=None):
return ""
def fake_plug_vifs(instance, network_info):
pass
def fake_create_image(context, inst, libvirt_xml, suffix='',
disk_images=None, network_info=None,
block_device_info=None):
pass
def fake_create_domain(xml):
return None
def fake_enable_hairpin(instance):
pass
def fake_execute(*args, **kwargs):
pass
def fake_get_info(instance):
return {'state': power_state.RUNNING}
self.flags(use_cow_images=True)
self.stubs.Set(libvirt_driver.disk, 'extend', fake_extend)
self.stubs.Set(libvirt_driver.disk, 'can_resize_fs',
fake_can_resize_fs)
self.stubs.Set(self.libvirtconnection, 'to_xml', fake_to_xml)
self.stubs.Set(self.libvirtconnection, 'plug_vifs', fake_plug_vifs)
self.stubs.Set(self.libvirtconnection, '_create_image',
fake_create_image)
self.stubs.Set(self.libvirtconnection, '_create_domain',
fake_create_domain)
self.stubs.Set(self.libvirtconnection, '_enable_hairpin',
fake_enable_hairpin)
self.stubs.Set(utils, 'execute', fake_execute)
fw = base_firewall.NoopFirewallDriver()
self.stubs.Set(self.libvirtconnection, 'firewall_driver', fw)
self.stubs.Set(self.libvirtconnection, 'get_info',
fake_get_info)
ins_ref = self._create_instance()
self.libvirtconnection.finish_migration(
context.get_admin_context(), None, ins_ref,
disk_info_text, None, None, None)
def test_finish_revert_migration(self):
"""Test for nova.virt.libvirt.libvirt_driver.LivirtConnection
.finish_revert_migration. """
def fake_execute(*args, **kwargs):
pass
def fake_plug_vifs(instance, network_info):
pass
def fake_create_domain(xml):
return None
def fake_enable_hairpin(instance):
pass
def fake_get_info(instance):
return {'state': power_state.RUNNING}
def fake_to_xml(instance, network_info, image_meta=None, rescue=None,
block_device_info=None):
return ""
self.stubs.Set(self.libvirtconnection, 'to_xml', fake_to_xml)
self.stubs.Set(self.libvirtconnection, 'plug_vifs', fake_plug_vifs)
self.stubs.Set(utils, 'execute', fake_execute)
fw = base_firewall.NoopFirewallDriver()
self.stubs.Set(self.libvirtconnection, 'firewall_driver', fw)
self.stubs.Set(self.libvirtconnection, '_create_domain',
fake_create_domain)
self.stubs.Set(self.libvirtconnection, '_enable_hairpin',
fake_enable_hairpin)
self.stubs.Set(self.libvirtconnection, 'get_info',
fake_get_info)
with utils.tempdir() as tmpdir:
self.flags(instances_path=tmpdir)
ins_ref = self._create_instance()
os.mkdir(os.path.join(tmpdir, ins_ref['name']))
libvirt_xml_path = os.path.join(tmpdir,
ins_ref['name'],
'libvirt.xml')
f = open(libvirt_xml_path, 'w')
f.close()
self.libvirtconnection.finish_revert_migration(ins_ref, None)
def test_confirm_migration(self):
ins_ref = self._create_instance()
self.mox.StubOutWithMock(self.libvirtconnection, "_cleanup_resize")
self.libvirtconnection._cleanup_resize(ins_ref,
_fake_network_info(self.stubs, 1))
self.mox.ReplayAll()
self.libvirtconnection.confirm_migration("migration_ref", ins_ref,
_fake_network_info(self.stubs, 1))
def test_cleanup_resize_same_host(self):
ins_ref = self._create_instance({'host': FLAGS.host})
def fake_os_path_exists(path):
return True
def fake_shutil_rmtree(target):
pass
self.stubs.Set(os.path, 'exists', fake_os_path_exists)
self.stubs.Set(shutil, 'rmtree', fake_shutil_rmtree)
self.mox.ReplayAll()
self.libvirtconnection._cleanup_resize(ins_ref,
_fake_network_info(self.stubs, 1))
def test_cleanup_resize_not_same_host(self):
host = 'not' + FLAGS.host
ins_ref = self._create_instance({'host': host})
def fake_os_path_exists(path):
return True
def fake_shutil_rmtree(target):
pass
def fake_undefine_domain(instance):
pass
def fake_unplug_vifs(instance, network_info):
pass
def fake_unfilter_instance(instance, network_info):
pass
self.stubs.Set(os.path, 'exists', fake_os_path_exists)
self.stubs.Set(shutil, 'rmtree', fake_shutil_rmtree)
self.stubs.Set(self.libvirtconnection, '_undefine_domain',
fake_undefine_domain)
self.stubs.Set(self.libvirtconnection, 'unplug_vifs',
fake_unplug_vifs)
self.stubs.Set(self.libvirtconnection.firewall_driver,
'unfilter_instance', fake_unfilter_instance)
self.mox.ReplayAll()
self.libvirtconnection._cleanup_resize(ins_ref,
_fake_network_info(self.stubs, 1))
class LibvirtNonblockingTestCase(test.TestCase):
"""Test libvirt_nonblocking option"""
def setUp(self):
super(LibvirtNonblockingTestCase, self).setUp()
self.flags(libvirt_nonblocking=True, libvirt_uri="test:///default")
def tearDown(self):
super(LibvirtNonblockingTestCase, self).tearDown()
def test_connection_to_primitive(self):
"""Test bug 962840"""
import nova.virt.libvirt.driver as libvirt_driver
connection = libvirt_driver.LibvirtDriver('')
jsonutils.to_primitive(connection._conn, convert_instances=True)
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