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February 8, 2018 19:27
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patch for virt/libvirt/driver.py
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# Copyright 2010 United States Government as represented by the | |
# Administrator of the National Aeronautics and Space Administration. | |
# All Rights Reserved. | |
# Copyright (c) 2010 Citrix Systems, Inc. | |
# Copyright (c) 2011 Piston Cloud Computing, Inc | |
# Copyright (c) 2012 University Of Minho | |
# (c) Copyright 2013 Hewlett-Packard Development Company, L.P. | |
# | |
# 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. | |
""" | |
A connection to a hypervisor through libvirt. | |
Supports KVM, LXC, QEMU, UML, XEN and Parallels. | |
""" | |
import binascii | |
import collections | |
from collections import deque | |
import contextlib | |
import errno | |
import functools | |
import glob | |
import itertools | |
import operator | |
import os | |
import pwd | |
import shutil | |
import tempfile | |
import time | |
import uuid | |
from castellan import key_manager | |
import eventlet | |
from eventlet import greenthread | |
from eventlet import tpool | |
from lxml import etree | |
from os_brick import encryptors | |
from os_brick.encryptors import luks as luks_encryptor | |
from os_brick import exception as brick_exception | |
from os_brick.initiator import connector | |
from oslo_concurrency import processutils | |
from oslo_log import log as logging | |
from oslo_serialization import jsonutils | |
from oslo_service import loopingcall | |
from oslo_utils import encodeutils | |
from oslo_utils import excutils | |
from oslo_utils import fileutils | |
from oslo_utils import importutils | |
from oslo_utils import strutils | |
from oslo_utils import timeutils | |
from oslo_utils import units | |
from oslo_utils import uuidutils | |
import six | |
from six.moves import range | |
from nova.api.metadata import base as instance_metadata | |
from nova import block_device | |
from nova.compute import power_state | |
from nova.compute import task_states | |
from nova.compute import utils as compute_utils | |
import nova.conf | |
from nova.console import serial as serial_console | |
from nova.console import type as ctype | |
from nova import context as nova_context | |
from nova import exception | |
from nova.i18n import _ | |
from nova import image | |
from nova.network import model as network_model | |
from nova import objects | |
from nova.objects import diagnostics as diagnostics_obj | |
from nova.objects import fields | |
from nova.objects import migrate_data as migrate_data_obj | |
from nova.pci import manager as pci_manager | |
from nova.pci import utils as pci_utils | |
import nova.privsep.libvirt | |
import nova.privsep.path | |
from nova import utils | |
from nova import version | |
from nova.virt import block_device as driver_block_device | |
from nova.virt import configdrive | |
from nova.virt.disk import api as disk_api | |
from nova.virt.disk.vfs import guestfs | |
from nova.virt import driver | |
from nova.virt import firewall | |
from nova.virt import hardware | |
from nova.virt.image import model as imgmodel | |
from nova.virt import images | |
from nova.virt.libvirt import blockinfo | |
from nova.virt.libvirt import config as vconfig | |
from nova.virt.libvirt import firewall as libvirt_firewall | |
from nova.virt.libvirt import guest as libvirt_guest | |
from nova.virt.libvirt import host | |
from nova.virt.libvirt import imagebackend | |
from nova.virt.libvirt import imagecache | |
from nova.virt.libvirt import instancejobtracker | |
from nova.virt.libvirt import migration as libvirt_migrate | |
from nova.virt.libvirt.storage import dmcrypt | |
from nova.virt.libvirt.storage import lvm | |
from nova.virt.libvirt.storage import rbd_utils | |
from nova.virt.libvirt import utils as libvirt_utils | |
from nova.virt.libvirt import vif as libvirt_vif | |
from nova.virt.libvirt.volume import mount | |
from nova.virt.libvirt.volume import remotefs | |
from nova.virt import netutils | |
from nova.volume import cinder | |
libvirt = None | |
uefi_logged = False | |
LOG = logging.getLogger(__name__) | |
CONF = nova.conf.CONF | |
DEFAULT_FIREWALL_DRIVER = "%s.%s" % ( | |
libvirt_firewall.__name__, | |
libvirt_firewall.IptablesFirewallDriver.__name__) | |
DEFAULT_UEFI_LOADER_PATH = { | |
"x86_64": "/usr/share/OVMF/OVMF_CODE.fd", | |
"aarch64": "/usr/share/AAVMF/AAVMF_CODE.fd" | |
} | |
MAX_CONSOLE_BYTES = 100 * units.Ki | |
# The libvirt driver will prefix any disable reason codes with this string. | |
DISABLE_PREFIX = 'AUTO: ' | |
# Disable reason for the service which was enabled or disabled without reason | |
DISABLE_REASON_UNDEFINED = None | |
# Guest config console string | |
CONSOLE = "console=tty0 console=ttyS0 console=hvc0" | |
GuestNumaConfig = collections.namedtuple( | |
'GuestNumaConfig', ['cpuset', 'cputune', 'numaconfig', 'numatune']) | |
InjectionInfo = collections.namedtuple( | |
'InjectionInfo', ['network_info', 'files', 'admin_pass']) | |
libvirt_volume_drivers = [ | |
'iscsi=nova.virt.libvirt.volume.iscsi.LibvirtISCSIVolumeDriver', | |
'iser=nova.virt.libvirt.volume.iser.LibvirtISERVolumeDriver', | |
'local=nova.virt.libvirt.volume.volume.LibvirtVolumeDriver', | |
#'drbd=nova.virt.libvirt.volume.drbd.LibvirtDRBDVolumeDriver', | |
'fake=nova.virt.libvirt.volume.volume.LibvirtFakeVolumeDriver', | |
'rbd=nova.virt.libvirt.volume.net.LibvirtNetVolumeDriver', | |
'sheepdog=nova.virt.libvirt.volume.net.LibvirtNetVolumeDriver', | |
'nfs=nova.virt.libvirt.volume.nfs.LibvirtNFSVolumeDriver', | |
'smbfs=nova.virt.libvirt.volume.smbfs.LibvirtSMBFSVolumeDriver', | |
'aoe=nova.virt.libvirt.volume.aoe.LibvirtAOEVolumeDriver', | |
'fibre_channel=' | |
'nova.virt.libvirt.volume.fibrechannel.' | |
'LibvirtFibreChannelVolumeDriver', | |
'gpfs=nova.virt.libvirt.volume.gpfs.LibvirtGPFSVolumeDriver', | |
'quobyte=nova.virt.libvirt.volume.quobyte.LibvirtQuobyteVolumeDriver', | |
'hgst=nova.virt.libvirt.volume.hgst.LibvirtHGSTVolumeDriver', | |
'scaleio=nova.virt.libvirt.volume.scaleio.LibvirtScaleIOVolumeDriver', | |
'disco=nova.virt.libvirt.volume.disco.LibvirtDISCOVolumeDriver', | |
'vzstorage=' | |
'nova.virt.libvirt.volume.vzstorage.LibvirtVZStorageVolumeDriver', | |
'veritas_hyperscale=' | |
'nova.virt.libvirt.volume.vrtshyperscale.' | |
'LibvirtHyperScaleVolumeDriver', | |
'storpool=nova.virt.libvirt.volume.storpool.LibvirtStorPoolVolumeDriver', | |
] | |
def patch_tpool_proxy(): | |
"""eventlet.tpool.Proxy doesn't work with old-style class in __str__() | |
or __repr__() calls. See bug #962840 for details. | |
We perform a monkey patch to replace those two instance methods. | |
""" | |
def str_method(self): | |
return str(self._obj) | |
def repr_method(self): | |
return repr(self._obj) | |
tpool.Proxy.__str__ = str_method | |
tpool.Proxy.__repr__ = repr_method | |
patch_tpool_proxy() | |
# For information about when MIN_LIBVIRT_VERSION and | |
# NEXT_MIN_LIBVIRT_VERSION can be changed, consult | |
# | |
# https://wiki.openstack.org/wiki/LibvirtDistroSupportMatrix | |
# | |
# Currently this is effectively the min version for i686/x86_64 | |
# + KVM/QEMU, as other architectures/hypervisors require newer | |
# versions. Over time, this will become a common min version | |
# for all architectures/hypervisors, as this value rises to | |
# meet them. | |
MIN_LIBVIRT_VERSION = (1, 2, 9) | |
MIN_QEMU_VERSION = (2, 1, 0) | |
# TODO(berrange): Re-evaluate this at start of each release cycle | |
# to decide if we want to plan a future min version bump. | |
# MIN_LIBVIRT_VERSION can be updated to match this after | |
# NEXT_MIN_LIBVIRT_VERSION has been at a higher value for | |
# one cycle | |
NEXT_MIN_LIBVIRT_VERSION = (1, 3, 1) | |
NEXT_MIN_QEMU_VERSION = (2, 5, 0) | |
# When the above version matches/exceeds this version | |
# delete it & corresponding code using it | |
# Libvirt version 1.2.17 is required for successful block live migration | |
# of vm booted from image with attached devices | |
MIN_LIBVIRT_BLOCK_LM_WITH_VOLUMES_VERSION = (1, 2, 17) | |
# PowerPC based hosts that support NUMA using libvirt | |
MIN_LIBVIRT_NUMA_VERSION_PPC = (1, 2, 19) | |
# Versions of libvirt with known NUMA topology issues | |
# See bug #1449028 | |
BAD_LIBVIRT_NUMA_VERSIONS = [(1, 2, 9, 2)] | |
# Versions of libvirt with broken cpu pinning support. This excludes | |
# versions of libvirt with broken NUMA support since pinning needs | |
# NUMA | |
# See bug #1438226 | |
BAD_LIBVIRT_CPU_POLICY_VERSIONS = [(1, 2, 10)] | |
# Virtuozzo driver support | |
MIN_VIRTUOZZO_VERSION = (7, 0, 0) | |
MIN_LIBVIRT_VIRTUOZZO_VERSION = (1, 2, 12) | |
# Ability to set the user guest password with Qemu | |
MIN_LIBVIRT_SET_ADMIN_PASSWD = (1, 2, 16) | |
# Ability to set the user guest password with parallels | |
MIN_LIBVIRT_PARALLELS_SET_ADMIN_PASSWD = (2, 0, 0) | |
# s/390 & s/390x architectures with KVM | |
MIN_LIBVIRT_KVM_S390_VERSION = (1, 2, 13) | |
MIN_QEMU_S390_VERSION = (2, 3, 0) | |
# libvirt < 1.3 reported virt_functions capability | |
# only when VFs are enabled. | |
# libvirt 1.3 fix f391889f4e942e22b9ef8ecca492de05106ce41e | |
MIN_LIBVIRT_PF_WITH_NO_VFS_CAP_VERSION = (1, 3, 0) | |
# Use the "logd" backend for handling stdout/stderr from QEMU processes. | |
MIN_LIBVIRT_VIRTLOGD = (1, 3, 3) | |
MIN_QEMU_VIRTLOGD = (2, 7, 0) | |
# ppc64/ppc64le architectures with KVM | |
# NOTE(rfolco): Same levels for Libvirt/Qemu on Big Endian and Little | |
# Endian giving the nuance around guest vs host architectures | |
MIN_LIBVIRT_KVM_PPC64_VERSION = (1, 2, 12) | |
# Names of the types that do not get compressed during migration | |
NO_COMPRESSION_TYPES = ('qcow2',) | |
# number of serial console limit | |
QEMU_MAX_SERIAL_PORTS = 4 | |
# Qemu supports 4 serial consoles, we remove 1 because of the PTY one defined | |
ALLOWED_QEMU_SERIAL_PORTS = QEMU_MAX_SERIAL_PORTS - 1 | |
# realtime support | |
MIN_LIBVIRT_REALTIME_VERSION = (1, 2, 13) | |
# libvirt postcopy support | |
MIN_LIBVIRT_POSTCOPY_VERSION = (1, 3, 3) | |
# qemu postcopy support | |
MIN_QEMU_POSTCOPY_VERSION = (2, 5, 0) | |
MIN_LIBVIRT_OTHER_ARCH = { | |
fields.Architecture.S390: MIN_LIBVIRT_KVM_S390_VERSION, | |
fields.Architecture.S390X: MIN_LIBVIRT_KVM_S390_VERSION, | |
fields.Architecture.PPC: MIN_LIBVIRT_KVM_PPC64_VERSION, | |
fields.Architecture.PPC64: MIN_LIBVIRT_KVM_PPC64_VERSION, | |
fields.Architecture.PPC64LE: MIN_LIBVIRT_KVM_PPC64_VERSION, | |
} | |
MIN_QEMU_OTHER_ARCH = { | |
fields.Architecture.S390: MIN_QEMU_S390_VERSION, | |
fields.Architecture.S390X: MIN_QEMU_S390_VERSION, | |
} | |
# perf events support | |
MIN_LIBVIRT_PERF_VERSION = (2, 0, 0) | |
LIBVIRT_PERF_EVENT_PREFIX = 'VIR_PERF_PARAM_' | |
PERF_EVENTS_CPU_FLAG_MAPPING = {'cmt': 'cmt', | |
'mbml': 'mbm_local', | |
'mbmt': 'mbm_total', | |
} | |
# Mediated devices support | |
MIN_LIBVIRT_MDEV_SUPPORT = (3, 4, 0) | |
# libvirt>=3.10 is required for volume multiattach if qemu<2.10. | |
# See https://bugzilla.redhat.com/show_bug.cgi?id=1378242 | |
# for details. | |
MIN_LIBVIRT_MULTIATTACH = (3, 10, 0) | |
MIN_LIBVIRT_LUKS_VERSION = (2, 2, 0) | |
MIN_QEMU_LUKS_VERSION = (2, 6, 0) | |
VGPU_RESOURCE_SEMAPHORE = "vgpu_resources" | |
class LibvirtDriver(driver.ComputeDriver): | |
capabilities = { | |
"has_imagecache": True, | |
"supports_recreate": True, | |
"supports_migrate_to_same_host": False, | |
"supports_attach_interface": True, | |
"supports_device_tagging": True, | |
"supports_tagged_attach_interface": True, | |
"supports_tagged_attach_volume": True, | |
"supports_extend_volume": True, | |
# Multiattach support is conditional on qemu and libvirt versions | |
# determined in init_host. | |
"supports_multiattach": False | |
} | |
def __init__(self, virtapi, read_only=False): | |
super(LibvirtDriver, self).__init__(virtapi) | |
global libvirt | |
if libvirt is None: | |
libvirt = importutils.import_module('libvirt') | |
libvirt_migrate.libvirt = libvirt | |
self._host = host.Host(self._uri(), read_only, | |
lifecycle_event_handler=self.emit_event, | |
conn_event_handler=self._handle_conn_event) | |
self._initiator = None | |
self._fc_wwnns = None | |
self._fc_wwpns = None | |
self._caps = None | |
self._supported_perf_events = [] | |
self.firewall_driver = firewall.load_driver( | |
DEFAULT_FIREWALL_DRIVER, | |
host=self._host) | |
self.vif_driver = libvirt_vif.LibvirtGenericVIFDriver() | |
# TODO(mriedem): Long-term we should load up the volume drivers on | |
# demand as needed rather than doing this on startup, as there might | |
# be unsupported volume drivers in this list based on the underlying | |
# platform. | |
self.volume_drivers = self._get_volume_drivers() | |
self._disk_cachemode = None | |
self.image_cache_manager = imagecache.ImageCacheManager() | |
self.image_backend = imagebackend.Backend(CONF.use_cow_images) | |
self.disk_cachemodes = {} | |
self.valid_cachemodes = ["default", | |
"none", | |
"writethrough", | |
"writeback", | |
"directsync", | |
"unsafe", | |
] | |
self._conn_supports_start_paused = CONF.libvirt.virt_type in ('kvm', | |
'qemu') | |
for mode_str in CONF.libvirt.disk_cachemodes: | |
disk_type, sep, cache_mode = mode_str.partition('=') | |
if cache_mode not in self.valid_cachemodes: | |
LOG.warning('Invalid cachemode %(cache_mode)s specified ' | |
'for disk type %(disk_type)s.', | |
{'cache_mode': cache_mode, 'disk_type': disk_type}) | |
continue | |
self.disk_cachemodes[disk_type] = cache_mode | |
self._volume_api = cinder.API() | |
self._image_api = image.API() | |
sysinfo_serial_funcs = { | |
'none': lambda: None, | |
'hardware': self._get_host_sysinfo_serial_hardware, | |
'os': self._get_host_sysinfo_serial_os, | |
'auto': self._get_host_sysinfo_serial_auto, | |
} | |
self._sysinfo_serial_func = sysinfo_serial_funcs.get( | |
CONF.libvirt.sysinfo_serial) | |
self.job_tracker = instancejobtracker.InstanceJobTracker() | |
self._remotefs = remotefs.RemoteFilesystem() | |
self._live_migration_flags = self._block_migration_flags = 0 | |
self.active_migrations = {} | |
# Compute reserved hugepages from conf file at the very | |
# beginning to ensure any syntax error will be reported and | |
# avoid any re-calculation when computing resources. | |
self._reserved_hugepages = hardware.numa_get_reserved_huge_pages() | |
def _get_volume_drivers(self): | |
driver_registry = dict() | |
for driver_str in libvirt_volume_drivers: | |
driver_type, _sep, driver = driver_str.partition('=') | |
driver_class = importutils.import_class(driver) | |
try: | |
driver_registry[driver_type] = driver_class(self._host) | |
except brick_exception.InvalidConnectorProtocol: | |
LOG.debug('Unable to load volume driver %s. It is not ' | |
'supported on this host.', driver) | |
return driver_registry | |
@property | |
def disk_cachemode(self): | |
if self._disk_cachemode is None: | |
# We prefer 'none' for consistent performance, host crash | |
# safety & migration correctness by avoiding host page cache. | |
# Some filesystems don't support O_DIRECT though. For those we | |
# fallback to 'writethrough' which gives host crash safety, and | |
# is safe for migration provided the filesystem is cache coherent | |
# (cluster filesystems typically are, but things like NFS are not). | |
self._disk_cachemode = "none" | |
if not utils.supports_direct_io(CONF.instances_path): | |
self._disk_cachemode = "writethrough" | |
return self._disk_cachemode | |
def _set_cache_mode(self, conf): | |
"""Set cache mode on LibvirtConfigGuestDisk object.""" | |
try: | |
source_type = conf.source_type | |
driver_cache = conf.driver_cache | |
except AttributeError: | |
return | |
# Shareable disks like for a multi-attach volume need to have the | |
# driver cache disabled. | |
if getattr(conf, 'shareable', False): | |
conf.driver_cache = 'none' | |
else: | |
cache_mode = self.disk_cachemodes.get(source_type, | |
driver_cache) | |
conf.driver_cache = cache_mode | |
def _do_quality_warnings(self): | |
"""Warn about untested driver configurations. | |
This will log a warning message about untested driver or host arch | |
configurations to indicate to administrators that the quality is | |
unknown. Currently, only qemu or kvm on intel 32- or 64-bit systems | |
is tested upstream. | |
""" | |
caps = self._host.get_capabilities() | |
hostarch = caps.host.cpu.arch | |
if (CONF.libvirt.virt_type not in ('qemu', 'kvm') or | |
hostarch not in (fields.Architecture.I686, | |
fields.Architecture.X86_64)): | |
LOG.warning('The libvirt driver is not tested on ' | |
'%(type)s/%(arch)s by the OpenStack project and ' | |
'thus its quality can not be ensured. For more ' | |
'information, see: https://docs.openstack.org/' | |
'nova/latest/user/support-matrix.html', | |
{'type': CONF.libvirt.virt_type, 'arch': hostarch}) | |
def _handle_conn_event(self, enabled, reason): | |
LOG.info("Connection event '%(enabled)d' reason '%(reason)s'", | |
{'enabled': enabled, 'reason': reason}) | |
self._set_host_enabled(enabled, reason) | |
def _version_to_string(self, version): | |
return '.'.join([str(x) for x in version]) | |
def init_host(self, host): | |
self._host.initialize() | |
self._do_quality_warnings() | |
self._parse_migration_flags() | |
self._supported_perf_events = self._get_supported_perf_events() | |
self._set_multiattach_support() | |
if (CONF.libvirt.virt_type == 'lxc' and | |
not (CONF.libvirt.uid_maps and CONF.libvirt.gid_maps)): | |
LOG.warning("Running libvirt-lxc without user namespaces is " | |
"dangerous. Containers spawned by Nova will be run " | |
"as the host's root user. It is highly suggested " | |
"that user namespaces be used in a public or " | |
"multi-tenant environment.") | |
# Stop libguestfs using KVM unless we're also configured | |
# to use this. This solves problem where people need to | |
# stop Nova use of KVM because nested-virt is broken | |
if CONF.libvirt.virt_type != "kvm": | |
guestfs.force_tcg() | |
if not self._host.has_min_version(MIN_LIBVIRT_VERSION): | |
raise exception.InternalError( | |
_('Nova requires libvirt version %s or greater.') % | |
self._version_to_string(MIN_LIBVIRT_VERSION)) | |
if CONF.libvirt.virt_type in ("qemu", "kvm"): | |
if self._host.has_min_version(hv_ver=MIN_QEMU_VERSION): | |
# "qemu-img info" calls are version dependent, so we need to | |
# store the version in the images module. | |
images.QEMU_VERSION = self._host.get_connection().getVersion() | |
else: | |
raise exception.InternalError( | |
_('Nova requires QEMU version %s or greater.') % | |
self._version_to_string(MIN_QEMU_VERSION)) | |
if CONF.libvirt.virt_type == 'parallels': | |
if not self._host.has_min_version(hv_ver=MIN_VIRTUOZZO_VERSION): | |
raise exception.InternalError( | |
_('Nova requires Virtuozzo version %s or greater.') % | |
self._version_to_string(MIN_VIRTUOZZO_VERSION)) | |
if not self._host.has_min_version(MIN_LIBVIRT_VIRTUOZZO_VERSION): | |
raise exception.InternalError( | |
_('Running Nova with parallels virt_type requires ' | |
'libvirt version %s') % | |
self._version_to_string(MIN_LIBVIRT_VIRTUOZZO_VERSION)) | |
# Give the cloud admin a heads up if we are intending to | |
# change the MIN_LIBVIRT_VERSION in the next release. | |
if not self._host.has_min_version(NEXT_MIN_LIBVIRT_VERSION): | |
LOG.warning('Running Nova with a libvirt version less than ' | |
'%(version)s is deprecated. The required minimum ' | |
'version of libvirt will be raised to %(version)s ' | |
'in the next release.', | |
{'version': self._version_to_string( | |
NEXT_MIN_LIBVIRT_VERSION)}) | |
if (CONF.libvirt.virt_type in ("qemu", "kvm") and | |
not self._host.has_min_version(hv_ver=NEXT_MIN_QEMU_VERSION)): | |
LOG.warning('Running Nova with a QEMU version less than ' | |
'%(version)s is deprecated. The required minimum ' | |
'version of QEMU will be raised to %(version)s ' | |
'in the next release.', | |
{'version': self._version_to_string( | |
NEXT_MIN_QEMU_VERSION)}) | |
kvm_arch = fields.Architecture.from_host() | |
if (CONF.libvirt.virt_type in ('kvm', 'qemu') and | |
kvm_arch in MIN_LIBVIRT_OTHER_ARCH and | |
not self._host.has_min_version( | |
MIN_LIBVIRT_OTHER_ARCH.get(kvm_arch), | |
MIN_QEMU_OTHER_ARCH.get(kvm_arch))): | |
if MIN_QEMU_OTHER_ARCH.get(kvm_arch): | |
raise exception.InternalError( | |
_('Running Nova with qemu/kvm virt_type on %(arch)s ' | |
'requires libvirt version %(libvirt_ver)s and ' | |
'qemu version %(qemu_ver)s, or greater') % | |
{'arch': kvm_arch, | |
'libvirt_ver': self._version_to_string( | |
MIN_LIBVIRT_OTHER_ARCH.get(kvm_arch)), | |
'qemu_ver': self._version_to_string( | |
MIN_QEMU_OTHER_ARCH.get(kvm_arch))}) | |
# no qemu version in the error message | |
raise exception.InternalError( | |
_('Running Nova with qemu/kvm virt_type on %(arch)s ' | |
'requires libvirt version %(libvirt_ver)s or greater') % | |
{'arch': kvm_arch, | |
'libvirt_ver': self._version_to_string( | |
MIN_LIBVIRT_OTHER_ARCH.get(kvm_arch))}) | |
# TODO(sbauza): Remove this code once mediated devices are persisted | |
# across reboots. | |
if self._host.has_min_version(MIN_LIBVIRT_MDEV_SUPPORT): | |
self._recreate_assigned_mediated_devices() | |
@staticmethod | |
def _is_existing_mdev(uuid): | |
# FIXME(sbauza): Some kernel can have a uevent race meaning that the | |
# libvirt daemon won't know when a mediated device is created unless | |
# you restart that daemon. Until all kernels we support are not having | |
# that possible race, check the sysfs directly instead of asking the | |
# libvirt API. | |
# See https://bugzilla.redhat.com/show_bug.cgi?id=1376907 for ref. | |
return os.path.exists('/sys/bus/mdev/devices/{0}'.format(uuid)) | |
def _recreate_assigned_mediated_devices(self): | |
"""Recreate assigned mdevs that could have disappeared if we reboot | |
the host. | |
""" | |
mdevs = self._get_all_assigned_mediated_devices() | |
requested_types = self._get_supported_vgpu_types() | |
for (mdev_uuid, instance_uuid) in six.iteritems(mdevs): | |
if not self._is_existing_mdev(mdev_uuid): | |
self._create_new_mediated_device(requested_types, mdev_uuid) | |
def _set_multiattach_support(self): | |
# Check to see if multiattach is supported. Based on bugzilla | |
# https://bugzilla.redhat.com/show_bug.cgi?id=1378242 and related | |
# clones, the shareable flag on a disk device will only work with | |
# qemu<2.10 or libvirt>=3.10. So check those versions here and set | |
# the capability appropriately. | |
if (self._host.has_min_version(lv_ver=MIN_LIBVIRT_MULTIATTACH) or | |
not self._host.has_min_version(hv_ver=(2, 10, 0))): | |
self.capabilities['supports_multiattach'] = True | |
else: | |
LOG.debug('Volume multiattach is not supported based on current ' | |
'versions of QEMU and libvirt. QEMU must be less than ' | |
'2.10 or libvirt must be greater than or equal to 3.10.') | |
def _prepare_migration_flags(self): | |
migration_flags = 0 | |
migration_flags |= libvirt.VIR_MIGRATE_LIVE | |
# Adding p2p flag only if xen is not in use, because xen does not | |
# support p2p migrations | |
if CONF.libvirt.virt_type != 'xen': | |
migration_flags |= libvirt.VIR_MIGRATE_PEER2PEER | |
# Adding VIR_MIGRATE_UNDEFINE_SOURCE because, without it, migrated | |
# instance will remain defined on the source host | |
migration_flags |= libvirt.VIR_MIGRATE_UNDEFINE_SOURCE | |
# Adding VIR_MIGRATE_PERSIST_DEST to persist the VM on the | |
# destination host | |
migration_flags |= libvirt.VIR_MIGRATE_PERSIST_DEST | |
live_migration_flags = block_migration_flags = migration_flags | |
# Adding VIR_MIGRATE_NON_SHARED_INC, otherwise all block-migrations | |
# will be live-migrations instead | |
block_migration_flags |= libvirt.VIR_MIGRATE_NON_SHARED_INC | |
return (live_migration_flags, block_migration_flags) | |
def _handle_live_migration_tunnelled(self, migration_flags): | |
if (CONF.libvirt.live_migration_tunnelled is None or | |
CONF.libvirt.live_migration_tunnelled): | |
migration_flags |= libvirt.VIR_MIGRATE_TUNNELLED | |
return migration_flags | |
def _is_post_copy_available(self): | |
if self._host.has_min_version(lv_ver=MIN_LIBVIRT_POSTCOPY_VERSION, | |
hv_ver=MIN_QEMU_POSTCOPY_VERSION): | |
return True | |
return False | |
def _is_virtlogd_available(self): | |
return self._host.has_min_version(MIN_LIBVIRT_VIRTLOGD, | |
MIN_QEMU_VIRTLOGD) | |
def _is_native_luks_available(self): | |
return self._host.has_min_version(MIN_LIBVIRT_LUKS_VERSION, | |
MIN_QEMU_LUKS_VERSION) | |
def _handle_live_migration_post_copy(self, migration_flags): | |
if CONF.libvirt.live_migration_permit_post_copy: | |
if self._is_post_copy_available(): | |
migration_flags |= libvirt.VIR_MIGRATE_POSTCOPY | |
else: | |
LOG.info('The live_migration_permit_post_copy is set ' | |
'to True, but it is not supported.') | |
return migration_flags | |
def _handle_live_migration_auto_converge(self, migration_flags): | |
if (self._is_post_copy_available() and | |
(migration_flags & libvirt.VIR_MIGRATE_POSTCOPY) != 0): | |
LOG.info('The live_migration_permit_post_copy is set to ' | |
'True and post copy live migration is available ' | |
'so auto-converge will not be in use.') | |
elif CONF.libvirt.live_migration_permit_auto_converge: | |
migration_flags |= libvirt.VIR_MIGRATE_AUTO_CONVERGE | |
return migration_flags | |
def _parse_migration_flags(self): | |
(live_migration_flags, | |
block_migration_flags) = self._prepare_migration_flags() | |
live_migration_flags = self._handle_live_migration_tunnelled( | |
live_migration_flags) | |
block_migration_flags = self._handle_live_migration_tunnelled( | |
block_migration_flags) | |
live_migration_flags = self._handle_live_migration_post_copy( | |
live_migration_flags) | |
block_migration_flags = self._handle_live_migration_post_copy( | |
block_migration_flags) | |
live_migration_flags = self._handle_live_migration_auto_converge( | |
live_migration_flags) | |
block_migration_flags = self._handle_live_migration_auto_converge( | |
block_migration_flags) | |
self._live_migration_flags = live_migration_flags | |
self._block_migration_flags = block_migration_flags | |
# TODO(sahid): This method is targeted for removal when the tests | |
# have been updated to avoid its use | |
# | |
# All libvirt API calls on the libvirt.Connect object should be | |
# encapsulated by methods on the nova.virt.libvirt.host.Host | |
# object, rather than directly invoking the libvirt APIs. The goal | |
# is to avoid a direct dependency on the libvirt API from the | |
# driver.py file. | |
def _get_connection(self): | |
return self._host.get_connection() | |
_conn = property(_get_connection) | |
@staticmethod | |
def _uri(): | |
if CONF.libvirt.virt_type == 'uml': | |
uri = CONF.libvirt.connection_uri or 'uml:///system' | |
elif CONF.libvirt.virt_type == 'xen': | |
uri = CONF.libvirt.connection_uri or 'xen:///' | |
elif CONF.libvirt.virt_type == 'lxc': | |
uri = CONF.libvirt.connection_uri or 'lxc:///' | |
elif CONF.libvirt.virt_type == 'parallels': | |
uri = CONF.libvirt.connection_uri or 'parallels:///system' | |
else: | |
uri = CONF.libvirt.connection_uri or 'qemu:///system' | |
return uri | |
@staticmethod | |
def _live_migration_uri(dest): | |
uris = { | |
'kvm': 'qemu+%s://%s/system', | |
'qemu': 'qemu+%s://%s/system', | |
'xen': 'xenmigr://%s/system', | |
'parallels': 'parallels+tcp://%s/system', | |
} | |
virt_type = CONF.libvirt.virt_type | |
# TODO(pkoniszewski): Remove fetching live_migration_uri in Pike | |
uri = CONF.libvirt.live_migration_uri | |
if uri: | |
return uri % dest | |
uri = uris.get(virt_type) | |
if uri is None: | |
raise exception.LiveMigrationURINotAvailable(virt_type=virt_type) | |
str_format = (dest,) | |
if virt_type in ('kvm', 'qemu'): | |
scheme = CONF.libvirt.live_migration_scheme or 'tcp' | |
str_format = (scheme, dest) | |
return uris.get(virt_type) % str_format | |
@staticmethod | |
def _migrate_uri(dest): | |
uri = None | |
# Only QEMU live migrations supports migrate-uri parameter | |
virt_type = CONF.libvirt.virt_type | |
if virt_type in ('qemu', 'kvm'): | |
# QEMU accept two schemes: tcp and rdma. By default | |
# libvirt build the URI using the remote hostname and the | |
# tcp schema. | |
uri = 'tcp://%s' % dest | |
# Because dest might be of type unicode, here we might return value of | |
# type unicode as well which is not acceptable by libvirt python | |
# binding when Python 2.7 is in use, so let's convert it explicitly | |
# back to string. When Python 3.x is in use, libvirt python binding | |
# accepts unicode type so it is completely fine to do a no-op str(uri) | |
# conversion which will return value of type unicode. | |
return uri and str(uri) | |
def instance_exists(self, instance): | |
"""Efficient override of base instance_exists method.""" | |
try: | |
self._host.get_guest(instance) | |
return True | |
except (exception.InternalError, exception.InstanceNotFound): | |
return False | |
def estimate_instance_overhead(self, instance_info): | |
overhead = super(LibvirtDriver, self).estimate_instance_overhead( | |
instance_info) | |
if isinstance(instance_info, objects.Flavor): | |
# A flavor object is passed during case of migrate | |
# TODO(sahid): We do not have any way to retrieve the | |
# image meta related to the instance so if the cpu_policy | |
# has been set in image_meta we will get an | |
# exception. Until we fix it we specifically set the | |
# cpu_policy in dedicated in an ImageMeta object so if the | |
# emulator threads has been requested nothing is going to | |
# fail. | |
image_meta = objects.ImageMeta.from_dict({"properties": { | |
"hw_cpu_policy": fields.CPUAllocationPolicy.DEDICATED, | |
}}) | |
if (hardware.get_emulator_threads_constraint( | |
instance_info, image_meta) | |
== fields.CPUEmulatorThreadsPolicy.ISOLATE): | |
overhead['vcpus'] += 1 | |
else: | |
# An instance object is passed during case of spawing or a | |
# dict is passed when computing resource for an instance | |
numa_topology = hardware.instance_topology_from_instance( | |
instance_info) | |
if numa_topology and numa_topology.emulator_threads_isolated: | |
overhead['vcpus'] += 1 | |
return overhead | |
def list_instances(self): | |
names = [] | |
for guest in self._host.list_guests(only_running=False): | |
names.append(guest.name) | |
return names | |
def list_instance_uuids(self): | |
uuids = [] | |
for guest in self._host.list_guests(only_running=False): | |
uuids.append(guest.uuid) | |
return uuids | |
def plug_vifs(self, instance, network_info): | |
"""Plug VIFs into networks.""" | |
for vif in network_info: | |
self.vif_driver.plug(instance, vif) | |
def _unplug_vifs(self, instance, network_info, ignore_errors): | |
"""Unplug VIFs from networks.""" | |
for vif in network_info: | |
try: | |
self.vif_driver.unplug(instance, vif) | |
except exception.NovaException: | |
if not ignore_errors: | |
raise | |
def unplug_vifs(self, instance, network_info): | |
self._unplug_vifs(instance, network_info, False) | |
def _teardown_container(self, instance): | |
inst_path = libvirt_utils.get_instance_path(instance) | |
container_dir = os.path.join(inst_path, 'rootfs') | |
rootfs_dev = instance.system_metadata.get('rootfs_device_name') | |
LOG.debug('Attempting to teardown container at path %(dir)s with ' | |
'root device: %(rootfs_dev)s', | |
{'dir': container_dir, 'rootfs_dev': rootfs_dev}, | |
instance=instance) | |
disk_api.teardown_container(container_dir, rootfs_dev) | |
def _destroy(self, instance, attempt=1): | |
try: | |
guest = self._host.get_guest(instance) | |
if CONF.serial_console.enabled: | |
# This method is called for several events: destroy, | |
# rebuild, hard-reboot, power-off - For all of these | |
# events we want to release the serial ports acquired | |
# for the guest before destroying it. | |
serials = self._get_serial_ports_from_guest(guest) | |
for hostname, port in serials: | |
serial_console.release_port(host=hostname, port=port) | |
except exception.InstanceNotFound: | |
guest = None | |
# If the instance is already terminated, we're still happy | |
# Otherwise, destroy it | |
old_domid = -1 | |
if guest is not None: | |
try: | |
old_domid = guest.id | |
guest.poweroff() | |
except libvirt.libvirtError as e: | |
is_okay = False | |
errcode = e.get_error_code() | |
if errcode == libvirt.VIR_ERR_NO_DOMAIN: | |
# Domain already gone. This can safely be ignored. | |
is_okay = True | |
elif errcode == libvirt.VIR_ERR_OPERATION_INVALID: | |
# If the instance is already shut off, we get this: | |
# Code=55 Error=Requested operation is not valid: | |
# domain is not running | |
state = guest.get_power_state(self._host) | |
if state == power_state.SHUTDOWN: | |
is_okay = True | |
elif errcode == libvirt.VIR_ERR_INTERNAL_ERROR: | |
errmsg = e.get_error_message() | |
if (CONF.libvirt.virt_type == 'lxc' and | |
errmsg == 'internal error: ' | |
'Some processes refused to die'): | |
# Some processes in the container didn't die | |
# fast enough for libvirt. The container will | |
# eventually die. For now, move on and let | |
# the wait_for_destroy logic take over. | |
is_okay = True | |
elif errcode == libvirt.VIR_ERR_OPERATION_TIMEOUT: | |
LOG.warning("Cannot destroy instance, operation time out", | |
instance=instance) | |
reason = _("operation time out") | |
raise exception.InstancePowerOffFailure(reason=reason) | |
elif errcode == libvirt.VIR_ERR_SYSTEM_ERROR: | |
if e.get_int1() == errno.EBUSY: | |
# NOTE(danpb): When libvirt kills a process it sends it | |
# SIGTERM first and waits 10 seconds. If it hasn't gone | |
# it sends SIGKILL and waits another 5 seconds. If it | |
# still hasn't gone then you get this EBUSY error. | |
# Usually when a QEMU process fails to go away upon | |
# SIGKILL it is because it is stuck in an | |
# uninterruptible kernel sleep waiting on I/O from | |
# some non-responsive server. | |
# Given the CPU load of the gate tests though, it is | |
# conceivable that the 15 second timeout is too short, | |
# particularly if the VM running tempest has a high | |
# steal time from the cloud host. ie 15 wallclock | |
# seconds may have passed, but the VM might have only | |
# have a few seconds of scheduled run time. | |
LOG.warning('Error from libvirt during destroy. ' | |
'Code=%(errcode)s Error=%(e)s; ' | |
'attempt %(attempt)d of 3', | |
{'errcode': errcode, 'e': e, | |
'attempt': attempt}, | |
instance=instance) | |
with excutils.save_and_reraise_exception() as ctxt: | |
# Try up to 3 times before giving up. | |
if attempt < 3: | |
ctxt.reraise = False | |
self._destroy(instance, attempt + 1) | |
return | |
if not is_okay: | |
with excutils.save_and_reraise_exception(): | |
LOG.error('Error from libvirt during destroy. ' | |
'Code=%(errcode)s Error=%(e)s', | |
{'errcode': errcode, 'e': e}, | |
instance=instance) | |
def _wait_for_destroy(expected_domid): | |
"""Called at an interval until the VM is gone.""" | |
# NOTE(vish): If the instance disappears during the destroy | |
# we ignore it so the cleanup can still be | |
# attempted because we would prefer destroy to | |
# never fail. | |
try: | |
dom_info = self.get_info(instance) | |
state = dom_info.state | |
new_domid = dom_info.internal_id | |
except exception.InstanceNotFound: | |
LOG.debug("During wait destroy, instance disappeared.", | |
instance=instance) | |
state = power_state.SHUTDOWN | |
if state == power_state.SHUTDOWN: | |
LOG.info("Instance destroyed successfully.", instance=instance) | |
raise loopingcall.LoopingCallDone() | |
# NOTE(wangpan): If the instance was booted again after destroy, | |
# this may be an endless loop, so check the id of | |
# domain here, if it changed and the instance is | |
# still running, we should destroy it again. | |
# see https://bugs.launchpad.net/nova/+bug/1111213 for more details | |
if new_domid != expected_domid: | |
LOG.info("Instance may be started again.", instance=instance) | |
kwargs['is_running'] = True | |
raise loopingcall.LoopingCallDone() | |
kwargs = {'is_running': False} | |
timer = loopingcall.FixedIntervalLoopingCall(_wait_for_destroy, | |
old_domid) | |
timer.start(interval=0.5).wait() | |
if kwargs['is_running']: | |
LOG.info("Going to destroy instance again.", instance=instance) | |
self._destroy(instance) | |
else: | |
# NOTE(GuanQiang): teardown container to avoid resource leak | |
if CONF.libvirt.virt_type == 'lxc': | |
self._teardown_container(instance) | |
def destroy(self, context, instance, network_info, block_device_info=None, | |
destroy_disks=True): | |
self._destroy(instance) | |
self.cleanup(context, instance, network_info, block_device_info, | |
destroy_disks) | |
def _undefine_domain(self, instance): | |
try: | |
guest = self._host.get_guest(instance) | |
try: | |
support_uefi = self._has_uefi_support() | |
guest.delete_configuration(support_uefi) | |
except libvirt.libvirtError as e: | |
with excutils.save_and_reraise_exception() as ctxt: | |
errcode = e.get_error_code() | |
if errcode == libvirt.VIR_ERR_NO_DOMAIN: | |
LOG.debug("Called undefine, but domain already gone.", | |
instance=instance) | |
ctxt.reraise = False | |
else: | |
LOG.error('Error from libvirt during undefine. ' | |
'Code=%(errcode)s Error=%(e)s', | |
{'errcode': errcode, | |
'e': encodeutils.exception_to_unicode(e)}, | |
instance=instance) | |
except exception.InstanceNotFound: | |
pass | |
def cleanup(self, context, instance, network_info, block_device_info=None, | |
destroy_disks=True, migrate_data=None, destroy_vifs=True): | |
if destroy_vifs: | |
self._unplug_vifs(instance, network_info, True) | |
# Continue attempting to remove firewall filters for the instance | |
# until it's done or there is a failure to remove the filters. If | |
# unfilter fails because the instance is not yet shutdown, try to | |
# destroy the guest again and then retry the unfilter. | |
while True: | |
try: | |
self.unfilter_instance(instance, network_info) | |
break | |
except libvirt.libvirtError as e: | |
try: | |
state = self.get_info(instance).state | |
except exception.InstanceNotFound: | |
state = power_state.SHUTDOWN | |
if state != power_state.SHUTDOWN: | |
LOG.warning("Instance may be still running, destroy " | |
"it again.", instance=instance) | |
self._destroy(instance) | |
else: | |
errcode = e.get_error_code() | |
LOG.exception(_('Error from libvirt during unfilter. ' | |
'Code=%(errcode)s Error=%(e)s'), | |
{'errcode': errcode, 'e': e}, | |
instance=instance) | |
reason = _("Error unfiltering instance.") | |
raise exception.InstanceTerminationFailure(reason=reason) | |
except Exception: | |
raise | |
# FIXME(wangpan): if the instance is booted again here, such as the | |
# soft reboot operation boot it here, it will become | |
# "running deleted", should we check and destroy it | |
# at the end of this method? | |
# NOTE(vish): we disconnect from volumes regardless | |
block_device_mapping = driver.block_device_info_get_mapping( | |
block_device_info) | |
for vol in block_device_mapping: | |
connection_info = vol['connection_info'] | |
disk_dev = vol['mount_device'] | |
if disk_dev is not None: | |
disk_dev = disk_dev.rpartition("/")[2] | |
try: | |
self._disconnect_volume(context, connection_info, instance) | |
except Exception as exc: | |
with excutils.save_and_reraise_exception() as ctxt: | |
if destroy_disks: | |
# Don't block on Volume errors if we're trying to | |
# delete the instance as we may be partially created | |
# or deleted | |
ctxt.reraise = False | |
LOG.warning( | |
"Ignoring Volume Error on vol %(vol_id)s " | |
"during delete %(exc)s", | |
{'vol_id': vol.get('volume_id'), | |
'exc': encodeutils.exception_to_unicode(exc)}, | |
instance=instance) | |
if destroy_disks: | |
# NOTE(haomai): destroy volumes if needed | |
if CONF.libvirt.images_type == 'lvm': | |
self._cleanup_lvm(instance, block_device_info) | |
if CONF.libvirt.images_type == 'rbd': | |
self._cleanup_rbd(instance) | |
is_shared_block_storage = False | |
if migrate_data and 'is_shared_block_storage' in migrate_data: | |
is_shared_block_storage = migrate_data.is_shared_block_storage | |
if destroy_disks or is_shared_block_storage: | |
attempts = int(instance.system_metadata.get('clean_attempts', | |
'0')) | |
success = self.delete_instance_files(instance) | |
# NOTE(mriedem): This is used in the _run_pending_deletes periodic | |
# task in the compute manager. The tight coupling is not great... | |
instance.system_metadata['clean_attempts'] = str(attempts + 1) | |
if success: | |
instance.cleaned = True | |
instance.save() | |
self._undefine_domain(instance) | |
def _detach_encrypted_volumes(self, instance, block_device_info): | |
"""Detaches encrypted volumes attached to instance.""" | |
disks = self._get_instance_disk_info(instance, block_device_info) | |
encrypted_volumes = filter(dmcrypt.is_encrypted, | |
[disk['path'] for disk in disks]) | |
for path in encrypted_volumes: | |
dmcrypt.delete_volume(path) | |
def _get_serial_ports_from_guest(self, guest, mode=None): | |
"""Returns an iterator over serial port(s) configured on guest. | |
:param mode: Should be a value in (None, bind, connect) | |
""" | |
xml = guest.get_xml_desc() | |
tree = etree.fromstring(xml) | |
# The 'serial' device is the base for x86 platforms. Other platforms | |
# (e.g. kvm on system z = S390X) can only use 'console' devices. | |
xpath_mode = "[@mode='%s']" % mode if mode else "" | |
serial_tcp = "./devices/serial[@type='tcp']/source" + xpath_mode | |
console_tcp = "./devices/console[@type='tcp']/source" + xpath_mode | |
tcp_devices = tree.findall(serial_tcp) | |
if len(tcp_devices) == 0: | |
tcp_devices = tree.findall(console_tcp) | |
for source in tcp_devices: | |
yield (source.get("host"), int(source.get("service"))) | |
def _get_scsi_controller_max_unit(self, guest): | |
"""Returns the max disk unit used by scsi controller""" | |
xml = guest.get_xml_desc() | |
tree = etree.fromstring(xml) | |
addrs = "./devices/disk[@device='disk']/address[@type='drive']" | |
ret = [] | |
for obj in tree.findall(addrs): | |
ret.append(int(obj.get('unit', 0))) | |
return max(ret) | |
@staticmethod | |
def _get_rbd_driver(): | |
return rbd_utils.RBDDriver( | |
pool=CONF.libvirt.images_rbd_pool, | |
ceph_conf=CONF.libvirt.images_rbd_ceph_conf, | |
rbd_user=CONF.libvirt.rbd_user) | |
def _cleanup_rbd(self, instance): | |
# NOTE(nic): On revert_resize, the cleanup steps for the root | |
# volume are handled with an "rbd snap rollback" command, | |
# and none of this is needed (and is, in fact, harmful) so | |
# filter out non-ephemerals from the list | |
if instance.task_state == task_states.RESIZE_REVERTING: | |
filter_fn = lambda disk: (disk.startswith(instance.uuid) and | |
disk.endswith('disk.local')) | |
else: | |
filter_fn = lambda disk: disk.startswith(instance.uuid) | |
LibvirtDriver._get_rbd_driver().cleanup_volumes(filter_fn) | |
def _cleanup_lvm(self, instance, block_device_info): | |
"""Delete all LVM disks for given instance object.""" | |
if instance.get('ephemeral_key_uuid') is not None: | |
self._detach_encrypted_volumes(instance, block_device_info) | |
disks = self._lvm_disks(instance) | |
if disks: | |
lvm.remove_volumes(disks) | |
def _lvm_disks(self, instance): | |
"""Returns all LVM disks for given instance object.""" | |
if CONF.libvirt.images_volume_group: | |
vg = os.path.join('/dev', CONF.libvirt.images_volume_group) | |
if not os.path.exists(vg): | |
return [] | |
pattern = '%s_' % instance.uuid | |
def belongs_to_instance(disk): | |
return disk.startswith(pattern) | |
def fullpath(name): | |
return os.path.join(vg, name) | |
logical_volumes = lvm.list_volumes(vg) | |
disks = [fullpath(disk) for disk in logical_volumes | |
if belongs_to_instance(disk)] | |
return disks | |
return [] | |
def get_volume_connector(self, instance): | |
root_helper = utils.get_root_helper() | |
return connector.get_connector_properties( | |
root_helper, CONF.my_block_storage_ip, | |
CONF.libvirt.volume_use_multipath, | |
enforce_multipath=True, | |
host=CONF.host) | |
def _cleanup_resize(self, context, instance, network_info): | |
inst_base = libvirt_utils.get_instance_path(instance) | |
target = inst_base + '_resize' | |
if os.path.exists(target): | |
# Deletion can fail over NFS, so retry the deletion as required. | |
# Set maximum attempt as 5, most test can remove the directory | |
# for the second time. | |
utils.execute('rm', '-rf', target, delay_on_retry=True, | |
attempts=5) | |
root_disk = self.image_backend.by_name(instance, 'disk') | |
# TODO(nic): Set ignore_errors=False in a future release. | |
# It is set to True here to avoid any upgrade issues surrounding | |
# instances being in pending resize state when the software is updated; | |
# in that case there will be no snapshot to remove. Once it can be | |
# reasonably assumed that no such instances exist in the wild | |
# anymore, it should be set back to False (the default) so it will | |
# throw errors, like it should. | |
if root_disk.exists(): | |
root_disk.remove_snap(libvirt_utils.RESIZE_SNAPSHOT_NAME, | |
ignore_errors=True) | |
# NOTE(mjozefcz): | |
# self.image_backend.image for some backends recreates instance | |
# directory and image disk.info - remove it here if exists | |
# Do not remove inst_base for volume-backed instances since that | |
# could potentially remove the files on the destination host | |
# if using shared storage. | |
if (os.path.exists(inst_base) and not root_disk.exists() and | |
not compute_utils.is_volume_backed_instance( | |
context, instance)): | |
try: | |
shutil.rmtree(inst_base) | |
except OSError as e: | |
if e.errno != errno.ENOENT: | |
raise | |
if instance.host != CONF.host: | |
self._undefine_domain(instance) | |
self.unplug_vifs(instance, network_info) | |
self.unfilter_instance(instance, network_info) | |
def _get_volume_driver(self, connection_info): | |
driver_type = connection_info.get('driver_volume_type') | |
if driver_type not in self.volume_drivers: | |
raise exception.VolumeDriverNotFound(driver_type=driver_type) | |
return self.volume_drivers[driver_type] | |
def _connect_volume(self, context, connection_info, instance, | |
encryption=None, allow_native_luks=True): | |
vol_driver = self._get_volume_driver(connection_info) | |
vol_driver.connect_volume(connection_info, instance) | |
self._attach_encryptor(context, connection_info, encryption, | |
allow_native_luks) | |
def _disconnect_volume(self, context, connection_info, instance, | |
encryption=None): | |
self._detach_encryptor(context, connection_info, encryption=encryption) | |
vol_driver = self._get_volume_driver(connection_info) | |
vol_driver.disconnect_volume(connection_info, instance) | |
def _extend_volume(self, connection_info, instance): | |
vol_driver = self._get_volume_driver(connection_info) | |
return vol_driver.extend_volume(connection_info, instance) | |
def _use_native_luks(self, encryption=None): | |
"""Is LUKS the required provider and native QEMU LUKS available | |
""" | |
provider = None | |
if encryption: | |
provider = encryption.get('provider', None) | |
if provider in encryptors.LEGACY_PROVIDER_CLASS_TO_FORMAT_MAP: | |
provider = encryptors.LEGACY_PROVIDER_CLASS_TO_FORMAT_MAP[provider] | |
return provider == encryptors.LUKS and self._is_native_luks_available() | |
def _get_volume_config(self, connection_info, disk_info): | |
vol_driver = self._get_volume_driver(connection_info) | |
conf = vol_driver.get_config(connection_info, disk_info) | |
self._set_cache_mode(conf) | |
return conf | |
def _get_volume_encryptor(self, connection_info, encryption): | |
root_helper = utils.get_root_helper() | |
return encryptors.get_volume_encryptor(root_helper=root_helper, | |
keymgr=key_manager.API(CONF), | |
connection_info=connection_info, | |
**encryption) | |
def _get_volume_encryption(self, context, connection_info): | |
"""Get the encryption metadata dict if it is not provided | |
""" | |
encryption = {} | |
volume_id = driver_block_device.get_volume_id(connection_info) | |
if volume_id: | |
encryption = encryptors.get_encryption_metadata(context, | |
self._volume_api, volume_id, connection_info) | |
return encryption | |
def _attach_encryptor(self, context, connection_info, encryption, | |
allow_native_luks): | |
"""Attach the frontend encryptor if one is required by the volume. | |
The request context is only used when an encryption metadata dict is | |
not provided. The encryption metadata dict being populated is then used | |
to determine if an attempt to attach the encryptor should be made. | |
If native LUKS decryption is enabled then create a Libvirt volume | |
secret containing the LUKS passphrase for the volume. | |
""" | |
if encryption is None: | |
encryption = self._get_volume_encryption(context, connection_info) | |
if (encryption and allow_native_luks and | |
self._use_native_luks(encryption)): | |
# NOTE(lyarwood): Fetch the associated key for the volume and | |
# decode the passphrase from the key. | |
# FIXME(lyarwood): c-vol currently creates symmetric keys for use | |
# with volumes, leading to the binary to hex to string conversion | |
# below. | |
keymgr = key_manager.API(CONF) | |
key = keymgr.get(context, encryption['encryption_key_id']) | |
key_encoded = key.get_encoded() | |
passphrase = binascii.hexlify(key_encoded).decode('utf-8') | |
# NOTE(lyarwood): Retain the behaviour of the original os-brick | |
# encryptors and format any volume that does not identify as | |
# encrypted with LUKS. | |
# FIXME(lyarwood): Remove this once c-vol correctly formats | |
# encrypted volumes during their initial creation: | |
# https://bugs.launchpad.net/cinder/+bug/1739442 | |
device_path = connection_info.get('data').get('device_path') | |
if device_path: | |
root_helper = utils.get_root_helper() | |
if not luks_encryptor.is_luks(root_helper, device_path): | |
encryptor = self._get_volume_encryptor(connection_info, | |
encryption) | |
encryptor._format_volume(passphrase, **encryption) | |
# NOTE(lyarwood): Store the passphrase as a libvirt secret locally | |
# on the compute node. This secret is used later when generating | |
# the volume config. | |
volume_id = driver_block_device.get_volume_id(connection_info) | |
self._host.create_secret('volume', volume_id, password=passphrase) | |
elif encryption: | |
encryptor = self._get_volume_encryptor(connection_info, | |
encryption) | |
encryptor.attach_volume(context, **encryption) | |
def _detach_encryptor(self, context, connection_info, encryption): | |
"""Detach the frontend encryptor if one is required by the volume. | |
The request context is only used when an encryption metadata dict is | |
not provided. The encryption metadata dict being populated is then used | |
to determine if an attempt to detach the encryptor should be made. | |
If native LUKS decryption is enabled then delete previously created | |
Libvirt volume secret from the host. | |
""" | |
volume_id = driver_block_device.get_volume_id(connection_info) | |
if volume_id and self._host.find_secret('volume', volume_id): | |
return self._host.delete_secret('volume', volume_id) | |
if encryption is None: | |
encryption = self._get_volume_encryption(context, connection_info) | |
if encryption: | |
encryptor = self._get_volume_encryptor(connection_info, | |
encryption) | |
encryptor.detach_volume(**encryption) | |
def _check_discard_for_attach_volume(self, conf, instance): | |
"""Perform some checks for volumes configured for discard support. | |
If discard is configured for the volume, and the guest is using a | |
configuration known to not work, we will log a message explaining | |
the reason why. | |
""" | |
if conf.driver_discard == 'unmap' and conf.target_bus == 'virtio': | |
LOG.debug('Attempting to attach volume %(id)s with discard ' | |
'support enabled to an instance using an ' | |
'unsupported configuration. target_bus = ' | |
'%(bus)s. Trim commands will not be issued to ' | |
'the storage device.', | |
{'bus': conf.target_bus, | |
'id': conf.serial}, | |
instance=instance) | |
def attach_volume(self, context, connection_info, instance, mountpoint, | |
disk_bus=None, device_type=None, encryption=None): | |
guest = self._host.get_guest(instance) | |
disk_dev = mountpoint.rpartition("/")[2] | |
bdm = { | |
'device_name': disk_dev, | |
'disk_bus': disk_bus, | |
'device_type': device_type} | |
# Note(cfb): If the volume has a custom block size, check that | |
# that we are using QEMU/KVM and libvirt >= 0.10.2. The | |
# presence of a block size is considered mandatory by | |
# cinder so we fail if we can't honor the request. | |
data = {} | |
if ('data' in connection_info): | |
data = connection_info['data'] | |
if ('logical_block_size' in data or 'physical_block_size' in data): | |
if ((CONF.libvirt.virt_type != "kvm" and | |
CONF.libvirt.virt_type != "qemu")): | |
msg = _("Volume sets block size, but the current " | |
"libvirt hypervisor '%s' does not support custom " | |
"block size") % CONF.libvirt.virt_type | |
raise exception.InvalidHypervisorType(msg) | |
self._connect_volume(context, connection_info, instance, | |
encryption=encryption) | |
disk_info = blockinfo.get_info_from_bdm( | |
instance, CONF.libvirt.virt_type, instance.image_meta, bdm) | |
if disk_info['bus'] == 'scsi': | |
disk_info['unit'] = self._get_scsi_controller_max_unit(guest) + 1 | |
conf = self._get_volume_config(connection_info, disk_info) | |
self._check_discard_for_attach_volume(conf, instance) | |
try: | |
state = guest.get_power_state(self._host) | |
live = state in (power_state.RUNNING, power_state.PAUSED) | |
guest.attach_device(conf, persistent=True, live=live) | |
# NOTE(artom) If we're attaching with a device role tag, we need to | |
# rebuild device_metadata. If we're attaching without a role | |
# tag, we're rebuilding it here needlessly anyways. This isn't a | |
# massive deal, and it helps reduce code complexity by not having | |
# to indicate to the virt driver that the attach is tagged. The | |
# really important optimization of not calling the database unless | |
# device_metadata has actually changed is done for us by | |
# instance.save(). | |
instance.device_metadata = self._build_device_metadata( | |
context, instance) | |
instance.save() | |
except Exception: | |
LOG.exception(_('Failed to attach volume at mountpoint: %s'), | |
mountpoint, instance=instance) | |
with excutils.save_and_reraise_exception(): | |
self._disconnect_volume(context, connection_info, instance, | |
encryption=encryption) | |
def _swap_volume(self, guest, disk_path, conf, resize_to): | |
"""Swap existing disk with a new block device.""" | |
dev = guest.get_block_device(disk_path) | |
# Save a copy of the domain's persistent XML file. We'll use this | |
# to redefine the domain if anything fails during the volume swap. | |
xml = guest.get_xml_desc(dump_inactive=True, dump_sensitive=True) | |
# Abort is an idempotent operation, so make sure any block | |
# jobs which may have failed are ended. | |
try: | |
dev.abort_job() | |
except Exception: | |
pass | |
try: | |
# NOTE (rmk): blockRebase cannot be executed on persistent | |
# domains, so we need to temporarily undefine it. | |
# If any part of this block fails, the domain is | |
# re-defined regardless. | |
if guest.has_persistent_configuration(): | |
support_uefi = self._has_uefi_support() | |
guest.delete_configuration(support_uefi) | |
try: | |
# Start copy with VIR_DOMAIN_BLOCK_REBASE_REUSE_EXT flag to | |
# allow writing to existing external volume file. Use | |
# VIR_DOMAIN_BLOCK_REBASE_COPY_DEV if it's a block device to | |
# make sure XML is generated correctly (bug 1691195) | |
copy_dev = conf.source_type == 'block' | |
dev.rebase(conf.source_path, copy=True, reuse_ext=True, | |
copy_dev=copy_dev) | |
while not dev.is_job_complete(): | |
time.sleep(0.5) | |
dev.abort_job(pivot=True) | |
except Exception as exc: | |
LOG.exception("Failure rebasing volume %(new_path)s on " | |
"%(old_path)s.", {'new_path': conf.source_path, | |
'old_path': disk_path}) | |
raise exception.VolumeRebaseFailed(reason=six.text_type(exc)) | |
if resize_to: | |
dev.resize(resize_to * units.Gi / units.Ki) | |
# Make sure we will redefine the domain using the updated | |
# configuration after the volume was swapped. The dump_inactive | |
# keyword arg controls whether we pull the inactive (persistent) | |
# or active (live) config from the domain. We want to pull the | |
# live config after the volume was updated to use when we redefine | |
# the domain. | |
xml = guest.get_xml_desc(dump_inactive=False, dump_sensitive=True) | |
finally: | |
self._host.write_instance_config(xml) | |
def swap_volume(self, context, old_connection_info, | |
new_connection_info, instance, mountpoint, resize_to): | |
# NOTE(lyarwood): https://bugzilla.redhat.com/show_bug.cgi?id=760547 | |
encryption = self._get_volume_encryption(context, old_connection_info) | |
if encryption and self._use_native_luks(encryption): | |
raise NotImplementedError(_("Swap volume is not supported for" | |
"encrypted volumes when native LUKS decryption is enabled.")) | |
guest = self._host.get_guest(instance) | |
disk_dev = mountpoint.rpartition("/")[2] | |
if not guest.get_disk(disk_dev): | |
raise exception.DiskNotFound(location=disk_dev) | |
disk_info = { | |
'dev': disk_dev, | |
'bus': blockinfo.get_disk_bus_for_disk_dev( | |
CONF.libvirt.virt_type, disk_dev), | |
'type': 'disk', | |
} | |
# NOTE (lyarwood): new_connection_info will be modified by the | |
# following _connect_volume call down into the volume drivers. The | |
# majority of the volume drivers will add a device_path that is in turn | |
# used by _get_volume_config to set the source_path of the | |
# LibvirtConfigGuestDisk object it returns. We do not explicitly save | |
# this to the BDM here as the upper compute swap_volume method will | |
# eventually do this for us. | |
self._connect_volume(context, new_connection_info, instance) | |
conf = self._get_volume_config(new_connection_info, disk_info) | |
if not conf.source_path: | |
self._disconnect_volume(context, new_connection_info, instance) | |
raise NotImplementedError(_("Swap only supports host devices")) | |
try: | |
self._swap_volume(guest, disk_dev, conf, resize_to) | |
except exception.VolumeRebaseFailed: | |
with excutils.save_and_reraise_exception(): | |
self._disconnect_volume(context, new_connection_info, instance) | |
self._disconnect_volume(context, old_connection_info, instance) | |
def _get_existing_domain_xml(self, instance, network_info, | |
block_device_info=None): | |
try: | |
guest = self._host.get_guest(instance) | |
xml = guest.get_xml_desc() | |
except exception.InstanceNotFound: | |
disk_info = blockinfo.get_disk_info(CONF.libvirt.virt_type, | |
instance, | |
instance.image_meta, | |
block_device_info) | |
xml = self._get_guest_xml(nova_context.get_admin_context(), | |
instance, network_info, disk_info, | |
instance.image_meta, | |
block_device_info=block_device_info) | |
return xml | |
def detach_volume(self, connection_info, instance, mountpoint, | |
encryption=None): | |
disk_dev = mountpoint.rpartition("/")[2] | |
try: | |
guest = self._host.get_guest(instance) | |
state = guest.get_power_state(self._host) | |
live = state in (power_state.RUNNING, power_state.PAUSED) | |
# NOTE(lyarwood): The volume must be detached from the VM before | |
# detaching any attached encryptors or disconnecting the underlying | |
# volume in _disconnect_volume. Otherwise, the encryptor or volume | |
# driver may report that the volume is still in use. | |
wait_for_detach = guest.detach_device_with_retry(guest.get_disk, | |
disk_dev, | |
live=live) | |
wait_for_detach() | |
except exception.InstanceNotFound: | |
# NOTE(zhaoqin): If the instance does not exist, _lookup_by_name() | |
# will throw InstanceNotFound exception. Need to | |
# disconnect volume under this circumstance. | |
LOG.warning("During detach_volume, instance disappeared.", | |
instance=instance) | |
except exception.DeviceNotFound: | |
raise exception.DiskNotFound(location=disk_dev) | |
except libvirt.libvirtError as ex: | |
# NOTE(vish): This is called to cleanup volumes after live | |
# migration, so we should still disconnect even if | |
# the instance doesn't exist here anymore. | |
error_code = ex.get_error_code() | |
if error_code == libvirt.VIR_ERR_NO_DOMAIN: | |
# NOTE(vish): | |
LOG.warning("During detach_volume, instance disappeared.", | |
instance=instance) | |
else: | |
raise | |
# NOTE(lyarwood): We can provide None as the request context here as we | |
# already have the encryption metadata dict from the compute layer. | |
# This avoids the need to add the request context to the signature of | |
# detach_volume requiring changes across all drivers. | |
self._disconnect_volume(None, connection_info, instance, | |
encryption=encryption) | |
def extend_volume(self, connection_info, instance): | |
try: | |
new_size = self._extend_volume(connection_info, instance) | |
except NotImplementedError: | |
raise exception.ExtendVolumeNotSupported() | |
# Resize the device in QEMU so its size is updated and | |
# detected by the instance without rebooting. | |
try: | |
guest = self._host.get_guest(instance) | |
state = guest.get_power_state(self._host) | |
active_state = state in (power_state.RUNNING, power_state.PAUSED) | |
if active_state: | |
disk_path = connection_info['data']['device_path'] | |
LOG.debug('resizing block device %(dev)s to %(size)u kb', | |
{'dev': disk_path, 'size': new_size}) | |
dev = guest.get_block_device(disk_path) | |
dev.resize(new_size // units.Ki) | |
else: | |
LOG.debug('Skipping block device resize, guest is not running', | |
instance=instance) | |
except exception.InstanceNotFound: | |
with excutils.save_and_reraise_exception(): | |
LOG.warning('During extend_volume, instance disappeared.', | |
instance=instance) | |
except libvirt.libvirtError: | |
with excutils.save_and_reraise_exception(): | |
LOG.exception('resizing block device failed.', | |
instance=instance) | |
def attach_interface(self, context, instance, image_meta, vif): | |
guest = self._host.get_guest(instance) | |
self.vif_driver.plug(instance, vif) | |
self.firewall_driver.setup_basic_filtering(instance, [vif]) | |
cfg = self.vif_driver.get_config(instance, vif, image_meta, | |
instance.flavor, | |
CONF.libvirt.virt_type, | |
self._host) | |
try: | |
state = guest.get_power_state(self._host) | |
live = state in (power_state.RUNNING, power_state.PAUSED) | |
guest.attach_device(cfg, persistent=True, live=live) | |
except libvirt.libvirtError: | |
LOG.error('attaching network adapter failed.', | |
instance=instance, exc_info=True) | |
self.vif_driver.unplug(instance, vif) | |
raise exception.InterfaceAttachFailed( | |
instance_uuid=instance.uuid) | |
try: | |
# NOTE(artom) If we're attaching with a device role tag, we need to | |
# rebuild device_metadata. If we're attaching without a role | |
# tag, we're rebuilding it here needlessly anyways. This isn't a | |
# massive deal, and it helps reduce code complexity by not having | |
# to indicate to the virt driver that the attach is tagged. The | |
# really important optimization of not calling the database unless | |
# device_metadata has actually changed is done for us by | |
# instance.save(). | |
instance.device_metadata = self._build_device_metadata( | |
context, instance) | |
instance.save() | |
except Exception: | |
# NOTE(artom) If we fail here it means the interface attached | |
# successfully but building and/or saving the device metadata | |
# failed. Just unplugging the vif is therefore not enough cleanup, | |
# we need to detach the interface. | |
with excutils.save_and_reraise_exception(reraise=False): | |
LOG.error('Interface attached successfully but building ' | |
'and/or saving device metadata failed.', | |
instance=instance, exc_info=True) | |
self.detach_interface(context, instance, vif) | |
raise exception.InterfaceAttachFailed( | |
instance_uuid=instance.uuid) | |
def detach_interface(self, context, instance, vif): | |
guest = self._host.get_guest(instance) | |
cfg = self.vif_driver.get_config(instance, vif, | |
instance.image_meta, | |
instance.flavor, | |
CONF.libvirt.virt_type, self._host) | |
interface = guest.get_interface_by_cfg(cfg) | |
try: | |
self.vif_driver.unplug(instance, vif) | |
# NOTE(mriedem): When deleting an instance and using Neutron, | |
# we can be racing against Neutron deleting the port and | |
# sending the vif-deleted event which then triggers a call to | |
# detach the interface, so if the interface is not found then | |
# we can just log it as a warning. | |
if not interface: | |
mac = vif.get('address') | |
# The interface is gone so just log it as a warning. | |
LOG.warning('Detaching interface %(mac)s failed because ' | |
'the device is no longer found on the guest.', | |
{'mac': mac}, instance=instance) | |
return | |
state = guest.get_power_state(self._host) | |
live = state in (power_state.RUNNING, power_state.PAUSED) | |
# Now we are going to loop until the interface is detached or we | |
# timeout. | |
wait_for_detach = guest.detach_device_with_retry( | |
guest.get_interface_by_cfg, cfg, live=live, | |
alternative_device_name=self.vif_driver.get_vif_devname(vif)) | |
wait_for_detach() | |
except exception.DeviceDetachFailed: | |
# We failed to detach the device even with the retry loop, so let's | |
# dump some debug information to the logs before raising back up. | |
with excutils.save_and_reraise_exception(): | |
devname = self.vif_driver.get_vif_devname(vif) | |
interface = guest.get_interface_by_cfg(cfg) | |
if interface: | |
LOG.warning( | |
'Failed to detach interface %(devname)s after ' | |
'repeated attempts. Final interface xml:\n' | |
'%(interface_xml)s\nFinal guest xml:\n%(guest_xml)s', | |
{'devname': devname, | |
'interface_xml': interface.to_xml(), | |
'guest_xml': guest.get_xml_desc()}, | |
instance=instance) | |
except exception.DeviceNotFound: | |
# The interface is gone so just log it as a warning. | |
LOG.warning('Detaching interface %(mac)s failed because ' | |
'the device is no longer found on the guest.', | |
{'mac': vif.get('address')}, instance=instance) | |
except libvirt.libvirtError as ex: | |
error_code = ex.get_error_code() | |
if error_code == libvirt.VIR_ERR_NO_DOMAIN: | |
LOG.warning("During detach_interface, instance disappeared.", | |
instance=instance) | |
else: | |
# NOTE(mriedem): When deleting an instance and using Neutron, | |
# we can be racing against Neutron deleting the port and | |
# sending the vif-deleted event which then triggers a call to | |
# detach the interface, so we might have failed because the | |
# network device no longer exists. Libvirt will fail with | |
# "operation failed: no matching network device was found" | |
# which unfortunately does not have a unique error code so we | |
# need to look up the interface by config and if it's not found | |
# then we can just log it as a warning rather than tracing an | |
# error. | |
mac = vif.get('address') | |
interface = guest.get_interface_by_cfg(cfg) | |
if interface: | |
LOG.error('detaching network adapter failed.', | |
instance=instance, exc_info=True) | |
raise exception.InterfaceDetachFailed( | |
instance_uuid=instance.uuid) | |
# The interface is gone so just log it as a warning. | |
LOG.warning('Detaching interface %(mac)s failed because ' | |
'the device is no longer found on the guest.', | |
{'mac': mac}, instance=instance) | |
def _create_snapshot_metadata(self, image_meta, instance, | |
img_fmt, snp_name): | |
metadata = {'is_public': False, | |
'status': 'active', | |
'name': snp_name, | |
'properties': { | |
'kernel_id': instance.kernel_id, | |
'image_location': 'snapshot', | |
'image_state': 'available', | |
'owner_id': instance.project_id, | |
'ramdisk_id': instance.ramdisk_id, | |
} | |
} | |
if instance.os_type: | |
metadata['properties']['os_type'] = instance.os_type | |
# NOTE(vish): glance forces ami disk format to be ami | |
if image_meta.disk_format == 'ami': | |
metadata['disk_format'] = 'ami' | |
else: | |
metadata['disk_format'] = img_fmt | |
if image_meta.obj_attr_is_set("container_format"): | |
metadata['container_format'] = image_meta.container_format | |
else: | |
metadata['container_format'] = "bare" | |
return metadata | |
def snapshot(self, context, instance, image_id, update_task_state): | |
"""Create snapshot from a running VM instance. | |
This command only works with qemu 0.14+ | |
""" | |
try: | |
guest = self._host.get_guest(instance) | |
# TODO(sahid): We are converting all calls from a | |
# virDomain object to use nova.virt.libvirt.Guest. | |
# We should be able to remove virt_dom at the end. | |
virt_dom = guest._domain | |
except exception.InstanceNotFound: | |
raise exception.InstanceNotRunning(instance_id=instance.uuid) | |
snapshot = self._image_api.get(context, image_id) | |
# source_format is an on-disk format | |
# source_type is a backend type | |
disk_path, source_format = libvirt_utils.find_disk(guest) | |
source_type = libvirt_utils.get_disk_type_from_path(disk_path) | |
# We won't have source_type for raw or qcow2 disks, because we can't | |
# determine that from the path. We should have it from the libvirt | |
# xml, though. | |
if source_type is None: | |
source_type = source_format | |
# For lxc instances we won't have it either from libvirt xml | |
# (because we just gave libvirt the mounted filesystem), or the path, | |
# so source_type is still going to be None. In this case, | |
# root_disk is going to default to CONF.libvirt.images_type | |
# below, which is still safe. | |
image_format = CONF.libvirt.snapshot_image_format or source_type | |
# NOTE(bfilippov): save lvm and rbd as raw | |
if image_format == 'lvm' or image_format == 'rbd': | |
image_format = 'raw' | |
metadata = self._create_snapshot_metadata(instance.image_meta, | |
instance, | |
image_format, | |
snapshot['name']) | |
snapshot_name = uuidutils.generate_uuid(dashed=False) | |
state = guest.get_power_state(self._host) | |
# NOTE(dgenin): Instances with LVM encrypted ephemeral storage require | |
# cold snapshots. Currently, checking for encryption is | |
# redundant because LVM supports only cold snapshots. | |
# It is necessary in case this situation changes in the | |
# future. | |
if (self._host.has_min_version(hv_type=host.HV_DRIVER_QEMU) | |
and source_type not in ('lvm') | |
and not CONF.ephemeral_storage_encryption.enabled | |
and not CONF.workarounds.disable_libvirt_livesnapshot | |
# NOTE(rmk): We cannot perform live snapshots when a | |
# managedSave file is present, so we will use the cold/legacy | |
# method for instances which are shutdown or paused. | |
# NOTE(mriedem): Live snapshot doesn't work with paused | |
# instances on older versions of libvirt/qemu. We can likely | |
# remove the restriction on PAUSED once we require | |
# libvirt>=3.6.0 and qemu>=2.10 since that works with the | |
# Pike Ubuntu Cloud Archive testing in Queens. | |
and state not in (power_state.SHUTDOWN, power_state.PAUSED)): | |
live_snapshot = True | |
# Abort is an idempotent operation, so make sure any block | |
# jobs which may have failed are ended. This operation also | |
# confirms the running instance, as opposed to the system as a | |
# whole, has a new enough version of the hypervisor (bug 1193146). | |
try: | |
guest.get_block_device(disk_path).abort_job() | |
except libvirt.libvirtError as ex: | |
error_code = ex.get_error_code() | |
if error_code == libvirt.VIR_ERR_CONFIG_UNSUPPORTED: | |
live_snapshot = False | |
else: | |
pass | |
else: | |
live_snapshot = False | |
self._prepare_domain_for_snapshot(context, live_snapshot, state, | |
instance) | |
root_disk = self.image_backend.by_libvirt_path( | |
instance, disk_path, image_type=source_type) | |
if live_snapshot: | |
LOG.info("Beginning live snapshot process", instance=instance) | |
else: | |
LOG.info("Beginning cold snapshot process", instance=instance) | |
update_task_state(task_state=task_states.IMAGE_PENDING_UPLOAD) | |
try: | |
update_task_state(task_state=task_states.IMAGE_UPLOADING, | |
expected_state=task_states.IMAGE_PENDING_UPLOAD) | |
metadata['location'] = root_disk.direct_snapshot( | |
context, snapshot_name, image_format, image_id, | |
instance.image_ref) | |
self._snapshot_domain(context, live_snapshot, virt_dom, state, | |
instance) | |
self._image_api.update(context, image_id, metadata, | |
purge_props=False) | |
except (NotImplementedError, exception.ImageUnacceptable, | |
exception.Forbidden) as e: | |
if type(e) != NotImplementedError: | |
LOG.warning('Performing standard snapshot because direct ' | |
'snapshot failed: %(error)s', | |
{'error': encodeutils.exception_to_unicode(e)}) | |
failed_snap = metadata.pop('location', None) | |
if failed_snap: | |
failed_snap = {'url': str(failed_snap)} | |
root_disk.cleanup_direct_snapshot(failed_snap, | |
also_destroy_volume=True, | |
ignore_errors=True) | |
update_task_state(task_state=task_states.IMAGE_PENDING_UPLOAD, | |
expected_state=task_states.IMAGE_UPLOADING) | |
# TODO(nic): possibly abstract this out to the root_disk | |
if source_type == 'rbd' and live_snapshot: | |
# Standard snapshot uses qemu-img convert from RBD which is | |
# not safe to run with live_snapshot. | |
live_snapshot = False | |
# Suspend the guest, so this is no longer a live snapshot | |
self._prepare_domain_for_snapshot(context, live_snapshot, | |
state, instance) | |
snapshot_directory = CONF.libvirt.snapshots_directory | |
fileutils.ensure_tree(snapshot_directory) | |
with utils.tempdir(dir=snapshot_directory) as tmpdir: | |
try: | |
out_path = os.path.join(tmpdir, snapshot_name) | |
if live_snapshot: | |
# NOTE(xqueralt): libvirt needs o+x in the tempdir | |
os.chmod(tmpdir, 0o701) | |
self._live_snapshot(context, instance, guest, | |
disk_path, out_path, source_format, | |
image_format, instance.image_meta) | |
else: | |
root_disk.snapshot_extract(out_path, image_format) | |
LOG.info("Snapshot extracted, beginning image upload", | |
instance=instance) | |
finally: | |
self._snapshot_domain(context, live_snapshot, virt_dom, | |
state, instance) | |
# Upload that image to the image service | |
update_task_state(task_state=task_states.IMAGE_UPLOADING, | |
expected_state=task_states.IMAGE_PENDING_UPLOAD) | |
with libvirt_utils.file_open(out_path, 'rb') as image_file: | |
self._image_api.update(context, | |
image_id, | |
metadata, | |
image_file) | |
except Exception: | |
with excutils.save_and_reraise_exception(): | |
LOG.exception(_("Failed to snapshot image")) | |
failed_snap = metadata.pop('location', None) | |
if failed_snap: | |
failed_snap = {'url': str(failed_snap)} | |
root_disk.cleanup_direct_snapshot( | |
failed_snap, also_destroy_volume=True, | |
ignore_errors=True) | |
LOG.info("Snapshot image upload complete", instance=instance) | |
def _prepare_domain_for_snapshot(self, context, live_snapshot, state, | |
instance): | |
# NOTE(dkang): managedSave does not work for LXC | |
if CONF.libvirt.virt_type != 'lxc' and not live_snapshot: | |
if state == power_state.RUNNING or state == power_state.PAUSED: | |
self.suspend(context, instance) | |
def _snapshot_domain(self, context, live_snapshot, virt_dom, state, | |
instance): | |
guest = None | |
# NOTE(dkang): because previous managedSave is not called | |
# for LXC, _create_domain must not be called. | |
if CONF.libvirt.virt_type != 'lxc' and not live_snapshot: | |
if state == power_state.RUNNING: | |
guest = self._create_domain(domain=virt_dom) | |
elif state == power_state.PAUSED: | |
guest = self._create_domain(domain=virt_dom, pause=True) | |
if guest is not None: | |
self._attach_pci_devices( | |
guest, pci_manager.get_instance_pci_devs(instance)) | |
self._attach_direct_passthrough_ports( | |
context, instance, guest) | |
def _can_set_admin_password(self, image_meta): | |
if CONF.libvirt.virt_type == 'parallels': | |
if not self._host.has_min_version( | |
MIN_LIBVIRT_PARALLELS_SET_ADMIN_PASSWD): | |
raise exception.SetAdminPasswdNotSupported() | |
elif CONF.libvirt.virt_type in ('kvm', 'qemu'): | |
if not self._host.has_min_version( | |
MIN_LIBVIRT_SET_ADMIN_PASSWD): | |
raise exception.SetAdminPasswdNotSupported() | |
if not image_meta.properties.get('hw_qemu_guest_agent', False): | |
raise exception.QemuGuestAgentNotEnabled() | |
else: | |
raise exception.SetAdminPasswdNotSupported() | |
def set_admin_password(self, instance, new_pass): | |
self._can_set_admin_password(instance.image_meta) | |
guest = self._host.get_guest(instance) | |
user = instance.image_meta.properties.get("os_admin_user") | |
if not user: | |
if instance.os_type == "windows": | |
user = "Administrator" | |
else: | |
user = "root" | |
try: | |
guest.set_user_password(user, new_pass) | |
except libvirt.libvirtError as ex: | |
error_code = ex.get_error_code() | |
if error_code == libvirt.VIR_ERR_AGENT_UNRESPONSIVE: | |
LOG.debug('Failed to set password: QEMU agent unresponsive', | |
instance_uuid=instance.uuid) | |
raise NotImplementedError() | |
err_msg = encodeutils.exception_to_unicode(ex) | |
msg = (_('Error from libvirt while set password for username ' | |
'"%(user)s": [Error Code %(error_code)s] %(ex)s') | |
% {'user': user, 'error_code': error_code, 'ex': err_msg}) | |
raise exception.InternalError(msg) | |
def _can_quiesce(self, instance, image_meta): | |
if CONF.libvirt.virt_type not in ('kvm', 'qemu'): | |
raise exception.InstanceQuiesceNotSupported( | |
instance_id=instance.uuid) | |
if not image_meta.properties.get('hw_qemu_guest_agent', False): | |
raise exception.QemuGuestAgentNotEnabled() | |
def _requires_quiesce(self, image_meta): | |
return image_meta.properties.get('os_require_quiesce', False) | |
def _set_quiesced(self, context, instance, image_meta, quiesced): | |
self._can_quiesce(instance, image_meta) | |
try: | |
guest = self._host.get_guest(instance) | |
if quiesced: | |
guest.freeze_filesystems() | |
else: | |
guest.thaw_filesystems() | |
except libvirt.libvirtError as ex: | |
error_code = ex.get_error_code() | |
err_msg = encodeutils.exception_to_unicode(ex) | |
msg = (_('Error from libvirt while quiescing %(instance_name)s: ' | |
'[Error Code %(error_code)s] %(ex)s') | |
% {'instance_name': instance.name, | |
'error_code': error_code, 'ex': err_msg}) | |
raise exception.InternalError(msg) | |
def quiesce(self, context, instance, image_meta): | |
"""Freeze the guest filesystems to prepare for snapshot. | |
The qemu-guest-agent must be setup to execute fsfreeze. | |
""" | |
self._set_quiesced(context, instance, image_meta, True) | |
def unquiesce(self, context, instance, image_meta): | |
"""Thaw the guest filesystems after snapshot.""" | |
self._set_quiesced(context, instance, image_meta, False) | |
def _live_snapshot(self, context, instance, guest, disk_path, out_path, | |
source_format, image_format, image_meta): | |
"""Snapshot an instance without downtime.""" | |
dev = guest.get_block_device(disk_path) | |
# Save a copy of the domain's persistent XML file | |
xml = guest.get_xml_desc(dump_inactive=True, dump_sensitive=True) | |
# Abort is an idempotent operation, so make sure any block | |
# jobs which may have failed are ended. | |
try: | |
dev.abort_job() | |
except Exception: | |
pass | |
# NOTE (rmk): We are using shallow rebases as a workaround to a bug | |
# in QEMU 1.3. In order to do this, we need to create | |
# a destination image with the original backing file | |
# and matching size of the instance root disk. | |
src_disk_size = libvirt_utils.get_disk_size(disk_path, | |
format=source_format) | |
src_back_path = libvirt_utils.get_disk_backing_file(disk_path, | |
format=source_format, | |
basename=False) | |
disk_delta = out_path + '.delta' | |
libvirt_utils.create_cow_image(src_back_path, disk_delta, | |
src_disk_size) | |
quiesced = False | |
try: | |
self._set_quiesced(context, instance, image_meta, True) | |
quiesced = True | |
except exception.NovaException as err: | |
if self._requires_quiesce(image_meta): | |
raise | |
LOG.info('Skipping quiescing instance: %(reason)s.', | |
{'reason': err}, instance=instance) | |
try: | |
# NOTE (rmk): blockRebase cannot be executed on persistent | |
# domains, so we need to temporarily undefine it. | |
# If any part of this block fails, the domain is | |
# re-defined regardless. | |
if guest.has_persistent_configuration(): | |
support_uefi = self._has_uefi_support() | |
guest.delete_configuration(support_uefi) | |
# NOTE (rmk): Establish a temporary mirror of our root disk and | |
# issue an abort once we have a complete copy. | |
dev.rebase(disk_delta, copy=True, reuse_ext=True, shallow=True) | |
while not dev.is_job_complete(): | |
time.sleep(0.5) | |
dev.abort_job() | |
nova.privsep.path.chown(disk_delta, uid=os.getuid()) | |
finally: | |
self._host.write_instance_config(xml) | |
if quiesced: | |
self._set_quiesced(context, instance, image_meta, False) | |
# Convert the delta (CoW) image with a backing file to a flat | |
# image with no backing file. | |
libvirt_utils.extract_snapshot(disk_delta, 'qcow2', | |
out_path, image_format) | |
def _volume_snapshot_update_status(self, context, snapshot_id, status): | |
"""Send a snapshot status update to Cinder. | |
This method captures and logs exceptions that occur | |
since callers cannot do anything useful with these exceptions. | |
Operations on the Cinder side waiting for this will time out if | |
a failure occurs sending the update. | |
:param context: security context | |
:param snapshot_id: id of snapshot being updated | |
:param status: new status value | |
""" | |
try: | |
self._volume_api.update_snapshot_status(context, | |
snapshot_id, | |
status) | |
except Exception: | |
LOG.exception(_('Failed to send updated snapshot status ' | |
'to volume service.')) | |
def _volume_snapshot_create(self, context, instance, guest, | |
volume_id, new_file): | |
"""Perform volume snapshot. | |
:param guest: VM that volume is attached to | |
:param volume_id: volume UUID to snapshot | |
:param new_file: relative path to new qcow2 file present on share | |
""" | |
xml = guest.get_xml_desc() | |
xml_doc = etree.fromstring(xml) | |
device_info = vconfig.LibvirtConfigGuest() | |
device_info.parse_dom(xml_doc) | |
disks_to_snap = [] # to be snapshotted by libvirt | |
network_disks_to_snap = [] # network disks (netfs, etc.) | |
disks_to_skip = [] # local disks not snapshotted | |
for guest_disk in device_info.devices: | |
if (guest_disk.root_name != 'disk'): | |
continue | |
if (guest_disk.target_dev is None): | |
continue | |
if (guest_disk.serial is None or guest_disk.serial != volume_id): | |
disks_to_skip.append(guest_disk.target_dev) | |
continue | |
# disk is a Cinder volume with the correct volume_id | |
disk_info = { | |
'dev': guest_disk.target_dev, | |
'serial': guest_disk.serial, | |
'current_file': guest_disk.source_path, | |
'source_protocol': guest_disk.source_protocol, | |
'source_name': guest_disk.source_name, | |
'source_hosts': guest_disk.source_hosts, | |
'source_ports': guest_disk.source_ports | |
} | |
# Determine path for new_file based on current path | |
if disk_info['current_file'] is not None: | |
current_file = disk_info['current_file'] | |
new_file_path = os.path.join(os.path.dirname(current_file), | |
new_file) | |
disks_to_snap.append((current_file, new_file_path)) | |
# NOTE(mriedem): This used to include a check for gluster in | |
# addition to netfs since they were added together. Support for | |
# gluster was removed in the 16.0.0 Pike release. It is unclear, | |
# however, if other volume drivers rely on the netfs disk source | |
# protocol. | |
elif disk_info['source_protocol'] == 'netfs': | |
network_disks_to_snap.append((disk_info, new_file)) | |
if not disks_to_snap and not network_disks_to_snap: | |
msg = _('Found no disk to snapshot.') | |
raise exception.InternalError(msg) | |
snapshot = vconfig.LibvirtConfigGuestSnapshot() | |
for current_name, new_filename in disks_to_snap: | |
snap_disk = vconfig.LibvirtConfigGuestSnapshotDisk() | |
snap_disk.name = current_name | |
snap_disk.source_path = new_filename | |
snap_disk.source_type = 'file' | |
snap_disk.snapshot = 'external' | |
snap_disk.driver_name = 'qcow2' | |
snapshot.add_disk(snap_disk) | |
for disk_info, new_filename in network_disks_to_snap: | |
snap_disk = vconfig.LibvirtConfigGuestSnapshotDisk() | |
snap_disk.name = disk_info['dev'] | |
snap_disk.source_type = 'network' | |
snap_disk.source_protocol = disk_info['source_protocol'] | |
snap_disk.snapshot = 'external' | |
snap_disk.source_path = new_filename | |
old_dir = disk_info['source_name'].split('/')[0] | |
snap_disk.source_name = '%s/%s' % (old_dir, new_filename) | |
snap_disk.source_hosts = disk_info['source_hosts'] | |
snap_disk.source_ports = disk_info['source_ports'] | |
snapshot.add_disk(snap_disk) | |
for dev in disks_to_skip: | |
snap_disk = vconfig.LibvirtConfigGuestSnapshotDisk() | |
snap_disk.name = dev | |
snap_disk.snapshot = 'no' | |
snapshot.add_disk(snap_disk) | |
snapshot_xml = snapshot.to_xml() | |
LOG.debug("snap xml: %s", snapshot_xml, instance=instance) | |
image_meta = instance.image_meta | |
try: | |
# Check to see if we can quiesce the guest before taking the | |
# snapshot. | |
self._can_quiesce(instance, image_meta) | |
try: | |
guest.snapshot(snapshot, no_metadata=True, disk_only=True, | |
reuse_ext=True, quiesce=True) | |
return | |
except libvirt.libvirtError: | |
# If the image says that quiesce is required then we fail. | |
if self._requires_quiesce(image_meta): | |
raise | |
LOG.exception(_('Unable to create quiesced VM snapshot, ' | |
'attempting again with quiescing disabled.'), | |
instance=instance) | |
except (exception.InstanceQuiesceNotSupported, | |
exception.QemuGuestAgentNotEnabled) as err: | |
# If the image says that quiesce is required then we need to fail. | |
if self._requires_quiesce(image_meta): | |
raise | |
LOG.info('Skipping quiescing instance: %(reason)s.', | |
{'reason': err}, instance=instance) | |
try: | |
guest.snapshot(snapshot, no_metadata=True, disk_only=True, | |
reuse_ext=True, quiesce=False) | |
except libvirt.libvirtError: | |
LOG.exception(_('Unable to create VM snapshot, ' | |
'failing volume_snapshot operation.'), | |
instance=instance) | |
raise | |
def _volume_refresh_connection_info(self, context, instance, volume_id): | |
bdm = objects.BlockDeviceMapping.get_by_volume_and_instance( | |
context, volume_id, instance.uuid) | |
driver_bdm = driver_block_device.convert_volume(bdm) | |
if driver_bdm: | |
driver_bdm.refresh_connection_info(context, instance, | |
self._volume_api, self) | |
def volume_snapshot_create(self, context, instance, volume_id, | |
create_info): | |
"""Create snapshots of a Cinder volume via libvirt. | |
:param instance: VM instance object reference | |
:param volume_id: id of volume being snapshotted | |
:param create_info: dict of information used to create snapshots | |
- snapshot_id : ID of snapshot | |
- type : qcow2 / <other> | |
- new_file : qcow2 file created by Cinder which | |
becomes the VM's active image after | |
the snapshot is complete | |
""" | |
LOG.debug("volume_snapshot_create: create_info: %(c_info)s", | |
{'c_info': create_info}, instance=instance) | |
try: | |
guest = self._host.get_guest(instance) | |
except exception.InstanceNotFound: | |
raise exception.InstanceNotRunning(instance_id=instance.uuid) | |
if create_info['type'] != 'qcow2': | |
msg = _('Unknown type: %s') % create_info['type'] | |
raise exception.InternalError(msg) | |
snapshot_id = create_info.get('snapshot_id', None) | |
if snapshot_id is None: | |
msg = _('snapshot_id required in create_info') | |
raise exception.InternalError(msg) | |
try: | |
self._volume_snapshot_create(context, instance, guest, | |
volume_id, create_info['new_file']) | |
except Exception: | |
with excutils.save_and_reraise_exception(): | |
LOG.exception(_('Error occurred during ' | |
'volume_snapshot_create, ' | |
'sending error status to Cinder.'), | |
instance=instance) | |
self._volume_snapshot_update_status( | |
context, snapshot_id, 'error') | |
self._volume_snapshot_update_status( | |
context, snapshot_id, 'creating') | |
def _wait_for_snapshot(): | |
snapshot = self._volume_api.get_snapshot(context, snapshot_id) | |
if snapshot.get('status') != 'creating': | |
self._volume_refresh_connection_info(context, instance, | |
volume_id) | |
raise loopingcall.LoopingCallDone() | |
timer = loopingcall.FixedIntervalLoopingCall(_wait_for_snapshot) | |
timer.start(interval=0.5).wait() | |
@staticmethod | |
def _rebase_with_qemu_img(guest, device, active_disk_object, | |
rebase_base): | |
"""Rebase a device tied to a guest using qemu-img. | |
:param guest:the Guest which owns the device being rebased | |
:type guest: nova.virt.libvirt.guest.Guest | |
:param device: the guest block device to rebase | |
:type device: nova.virt.libvirt.guest.BlockDevice | |
:param active_disk_object: the guest block device to rebase | |
:type active_disk_object: nova.virt.libvirt.config.\ | |
LibvirtConfigGuestDisk | |
:param rebase_base: the new parent in the backing chain | |
:type rebase_base: None or string | |
""" | |
# It's unsure how well qemu-img handles network disks for | |
# every protocol. So let's be safe. | |
active_protocol = active_disk_object.source_protocol | |
if active_protocol is not None: | |
msg = _("Something went wrong when deleting a volume snapshot: " | |
"rebasing a %(protocol)s network disk using qemu-img " | |
"has not been fully tested") % {'protocol': | |
active_protocol} | |
LOG.error(msg) | |
raise exception.InternalError(msg) | |
if rebase_base is None: | |
# If backing_file is specified as "" (the empty string), then | |
# the image is rebased onto no backing file (i.e. it will exist | |
# independently of any backing file). | |
backing_file = "" | |
qemu_img_extra_arg = [] | |
else: | |
# If the rebased image is going to have a backing file then | |
# explicitly set the backing file format to avoid any security | |
# concerns related to file format auto detection. | |
backing_file = rebase_base | |
b_file_fmt = images.qemu_img_info(backing_file).file_format | |
qemu_img_extra_arg = ['-F', b_file_fmt] | |
qemu_img_extra_arg.append(active_disk_object.source_path) | |
utils.execute("qemu-img", "rebase", "-b", backing_file, | |
*qemu_img_extra_arg) | |
def _volume_snapshot_delete(self, context, instance, volume_id, | |
snapshot_id, delete_info=None): | |
"""Note: | |
if file being merged into == active image: | |
do a blockRebase (pull) operation | |
else: | |
do a blockCommit operation | |
Files must be adjacent in snap chain. | |
:param instance: instance object reference | |
:param volume_id: volume UUID | |
:param snapshot_id: snapshot UUID (unused currently) | |
:param delete_info: { | |
'type': 'qcow2', | |
'file_to_merge': 'a.img', | |
'merge_target_file': 'b.img' or None (if merging file_to_merge into | |
active image) | |
} | |
""" | |
LOG.debug('volume_snapshot_delete: delete_info: %s', delete_info, | |
instance=instance) | |
if delete_info['type'] != 'qcow2': | |
msg = _('Unknown delete_info type %s') % delete_info['type'] | |
raise exception.InternalError(msg) | |
try: | |
guest = self._host.get_guest(instance) | |
except exception.InstanceNotFound: | |
raise exception.InstanceNotRunning(instance_id=instance.uuid) | |
# Find dev name | |
my_dev = None | |
active_disk = None | |
xml = guest.get_xml_desc() | |
xml_doc = etree.fromstring(xml) | |
device_info = vconfig.LibvirtConfigGuest() | |
device_info.parse_dom(xml_doc) | |
active_disk_object = None | |
for guest_disk in device_info.devices: | |
if (guest_disk.root_name != 'disk'): | |
continue | |
if (guest_disk.target_dev is None or guest_disk.serial is None): | |
continue | |
if guest_disk.serial == volume_id: | |
my_dev = guest_disk.target_dev | |
active_disk = guest_disk.source_path | |
active_protocol = guest_disk.source_protocol | |
active_disk_object = guest_disk | |
break | |
if my_dev is None or (active_disk is None and active_protocol is None): | |
LOG.debug('Domain XML: %s', xml, instance=instance) | |
msg = (_('Disk with id: %s not found attached to instance.') | |
% volume_id) | |
raise exception.InternalError(msg) | |
LOG.debug("found device at %s", my_dev, instance=instance) | |
def _get_snap_dev(filename, backing_store): | |
if filename is None: | |
msg = _('filename cannot be None') | |
raise exception.InternalError(msg) | |
# libgfapi delete | |
LOG.debug("XML: %s", xml) | |
LOG.debug("active disk object: %s", active_disk_object) | |
# determine reference within backing store for desired image | |
filename_to_merge = filename | |
matched_name = None | |
b = backing_store | |
index = None | |
current_filename = active_disk_object.source_name.split('/')[1] | |
if current_filename == filename_to_merge: | |
return my_dev + '[0]' | |
while b is not None: | |
source_filename = b.source_name.split('/')[1] | |
if source_filename == filename_to_merge: | |
LOG.debug('found match: %s', b.source_name) | |
matched_name = b.source_name | |
index = b.index | |
break | |
b = b.backing_store | |
if matched_name is None: | |
msg = _('no match found for %s') % (filename_to_merge) | |
raise exception.InternalError(msg) | |
LOG.debug('index of match (%s) is %s', b.source_name, index) | |
my_snap_dev = '%s[%s]' % (my_dev, index) | |
return my_snap_dev | |
if delete_info['merge_target_file'] is None: | |
# pull via blockRebase() | |
# Merge the most recent snapshot into the active image | |
rebase_disk = my_dev | |
rebase_base = delete_info['file_to_merge'] # often None | |
if (active_protocol is not None) and (rebase_base is not None): | |
rebase_base = _get_snap_dev(rebase_base, | |
active_disk_object.backing_store) | |
# NOTE(deepakcs): libvirt added support for _RELATIVE in v1.2.7, | |
# and when available this flag _must_ be used to ensure backing | |
# paths are maintained relative by qemu. | |
# | |
# If _RELATIVE flag not found, continue with old behaviour | |
# (relative backing path seems to work for this case) | |
try: | |
libvirt.VIR_DOMAIN_BLOCK_REBASE_RELATIVE | |
relative = rebase_base is not None | |
except AttributeError: | |
LOG.warning( | |
"Relative blockrebase support was not detected. " | |
"Continuing with old behaviour.") | |
relative = False | |
LOG.debug( | |
'disk: %(disk)s, base: %(base)s, ' | |
'bw: %(bw)s, relative: %(relative)s', | |
{'disk': rebase_disk, | |
'base': rebase_base, | |
'bw': libvirt_guest.BlockDevice.REBASE_DEFAULT_BANDWIDTH, | |
'relative': str(relative)}, instance=instance) | |
dev = guest.get_block_device(rebase_disk) | |
if guest.is_active(): | |
result = dev.rebase(rebase_base, relative=relative) | |
if result == 0: | |
LOG.debug('blockRebase started successfully', | |
instance=instance) | |
while not dev.is_job_complete(): | |
LOG.debug('waiting for blockRebase job completion', | |
instance=instance) | |
time.sleep(0.5) | |
# If the guest is not running libvirt won't do a blockRebase. | |
# In that case, let's ask qemu-img to rebase the disk. | |
else: | |
LOG.debug('Guest is not running so doing a block rebase ' | |
'using "qemu-img rebase"', instance=instance) | |
self._rebase_with_qemu_img(guest, dev, active_disk_object, | |
rebase_base) | |
else: | |
# commit with blockCommit() | |
my_snap_base = None | |
my_snap_top = None | |
commit_disk = my_dev | |
if active_protocol is not None: | |
my_snap_base = _get_snap_dev(delete_info['merge_target_file'], | |
active_disk_object.backing_store) | |
my_snap_top = _get_snap_dev(delete_info['file_to_merge'], | |
active_disk_object.backing_store) | |
commit_base = my_snap_base or delete_info['merge_target_file'] | |
commit_top = my_snap_top or delete_info['file_to_merge'] | |
LOG.debug('will call blockCommit with commit_disk=%(commit_disk)s ' | |
'commit_base=%(commit_base)s ' | |
'commit_top=%(commit_top)s ', | |
{'commit_disk': commit_disk, | |
'commit_base': commit_base, | |
'commit_top': commit_top}, instance=instance) | |
dev = guest.get_block_device(commit_disk) | |
result = dev.commit(commit_base, commit_top, relative=True) | |
if result == 0: | |
LOG.debug('blockCommit started successfully', | |
instance=instance) | |
while not dev.is_job_complete(): | |
LOG.debug('waiting for blockCommit job completion', | |
instance=instance) | |
time.sleep(0.5) | |
def volume_snapshot_delete(self, context, instance, volume_id, snapshot_id, | |
delete_info): | |
try: | |
self._volume_snapshot_delete(context, instance, volume_id, | |
snapshot_id, delete_info=delete_info) | |
except Exception: | |
with excutils.save_and_reraise_exception(): | |
LOG.exception(_('Error occurred during ' | |
'volume_snapshot_delete, ' | |
'sending error status to Cinder.'), | |
instance=instance) | |
self._volume_snapshot_update_status( | |
context, snapshot_id, 'error_deleting') | |
self._volume_snapshot_update_status(context, snapshot_id, 'deleting') | |
self._volume_refresh_connection_info(context, instance, volume_id) | |
def reboot(self, context, instance, network_info, reboot_type, | |
block_device_info=None, bad_volumes_callback=None): | |
"""Reboot a virtual machine, given an instance reference.""" | |
if reboot_type == 'SOFT': | |
# NOTE(vish): This will attempt to do a graceful shutdown/restart. | |
try: | |
soft_reboot_success = self._soft_reboot(instance) | |
except libvirt.libvirtError as e: | |
LOG.debug("Instance soft reboot failed: %s", | |
encodeutils.exception_to_unicode(e), | |
instance=instance) | |
soft_reboot_success = False | |
if soft_reboot_success: | |
LOG.info("Instance soft rebooted successfully.", | |
instance=instance) | |
return | |
else: | |
LOG.warning("Failed to soft reboot instance. " | |
"Trying hard reboot.", | |
instance=instance) | |
return self._hard_reboot(context, instance, network_info, | |
block_device_info) | |
def _soft_reboot(self, instance): | |
"""Attempt to shutdown and restart the instance gracefully. | |
We use shutdown and create here so we can return if the guest | |
responded and actually rebooted. Note that this method only | |
succeeds if the guest responds to acpi. Therefore we return | |
success or failure so we can fall back to a hard reboot if | |
necessary. | |
:returns: True if the reboot succeeded | |
""" | |
guest = self._host.get_guest(instance) | |
state = guest.get_power_state(self._host) | |
old_domid = guest.id | |
# NOTE(vish): This check allows us to reboot an instance that | |
# is already shutdown. | |
if state == power_state.RUNNING: | |
guest.shutdown() | |
# NOTE(vish): This actually could take slightly longer than the | |
# FLAG defines depending on how long the get_info | |
# call takes to return. | |
self._prepare_pci_devices_for_use( | |
pci_manager.get_instance_pci_devs(instance, 'all')) | |
for x in range(CONF.libvirt.wait_soft_reboot_seconds): | |
guest = self._host.get_guest(instance) | |
state = guest.get_power_state(self._host) | |
new_domid = guest.id | |
# NOTE(ivoks): By checking domain IDs, we make sure we are | |
# not recreating domain that's already running. | |
if old_domid != new_domid: | |
if state in [power_state.SHUTDOWN, | |
power_state.CRASHED]: | |
LOG.info("Instance shutdown successfully.", | |
instance=instance) | |
self._create_domain(domain=guest._domain) | |
timer = loopingcall.FixedIntervalLoopingCall( | |
self._wait_for_running, instance) | |
timer.start(interval=0.5).wait() | |
return True | |
else: | |
LOG.info("Instance may have been rebooted during soft " | |
"reboot, so return now.", instance=instance) | |
return True | |
greenthread.sleep(1) | |
return False | |
def _hard_reboot(self, context, instance, network_info, | |
block_device_info=None): | |
"""Reboot a virtual machine, given an instance reference. | |
Performs a Libvirt reset (if supported) on the domain. | |
If Libvirt reset is unavailable this method actually destroys and | |
re-creates the domain to ensure the reboot happens, as the guest | |
OS cannot ignore this action. | |
""" | |
# NOTE(sbauza): Since we undefine the guest XML when destroying, we | |
# need to remember the existing mdevs for reusing them. | |
mdevs = self._get_all_assigned_mediated_devices(instance) | |
mdevs = list(mdevs.keys()) | |
# NOTE(mdbooth): In addition to performing a hard reboot of the domain, | |
# the hard reboot operation is relied upon by operators to be an | |
# automated attempt to fix as many things as possible about a | |
# non-functioning instance before resorting to manual intervention. | |
# With this goal in mind, we tear down all the aspects of an instance | |
# we can here without losing data. This allows us to re-initialise from | |
# scratch, and hopefully fix, most aspects of a non-functioning guest. | |
self.destroy(context, instance, network_info, destroy_disks=False, | |
block_device_info=block_device_info) | |
# Convert the system metadata to image metadata | |
# NOTE(mdbooth): This is a workaround for stateless Nova compute | |
# https://bugs.launchpad.net/nova/+bug/1349978 | |
instance_dir = libvirt_utils.get_instance_path(instance) | |
fileutils.ensure_tree(instance_dir) | |
disk_info = blockinfo.get_disk_info(CONF.libvirt.virt_type, | |
instance, | |
instance.image_meta, | |
block_device_info) | |
# NOTE(vish): This could generate the wrong device_format if we are | |
# using the raw backend and the images don't exist yet. | |
# The create_images_and_backing below doesn't properly | |
# regenerate raw backend images, however, so when it | |
# does we need to (re)generate the xml after the images | |
# are in place. | |
xml = self._get_guest_xml(context, instance, network_info, disk_info, | |
instance.image_meta, | |
block_device_info=block_device_info, | |
mdevs=mdevs) | |
# NOTE(mdbooth): context.auth_token will not be set when we call | |
# _hard_reboot from resume_state_on_host_boot() | |
if context.auth_token is not None: | |
# NOTE (rmk): Re-populate any missing backing files. | |
config = vconfig.LibvirtConfigGuest() | |
config.parse_str(xml) | |
backing_disk_info = self._get_instance_disk_info_from_config( | |
config, block_device_info) | |
self._create_images_and_backing(context, instance, instance_dir, | |
backing_disk_info) | |
# Initialize all the necessary networking, block devices and | |
# start the instance. | |
# NOTE(melwitt): Pass vifs_already_plugged=True here even though we've | |
# unplugged vifs earlier. The behavior of neutron plug events depends | |
# on which vif type we're using and we are working with a stale network | |
# info cache here, so won't rely on waiting for neutron plug events. | |
# vifs_already_plugged=True means "do not wait for neutron plug events" | |
self._create_domain_and_network(context, xml, instance, network_info, | |
block_device_info=block_device_info, | |
vifs_already_plugged=True) | |
self._prepare_pci_devices_for_use( | |
pci_manager.get_instance_pci_devs(instance, 'all')) | |
def _wait_for_reboot(): | |
"""Called at an interval until the VM is running again.""" | |
state = self.get_info(instance).state | |
if state == power_state.RUNNING: | |
LOG.info("Instance rebooted successfully.", | |
instance=instance) | |
raise loopingcall.LoopingCallDone() | |
timer = loopingcall.FixedIntervalLoopingCall(_wait_for_reboot) | |
timer.start(interval=0.5).wait() | |
def pause(self, instance): | |
"""Pause VM instance.""" | |
self._host.get_guest(instance).pause() | |
def unpause(self, instance): | |
"""Unpause paused VM instance.""" | |
guest = self._host.get_guest(instance) | |
guest.resume() | |
guest.sync_guest_time() | |
def _clean_shutdown(self, instance, timeout, retry_interval): | |
"""Attempt to shutdown the instance gracefully. | |
:param instance: The instance to be shutdown | |
:param timeout: How long to wait in seconds for the instance to | |
shutdown | |
:param retry_interval: How often in seconds to signal the instance | |
to shutdown while waiting | |
:returns: True if the shutdown succeeded | |
""" | |
# List of states that represent a shutdown instance | |
SHUTDOWN_STATES = [power_state.SHUTDOWN, | |
power_state.CRASHED] | |
try: | |
guest = self._host.get_guest(instance) | |
except exception.InstanceNotFound: | |
# If the instance has gone then we don't need to | |
# wait for it to shutdown | |
return True | |
state = guest.get_power_state(self._host) | |
if state in SHUTDOWN_STATES: | |
LOG.info("Instance already shutdown.", instance=instance) | |
return True | |
LOG.debug("Shutting down instance from state %s", state, | |
instance=instance) | |
guest.shutdown() | |
retry_countdown = retry_interval | |
for sec in range(timeout): | |
guest = self._host.get_guest(instance) | |
state = guest.get_power_state(self._host) | |
if state in SHUTDOWN_STATES: | |
LOG.info("Instance shutdown successfully after %d seconds.", | |
sec, instance=instance) | |
return True | |
# Note(PhilD): We can't assume that the Guest was able to process | |
# any previous shutdown signal (for example it may | |
# have still been startingup, so within the overall | |
# timeout we re-trigger the shutdown every | |
# retry_interval | |
if retry_countdown == 0: | |
retry_countdown = retry_interval | |
# Instance could shutdown at any time, in which case we | |
# will get an exception when we call shutdown | |
try: | |
LOG.debug("Instance in state %s after %d seconds - " | |
"resending shutdown", state, sec, | |
instance=instance) | |
guest.shutdown() | |
except libvirt.libvirtError: | |
# Assume this is because its now shutdown, so loop | |
# one more time to clean up. | |
LOG.debug("Ignoring libvirt exception from shutdown " | |
"request.", instance=instance) | |
continue | |
else: | |
retry_countdown -= 1 | |
time.sleep(1) | |
LOG.info("Instance failed to shutdown in %d seconds.", | |
timeout, instance=instance) | |
return False | |
def power_off(self, instance, timeout=0, retry_interval=0): | |
"""Power off the specified instance.""" | |
if timeout: | |
self._clean_shutdown(instance, timeout, retry_interval) | |
self._destroy(instance) | |
def power_on(self, context, instance, network_info, | |
block_device_info=None): | |
"""Power on the specified instance.""" | |
# We use _hard_reboot here to ensure that all backing files, | |
# network, and block device connections, etc. are established | |
# and available before we attempt to start the instance. | |
self._hard_reboot(context, instance, network_info, block_device_info) | |
def trigger_crash_dump(self, instance): | |
"""Trigger crash dump by injecting an NMI to the specified instance.""" | |
try: | |
self._host.get_guest(instance).inject_nmi() | |
except libvirt.libvirtError as ex: | |
error_code = ex.get_error_code() | |
if error_code == libvirt.VIR_ERR_NO_SUPPORT: | |
raise exception.TriggerCrashDumpNotSupported() | |
elif error_code == libvirt.VIR_ERR_OPERATION_INVALID: | |
raise exception.InstanceNotRunning(instance_id=instance.uuid) | |
LOG.exception(_('Error from libvirt while injecting an NMI to ' | |
'%(instance_uuid)s: ' | |
'[Error Code %(error_code)s] %(ex)s'), | |
{'instance_uuid': instance.uuid, | |
'error_code': error_code, 'ex': ex}) | |
raise | |
def suspend(self, context, instance): | |
"""Suspend the specified instance.""" | |
guest = self._host.get_guest(instance) | |
self._detach_pci_devices(guest, | |
pci_manager.get_instance_pci_devs(instance)) | |
self._detach_direct_passthrough_ports(context, instance, guest) | |
self._detach_mediated_devices(guest) | |
guest.save_memory_state() | |
def resume(self, context, instance, network_info, block_device_info=None): | |
"""resume the specified instance.""" | |
xml = self._get_existing_domain_xml(instance, network_info, | |
block_device_info) | |
guest = self._create_domain_and_network(context, xml, instance, | |
network_info, block_device_info=block_device_info, | |
vifs_already_plugged=True) | |
self._attach_pci_devices(guest, | |
pci_manager.get_instance_pci_devs(instance)) | |
self._attach_direct_passthrough_ports( | |
context, instance, guest, network_info) | |
timer = loopingcall.FixedIntervalLoopingCall(self._wait_for_running, | |
instance) | |
timer.start(interval=0.5).wait() | |
guest.sync_guest_time() | |
def resume_state_on_host_boot(self, context, instance, network_info, | |
block_device_info=None): | |
"""resume guest state when a host is booted.""" | |
# Check if the instance is running already and avoid doing | |
# anything if it is. | |
try: | |
guest = self._host.get_guest(instance) | |
state = guest.get_power_state(self._host) | |
ignored_states = (power_state.RUNNING, | |
power_state.SUSPENDED, | |
power_state.NOSTATE, | |
power_state.PAUSED) | |
if state in ignored_states: | |
return | |
except (exception.InternalError, exception.InstanceNotFound): | |
pass | |
# Instance is not up and could be in an unknown state. | |
# Be as absolute as possible about getting it back into | |
# a known and running state. | |
self._hard_reboot(context, instance, network_info, block_device_info) | |
def rescue(self, context, instance, network_info, image_meta, | |
rescue_password): | |
"""Loads a VM using rescue images. | |
A rescue is normally performed when something goes wrong with the | |
primary images and data needs to be corrected/recovered. Rescuing | |
should not edit or over-ride the original image, only allow for | |
data recovery. | |
""" | |
instance_dir = libvirt_utils.get_instance_path(instance) | |
unrescue_xml = self._get_existing_domain_xml(instance, network_info) | |
unrescue_xml_path = os.path.join(instance_dir, 'unrescue.xml') | |
libvirt_utils.write_to_file(unrescue_xml_path, unrescue_xml) | |
rescue_image_id = None | |
if image_meta.obj_attr_is_set("id"): | |
rescue_image_id = image_meta.id | |
rescue_images = { | |
'image_id': (rescue_image_id or | |
CONF.libvirt.rescue_image_id or instance.image_ref), | |
'kernel_id': (CONF.libvirt.rescue_kernel_id or | |
instance.kernel_id), | |
'ramdisk_id': (CONF.libvirt.rescue_ramdisk_id or | |
instance.ramdisk_id), | |
} | |
disk_info = blockinfo.get_disk_info(CONF.libvirt.virt_type, | |
instance, | |
image_meta, | |
rescue=True) | |
injection_info = InjectionInfo(network_info=network_info, | |
admin_pass=rescue_password, | |
files=None) | |
gen_confdrive = functools.partial(self._create_configdrive, | |
context, instance, injection_info, | |
rescue=True) | |
self._create_image(context, instance, disk_info['mapping'], | |
injection_info=injection_info, suffix='.rescue', | |
disk_images=rescue_images) | |
xml = self._get_guest_xml(context, instance, network_info, disk_info, | |
image_meta, rescue=rescue_images) | |
self._destroy(instance) | |
self._create_domain(xml, post_xml_callback=gen_confdrive) | |
def unrescue(self, instance, network_info): | |
"""Reboot the VM which is being rescued back into primary images. | |
""" | |
instance_dir = libvirt_utils.get_instance_path(instance) | |
unrescue_xml_path = os.path.join(instance_dir, 'unrescue.xml') | |
xml = libvirt_utils.load_file(unrescue_xml_path) | |
guest = self._host.get_guest(instance) | |
# TODO(sahid): We are converting all calls from a | |
# virDomain object to use nova.virt.libvirt.Guest. | |
# We should be able to remove virt_dom at the end. | |
virt_dom = guest._domain | |
self._destroy(instance) | |
self._create_domain(xml, virt_dom) | |
os.unlink(unrescue_xml_path) | |
rescue_files = os.path.join(instance_dir, "*.rescue") | |
for rescue_file in glob.iglob(rescue_files): | |
if os.path.isdir(rescue_file): | |
shutil.rmtree(rescue_file) | |
else: | |
os.unlink(rescue_file) | |
# cleanup rescue volume | |
lvm.remove_volumes([lvmdisk for lvmdisk in self._lvm_disks(instance) | |
if lvmdisk.endswith('.rescue')]) | |
if CONF.libvirt.images_type == 'rbd': | |
filter_fn = lambda disk: (disk.startswith(instance.uuid) and | |
disk.endswith('.rescue')) | |
LibvirtDriver._get_rbd_driver().cleanup_volumes(filter_fn) | |
def poll_rebooting_instances(self, timeout, instances): | |
pass | |
# NOTE(ilyaalekseyev): Implementation like in multinics | |
# for xenapi(tr3buchet) | |
def spawn(self, context, instance, image_meta, injected_files, | |
admin_password, allocations, network_info=None, | |
block_device_info=None): | |
disk_info = blockinfo.get_disk_info(CONF.libvirt.virt_type, | |
instance, | |
image_meta, | |
block_device_info) | |
injection_info = InjectionInfo(network_info=network_info, | |
files=injected_files, | |
admin_pass=admin_password) | |
gen_confdrive = functools.partial(self._create_configdrive, | |
context, instance, | |
injection_info) | |
self._create_image(context, instance, disk_info['mapping'], | |
injection_info=injection_info, | |
block_device_info=block_device_info) | |
# Required by Quobyte CI | |
self._ensure_console_log_for_instance(instance) | |
# Does the guest need to be assigned some vGPU mediated devices ? | |
mdevs = self._allocate_mdevs(allocations) | |
xml = self._get_guest_xml(context, instance, network_info, | |
disk_info, image_meta, | |
block_device_info=block_device_info, | |
mdevs=mdevs) | |
self._create_domain_and_network( | |
context, xml, instance, network_info, | |
block_device_info=block_device_info, | |
post_xml_callback=gen_confdrive, | |
destroy_disks_on_failure=True) | |
LOG.debug("Instance is running", instance=instance) | |
def _wait_for_boot(): | |
"""Called at an interval until the VM is running.""" | |
state = self.get_info(instance).state | |
if state == power_state.RUNNING: | |
LOG.info("Instance spawned successfully.", instance=instance) | |
raise loopingcall.LoopingCallDone() | |
timer = loopingcall.FixedIntervalLoopingCall(_wait_for_boot) | |
timer.start(interval=0.5).wait() | |
def _get_console_output_file(self, instance, console_log): | |
bytes_to_read = MAX_CONSOLE_BYTES | |
log_data = b"" # The last N read bytes | |
i = 0 # in case there is a log rotation (like "virtlogd") | |
path = console_log | |
while bytes_to_read > 0 and os.path.exists(path): | |
read_log_data, remaining = nova.privsep.path.last_bytes( | |
path, bytes_to_read) | |
# We need the log file content in chronological order, | |
# that's why we *prepend* the log data. | |
log_data = read_log_data + log_data | |
# Prep to read the next file in the chain | |
bytes_to_read -= len(read_log_data) | |
path = console_log + "." + str(i) | |
i += 1 | |
if remaining > 0: | |
LOG.info('Truncated console log returned, ' | |
'%d bytes ignored', remaining, instance=instance) | |
return log_data | |
def get_console_output(self, context, instance): | |
guest = self._host.get_guest(instance) | |
xml = guest.get_xml_desc() | |
tree = etree.fromstring(xml) | |
# If the guest has a console logging to a file prefer to use that | |
file_consoles = tree.findall("./devices/console[@type='file']") | |
if file_consoles: | |
for file_console in file_consoles: | |
source_node = file_console.find('./source') | |
if source_node is None: | |
continue | |
path = source_node.get("path") | |
if not path: | |
continue | |
if not os.path.exists(path): | |
LOG.info('Instance is configured with a file console, ' | |
'but the backing file is not (yet?) present', | |
instance=instance) | |
return "" | |
return self._get_console_output_file(instance, path) | |
# Try 'pty' types | |
pty_consoles = tree.findall("./devices/console[@type='pty']") | |
if pty_consoles: | |
for pty_console in pty_consoles: | |
source_node = pty_console.find('./source') | |
if source_node is None: | |
continue | |
pty = source_node.get("path") | |
if not pty: | |
continue | |
break | |
else: | |
raise exception.ConsoleNotAvailable() | |
else: | |
raise exception.ConsoleNotAvailable() | |
console_log = self._get_console_log_path(instance) | |
data = nova.privsep.libvirt.readpty(pty) | |
# NOTE(markus_z): The virt_types kvm and qemu are the only ones | |
# which create a dedicated file device for the console logging. | |
# Other virt_types like xen, lxc, uml, parallels depend on the | |
# flush of that pty device into the "console.log" file to ensure | |
# that a series of "get_console_output" calls return the complete | |
# content even after rebooting a guest. | |
nova.privsep.path.writefile(console_log, 'a+', data) | |
return self._get_console_output_file(instance, console_log) | |
def get_host_ip_addr(self): | |
ips = compute_utils.get_machine_ips() | |
if CONF.my_ip not in ips: | |
LOG.warning('my_ip address (%(my_ip)s) was not found on ' | |
'any of the interfaces: %(ifaces)s', | |
{'my_ip': CONF.my_ip, 'ifaces': ", ".join(ips)}) | |
return CONF.my_ip | |
def get_vnc_console(self, context, instance): | |
def get_vnc_port_for_instance(instance_name): | |
guest = self._host.get_guest(instance) | |
xml = guest.get_xml_desc() | |
xml_dom = etree.fromstring(xml) | |
graphic = xml_dom.find("./devices/graphics[@type='vnc']") | |
if graphic is not None: | |
return graphic.get('port') | |
# NOTE(rmk): We had VNC consoles enabled but the instance in | |
# question is not actually listening for connections. | |
raise exception.ConsoleTypeUnavailable(console_type='vnc') | |
port = get_vnc_port_for_instance(instance.name) | |
host = CONF.vnc.server_proxyclient_address | |
return ctype.ConsoleVNC(host=host, port=port) | |
def get_spice_console(self, context, instance): | |
def get_spice_ports_for_instance(instance_name): | |
guest = self._host.get_guest(instance) | |
xml = guest.get_xml_desc() | |
xml_dom = etree.fromstring(xml) | |
graphic = xml_dom.find("./devices/graphics[@type='spice']") | |
if graphic is not None: | |
return (graphic.get('port'), graphic.get('tlsPort')) | |
# NOTE(rmk): We had Spice consoles enabled but the instance in | |
# question is not actually listening for connections. | |
raise exception.ConsoleTypeUnavailable(console_type='spice') | |
ports = get_spice_ports_for_instance(instance.name) | |
host = CONF.spice.server_proxyclient_address | |
return ctype.ConsoleSpice(host=host, port=ports[0], tlsPort=ports[1]) | |
def get_serial_console(self, context, instance): | |
guest = self._host.get_guest(instance) | |
for hostname, port in self._get_serial_ports_from_guest( | |
guest, mode='bind'): | |
return ctype.ConsoleSerial(host=hostname, port=port) | |
raise exception.ConsoleTypeUnavailable(console_type='serial') | |
@staticmethod | |
def _create_ephemeral(target, ephemeral_size, | |
fs_label, os_type, is_block_dev=False, | |
context=None, specified_fs=None, | |
vm_mode=None): | |
if not is_block_dev: | |
if (CONF.libvirt.virt_type == "parallels" and | |
vm_mode == fields.VMMode.EXE): | |
libvirt_utils.create_ploop_image('expanded', target, | |
'%dG' % ephemeral_size, | |
specified_fs) | |
return | |
libvirt_utils.create_image('raw', target, '%dG' % ephemeral_size) | |
# Run as root only for block devices. | |
disk_api.mkfs(os_type, fs_label, target, run_as_root=is_block_dev, | |
specified_fs=specified_fs) | |
@staticmethod | |
def _create_swap(target, swap_mb, context=None): | |
"""Create a swap file of specified size.""" | |
libvirt_utils.create_image('raw', target, '%dM' % swap_mb) | |
utils.mkfs('swap', target) | |
@staticmethod | |
def _get_console_log_path(instance): | |
return os.path.join(libvirt_utils.get_instance_path(instance), | |
'console.log') | |
def _ensure_console_log_for_instance(self, instance): | |
# NOTE(mdbooth): Although libvirt will create this file for us | |
# automatically when it starts, it will initially create it with | |
# root ownership and then chown it depending on the configuration of | |
# the domain it is launching. Quobyte CI explicitly disables the | |
# chown by setting dynamic_ownership=0 in libvirt's config. | |
# Consequently when the domain starts it is unable to write to its | |
# console.log. See bug https://bugs.launchpad.net/nova/+bug/1597644 | |
# | |
# To work around this, we create the file manually before starting | |
# the domain so it has the same ownership as Nova. This works | |
# for Quobyte CI because it is also configured to run qemu as the same | |
# user as the Nova service. Installations which don't set | |
# dynamic_ownership=0 are not affected because libvirt will always | |
# correctly configure permissions regardless of initial ownership. | |
# | |
# Setting dynamic_ownership=0 is dubious and potentially broken in | |
# more ways than console.log (see comment #22 on the above bug), so | |
# Future Maintainer who finds this code problematic should check to see | |
# if we still support it. | |
console_file = self._get_console_log_path(instance) | |
LOG.debug('Ensure instance console log exists: %s', console_file, | |
instance=instance) | |
try: | |
libvirt_utils.file_open(console_file, 'a').close() | |
# NOTE(sfinucan): We can safely ignore permission issues here and | |
# assume that it is libvirt that has taken ownership of this file. | |
except IOError as ex: | |
if ex.errno != errno.EACCES: | |
raise | |
LOG.debug('Console file already exists: %s.', console_file) | |
@staticmethod | |
def _get_disk_config_image_type(): | |
# TODO(mikal): there is a bug here if images_type has | |
# changed since creation of the instance, but I am pretty | |
# sure that this bug already exists. | |
return 'rbd' if CONF.libvirt.images_type == 'rbd' else 'raw' | |
@staticmethod | |
def _is_booted_from_volume(block_device_info): | |
"""Determines whether the VM is booting from volume | |
Determines whether the block device info indicates that the VM | |
is booting from a volume. | |
""" | |
block_device_mapping = driver.block_device_info_get_mapping( | |
block_device_info) | |
return bool(block_device.get_root_bdm(block_device_mapping)) | |
def _inject_data(self, disk, instance, injection_info): | |
"""Injects data in a disk image | |
Helper used for injecting data in a disk image file system. | |
:param disk: The disk we're injecting into (an Image object) | |
:param instance: The instance we're injecting into | |
:param injection_info: Injection info | |
""" | |
# Handles the partition need to be used. | |
LOG.debug('Checking root disk injection %s', | |
str(injection_info), instance=instance) | |
target_partition = None | |
if not instance.kernel_id: | |
target_partition = CONF.libvirt.inject_partition | |
if target_partition == 0: | |
target_partition = None | |
if CONF.libvirt.virt_type == 'lxc': | |
target_partition = None | |
# Handles the key injection. | |
if CONF.libvirt.inject_key and instance.get('key_data'): | |
key = str(instance.key_data) | |
else: | |
key = None | |
# Handles the admin password injection. | |
if not CONF.libvirt.inject_password: | |
admin_pass = None | |
else: | |
admin_pass = injection_info.admin_pass | |
# Handles the network injection. | |
net = netutils.get_injected_network_template( | |
injection_info.network_info, | |
libvirt_virt_type=CONF.libvirt.virt_type) | |
# Handles the metadata injection | |
metadata = instance.get('metadata') | |
if any((key, net, metadata, admin_pass, injection_info.files)): | |
LOG.debug('Injecting %s', str(injection_info), | |
instance=instance) | |
img_id = instance.image_ref | |
try: | |
disk_api.inject_data(disk.get_model(self._conn), | |
key, net, metadata, admin_pass, | |
injection_info.files, | |
partition=target_partition, | |
mandatory=('files',)) | |
except Exception as e: | |
with excutils.save_and_reraise_exception(): | |
LOG.error('Error injecting data into image ' | |
'%(img_id)s (%(e)s)', | |
{'img_id': img_id, 'e': e}, | |
instance=instance) | |
# NOTE(sileht): many callers of this method assume that this | |
# method doesn't fail if an image already exists but instead | |
# think that it will be reused (ie: (live)-migration/resize) | |
def _create_image(self, context, instance, | |
disk_mapping, injection_info=None, suffix='', | |
disk_images=None, block_device_info=None, | |
fallback_from_host=None, | |
ignore_bdi_for_swap=False): | |
booted_from_volume = self._is_booted_from_volume(block_device_info) | |
def image(fname, image_type=CONF.libvirt.images_type): | |
return self.image_backend.by_name(instance, | |
fname + suffix, image_type) | |
def raw(fname): | |
return image(fname, image_type='raw') | |
# ensure directories exist and are writable | |
fileutils.ensure_tree(libvirt_utils.get_instance_path(instance)) | |
LOG.info('Creating image', instance=instance) | |
inst_type = instance.get_flavor() | |
swap_mb = 0 | |
if 'disk.swap' in disk_mapping: | |
mapping = disk_mapping['disk.swap'] | |
if ignore_bdi_for_swap: | |
# This is a workaround to support legacy swap resizing, | |
# which does not touch swap size specified in bdm, | |
# but works with flavor specified size only. | |
# In this case we follow the legacy logic and ignore block | |
# device info completely. | |
# NOTE(ft): This workaround must be removed when a correct | |
# implementation of resize operation changing sizes in bdms is | |
# developed. Also at that stage we probably may get rid of | |
# the direct usage of flavor swap size here, | |
# leaving the work with bdm only. | |
swap_mb = inst_type['swap'] | |
else: | |
swap = driver.block_device_info_get_swap(block_device_info) | |
if driver.swap_is_usable(swap): | |
swap_mb = swap['swap_size'] | |
elif (inst_type['swap'] > 0 and | |
not block_device.volume_in_mapping( | |
mapping['dev'], block_device_info)): | |
swap_mb = inst_type['swap'] | |
if swap_mb > 0: | |
if (CONF.libvirt.virt_type == "parallels" and | |
instance.vm_mode == fields.VMMode.EXE): | |
msg = _("Swap disk is not supported " | |
"for Virtuozzo container") | |
raise exception.Invalid(msg) | |
if not disk_images: | |
disk_images = {'image_id': instance.image_ref, | |
'kernel_id': instance.kernel_id, | |
'ramdisk_id': instance.ramdisk_id} | |
if disk_images['kernel_id']: | |
fname = imagecache.get_cache_fname(disk_images['kernel_id']) | |
raw('kernel').cache(fetch_func=libvirt_utils.fetch_raw_image, | |
context=context, | |
filename=fname, | |
image_id=disk_images['kernel_id']) | |
if disk_images['ramdisk_id']: | |
fname = imagecache.get_cache_fname(disk_images['ramdisk_id']) | |
raw('ramdisk').cache(fetch_func=libvirt_utils.fetch_raw_image, | |
context=context, | |
filename=fname, | |
image_id=disk_images['ramdisk_id']) | |
if CONF.libvirt.virt_type == 'uml': | |
# PONDERING(mikal): can I assume that root is UID zero in every | |
# OS? Probably not. | |
uid = pwd.getpwnam('root').pw_uid | |
nova.privsep.path.chown(image('disk').path, uid=uid) | |
self._create_and_inject_local_root(context, instance, | |
booted_from_volume, suffix, | |
disk_images, injection_info, | |
fallback_from_host) | |
# Lookup the filesystem type if required | |
os_type_with_default = disk_api.get_fs_type_for_os_type( | |
instance.os_type) | |
# Generate a file extension based on the file system | |
# type and the mkfs commands configured if any | |
file_extension = disk_api.get_file_extension_for_os_type( | |
os_type_with_default) | |
vm_mode = fields.VMMode.get_from_instance(instance) | |
ephemeral_gb = instance.flavor.ephemeral_gb | |
if 'disk.local' in disk_mapping: | |
disk_image = image('disk.local') | |
fn = functools.partial(self._create_ephemeral, | |
fs_label='ephemeral0', | |
os_type=instance.os_type, | |
is_block_dev=disk_image.is_block_dev, | |
vm_mode=vm_mode) | |
fname = "ephemeral_%s_%s" % (ephemeral_gb, file_extension) | |
size = ephemeral_gb * units.Gi | |
disk_image.cache(fetch_func=fn, | |
context=context, | |
filename=fname, | |
size=size, | |
ephemeral_size=ephemeral_gb) | |
for idx, eph in enumerate(driver.block_device_info_get_ephemerals( | |
block_device_info)): | |
disk_image = image(blockinfo.get_eph_disk(idx)) | |
specified_fs = eph.get('guest_format') | |
if specified_fs and not self.is_supported_fs_format(specified_fs): | |
msg = _("%s format is not supported") % specified_fs | |
raise exception.InvalidBDMFormat(details=msg) | |
fn = functools.partial(self._create_ephemeral, | |
fs_label='ephemeral%d' % idx, | |
os_type=instance.os_type, | |
is_block_dev=disk_image.is_block_dev, | |
vm_mode=vm_mode) | |
size = eph['size'] * units.Gi | |
fname = "ephemeral_%s_%s" % (eph['size'], file_extension) | |
disk_image.cache(fetch_func=fn, | |
context=context, | |
filename=fname, | |
size=size, | |
ephemeral_size=eph['size'], | |
specified_fs=specified_fs) | |
if swap_mb > 0: | |
size = swap_mb * units.Mi | |
image('disk.swap').cache(fetch_func=self._create_swap, | |
context=context, | |
filename="swap_%s" % swap_mb, | |
size=size, | |
swap_mb=swap_mb) | |
def _create_and_inject_local_root(self, context, instance, | |
booted_from_volume, suffix, disk_images, | |
injection_info, fallback_from_host): | |
# File injection only if needed | |
need_inject = (not configdrive.required_by(instance) and | |
injection_info is not None and | |
CONF.libvirt.inject_partition != -2) | |
# NOTE(ndipanov): Even if disk_mapping was passed in, which | |
# currently happens only on rescue - we still don't want to | |
# create a base image. | |
if not booted_from_volume: | |
root_fname = imagecache.get_cache_fname(disk_images['image_id']) | |
size = instance.flavor.root_gb * units.Gi | |
if size == 0 or suffix == '.rescue': | |
size = None | |
backend = self.image_backend.by_name(instance, 'disk' + suffix, | |
CONF.libvirt.images_type) | |
if instance.task_state == task_states.RESIZE_FINISH: | |
backend.create_snap(libvirt_utils.RESIZE_SNAPSHOT_NAME) | |
if backend.SUPPORTS_CLONE: | |
def clone_fallback_to_fetch(*args, **kwargs): | |
try: | |
backend.clone(context, disk_images['image_id']) | |
except exception.ImageUnacceptable: | |
libvirt_utils.fetch_image(*args, **kwargs) | |
fetch_func = clone_fallback_to_fetch | |
else: | |
fetch_func = libvirt_utils.fetch_image | |
self._try_fetch_image_cache(backend, fetch_func, context, | |
root_fname, disk_images['image_id'], | |
instance, size, fallback_from_host) | |
if need_inject: | |
self._inject_data(backend, instance, injection_info) | |
elif need_inject: | |
LOG.warning('File injection into a boot from volume ' | |
'instance is not supported', instance=instance) | |
def _create_configdrive(self, context, instance, injection_info, | |
rescue=False): | |
# As this method being called right after the definition of a | |
# domain, but before its actual launch, device metadata will be built | |
# and saved in the instance for it to be used by the config drive and | |
# the metadata service. | |
instance.device_metadata = self._build_device_metadata(context, | |
instance) | |
if configdrive.required_by(instance): | |
LOG.info('Using config drive', instance=instance) | |
name = 'disk.config' | |
if rescue: | |
name += '.rescue' | |
config_disk = self.image_backend.by_name( | |
instance, name, self._get_disk_config_image_type()) | |
# Don't overwrite an existing config drive | |
if not config_disk.exists(): | |
extra_md = {} | |
if injection_info.admin_pass: | |
extra_md['admin_pass'] = injection_info.admin_pass | |
inst_md = instance_metadata.InstanceMetadata( | |
instance, content=injection_info.files, extra_md=extra_md, | |
network_info=injection_info.network_info, | |
request_context=context) | |
cdb = configdrive.ConfigDriveBuilder(instance_md=inst_md) | |
with cdb: | |
# NOTE(mdbooth): We're hardcoding here the path of the | |
# config disk when using the flat backend. This isn't | |
# good, but it's required because we need a local path we | |
# know we can write to in case we're subsequently | |
# importing into rbd. This will be cleaned up when we | |
# replace this with a call to create_from_func, but that | |
# can't happen until we've updated the backends and we | |
# teach them not to cache config disks. This isn't | |
# possible while we're still using cache() under the hood. | |
config_disk_local_path = os.path.join( | |
libvirt_utils.get_instance_path(instance), name) | |
LOG.info('Creating config drive at %(path)s', | |
{'path': config_disk_local_path}, | |
instance=instance) | |
try: | |
cdb.make_drive(config_disk_local_path) | |
except processutils.ProcessExecutionError as e: | |
with excutils.save_and_reraise_exception(): | |
LOG.error('Creating config drive failed with ' | |
'error: %s', e, instance=instance) | |
try: | |
config_disk.import_file( | |
instance, config_disk_local_path, name) | |
finally: | |
# NOTE(mikal): if the config drive was imported into RBD, | |
# then we no longer need the local copy | |
if CONF.libvirt.images_type == 'rbd': | |
LOG.info('Deleting local config drive %(path)s ' | |
'because it was imported into RBD.', | |
{'path': config_disk_local_path}, | |
instance=instance) | |
os.unlink(config_disk_local_path) | |
def _prepare_pci_devices_for_use(self, pci_devices): | |
# kvm , qemu support managed mode | |
# In managed mode, the configured device will be automatically | |
# detached from the host OS drivers when the guest is started, | |
# and then re-attached when the guest shuts down. | |
if CONF.libvirt.virt_type != 'xen': | |
# we do manual detach only for xen | |
return | |
try: | |
for dev in pci_devices: | |
libvirt_dev_addr = dev['hypervisor_name'] | |
libvirt_dev = \ | |
self._host.device_lookup_by_name(libvirt_dev_addr) | |
# Note(yjiang5) Spelling for 'dettach' is correct, see | |
# http://libvirt.org/html/libvirt-libvirt.html. | |
libvirt_dev.dettach() | |
# Note(yjiang5): A reset of one PCI device may impact other | |
# devices on the same bus, thus we need two separated loops | |
# to detach and then reset it. | |
for dev in pci_devices: | |
libvirt_dev_addr = dev['hypervisor_name'] | |
libvirt_dev = \ | |
self._host.device_lookup_by_name(libvirt_dev_addr) | |
libvirt_dev.reset() | |
except libvirt.libvirtError as exc: | |
raise exception.PciDevicePrepareFailed(id=dev['id'], | |
instance_uuid= | |
dev['instance_uuid'], | |
reason=six.text_type(exc)) | |
def _detach_pci_devices(self, guest, pci_devs): | |
try: | |
for dev in pci_devs: | |
guest.detach_device(self._get_guest_pci_device(dev), live=True) | |
# after detachDeviceFlags returned, we should check the dom to | |
# ensure the detaching is finished | |
xml = guest.get_xml_desc() | |
xml_doc = etree.fromstring(xml) | |
guest_config = vconfig.LibvirtConfigGuest() | |
guest_config.parse_dom(xml_doc) | |
for hdev in [d for d in guest_config.devices | |
if isinstance(d, vconfig.LibvirtConfigGuestHostdevPCI)]: | |
hdbsf = [hdev.domain, hdev.bus, hdev.slot, hdev.function] | |
dbsf = pci_utils.parse_address(dev.address) | |
if [int(x, 16) for x in hdbsf] ==\ | |
[int(x, 16) for x in dbsf]: | |
raise exception.PciDeviceDetachFailed(reason= | |
"timeout", | |
dev=dev) | |
except libvirt.libvirtError as ex: | |
error_code = ex.get_error_code() | |
if error_code == libvirt.VIR_ERR_NO_DOMAIN: | |
LOG.warning("Instance disappeared while detaching " | |
"a PCI device from it.") | |
else: | |
raise | |
def _attach_pci_devices(self, guest, pci_devs): | |
try: | |
for dev in pci_devs: | |
guest.attach_device(self._get_guest_pci_device(dev)) | |
except libvirt.libvirtError: | |
LOG.error('Attaching PCI devices %(dev)s to %(dom)s failed.', | |
{'dev': pci_devs, 'dom': guest.id}) | |
raise | |
@staticmethod | |
def _has_direct_passthrough_port(network_info): | |
for vif in network_info: | |
if (vif['vnic_type'] in | |
network_model.VNIC_TYPES_DIRECT_PASSTHROUGH): | |
return True | |
return False | |
def _attach_direct_passthrough_ports( | |
self, context, instance, guest, network_info=None): | |
if network_info is None: | |
network_info = instance.info_cache.network_info | |
if network_info is None: | |
return | |
if self._has_direct_passthrough_port(network_info): | |
for vif in network_info: | |
if (vif['vnic_type'] in | |
network_model.VNIC_TYPES_DIRECT_PASSTHROUGH): | |
cfg = self.vif_driver.get_config(instance, | |
vif, | |
instance.image_meta, | |
instance.flavor, | |
CONF.libvirt.virt_type, | |
self._host) | |
LOG.debug('Attaching direct passthrough port %(port)s ' | |
'to %(dom)s', {'port': vif, 'dom': guest.id}, | |
instance=instance) | |
guest.attach_device(cfg) | |
def _detach_direct_passthrough_ports(self, context, instance, guest): | |
network_info = instance.info_cache.network_info | |
if network_info is None: | |
return | |
if self._has_direct_passthrough_port(network_info): | |
# In case of VNIC_TYPES_DIRECT_PASSTHROUGH ports we create | |
# pci request per direct passthrough port. Therefore we can trust | |
# that pci_slot value in the vif is correct. | |
direct_passthrough_pci_addresses = [ | |
vif['profile']['pci_slot'] | |
for vif in network_info | |
if (vif['vnic_type'] in | |
network_model.VNIC_TYPES_DIRECT_PASSTHROUGH and | |
vif['profile'].get('pci_slot') is not None) | |
] | |
# use detach_pci_devices to avoid failure in case of | |
# multiple guest direct passthrough ports with the same MAC | |
# (protection use-case, ports are on different physical | |
# interfaces) | |
pci_devs = pci_manager.get_instance_pci_devs(instance, 'all') | |
direct_passthrough_pci_addresses = ( | |
[pci_dev for pci_dev in pci_devs | |
if pci_dev.address in direct_passthrough_pci_addresses]) | |
self._detach_pci_devices(guest, direct_passthrough_pci_addresses) | |
def _set_host_enabled(self, enabled, | |
disable_reason=DISABLE_REASON_UNDEFINED): | |
"""Enables / Disables the compute service on this host. | |
This doesn't override non-automatic disablement with an automatic | |
setting; thereby permitting operators to keep otherwise | |
healthy hosts out of rotation. | |
""" | |
status_name = {True: 'disabled', | |
False: 'enabled'} | |
disable_service = not enabled | |
ctx = nova_context.get_admin_context() | |
try: | |
service = objects.Service.get_by_compute_host(ctx, CONF.host) | |
if service.disabled != disable_service: | |
# Note(jang): this is a quick fix to stop operator- | |
# disabled compute hosts from re-enabling themselves | |
# automatically. We prefix any automatic reason code | |
# with a fixed string. We only re-enable a host | |
# automatically if we find that string in place. | |
# This should probably be replaced with a separate flag. | |
if not service.disabled or ( | |
service.disabled_reason and | |
service.disabled_reason.startswith(DISABLE_PREFIX)): | |
service.disabled = disable_service | |
service.disabled_reason = ( | |
DISABLE_PREFIX + disable_reason | |
if disable_service and disable_reason else | |
DISABLE_REASON_UNDEFINED) | |
service.save() | |
LOG.debug('Updating compute service status to %s', | |
status_name[disable_service]) | |
else: | |
LOG.debug('Not overriding manual compute service ' | |
'status with: %s', | |
status_name[disable_service]) | |
except exception.ComputeHostNotFound: | |
LOG.warning('Cannot update service status on host "%s" ' | |
'since it is not registered.', CONF.host) | |
except Exception: | |
LOG.warning('Cannot update service status on host "%s" ' | |
'due to an unexpected exception.', CONF.host, | |
exc_info=True) | |
if enabled: | |
mount.get_manager().host_up(self._host) | |
else: | |
mount.get_manager().host_down() | |
def _get_guest_cpu_model_config(self): | |
mode = CONF.libvirt.cpu_mode | |
model = CONF.libvirt.cpu_model | |
if (CONF.libvirt.virt_type == "kvm" or | |
CONF.libvirt.virt_type == "qemu"): | |
if mode is None: | |
caps = self._host.get_capabilities() | |
# AArch64 lacks 'host-model' support because neither libvirt | |
# nor QEMU are able to tell what the host CPU model exactly is. | |
# And there is no CPU description code for ARM(64) at this | |
# point. | |
# Also worth noting: 'host-passthrough' mode will completely | |
# break live migration, *unless* all the Compute nodes (running | |
# libvirtd) have *identical* CPUs. | |
if caps.host.cpu.arch == fields.Architecture.AARCH64: | |
mode = "host-passthrough" | |
LOG.info('CPU mode "host-passthrough" was chosen. Live ' | |
'migration can break unless all compute nodes ' | |
'have identical cpus. AArch64 does not support ' | |
'other modes.') | |
else: | |
mode = "host-model" | |
if mode == "none": | |
return vconfig.LibvirtConfigGuestCPU() | |
else: | |
if mode is None or mode == "none": | |
return None | |
if ((CONF.libvirt.virt_type != "kvm" and | |
CONF.libvirt.virt_type != "qemu")): | |
msg = _("Config requested an explicit CPU model, but " | |
"the current libvirt hypervisor '%s' does not " | |
"support selecting CPU models") % CONF.libvirt.virt_type | |
raise exception.Invalid(msg) | |
if mode == "custom" and model is None: | |
msg = _("Config requested a custom CPU model, but no " | |
"model name was provided") | |
raise exception.Invalid(msg) | |
elif mode != "custom" and model is not None: | |
msg = _("A CPU model name should not be set when a " | |
"host CPU model is requested") | |
raise exception.Invalid(msg) | |
LOG.debug("CPU mode '%(mode)s' model '%(model)s' was chosen", | |
{'mode': mode, 'model': (model or "")}) | |
cpu = vconfig.LibvirtConfigGuestCPU() | |
cpu.mode = mode | |
cpu.model = model | |
return cpu | |
def _get_guest_cpu_config(self, flavor, image_meta, | |
guest_cpu_numa_config, instance_numa_topology): | |
cpu = self._get_guest_cpu_model_config() | |
if cpu is None: | |
return None | |
topology = hardware.get_best_cpu_topology( | |
flavor, image_meta, numa_topology=instance_numa_topology) | |
cpu.sockets = topology.sockets | |
cpu.cores = topology.cores | |
cpu.threads = topology.threads | |
cpu.numa = guest_cpu_numa_config | |
return cpu | |
def _get_guest_disk_config(self, instance, name, disk_mapping, inst_type, | |
image_type=None): | |
disk_unit = None | |
disk = self.image_backend.by_name(instance, name, image_type) | |
if (name == 'disk.config' and image_type == 'rbd' and | |
not disk.exists()): | |
# This is likely an older config drive that has not been migrated | |
# to rbd yet. Try to fall back on 'flat' image type. | |
# TODO(melwitt): Add online migration of some sort so we can | |
# remove this fall back once we know all config drives are in rbd. | |
# NOTE(vladikr): make sure that the flat image exist, otherwise | |
# the image will be created after the domain definition. | |
flat_disk = self.image_backend.by_name(instance, name, 'flat') | |
if flat_disk.exists(): | |
disk = flat_disk | |
LOG.debug('Config drive not found in RBD, falling back to the ' | |
'instance directory', instance=instance) | |
disk_info = disk_mapping[name] | |
if 'unit' in disk_mapping: | |
disk_unit = disk_mapping['unit'] | |
disk_mapping['unit'] += 1 # Increments for the next disk added | |
conf = disk.libvirt_info(disk_info['bus'], | |
disk_info['dev'], | |
disk_info['type'], | |
self.disk_cachemode, | |
inst_type['extra_specs'], | |
self._host.get_version(), | |
disk_unit=disk_unit) | |
return conf | |
def _get_guest_fs_config(self, instance, name, image_type=None): | |
disk = self.image_backend.by_name(instance, name, image_type) | |
return disk.libvirt_fs_info("/", "ploop") | |
def _get_guest_storage_config(self, context, instance, image_meta, | |
disk_info, | |
rescue, block_device_info, | |
inst_type, os_type): | |
devices = [] | |
disk_mapping = disk_info['mapping'] | |
block_device_mapping = driver.block_device_info_get_mapping( | |
block_device_info) | |
mount_rootfs = CONF.libvirt.virt_type == "lxc" | |
scsi_controller = self._get_scsi_controller(image_meta) | |
if scsi_controller and scsi_controller.model == 'virtio-scsi': | |
# The virtio-scsi can handle up to 256 devices but the | |
# optional element "address" must be defined to describe | |
# where the device is placed on the controller (see: | |
# LibvirtConfigGuestDeviceAddressDrive). | |
# | |
# Note about why it's added in disk_mapping: It's not | |
# possible to pass an 'int' by reference in Python, so we | |
# use disk_mapping as container to keep reference of the | |
# unit added and be able to increment it for each disk | |
# added. | |
disk_mapping['unit'] = 0 | |
def _get_ephemeral_devices(): | |
eph_devices = [] | |
for idx, eph in enumerate( | |
driver.block_device_info_get_ephemerals( | |
block_device_info)): | |
diskeph = self._get_guest_disk_config( | |
instance, | |
blockinfo.get_eph_disk(idx), | |
disk_mapping, inst_type) | |
eph_devices.append(diskeph) | |
return eph_devices | |
if mount_rootfs: | |
fs = vconfig.LibvirtConfigGuestFilesys() | |
fs.source_type = "mount" | |
fs.source_dir = os.path.join( | |
libvirt_utils.get_instance_path(instance), 'rootfs') | |
devices.append(fs) | |
elif (os_type == fields.VMMode.EXE and | |
CONF.libvirt.virt_type == "parallels"): | |
if rescue: | |
fsrescue = self._get_guest_fs_config(instance, "disk.rescue") | |
devices.append(fsrescue) | |
fsos = self._get_guest_fs_config(instance, "disk") | |
fsos.target_dir = "/mnt/rescue" | |
devices.append(fsos) | |
else: | |
if 'disk' in disk_mapping: | |
fs = self._get_guest_fs_config(instance, "disk") | |
devices.append(fs) | |
devices = devices + _get_ephemeral_devices() | |
else: | |
if rescue: | |
diskrescue = self._get_guest_disk_config(instance, | |
'disk.rescue', | |
disk_mapping, | |
inst_type) | |
devices.append(diskrescue) | |
diskos = self._get_guest_disk_config(instance, | |
'disk', | |
disk_mapping, | |
inst_type) | |
devices.append(diskos) | |
else: | |
if 'disk' in disk_mapping: | |
diskos = self._get_guest_disk_config(instance, | |
'disk', | |
disk_mapping, | |
inst_type) | |
devices.append(diskos) | |
if 'disk.local' in disk_mapping: | |
disklocal = self._get_guest_disk_config(instance, | |
'disk.local', | |
disk_mapping, | |
inst_type) | |
devices.append(disklocal) | |
instance.default_ephemeral_device = ( | |
block_device.prepend_dev(disklocal.target_dev)) | |
devices = devices + _get_ephemeral_devices() | |
if 'disk.swap' in disk_mapping: | |
diskswap = self._get_guest_disk_config(instance, | |
'disk.swap', | |
disk_mapping, | |
inst_type) | |
devices.append(diskswap) | |
instance.default_swap_device = ( | |
block_device.prepend_dev(diskswap.target_dev)) | |
config_name = 'disk.config.rescue' if rescue else 'disk.config' | |
if config_name in disk_mapping: | |
diskconfig = self._get_guest_disk_config( | |
instance, config_name, disk_mapping, inst_type, | |
self._get_disk_config_image_type()) | |
devices.append(diskconfig) | |
for vol in block_device.get_bdms_to_connect(block_device_mapping, | |
mount_rootfs): | |
connection_info = vol['connection_info'] | |
vol_dev = block_device.prepend_dev(vol['mount_device']) | |
info = disk_mapping[vol_dev] | |
self._connect_volume(context, connection_info, instance) | |
if scsi_controller and scsi_controller.model == 'virtio-scsi': | |
info['unit'] = disk_mapping['unit'] | |
disk_mapping['unit'] += 1 | |
cfg = self._get_volume_config(connection_info, info) | |
devices.append(cfg) | |
vol['connection_info'] = connection_info | |
vol.save() | |
for d in devices: | |
self._set_cache_mode(d) | |
if scsi_controller: | |
devices.append(scsi_controller) | |
return devices | |
@staticmethod | |
def _get_scsi_controller(image_meta): | |
"""Return scsi controller or None based on image meta""" | |
# TODO(sahid): should raise an exception for an invalid controller | |
if image_meta.properties.get('hw_scsi_model'): | |
hw_scsi_model = image_meta.properties.hw_scsi_model | |
scsi_controller = vconfig.LibvirtConfigGuestController() | |
scsi_controller.type = 'scsi' | |
scsi_controller.model = hw_scsi_model | |
scsi_controller.index = 0 | |
return scsi_controller | |
def _get_host_sysinfo_serial_hardware(self): | |
"""Get a UUID from the host hardware | |
Get a UUID for the host hardware reported by libvirt. | |
This is typically from the SMBIOS data, unless it has | |
been overridden in /etc/libvirt/libvirtd.conf | |
""" | |
caps = self._host.get_capabilities() | |
return caps.host.uuid | |
def _get_host_sysinfo_serial_os(self): | |
"""Get a UUID from the host operating system | |
Get a UUID for the host operating system. Modern Linux | |
distros based on systemd provide a /etc/machine-id | |
file containing a UUID. This is also provided inside | |
systemd based containers and can be provided by other | |
init systems too, since it is just a plain text file. | |
""" | |
if not os.path.exists("/etc/machine-id"): | |
msg = _("Unable to get host UUID: /etc/machine-id does not exist") | |
raise exception.InternalError(msg) | |
with open("/etc/machine-id") as f: | |
# We want to have '-' in the right place | |
# so we parse & reformat the value | |
lines = f.read().split() | |
if not lines: | |
msg = _("Unable to get host UUID: /etc/machine-id is empty") | |
raise exception.InternalError(msg) | |
return str(uuid.UUID(lines[0])) | |
def _get_host_sysinfo_serial_auto(self): | |
if os.path.exists("/etc/machine-id"): | |
return self._get_host_sysinfo_serial_os() | |
else: | |
return self._get_host_sysinfo_serial_hardware() | |
def _get_guest_config_sysinfo(self, instance): | |
sysinfo = vconfig.LibvirtConfigGuestSysinfo() | |
sysinfo.system_manufacturer = version.vendor_string() | |
sysinfo.system_product = version.product_string() | |
sysinfo.system_version = version.version_string_with_package() | |
sysinfo.system_serial = self._sysinfo_serial_func() | |
sysinfo.system_uuid = instance.uuid | |
sysinfo.system_family = "Virtual Machine" | |
return sysinfo | |
def _get_guest_pci_device(self, pci_device): | |
dbsf = pci_utils.parse_address(pci_device.address) | |
dev = vconfig.LibvirtConfigGuestHostdevPCI() | |
dev.domain, dev.bus, dev.slot, dev.function = dbsf | |
# only kvm support managed mode | |
if CONF.libvirt.virt_type in ('xen', 'parallels',): | |
dev.managed = 'no' | |
if CONF.libvirt.virt_type in ('kvm', 'qemu'): | |
dev.managed = 'yes' | |
return dev | |
def _get_guest_config_meta(self, instance): | |
"""Get metadata config for guest.""" | |
meta = vconfig.LibvirtConfigGuestMetaNovaInstance() | |
meta.package = version.version_string_with_package() | |
meta.name = instance.display_name | |
meta.creationTime = time.time() | |
if instance.image_ref not in ("", None): | |
meta.roottype = "image" | |
meta.rootid = instance.image_ref | |
system_meta = instance.system_metadata | |
ometa = vconfig.LibvirtConfigGuestMetaNovaOwner() | |
ometa.userid = instance.user_id | |
ometa.username = system_meta.get('owner_user_name', 'N/A') | |
ometa.projectid = instance.project_id | |
ometa.projectname = system_meta.get('owner_project_name', 'N/A') | |
meta.owner = ometa | |
fmeta = vconfig.LibvirtConfigGuestMetaNovaFlavor() | |
flavor = instance.flavor | |
fmeta.name = flavor.name | |
fmeta.memory = flavor.memory_mb | |
fmeta.vcpus = flavor.vcpus | |
fmeta.ephemeral = flavor.ephemeral_gb | |
fmeta.disk = flavor.root_gb | |
fmeta.swap = flavor.swap | |
meta.flavor = fmeta | |
return meta | |
def _machine_type_mappings(self): | |
mappings = {} | |
for mapping in CONF.libvirt.hw_machine_type: | |
host_arch, _, machine_type = mapping.partition('=') | |
mappings[host_arch] = machine_type | |
return mappings | |
def _get_machine_type(self, image_meta, caps): | |
# The underlying machine type can be set as an image attribute, | |
# or otherwise based on some architecture specific defaults | |
mach_type = None | |
if image_meta.properties.get('hw_machine_type') is not None: | |
mach_type = image_meta.properties.hw_machine_type | |
else: | |
# For ARM systems we will default to vexpress-a15 for armv7 | |
# and virt for aarch64 | |
if caps.host.cpu.arch == fields.Architecture.ARMV7: | |
mach_type = "vexpress-a15" | |
if caps.host.cpu.arch == fields.Architecture.AARCH64: | |
mach_type = "virt" | |
if caps.host.cpu.arch in (fields.Architecture.S390, | |
fields.Architecture.S390X): | |
mach_type = 's390-ccw-virtio' | |
# If set in the config, use that as the default. | |
if CONF.libvirt.hw_machine_type: | |
mappings = self._machine_type_mappings() | |
mach_type = mappings.get(caps.host.cpu.arch) | |
return mach_type | |
@staticmethod | |
def _create_idmaps(klass, map_strings): | |
idmaps = [] | |
if len(map_strings) > 5: | |
map_strings = map_strings[0:5] | |
LOG.warning("Too many id maps, only included first five.") | |
for map_string in map_strings: | |
try: | |
idmap = klass() | |
values = [int(i) for i in map_string.split(":")] | |
idmap.start = values[0] | |
idmap.target = values[1] | |
idmap.count = values[2] | |
idmaps.append(idmap) | |
except (ValueError, IndexError): | |
LOG.warning("Invalid value for id mapping %s", map_string) | |
return idmaps | |
def _get_guest_idmaps(self): | |
id_maps = [] | |
if CONF.libvirt.virt_type == 'lxc' and CONF.libvirt.uid_maps: | |
uid_maps = self._create_idmaps(vconfig.LibvirtConfigGuestUIDMap, | |
CONF.libvirt.uid_maps) | |
id_maps.extend(uid_maps) | |
if CONF.libvirt.virt_type == 'lxc' and CONF.libvirt.gid_maps: | |
gid_maps = self._create_idmaps(vconfig.LibvirtConfigGuestGIDMap, | |
CONF.libvirt.gid_maps) | |
id_maps.extend(gid_maps) | |
return id_maps | |
def _update_guest_cputune(self, guest, flavor, virt_type): | |
is_able = self._host.is_cpu_control_policy_capable() | |
cputuning = ['shares', 'period', 'quota'] | |
wants_cputune = any([k for k in cputuning | |
if "quota:cpu_" + k in flavor.extra_specs.keys()]) | |
if wants_cputune and not is_able: | |
raise exception.UnsupportedHostCPUControlPolicy() | |
if not is_able or virt_type not in ('lxc', 'kvm', 'qemu'): | |
return | |
if guest.cputune is None: | |
guest.cputune = vconfig.LibvirtConfigGuestCPUTune() | |
# Setting the default cpu.shares value to be a value | |
# dependent on the number of vcpus | |
guest.cputune.shares = 1024 * guest.vcpus | |
for name in cputuning: | |
key = "quota:cpu_" + name | |
if key in flavor.extra_specs: | |
setattr(guest.cputune, name, | |
int(flavor.extra_specs[key])) | |
def _get_cpu_numa_config_from_instance(self, instance_numa_topology, | |
wants_hugepages): | |
if instance_numa_topology: | |
guest_cpu_numa = vconfig.LibvirtConfigGuestCPUNUMA() | |
for instance_cell in instance_numa_topology.cells: | |
guest_cell = vconfig.LibvirtConfigGuestCPUNUMACell() | |
guest_cell.id = instance_cell.id | |
guest_cell.cpus = instance_cell.cpuset | |
guest_cell.memory = instance_cell.memory * units.Ki | |
# The vhost-user network backend requires file backed | |
# guest memory (ie huge pages) to be marked as shared | |
# access, not private, so an external process can read | |
# and write the pages. | |
# | |
# You can't change the shared vs private flag for an | |
# already running guest, and since we can't predict what | |
# types of NIC may be hotplugged, we have no choice but | |
# to unconditionally turn on the shared flag. This has | |
# no real negative functional effect on the guest, so | |
# is a reasonable approach to take | |
if wants_hugepages: | |
guest_cell.memAccess = "shared" | |
guest_cpu_numa.cells.append(guest_cell) | |
return guest_cpu_numa | |
def _has_cpu_policy_support(self): | |
for ver in BAD_LIBVIRT_CPU_POLICY_VERSIONS: | |
if self._host.has_version(ver): | |
ver_ = self._version_to_string(ver) | |
raise exception.CPUPinningNotSupported(reason=_( | |
'Invalid libvirt version %(version)s') % {'version': ver_}) | |
return True | |
def _wants_hugepages(self, host_topology, instance_topology): | |
"""Determine if the guest / host topology implies the | |
use of huge pages for guest RAM backing | |
""" | |
if host_topology is None or instance_topology is None: | |
return False | |
avail_pagesize = [page.size_kb | |
for page in host_topology.cells[0].mempages] | |
avail_pagesize.sort() | |
# Remove smallest page size as that's not classed as a largepage | |
avail_pagesize = avail_pagesize[1:] | |
# See if we have page size set | |
for cell in instance_topology.cells: | |
if (cell.pagesize is not None and | |
cell.pagesize in avail_pagesize): | |
return True | |
return False | |
def _get_guest_numa_config(self, instance_numa_topology, flavor, | |
allowed_cpus=None, image_meta=None): | |
"""Returns the config objects for the guest NUMA specs. | |
Determines the CPUs that the guest can be pinned to if the guest | |
specifies a cell topology and the host supports it. Constructs the | |
libvirt XML config object representing the NUMA topology selected | |
for the guest. Returns a tuple of: | |
(cpu_set, guest_cpu_tune, guest_cpu_numa, guest_numa_tune) | |
With the following caveats: | |
a) If there is no specified guest NUMA topology, then | |
all tuple elements except cpu_set shall be None. cpu_set | |
will be populated with the chosen CPUs that the guest | |
allowed CPUs fit within, which could be the supplied | |
allowed_cpus value if the host doesn't support NUMA | |
topologies. | |
b) If there is a specified guest NUMA topology, then | |
cpu_set will be None and guest_cpu_numa will be the | |
LibvirtConfigGuestCPUNUMA object representing the guest's | |
NUMA topology. If the host supports NUMA, then guest_cpu_tune | |
will contain a LibvirtConfigGuestCPUTune object representing | |
the optimized chosen cells that match the host capabilities | |
with the instance's requested topology. If the host does | |
not support NUMA, then guest_cpu_tune and guest_numa_tune | |
will be None. | |
""" | |
if (not self._has_numa_support() and | |
instance_numa_topology is not None): | |
# We should not get here, since we should have avoided | |
# reporting NUMA topology from _get_host_numa_topology | |
# in the first place. Just in case of a scheduler | |
# mess up though, raise an exception | |
raise exception.NUMATopologyUnsupported() | |
topology = self._get_host_numa_topology() | |
# We have instance NUMA so translate it to the config class | |
guest_cpu_numa_config = self._get_cpu_numa_config_from_instance( | |
instance_numa_topology, | |
self._wants_hugepages(topology, instance_numa_topology)) | |
if not guest_cpu_numa_config: | |
# No NUMA topology defined for instance - let the host kernel deal | |
# with the NUMA effects. | |
# TODO(ndipanov): Attempt to spread the instance | |
# across NUMA nodes and expose the topology to the | |
# instance as an optimisation | |
return GuestNumaConfig(allowed_cpus, None, None, None) | |
else: | |
if topology: | |
# Now get the CpuTune configuration from the numa_topology | |
guest_cpu_tune = vconfig.LibvirtConfigGuestCPUTune() | |
guest_numa_tune = vconfig.LibvirtConfigGuestNUMATune() | |
emupcpus = [] | |
numa_mem = vconfig.LibvirtConfigGuestNUMATuneMemory() | |
numa_memnodes = [vconfig.LibvirtConfigGuestNUMATuneMemNode() | |
for _ in guest_cpu_numa_config.cells] | |
emulator_threads_isolated = ( | |
instance_numa_topology.emulator_threads_isolated) | |
vcpus_rt = set([]) | |
wants_realtime = hardware.is_realtime_enabled(flavor) | |
if wants_realtime: | |
if not self._host.has_min_version( | |
MIN_LIBVIRT_REALTIME_VERSION): | |
raise exception.RealtimePolicyNotSupported() | |
# Prepare realtime config for libvirt | |
vcpus_rt = hardware.vcpus_realtime_topology( | |
flavor, image_meta) | |
vcpusched = vconfig.LibvirtConfigGuestCPUTuneVCPUSched() | |
vcpusched.vcpus = vcpus_rt | |
vcpusched.scheduler = "fifo" | |
vcpusched.priority = ( | |
CONF.libvirt.realtime_scheduler_priority) | |
guest_cpu_tune.vcpusched.append(vcpusched) | |
# TODO(sahid): Defining domain topology should be | |
# refactored. | |
for host_cell in topology.cells: | |
for guest_node_id, guest_config_cell in enumerate( | |
guest_cpu_numa_config.cells): | |
if guest_config_cell.id == host_cell.id: | |
node = numa_memnodes[guest_node_id] | |
node.cellid = guest_node_id | |
node.nodeset = [host_cell.id] | |
node.mode = "strict" | |
numa_mem.nodeset.append(host_cell.id) | |
object_numa_cell = ( | |
instance_numa_topology.cells[guest_node_id] | |
) | |
for cpu in guest_config_cell.cpus: | |
pin_cpuset = ( | |
vconfig.LibvirtConfigGuestCPUTuneVCPUPin()) | |
pin_cpuset.id = cpu | |
# If there is pinning information in the cell | |
# we pin to individual CPUs, otherwise we float | |
# over the whole host NUMA node | |
if (object_numa_cell.cpu_pinning and | |
self._has_cpu_policy_support()): | |
pcpu = object_numa_cell.cpu_pinning[cpu] | |
pin_cpuset.cpuset = set([pcpu]) | |
else: | |
pin_cpuset.cpuset = host_cell.cpuset | |
if emulator_threads_isolated: | |
emupcpus.extend( | |
object_numa_cell.cpuset_reserved) | |
elif not wants_realtime or cpu not in vcpus_rt: | |
# - If realtime IS NOT enabled, the | |
# emulator threads are allowed to float | |
# across all the pCPUs associated with | |
# the guest vCPUs ("not wants_realtime" | |
# is true, so we add all pcpus) | |
# - If realtime IS enabled, then at least | |
# 1 vCPU is required to be set aside for | |
# non-realtime usage. The emulator | |
# threads are allowed to float acros the | |
# pCPUs that are associated with the | |
# non-realtime VCPUs (the "cpu not in | |
# vcpu_rt" check deals with this | |
# filtering) | |
emupcpus.extend(pin_cpuset.cpuset) | |
guest_cpu_tune.vcpupin.append(pin_cpuset) | |
# TODO(berrange) When the guest has >1 NUMA node, it will | |
# span multiple host NUMA nodes. By pinning emulator threads | |
# to the union of all nodes, we guarantee there will be | |
# cross-node memory access by the emulator threads when | |
# responding to guest I/O operations. The only way to avoid | |
# this would be to pin emulator threads to a single node and | |
# tell the guest OS to only do I/O from one of its virtual | |
# NUMA nodes. This is not even remotely practical. | |
# | |
# The long term solution is to make use of a new QEMU feature | |
# called "I/O Threads" which will let us configure an explicit | |
# I/O thread for each guest vCPU or guest NUMA node. It is | |
# still TBD how to make use of this feature though, especially | |
# how to associate IO threads with guest devices to eliminate | |
# cross NUMA node traffic. This is an area of investigation | |
# for QEMU community devs. | |
emulatorpin = vconfig.LibvirtConfigGuestCPUTuneEmulatorPin() | |
emulatorpin.cpuset = set(emupcpus) | |
guest_cpu_tune.emulatorpin = emulatorpin | |
# Sort the vcpupin list per vCPU id for human-friendlier XML | |
guest_cpu_tune.vcpupin.sort(key=operator.attrgetter("id")) | |
guest_numa_tune.memory = numa_mem | |
guest_numa_tune.memnodes = numa_memnodes | |
# normalize cell.id | |
for i, (cell, memnode) in enumerate( | |
zip(guest_cpu_numa_config.cells, | |
guest_numa_tune.memnodes)): | |
cell.id = i | |
memnode.cellid = i | |
return GuestNumaConfig(None, guest_cpu_tune, | |
guest_cpu_numa_config, | |
guest_numa_tune) | |
else: | |
return GuestNumaConfig(allowed_cpus, None, | |
guest_cpu_numa_config, None) | |
def _get_guest_os_type(self, virt_type): | |
"""Returns the guest OS type based on virt type.""" | |
if virt_type == "lxc": | |
ret = fields.VMMode.EXE | |
elif virt_type == "uml": | |
ret = fields.VMMode.UML | |
elif virt_type == "xen": | |
ret = fields.VMMode.XEN | |
else: | |
ret = fields.VMMode.HVM | |
return ret | |
def _set_guest_for_rescue(self, rescue, guest, inst_path, virt_type, | |
root_device_name): | |
if rescue.get('kernel_id'): | |
guest.os_kernel = os.path.join(inst_path, "kernel.rescue") | |
guest.os_cmdline = ("root=%s %s" % (root_device_name, CONSOLE)) | |
if virt_type == "qemu": | |
guest.os_cmdline += " no_timer_check" | |
if rescue.get('ramdisk_id'): | |
guest.os_initrd = os.path.join(inst_path, "ramdisk.rescue") | |
def _set_guest_for_inst_kernel(self, instance, guest, inst_path, virt_type, | |
root_device_name, image_meta): | |
guest.os_kernel = os.path.join(inst_path, "kernel") | |
guest.os_cmdline = ("root=%s %s" % (root_device_name, CONSOLE)) | |
if virt_type == "qemu": | |
guest.os_cmdline += " no_timer_check" | |
if instance.ramdisk_id: | |
guest.os_initrd = os.path.join(inst_path, "ramdisk") | |
# we only support os_command_line with images with an explicit | |
# kernel set and don't want to break nova if there's an | |
# os_command_line property without a specified kernel_id param | |
if image_meta.properties.get("os_command_line"): | |
guest.os_cmdline = image_meta.properties.os_command_line | |
def _set_clock(self, guest, os_type, image_meta, virt_type): | |
# NOTE(mikal): Microsoft Windows expects the clock to be in | |
# "localtime". If the clock is set to UTC, then you can use a | |
# registry key to let windows know, but Microsoft says this is | |
# buggy in http://support.microsoft.com/kb/2687252 | |
clk = vconfig.LibvirtConfigGuestClock() | |
if os_type == 'windows': | |
LOG.info('Configuring timezone for windows instance to localtime') | |
clk.offset = 'localtime' | |
else: | |
clk.offset = 'utc' | |
guest.set_clock(clk) | |
if virt_type == "kvm": | |
self._set_kvm_timers(clk, os_type, image_meta) | |
def _set_kvm_timers(self, clk, os_type, image_meta): | |
# TODO(berrange) One day this should be per-guest | |
# OS type configurable | |
tmpit = vconfig.LibvirtConfigGuestTimer() | |
tmpit.name = "pit" | |
tmpit.tickpolicy = "delay" | |
tmrtc = vconfig.LibvirtConfigGuestTimer() | |
tmrtc.name = "rtc" | |
tmrtc.tickpolicy = "catchup" | |
clk.add_timer(tmpit) | |
clk.add_timer(tmrtc) | |
guestarch = libvirt_utils.get_arch(image_meta) | |
if guestarch in (fields.Architecture.I686, | |
fields.Architecture.X86_64): | |
# NOTE(rfolco): HPET is a hardware timer for x86 arch. | |
# qemu -no-hpet is not supported on non-x86 targets. | |
tmhpet = vconfig.LibvirtConfigGuestTimer() | |
tmhpet.name = "hpet" | |
tmhpet.present = False | |
clk.add_timer(tmhpet) | |
# Provide Windows guests with the paravirtualized hyperv timer source. | |
# This is the windows equiv of kvm-clock, allowing Windows | |
# guests to accurately keep time. | |
if os_type == 'windows': | |
tmhyperv = vconfig.LibvirtConfigGuestTimer() | |
tmhyperv.name = "hypervclock" | |
tmhyperv.present = True | |
clk.add_timer(tmhyperv) | |
def _set_features(self, guest, os_type, caps, virt_type, image_meta): | |
if virt_type == "xen": | |
# PAE only makes sense in X86 | |
if caps.host.cpu.arch in (fields.Architecture.I686, | |
fields.Architecture.X86_64): | |
guest.features.append(vconfig.LibvirtConfigGuestFeaturePAE()) | |
if (virt_type not in ("lxc", "uml", "parallels", "xen") or | |
(virt_type == "xen" and guest.os_type == fields.VMMode.HVM)): | |
guest.features.append(vconfig.LibvirtConfigGuestFeatureACPI()) | |
guest.features.append(vconfig.LibvirtConfigGuestFeatureAPIC()) | |
if (virt_type in ("qemu", "kvm") and | |
os_type == 'windows'): | |
hv = vconfig.LibvirtConfigGuestFeatureHyperV() | |
hv.relaxed = True | |
hv.spinlocks = True | |
# Increase spinlock retries - value recommended by | |
# KVM maintainers who certify Windows guests | |
# with Microsoft | |
hv.spinlock_retries = 8191 | |
hv.vapic = True | |
guest.features.append(hv) | |
if (virt_type in ("qemu", "kvm") and | |
image_meta.properties.get('img_hide_hypervisor_id')): | |
guest.features.append(vconfig.LibvirtConfigGuestFeatureKvmHidden()) | |
def _check_number_of_serial_console(self, num_ports): | |
virt_type = CONF.libvirt.virt_type | |
if (virt_type in ("kvm", "qemu") and | |
num_ports > ALLOWED_QEMU_SERIAL_PORTS): | |
raise exception.SerialPortNumberLimitExceeded( | |
allowed=ALLOWED_QEMU_SERIAL_PORTS, virt_type=virt_type) | |
def _add_video_driver(self, guest, image_meta, flavor): | |
VALID_VIDEO_DEVICES = ("vga", "cirrus", "vmvga", | |
"xen", "qxl", "virtio") | |
video = vconfig.LibvirtConfigGuestVideo() | |
# NOTE(ldbragst): The following logic sets the video.type | |
# depending on supported defaults given the architecture, | |
# virtualization type, and features. The video.type attribute can | |
# be overridden by the user with image_meta.properties, which | |
# is carried out in the next if statement below this one. | |
guestarch = libvirt_utils.get_arch(image_meta) | |
if guest.os_type == fields.VMMode.XEN: | |
video.type = 'xen' | |
elif CONF.libvirt.virt_type == 'parallels': | |
video.type = 'vga' | |
elif guestarch in (fields.Architecture.PPC, | |
fields.Architecture.PPC64, | |
fields.Architecture.PPC64LE): | |
# NOTE(ldbragst): PowerKVM doesn't support 'cirrus' be default | |
# so use 'vga' instead when running on Power hardware. | |
video.type = 'vga' | |
elif guestarch in (fields.Architecture.AARCH64): | |
# NOTE(kevinz): Only virtio device type is supported by AARCH64 | |
# so use 'virtio' instead when running on AArch64 hardware. | |
video.type = 'virtio' | |
elif CONF.spice.enabled: | |
video.type = 'qxl' | |
if image_meta.properties.get('hw_video_model'): | |
video.type = image_meta.properties.hw_video_model | |
if (video.type not in VALID_VIDEO_DEVICES): | |
raise exception.InvalidVideoMode(model=video.type) | |
# Set video memory, only if the flavor's limit is set | |
video_ram = image_meta.properties.get('hw_video_ram', 0) | |
max_vram = int(flavor.extra_specs.get('hw_video:ram_max_mb', 0)) | |
if video_ram > max_vram: | |
raise exception.RequestedVRamTooHigh(req_vram=video_ram, | |
max_vram=max_vram) | |
if max_vram and video_ram: | |
video.vram = video_ram * units.Mi / units.Ki | |
guest.add_device(video) | |
def _add_qga_device(self, guest, instance): | |
qga = vconfig.LibvirtConfigGuestChannel() | |
qga.type = "unix" | |
qga.target_name = "org.qemu.guest_agent.0" | |
qga.source_path = ("/var/lib/libvirt/qemu/%s.%s.sock" % | |
("org.qemu.guest_agent.0", instance.name)) | |
guest.add_device(qga) | |
def _add_rng_device(self, guest, flavor): | |
rng_device = vconfig.LibvirtConfigGuestRng() | |
rate_bytes = flavor.extra_specs.get('hw_rng:rate_bytes', 0) | |
period = flavor.extra_specs.get('hw_rng:rate_period', 0) | |
if rate_bytes: | |
rng_device.rate_bytes = int(rate_bytes) | |
rng_device.rate_period = int(period) | |
rng_path = CONF.libvirt.rng_dev_path | |
if (rng_path and not os.path.exists(rng_path)): | |
raise exception.RngDeviceNotExist(path=rng_path) | |
rng_device.backend = rng_path | |
guest.add_device(rng_device) | |
def _set_qemu_guest_agent(self, guest, flavor, instance, image_meta): | |
# Enable qga only if the 'hw_qemu_guest_agent' is equal to yes | |
if image_meta.properties.get('hw_qemu_guest_agent', False): | |
LOG.debug("Qemu guest agent is enabled through image " | |
"metadata", instance=instance) | |
self._add_qga_device(guest, instance) | |
rng_is_virtio = image_meta.properties.get('hw_rng_model') == 'virtio' | |
rng_allowed_str = flavor.extra_specs.get('hw_rng:allowed', '') | |
rng_allowed = strutils.bool_from_string(rng_allowed_str) | |
if rng_is_virtio and rng_allowed: | |
self._add_rng_device(guest, flavor) | |
def _get_guest_memory_backing_config( | |
self, inst_topology, numatune, flavor): | |
wantsmempages = False | |
if inst_topology: | |
for cell in inst_topology.cells: | |
if cell.pagesize: | |
wantsmempages = True | |
break | |
wantsrealtime = hardware.is_realtime_enabled(flavor) | |
membacking = None | |
if wantsmempages: | |
pages = self._get_memory_backing_hugepages_support( | |
inst_topology, numatune) | |
if pages: | |
membacking = vconfig.LibvirtConfigGuestMemoryBacking() | |
membacking.hugepages = pages | |
if wantsrealtime: | |
if not membacking: | |
membacking = vconfig.LibvirtConfigGuestMemoryBacking() | |
membacking.locked = True | |
membacking.sharedpages = False | |
return membacking | |
def _get_memory_backing_hugepages_support(self, inst_topology, numatune): | |
if not self._has_numa_support(): | |
# We should not get here, since we should have avoided | |
# reporting NUMA topology from _get_host_numa_topology | |
# in the first place. Just in case of a scheduler | |
# mess up though, raise an exception | |
raise exception.MemoryPagesUnsupported() | |
host_topology = self._get_host_numa_topology() | |
if host_topology is None: | |
# As above, we should not get here but just in case... | |
raise exception.MemoryPagesUnsupported() | |
# Currently libvirt does not support the smallest | |
# pagesize set as a backend memory. | |
# https://bugzilla.redhat.com/show_bug.cgi?id=1173507 | |
avail_pagesize = [page.size_kb | |
for page in host_topology.cells[0].mempages] | |
avail_pagesize.sort() | |
smallest = avail_pagesize[0] | |
pages = [] | |
for guest_cellid, inst_cell in enumerate(inst_topology.cells): | |
if inst_cell.pagesize and inst_cell.pagesize > smallest: | |
for memnode in numatune.memnodes: | |
if guest_cellid == memnode.cellid: | |
page = ( | |
vconfig.LibvirtConfigGuestMemoryBackingPage()) | |
page.nodeset = [guest_cellid] | |
page.size_kb = inst_cell.pagesize | |
pages.append(page) | |
break # Quit early... | |
return pages | |
def _get_flavor(self, ctxt, instance, flavor): | |
if flavor is not None: | |
return flavor | |
return instance.flavor | |
def _has_uefi_support(self): | |
# This means that the host can support uefi booting for guests | |
supported_archs = [fields.Architecture.X86_64, | |
fields.Architecture.AARCH64] | |
caps = self._host.get_capabilities() | |
return ((caps.host.cpu.arch in supported_archs) and | |
os.path.exists(DEFAULT_UEFI_LOADER_PATH[caps.host.cpu.arch])) | |
def _get_supported_perf_events(self): | |
if (len(CONF.libvirt.enabled_perf_events) == 0 or | |
not self._host.has_min_version(MIN_LIBVIRT_PERF_VERSION)): | |
return [] | |
supported_events = [] | |
host_cpu_info = self._get_cpu_info() | |
for event in CONF.libvirt.enabled_perf_events: | |
if self._supported_perf_event(event, host_cpu_info['features']): | |
supported_events.append(event) | |
return supported_events | |
def _supported_perf_event(self, event, cpu_features): | |
libvirt_perf_event_name = LIBVIRT_PERF_EVENT_PREFIX + event.upper() | |
if not hasattr(libvirt, libvirt_perf_event_name): | |
LOG.warning("Libvirt doesn't support event type %s.", event) | |
return False | |
if (event in PERF_EVENTS_CPU_FLAG_MAPPING | |
and PERF_EVENTS_CPU_FLAG_MAPPING[event] not in cpu_features): | |
LOG.warning("Host does not support event type %s.", event) | |
return False | |
return True | |
def _configure_guest_by_virt_type(self, guest, virt_type, caps, instance, | |
image_meta, flavor, root_device_name): | |
if virt_type == "xen": | |
if guest.os_type == fields.VMMode.HVM: | |
guest.os_loader = CONF.libvirt.xen_hvmloader_path | |
else: | |
guest.os_cmdline = CONSOLE | |
elif virt_type in ("kvm", "qemu"): | |
if caps.host.cpu.arch in (fields.Architecture.I686, | |
fields.Architecture.X86_64): | |
guest.sysinfo = self._get_guest_config_sysinfo(instance) | |
guest.os_smbios = vconfig.LibvirtConfigGuestSMBIOS() | |
hw_firmware_type = image_meta.properties.get('hw_firmware_type') | |
if caps.host.cpu.arch == fields.Architecture.AARCH64: | |
if not hw_firmware_type: | |
hw_firmware_type = fields.FirmwareType.UEFI | |
if hw_firmware_type == fields.FirmwareType.UEFI: | |
if self._has_uefi_support(): | |
global uefi_logged | |
if not uefi_logged: | |
LOG.warning("uefi support is without some kind of " | |
"functional testing and therefore " | |
"considered experimental.") | |
uefi_logged = True | |
guest.os_loader = DEFAULT_UEFI_LOADER_PATH[ | |
caps.host.cpu.arch] | |
guest.os_loader_type = "pflash" | |
else: | |
raise exception.UEFINotSupported() | |
guest.os_mach_type = self._get_machine_type(image_meta, caps) | |
if image_meta.properties.get('hw_boot_menu') is None: | |
guest.os_bootmenu = strutils.bool_from_string( | |
flavor.extra_specs.get('hw:boot_menu', 'no')) | |
else: | |
guest.os_bootmenu = image_meta.properties.hw_boot_menu | |
elif virt_type == "lxc": | |
guest.os_init_path = "/sbin/init" | |
guest.os_cmdline = CONSOLE | |
elif virt_type == "uml": | |
guest.os_kernel = "/usr/bin/linux" | |
guest.os_root = root_device_name | |
elif virt_type == "parallels": | |
if guest.os_type == fields.VMMode.EXE: | |
guest.os_init_path = "/sbin/init" | |
def _conf_non_lxc_uml(self, virt_type, guest, root_device_name, rescue, | |
instance, inst_path, image_meta, disk_info): | |
if rescue: | |
self._set_guest_for_rescue(rescue, guest, inst_path, virt_type, | |
root_device_name) | |
elif instance.kernel_id: | |
self._set_guest_for_inst_kernel(instance, guest, inst_path, | |
virt_type, root_device_name, | |
image_meta) | |
else: | |
guest.os_boot_dev = blockinfo.get_boot_order(disk_info) | |
def _create_consoles(self, virt_type, guest_cfg, instance, flavor, | |
image_meta): | |
# NOTE(markus_z): Beware! Below are so many conditionals that it is | |
# easy to lose track. Use this chart to figure out your case: | |
# | |
# case | is serial | has | is qemu | resulting | |
# | enabled? | virtlogd? | or kvm? | devices | |
# -------------------------------------------------- | |
# 1 | no | no | no | pty* | |
# 2 | no | no | yes | file + pty | |
# 3 | no | yes | no | see case 1 | |
# 4 | no | yes | yes | pty with logd | |
# 5 | yes | no | no | see case 1 | |
# 6 | yes | no | yes | tcp + pty | |
# 7 | yes | yes | no | see case 1 | |
# 8 | yes | yes | yes | tcp with logd | |
# * exception: virt_type "parallels" doesn't create a device | |
if virt_type == 'parallels': | |
pass | |
elif virt_type not in ("qemu", "kvm"): | |
log_path = self._get_console_log_path(instance) | |
self._create_pty_device(guest_cfg, | |
vconfig.LibvirtConfigGuestConsole, | |
log_path=log_path) | |
elif (virt_type in ("qemu", "kvm") and | |
self._is_s390x_guest(image_meta)): | |
self._create_consoles_s390x(guest_cfg, instance, | |
flavor, image_meta) | |
elif virt_type in ("qemu", "kvm"): | |
self._create_consoles_qemu_kvm(guest_cfg, instance, | |
flavor, image_meta) | |
def _is_s390x_guest(self, image_meta): | |
s390x_archs = (fields.Architecture.S390, fields.Architecture.S390X) | |
return libvirt_utils.get_arch(image_meta) in s390x_archs | |
def _create_consoles_qemu_kvm(self, guest_cfg, instance, flavor, | |
image_meta): | |
char_dev_cls = vconfig.LibvirtConfigGuestSerial | |
log_path = self._get_console_log_path(instance) | |
if CONF.serial_console.enabled: | |
if not self._serial_ports_already_defined(instance): | |
num_ports = hardware.get_number_of_serial_ports(flavor, | |
image_meta) | |
self._check_number_of_serial_console(num_ports) | |
self._create_serial_consoles(guest_cfg, num_ports, | |
char_dev_cls, log_path) | |
else: | |
self._create_file_device(guest_cfg, instance, char_dev_cls) | |
self._create_pty_device(guest_cfg, char_dev_cls, log_path=log_path) | |
def _create_consoles_s390x(self, guest_cfg, instance, flavor, image_meta): | |
char_dev_cls = vconfig.LibvirtConfigGuestConsole | |
log_path = self._get_console_log_path(instance) | |
if CONF.serial_console.enabled: | |
if not self._serial_ports_already_defined(instance): | |
num_ports = hardware.get_number_of_serial_ports(flavor, | |
image_meta) | |
self._create_serial_consoles(guest_cfg, num_ports, | |
char_dev_cls, log_path) | |
else: | |
self._create_file_device(guest_cfg, instance, char_dev_cls, | |
"sclplm") | |
self._create_pty_device(guest_cfg, char_dev_cls, "sclp", log_path) | |
def _create_pty_device(self, guest_cfg, char_dev_cls, target_type=None, | |
log_path=None): | |
def _create_base_dev(): | |
consolepty = char_dev_cls() | |
consolepty.target_type = target_type | |
consolepty.type = "pty" | |
return consolepty | |
def _create_logd_dev(): | |
consolepty = _create_base_dev() | |
log = vconfig.LibvirtConfigGuestCharDeviceLog() | |
log.file = log_path | |
consolepty.log = log | |
return consolepty | |
if CONF.serial_console.enabled: | |
if self._is_virtlogd_available(): | |
return | |
else: | |
# NOTE(markus_z): You may wonder why this is necessary and | |
# so do I. I'm certain that this is *not* needed in any | |
# real use case. It is, however, useful if you want to | |
# pypass the Nova API and use "virsh console <guest>" on | |
# an hypervisor, as this CLI command doesn't work with TCP | |
# devices (like the serial console is). | |
# https://bugzilla.redhat.com/show_bug.cgi?id=781467 | |
# Pypassing the Nova API however is a thing we don't want. | |
# Future changes should remove this and fix the unit tests | |
# which ask for the existence. | |
guest_cfg.add_device(_create_base_dev()) | |
else: | |
if self._is_virtlogd_available(): | |
guest_cfg.add_device(_create_logd_dev()) | |
else: | |
guest_cfg.add_device(_create_base_dev()) | |
def _create_file_device(self, guest_cfg, instance, char_dev_cls, | |
target_type=None): | |
if self._is_virtlogd_available(): | |
return | |
consolelog = char_dev_cls() | |
consolelog.target_type = target_type | |
consolelog.type = "file" | |
consolelog.source_path = self._get_console_log_path(instance) | |
guest_cfg.add_device(consolelog) | |
def _serial_ports_already_defined(self, instance): | |
try: | |
guest = self._host.get_guest(instance) | |
if list(self._get_serial_ports_from_guest(guest)): | |
# Serial port are already configured for instance that | |
# means we are in a context of migration. | |
return True | |
except exception.InstanceNotFound: | |
LOG.debug( | |
"Instance does not exist yet on libvirt, we can " | |
"safely pass on looking for already defined serial " | |
"ports in its domain XML", instance=instance) | |
return False | |
def _create_serial_consoles(self, guest_cfg, num_ports, char_dev_cls, | |
log_path): | |
for port in six.moves.range(num_ports): | |
console = char_dev_cls() | |
console.port = port | |
console.type = "tcp" | |
console.listen_host = CONF.serial_console.proxyclient_address | |
listen_port = serial_console.acquire_port(console.listen_host) | |
console.listen_port = listen_port | |
# NOTE: only the first serial console gets the boot messages, | |
# that's why we attach the logd subdevice only to that. | |
if port == 0 and self._is_virtlogd_available(): | |
log = vconfig.LibvirtConfigGuestCharDeviceLog() | |
log.file = log_path | |
console.log = log | |
guest_cfg.add_device(console) | |
def _cpu_config_to_vcpu_model(self, cpu_config, vcpu_model): | |
"""Update VirtCPUModel object according to libvirt CPU config. | |
:param:cpu_config: vconfig.LibvirtConfigGuestCPU presenting the | |
instance's virtual cpu configuration. | |
:param:vcpu_model: VirtCPUModel object. A new object will be created | |
if None. | |
:return: Updated VirtCPUModel object, or None if cpu_config is None | |
""" | |
if not cpu_config: | |
return | |
if not vcpu_model: | |
vcpu_model = objects.VirtCPUModel() | |
vcpu_model.arch = cpu_config.arch | |
vcpu_model.vendor = cpu_config.vendor | |
vcpu_model.model = cpu_config.model | |
vcpu_model.mode = cpu_config.mode | |
vcpu_model.match = cpu_config.match | |
if cpu_config.sockets: | |
vcpu_model.topology = objects.VirtCPUTopology( | |
sockets=cpu_config.sockets, | |
cores=cpu_config.cores, | |
threads=cpu_config.threads) | |
else: | |
vcpu_model.topology = None | |
features = [objects.VirtCPUFeature( | |
name=f.name, | |
policy=f.policy) for f in cpu_config.features] | |
vcpu_model.features = features | |
return vcpu_model | |
def _vcpu_model_to_cpu_config(self, vcpu_model): | |
"""Create libvirt CPU config according to VirtCPUModel object. | |
:param:vcpu_model: VirtCPUModel object. | |
:return: vconfig.LibvirtConfigGuestCPU. | |
""" | |
cpu_config = vconfig.LibvirtConfigGuestCPU() | |
cpu_config.arch = vcpu_model.arch | |
cpu_config.model = vcpu_model.model | |
cpu_config.mode = vcpu_model.mode | |
cpu_config.match = vcpu_model.match | |
cpu_config.vendor = vcpu_model.vendor | |
if vcpu_model.topology: | |
cpu_config.sockets = vcpu_model.topology.sockets | |
cpu_config.cores = vcpu_model.topology.cores | |
cpu_config.threads = vcpu_model.topology.threads | |
if vcpu_model.features: | |
for f in vcpu_model.features: | |
xf = vconfig.LibvirtConfigGuestCPUFeature() | |
xf.name = f.name | |
xf.policy = f.policy | |
cpu_config.features.add(xf) | |
return cpu_config | |
def _guest_add_usb_host_keyboard(self, guest): | |
"""Add USB Host controller and keyboard for graphical console use. | |
Add USB keyboard as PS/2 support may not be present on non-x86 | |
architectures. | |
""" | |
keyboard = vconfig.LibvirtConfigGuestInput() | |
keyboard.type = "keyboard" | |
keyboard.bus = "usb" | |
guest.add_device(keyboard) | |
usbhost = vconfig.LibvirtConfigGuestUSBHostController() | |
usbhost.index = 0 | |
guest.add_device(usbhost) | |
def _get_guest_config(self, instance, network_info, image_meta, | |
disk_info, rescue=None, block_device_info=None, | |
context=None, mdevs=None): | |
"""Get config data for parameters. | |
:param rescue: optional dictionary that should contain the key | |
'ramdisk_id' if a ramdisk is needed for the rescue image and | |
'kernel_id' if a kernel is needed for the rescue image. | |
:param mdevs: optional list of mediated devices to assign to the guest. | |
""" | |
flavor = instance.flavor | |
inst_path = libvirt_utils.get_instance_path(instance) | |
disk_mapping = disk_info['mapping'] | |
virt_type = CONF.libvirt.virt_type | |
guest = vconfig.LibvirtConfigGuest() | |
guest.virt_type = virt_type | |
guest.name = instance.name | |
guest.uuid = instance.uuid | |
# We are using default unit for memory: KiB | |
guest.memory = flavor.memory_mb * units.Ki | |
guest.vcpus = flavor.vcpus | |
allowed_cpus = hardware.get_vcpu_pin_set() | |
guest_numa_config = self._get_guest_numa_config( | |
instance.numa_topology, flavor, allowed_cpus, image_meta) | |
guest.cpuset = guest_numa_config.cpuset | |
guest.cputune = guest_numa_config.cputune | |
guest.numatune = guest_numa_config.numatune | |
guest.membacking = self._get_guest_memory_backing_config( | |
instance.numa_topology, | |
guest_numa_config.numatune, | |
flavor) | |
guest.metadata.append(self._get_guest_config_meta(instance)) | |
guest.idmaps = self._get_guest_idmaps() | |
for event in self._supported_perf_events: | |
guest.add_perf_event(event) | |
self._update_guest_cputune(guest, flavor, virt_type) | |
guest.cpu = self._get_guest_cpu_config( | |
flavor, image_meta, guest_numa_config.numaconfig, | |
instance.numa_topology) | |
# Notes(yjiang5): we always sync the instance's vcpu model with | |
# the corresponding config file. | |
instance.vcpu_model = self._cpu_config_to_vcpu_model( | |
guest.cpu, instance.vcpu_model) | |
if 'root' in disk_mapping: | |
root_device_name = block_device.prepend_dev( | |
disk_mapping['root']['dev']) | |
else: | |
root_device_name = None | |
if root_device_name: | |
# NOTE(yamahata): | |
# for nova.api.ec2.cloud.CloudController.get_metadata() | |
instance.root_device_name = root_device_name | |
guest.os_type = (fields.VMMode.get_from_instance(instance) or | |
self._get_guest_os_type(virt_type)) | |
caps = self._host.get_capabilities() | |
self._configure_guest_by_virt_type(guest, virt_type, caps, instance, | |
image_meta, flavor, | |
root_device_name) | |
if virt_type not in ('lxc', 'uml'): | |
self._conf_non_lxc_uml(virt_type, guest, root_device_name, rescue, | |
instance, inst_path, image_meta, disk_info) | |
self._set_features(guest, instance.os_type, caps, virt_type, | |
image_meta) | |
self._set_clock(guest, instance.os_type, image_meta, virt_type) | |
storage_configs = self._get_guest_storage_config(context, | |
instance, image_meta, disk_info, rescue, block_device_info, | |
flavor, guest.os_type) | |
for config in storage_configs: | |
guest.add_device(config) | |
for vif in network_info: | |
config = self.vif_driver.get_config( | |
instance, vif, image_meta, | |
flavor, virt_type, self._host) | |
guest.add_device(config) | |
self._create_consoles(virt_type, guest, instance, flavor, image_meta) | |
pointer = self._get_guest_pointer_model(guest.os_type, image_meta) | |
if pointer: | |
guest.add_device(pointer) | |
self._guest_add_spice_channel(guest) | |
if self._guest_add_video_device(guest): | |
self._add_video_driver(guest, image_meta, flavor) | |
# We want video == we want graphical console. Some architectures | |
# do not have input devices attached in default configuration. | |
# Let then add USB Host controller and USB keyboard. | |
# x86(-64) and ppc64 have usb host controller and keyboard | |
# s390x does not support USB | |
if caps.host.cpu.arch == fields.Architecture.AARCH64: | |
self._guest_add_usb_host_keyboard(guest) | |
# Qemu guest agent only support 'qemu' and 'kvm' hypervisor | |
if virt_type in ('qemu', 'kvm'): | |
self._set_qemu_guest_agent(guest, flavor, instance, image_meta) | |
self._guest_add_pci_devices(guest, instance) | |
self._guest_add_watchdog_action(guest, flavor, image_meta) | |
self._guest_add_memory_balloon(guest) | |
if mdevs: | |
self._guest_add_mdevs(guest, mdevs) | |
return guest | |
def _guest_add_mdevs(self, guest, chosen_mdevs): | |
for chosen_mdev in chosen_mdevs: | |
mdev = vconfig.LibvirtConfigGuestHostdevMDEV() | |
mdev.uuid = chosen_mdev | |
guest.add_device(mdev) | |
@staticmethod | |
def _guest_add_spice_channel(guest): | |
if (CONF.spice.enabled and CONF.spice.agent_enabled | |
and guest.virt_type not in ('lxc', 'uml', 'xen')): | |
channel = vconfig.LibvirtConfigGuestChannel() | |
channel.type = 'spicevmc' | |
channel.target_name = "com.redhat.spice.0" | |
guest.add_device(channel) | |
@staticmethod | |
def _guest_add_memory_balloon(guest): | |
virt_type = guest.virt_type | |
# Memory balloon device only support 'qemu/kvm' and 'xen' hypervisor | |
if (virt_type in ('xen', 'qemu', 'kvm') and | |
CONF.libvirt.mem_stats_period_seconds > 0): | |
balloon = vconfig.LibvirtConfigMemoryBalloon() | |
if virt_type in ('qemu', 'kvm'): | |
balloon.model = 'virtio' | |
else: | |
balloon.model = 'xen' | |
balloon.period = CONF.libvirt.mem_stats_period_seconds | |
guest.add_device(balloon) | |
@staticmethod | |
def _guest_add_watchdog_action(guest, flavor, image_meta): | |
# image meta takes precedence over flavor extra specs; disable the | |
# watchdog action by default | |
watchdog_action = (flavor.extra_specs.get('hw:watchdog_action') | |
or 'disabled') | |
watchdog_action = image_meta.properties.get('hw_watchdog_action', | |
watchdog_action) | |
# NB(sross): currently only actually supported by KVM/QEmu | |
if watchdog_action != 'disabled': | |
if watchdog_action in fields.WatchdogAction.ALL: | |
bark = vconfig.LibvirtConfigGuestWatchdog() | |
bark.action = watchdog_action | |
guest.add_device(bark) | |
else: | |
raise exception.InvalidWatchdogAction(action=watchdog_action) | |
def _guest_add_pci_devices(self, guest, instance): | |
virt_type = guest.virt_type | |
if virt_type in ('xen', 'qemu', 'kvm'): | |
# Get all generic PCI devices (non-SR-IOV). | |
for pci_dev in pci_manager.get_instance_pci_devs(instance): | |
guest.add_device(self._get_guest_pci_device(pci_dev)) | |
else: | |
# PCI devices is only supported for hypervisors | |
# 'xen', 'qemu' and 'kvm'. | |
if pci_manager.get_instance_pci_devs(instance, 'all'): | |
raise exception.PciDeviceUnsupportedHypervisor(type=virt_type) | |
@staticmethod | |
def _guest_add_video_device(guest): | |
# NB some versions of libvirt support both SPICE and VNC | |
# at the same time. We're not trying to second guess which | |
# those versions are. We'll just let libvirt report the | |
# errors appropriately if the user enables both. | |
add_video_driver = False | |
if CONF.vnc.enabled and guest.virt_type not in ('lxc', 'uml'): | |
graphics = vconfig.LibvirtConfigGuestGraphics() | |
graphics.type = "vnc" | |
if CONF.vnc.keymap: | |
# TODO(stephenfin): There are some issues here that may | |
# necessitate deprecating this option entirely in the future. | |
# Refer to bug #1682020 for more information. | |
graphics.keymap = CONF.vnc.keymap | |
graphics.listen = CONF.vnc.server_listen | |
guest.add_device(graphics) | |
add_video_driver = True | |
if CONF.spice.enabled and guest.virt_type not in ('lxc', 'uml', 'xen'): | |
graphics = vconfig.LibvirtConfigGuestGraphics() | |
graphics.type = "spice" | |
if CONF.spice.keymap: | |
# TODO(stephenfin): There are some issues here that may | |
# necessitate deprecating this option entirely in the future. | |
# Refer to bug #1682020 for more information. | |
graphics.keymap = CONF.spice.keymap | |
graphics.listen = CONF.spice.server_listen | |
guest.add_device(graphics) | |
add_video_driver = True | |
return add_video_driver | |
def _get_guest_pointer_model(self, os_type, image_meta): | |
pointer_model = image_meta.properties.get( | |
'hw_pointer_model', CONF.pointer_model) | |
if pointer_model is None and CONF.libvirt.use_usb_tablet: | |
# TODO(sahid): We set pointer_model to keep compatibility | |
# until the next release O*. It means operators can continue | |
# to use the deprecated option "use_usb_tablet" or set a | |
# specific device to use | |
pointer_model = "usbtablet" | |
LOG.warning('The option "use_usb_tablet" has been ' | |
'deprecated for Newton in favor of the more ' | |
'generic "pointer_model". Please update ' | |
'nova.conf to address this change.') | |
if pointer_model == "usbtablet": | |
# We want a tablet if VNC is enabled, or SPICE is enabled and | |
# the SPICE agent is disabled. If the SPICE agent is enabled | |
# it provides a paravirt mouse which drastically reduces | |
# overhead (by eliminating USB polling). | |
if CONF.vnc.enabled or ( | |
CONF.spice.enabled and not CONF.spice.agent_enabled): | |
return self._get_guest_usb_tablet(os_type) | |
else: | |
if CONF.pointer_model or CONF.libvirt.use_usb_tablet: | |
# For backward compatibility We don't want to break | |
# process of booting an instance if host is configured | |
# to use USB tablet without VNC or SPICE and SPICE | |
# agent disable. | |
LOG.warning('USB tablet requested for guests by host ' | |
'configuration. In order to accept this ' | |
'request VNC should be enabled or SPICE ' | |
'and SPICE agent disabled on host.') | |
else: | |
raise exception.UnsupportedPointerModelRequested( | |
model="usbtablet") | |
def _get_guest_usb_tablet(self, os_type): | |
tablet = None | |
if os_type == fields.VMMode.HVM: | |
tablet = vconfig.LibvirtConfigGuestInput() | |
tablet.type = "tablet" | |
tablet.bus = "usb" | |
else: | |
if CONF.pointer_model or CONF.libvirt.use_usb_tablet: | |
# For backward compatibility We don't want to break | |
# process of booting an instance if virtual machine mode | |
# is not configured as HVM. | |
LOG.warning('USB tablet requested for guests by host ' | |
'configuration. In order to accept this ' | |
'request the machine mode should be ' | |
'configured as HVM.') | |
else: | |
raise exception.UnsupportedPointerModelRequested( | |
model="usbtablet") | |
return tablet | |
def _get_guest_xml(self, context, instance, network_info, disk_info, | |
image_meta, rescue=None, | |
block_device_info=None, | |
mdevs=None): | |
# NOTE(danms): Stringifying a NetworkInfo will take a lock. Do | |
# this ahead of time so that we don't acquire it while also | |
# holding the logging lock. | |
network_info_str = str(network_info) | |
msg = ('Start _get_guest_xml ' | |
'network_info=%(network_info)s ' | |
'disk_info=%(disk_info)s ' | |
'image_meta=%(image_meta)s rescue=%(rescue)s ' | |
'block_device_info=%(block_device_info)s' % | |
{'network_info': network_info_str, 'disk_info': disk_info, | |
'image_meta': image_meta, 'rescue': rescue, | |
'block_device_info': block_device_info}) | |
# NOTE(mriedem): block_device_info can contain auth_password so we | |
# need to sanitize the password in the message. | |
LOG.debug(strutils.mask_password(msg), instance=instance) | |
conf = self._get_guest_config(instance, network_info, image_meta, | |
disk_info, rescue, block_device_info, | |
context, mdevs) | |
xml = conf.to_xml() | |
LOG.debug('End _get_guest_xml xml=%(xml)s', | |
{'xml': xml}, instance=instance) | |
return xml | |
def get_info(self, instance): | |
"""Retrieve information from libvirt for a specific instance. | |
If a libvirt error is encountered during lookup, we might raise a | |
NotFound exception or Error exception depending on how severe the | |
libvirt error is. | |
:param instance: nova.objects.instance.Instance object | |
:returns: An InstanceInfo object | |
""" | |
guest = self._host.get_guest(instance) | |
# Kind of ugly but we need to pass host to get_info as for a | |
# workaround, see libvirt/compat.py | |
return guest.get_info(self._host) | |
def _create_domain_setup_lxc(self, context, instance, image_meta, | |
block_device_info): | |
inst_path = libvirt_utils.get_instance_path(instance) | |
block_device_mapping = driver.block_device_info_get_mapping( | |
block_device_info) | |
root_disk = block_device.get_root_bdm(block_device_mapping) | |
if root_disk: | |
self._connect_volume(context, root_disk['connection_info'], | |
instance) | |
disk_path = root_disk['connection_info']['data']['device_path'] | |
# NOTE(apmelton) - Even though the instance is being booted from a | |
# cinder volume, it is still presented as a local block device. | |
# LocalBlockImage is used here to indicate that the instance's | |
# disk is backed by a local block device. | |
image_model = imgmodel.LocalBlockImage(disk_path) | |
else: | |
root_disk = self.image_backend.by_name(instance, 'disk') | |
image_model = root_disk.get_model(self._conn) | |
container_dir = os.path.join(inst_path, 'rootfs') | |
fileutils.ensure_tree(container_dir) | |
rootfs_dev = disk_api.setup_container(image_model, | |
container_dir=container_dir) | |
try: | |
# Save rootfs device to disconnect it when deleting the instance | |
if rootfs_dev: | |
instance.system_metadata['rootfs_device_name'] = rootfs_dev | |
if CONF.libvirt.uid_maps or CONF.libvirt.gid_maps: | |
id_maps = self._get_guest_idmaps() | |
libvirt_utils.chown_for_id_maps(container_dir, id_maps) | |
except Exception: | |
with excutils.save_and_reraise_exception(): | |
self._create_domain_cleanup_lxc(instance) | |
def _create_domain_cleanup_lxc(self, instance): | |
inst_path = libvirt_utils.get_instance_path(instance) | |
container_dir = os.path.join(inst_path, 'rootfs') | |
try: | |
state = self.get_info(instance).state | |
except exception.InstanceNotFound: | |
# The domain may not be present if the instance failed to start | |
state = None | |
if state == power_state.RUNNING: | |
# NOTE(uni): Now the container is running with its own private | |
# mount namespace and so there is no need to keep the container | |
# rootfs mounted in the host namespace | |
LOG.debug('Attempting to unmount container filesystem: %s', | |
container_dir, instance=instance) | |
disk_api.clean_lxc_namespace(container_dir=container_dir) | |
else: | |
disk_api.teardown_container(container_dir=container_dir) | |
@contextlib.contextmanager | |
def _lxc_disk_handler(self, context, instance, image_meta, | |
block_device_info): | |
"""Context manager to handle the pre and post instance boot, | |
LXC specific disk operations. | |
An image or a volume path will be prepared and setup to be | |
used by the container, prior to starting it. | |
The disk will be disconnected and unmounted if a container has | |
failed to start. | |
""" | |
if CONF.libvirt.virt_type != 'lxc': | |
yield | |
return | |
self._create_domain_setup_lxc(context, instance, image_meta, | |
block_device_info) | |
try: | |
yield | |
finally: | |
self._create_domain_cleanup_lxc(instance) | |
# TODO(sahid): Consider renaming this to _create_guest. | |
def _create_domain(self, xml=None, domain=None, | |
power_on=True, pause=False, post_xml_callback=None): | |
"""Create a domain. | |
Either domain or xml must be passed in. If both are passed, then | |
the domain definition is overwritten from the xml. | |
:returns guest.Guest: Guest just created | |
""" | |
if xml: | |
guest = libvirt_guest.Guest.create(xml, self._host) | |
if post_xml_callback is not None: | |
post_xml_callback() | |
else: | |
guest = libvirt_guest.Guest(domain) | |
if power_on or pause: | |
guest.launch(pause=pause) | |
if not utils.is_neutron(): | |
guest.enable_hairpin() | |
return guest | |
def _neutron_failed_callback(self, event_name, instance): | |
LOG.error('Neutron Reported failure on event ' | |
'%(event)s for instance %(uuid)s', | |
{'event': event_name, 'uuid': instance.uuid}, | |
instance=instance) | |
if CONF.vif_plugging_is_fatal: | |
raise exception.VirtualInterfaceCreateException() | |
def _get_neutron_events(self, network_info): | |
# NOTE(danms): We need to collect any VIFs that are currently | |
# down that we expect a down->up event for. Anything that is | |
# already up will not undergo that transition, and for | |
# anything that might be stale (cache-wise) assume it's | |
# already up so we don't block on it. | |
return [('network-vif-plugged', vif['id']) | |
for vif in network_info if vif.get('active', True) is False] | |
def _cleanup_failed_start(self, context, instance, network_info, | |
block_device_info, guest, destroy_disks): | |
try: | |
if guest and guest.is_active(): | |
guest.poweroff() | |
finally: | |
self.cleanup(context, instance, network_info=network_info, | |
block_device_info=block_device_info, | |
destroy_disks=destroy_disks) | |
def _create_domain_and_network(self, context, xml, instance, network_info, | |
block_device_info=None, power_on=True, | |
vifs_already_plugged=False, | |
post_xml_callback=None, | |
destroy_disks_on_failure=False): | |
"""Do required network setup and create domain.""" | |
timeout = CONF.vif_plugging_timeout | |
if (self._conn_supports_start_paused and | |
utils.is_neutron() and not | |
vifs_already_plugged and power_on and timeout): | |
events = self._get_neutron_events(network_info) | |
else: | |
events = [] | |
pause = bool(events) | |
guest = None | |
try: | |
with self.virtapi.wait_for_instance_event( | |
instance, events, deadline=timeout, | |
error_callback=self._neutron_failed_callback): | |
self.plug_vifs(instance, network_info) | |
self.firewall_driver.setup_basic_filtering(instance, | |
network_info) | |
self.firewall_driver.prepare_instance_filter(instance, | |
network_info) | |
with self._lxc_disk_handler(context, instance, | |
instance.image_meta, | |
block_device_info): | |
guest = self._create_domain( | |
xml, pause=pause, power_on=power_on, | |
post_xml_callback=post_xml_callback) | |
self.firewall_driver.apply_instance_filter(instance, | |
network_info) | |
except exception.VirtualInterfaceCreateException: | |
# Neutron reported failure and we didn't swallow it, so | |
# bail here | |
with excutils.save_and_reraise_exception(): | |
self._cleanup_failed_start(context, instance, network_info, | |
block_device_info, guest, | |
destroy_disks_on_failure) | |
except eventlet.timeout.Timeout: | |
# We never heard from Neutron | |
LOG.warning('Timeout waiting for %(events)s for ' | |
'instance with vm_state %(vm_state)s and ' | |
'task_state %(task_state)s.', | |
{'events': events, | |
'vm_state': instance.vm_state, | |
'task_state': instance.task_state}, | |
instance=instance) | |
if CONF.vif_plugging_is_fatal: | |
self._cleanup_failed_start(context, instance, network_info, | |
block_device_info, guest, | |
destroy_disks_on_failure) | |
raise exception.VirtualInterfaceCreateException() | |
except Exception: | |
# Any other error, be sure to clean up | |
LOG.error('Failed to start libvirt guest', instance=instance) | |
with excutils.save_and_reraise_exception(): | |
self._cleanup_failed_start(context, instance, network_info, | |
block_device_info, guest, | |
destroy_disks_on_failure) | |
# Resume only if domain has been paused | |
if pause: | |
guest.resume() | |
return guest | |
def _get_vcpu_total(self): | |
"""Get available vcpu number of physical computer. | |
:returns: the number of cpu core instances can be used. | |
""" | |
try: | |
total_pcpus = self._host.get_cpu_count() | |
except libvirt.libvirtError: | |
LOG.warning("Cannot get the number of cpu, because this " | |
"function is not implemented for this platform. ") | |
return 0 | |
if not CONF.vcpu_pin_set: | |
return total_pcpus | |
available_ids = hardware.get_vcpu_pin_set() | |
# We get the list of online CPUs on the host and see if the requested | |
# set falls under these. If not, we retain the old behavior. | |
online_pcpus = None | |
try: | |
online_pcpus = self._host.get_online_cpus() | |
except libvirt.libvirtError as ex: | |
error_code = ex.get_error_code() | |
err_msg = encodeutils.exception_to_unicode(ex) | |
LOG.warning( | |
"Couldn't retrieve the online CPUs due to a Libvirt " | |
"error: %(error)s with error code: %(error_code)s", | |
{'error': err_msg, 'error_code': error_code}) | |
if online_pcpus: | |
if not (available_ids <= online_pcpus): | |
msg = (_("Invalid vcpu_pin_set config, one or more of the " | |
"specified cpuset is not online. Online cpuset(s): " | |
"%(online)s, requested cpuset(s): %(req)s"), | |
{'online': sorted(online_pcpus), | |
'req': sorted(available_ids)}) | |
raise exception.Invalid(msg) | |
elif sorted(available_ids)[-1] >= total_pcpus: | |
raise exception.Invalid(_("Invalid vcpu_pin_set config, " | |
"out of hypervisor cpu range.")) | |
return len(available_ids) | |
@staticmethod | |
def _get_local_gb_info(): | |
"""Get local storage info of the compute node in GB. | |
:returns: A dict containing: | |
:total: How big the overall usable filesystem is (in gigabytes) | |
:free: How much space is free (in gigabytes) | |
:used: How much space is used (in gigabytes) | |
""" | |
if CONF.libvirt.images_type == 'lvm': | |
info = lvm.get_volume_group_info( | |
CONF.libvirt.images_volume_group) | |
elif CONF.libvirt.images_type == 'rbd': | |
info = LibvirtDriver._get_rbd_driver().get_pool_info() | |
else: | |
info = libvirt_utils.get_fs_info(CONF.instances_path) | |
for (k, v) in info.items(): | |
info[k] = v / units.Gi | |
return info | |
def _get_vcpu_used(self): | |
"""Get vcpu usage number of physical computer. | |
:returns: The total number of vcpu(s) that are currently being used. | |
""" | |
total = 0 | |
# Not all libvirt drivers will support the get_vcpus_info() | |
# | |
# For example, LXC does not have a concept of vCPUs, while | |
# QEMU (TCG) traditionally handles all vCPUs in a single | |
# thread. So both will report an exception when the vcpus() | |
# API call is made. In such a case we should report the | |
# guest as having 1 vCPU, since that lets us still do | |
# CPU over commit calculations that apply as the total | |
# guest count scales. | |
# | |
# It is also possible that we might see an exception if | |
# the guest is just in middle of shutting down. Technically | |
# we should report 0 for vCPU usage in this case, but we | |
# we can't reliably distinguish the vcpu not supported | |
# case from the just shutting down case. Thus we don't know | |
# whether to report 1 or 0 for vCPU count. | |
# | |
# Under-reporting vCPUs is bad because it could conceivably | |
# let the scheduler place too many guests on the host. Over- | |
# reporting vCPUs is not a problem as it'll auto-correct on | |
# the next refresh of usage data. | |
# | |
# Thus when getting an exception we always report 1 as the | |
# vCPU count, as the least worst value. | |
for guest in self._host.list_guests(): | |
try: | |
vcpus = guest.get_vcpus_info() | |
total += len(list(vcpus)) | |
except libvirt.libvirtError: | |
total += 1 | |
# NOTE(gtt116): give other tasks a chance. | |
greenthread.sleep(0) | |
return total | |
def _get_supported_vgpu_types(self): | |
if not CONF.devices.enabled_vgpu_types: | |
return [] | |
# TODO(sbauza): Move this check up to compute_manager.init_host | |
if len(CONF.devices.enabled_vgpu_types) > 1: | |
LOG.warning('libvirt only supports one GPU type per compute node,' | |
' only first type will be used.') | |
requested_types = CONF.devices.enabled_vgpu_types[:1] | |
return requested_types | |
def _get_vgpu_total(self): | |
"""Returns the number of total available vGPUs for any GPU type that is | |
enabled with the enabled_vgpu_types CONF option. | |
""" | |
requested_types = self._get_supported_vgpu_types() | |
# Bail out early if operator doesn't care about providing vGPUs | |
if not requested_types: | |
return 0 | |
# Filter how many available mdevs we can create for all the supported | |
# types. | |
mdev_capable_devices = self._get_mdev_capable_devices(requested_types) | |
vgpus = 0 | |
for dev in mdev_capable_devices: | |
for _type in dev['types']: | |
vgpus += dev['types'][_type]['availableInstances'] | |
# Count the already created (but possibly not assigned to a guest) | |
# mdevs for all the supported types | |
mediated_devices = self._get_mediated_devices(requested_types) | |
vgpus += len(mediated_devices) | |
return vgpus | |
def _get_instance_capabilities(self): | |
"""Get hypervisor instance capabilities | |
Returns a list of tuples that describe instances the | |
hypervisor is capable of hosting. Each tuple consists | |
of the triplet (arch, hypervisor_type, vm_mode). | |
:returns: List of tuples describing instance capabilities | |
""" | |
caps = self._host.get_capabilities() | |
instance_caps = list() | |
for g in caps.guests: | |
for dt in g.domtype: | |
instance_cap = ( | |
fields.Architecture.canonicalize(g.arch), | |
fields.HVType.canonicalize(dt), | |
fields.VMMode.canonicalize(g.ostype)) | |
instance_caps.append(instance_cap) | |
return instance_caps | |
def _get_cpu_info(self): | |
"""Get cpuinfo information. | |
Obtains cpu feature from virConnect.getCapabilities. | |
:return: see above description | |
""" | |
caps = self._host.get_capabilities() | |
cpu_info = dict() | |
cpu_info['arch'] = caps.host.cpu.arch | |
cpu_info['model'] = caps.host.cpu.model | |
cpu_info['vendor'] = caps.host.cpu.vendor | |
topology = dict() | |
topology['cells'] = len(getattr(caps.host.topology, 'cells', [1])) | |
topology['sockets'] = caps.host.cpu.sockets | |
topology['cores'] = caps.host.cpu.cores | |
topology['threads'] = caps.host.cpu.threads | |
cpu_info['topology'] = topology | |
features = set() | |
for f in caps.host.cpu.features: | |
features.add(f.name) | |
cpu_info['features'] = features | |
return cpu_info | |
def _get_pcinet_info(self, vf_address): | |
"""Returns a dict of NET device.""" | |
devname = pci_utils.get_net_name_by_vf_pci_address(vf_address) | |
if not devname: | |
return | |
virtdev = self._host.device_lookup_by_name(devname) | |
xmlstr = virtdev.XMLDesc(0) | |
cfgdev = vconfig.LibvirtConfigNodeDevice() | |
cfgdev.parse_str(xmlstr) | |
return {'name': cfgdev.name, | |
'capabilities': cfgdev.pci_capability.features} | |
def _get_pcidev_info(self, devname): | |
"""Returns a dict of PCI device.""" | |
def _get_device_type(cfgdev, pci_address): | |
"""Get a PCI device's device type. | |
An assignable PCI device can be a normal PCI device, | |
a SR-IOV Physical Function (PF), or a SR-IOV Virtual | |
Function (VF). Only normal PCI devices or SR-IOV VFs | |
are assignable, while SR-IOV PFs are always owned by | |
hypervisor. | |
""" | |
for fun_cap in cfgdev.pci_capability.fun_capability: | |
if fun_cap.type == 'virt_functions': | |
return { | |
'dev_type': fields.PciDeviceType.SRIOV_PF, | |
} | |
if (fun_cap.type == 'phys_function' and | |
len(fun_cap.device_addrs) != 0): | |
phys_address = "%04x:%02x:%02x.%01x" % ( | |
fun_cap.device_addrs[0][0], | |
fun_cap.device_addrs[0][1], | |
fun_cap.device_addrs[0][2], | |
fun_cap.device_addrs[0][3]) | |
return { | |
'dev_type': fields.PciDeviceType.SRIOV_VF, | |
'parent_addr': phys_address, | |
} | |
# Note(moshele): libvirt < 1.3 reported virt_functions capability | |
# only when VFs are enabled. The check below is a workaround | |
# to get the correct report regardless of whether or not any | |
# VFs are enabled for the device. | |
if not self._host.has_min_version( | |
MIN_LIBVIRT_PF_WITH_NO_VFS_CAP_VERSION): | |
is_physical_function = pci_utils.is_physical_function( | |
*pci_utils.get_pci_address_fields(pci_address)) | |
if is_physical_function: | |
return {'dev_type': fields.PciDeviceType.SRIOV_PF} | |
return {'dev_type': fields.PciDeviceType.STANDARD} | |
def _get_device_capabilities(device, address): | |
"""Get PCI VF device's additional capabilities. | |
If a PCI device is a virtual function, this function reads the PCI | |
parent's network capabilities (must be always a NIC device) and | |
appends this information to the device's dictionary. | |
""" | |
if device.get('dev_type') == fields.PciDeviceType.SRIOV_VF: | |
pcinet_info = self._get_pcinet_info(address) | |
if pcinet_info: | |
return {'capabilities': | |
{'network': pcinet_info.get('capabilities')}} | |
return {} | |
virtdev = self._host.device_lookup_by_name(devname) | |
xmlstr = virtdev.XMLDesc(0) | |
cfgdev = vconfig.LibvirtConfigNodeDevice() | |
cfgdev.parse_str(xmlstr) | |
address = "%04x:%02x:%02x.%1x" % ( | |
cfgdev.pci_capability.domain, | |
cfgdev.pci_capability.bus, | |
cfgdev.pci_capability.slot, | |
cfgdev.pci_capability.function) | |
device = { | |
"dev_id": cfgdev.name, | |
"address": address, | |
"product_id": "%04x" % cfgdev.pci_capability.product_id, | |
"vendor_id": "%04x" % cfgdev.pci_capability.vendor_id, | |
} | |
device["numa_node"] = cfgdev.pci_capability.numa_node | |
# requirement by DataBase Model | |
device['label'] = 'label_%(vendor_id)s_%(product_id)s' % device | |
device.update(_get_device_type(cfgdev, address)) | |
device.update(_get_device_capabilities(device, address)) | |
return device | |
def _get_pci_passthrough_devices(self): | |
"""Get host PCI devices information. | |
Obtains pci devices information from libvirt, and returns | |
as a JSON string. | |
Each device information is a dictionary, with mandatory keys | |
of 'address', 'vendor_id', 'product_id', 'dev_type', 'dev_id', | |
'label' and other optional device specific information. | |
Refer to the objects/pci_device.py for more idea of these keys. | |
:returns: a JSON string containing a list of the assignable PCI | |
devices information | |
""" | |
# Bail early if we know we can't support `listDevices` to avoid | |
# repeated warnings within a periodic task | |
if not getattr(self, '_list_devices_supported', True): | |
return jsonutils.dumps([]) | |
try: | |
dev_names = self._host.list_pci_devices() or [] | |
except libvirt.libvirtError as ex: | |
error_code = ex.get_error_code() | |
if error_code == libvirt.VIR_ERR_NO_SUPPORT: | |
self._list_devices_supported = False | |
LOG.warning("URI %(uri)s does not support " | |
"listDevices: %(error)s", | |
{'uri': self._uri(), | |
'error': encodeutils.exception_to_unicode(ex)}) | |
return jsonutils.dumps([]) | |
else: | |
raise | |
pci_info = [] | |
for name in dev_names: | |
pci_info.append(self._get_pcidev_info(name)) | |
return jsonutils.dumps(pci_info) | |
def _get_mdev_capabilities_for_dev(self, devname, types=None): | |
"""Returns a dict of MDEV capable device with the ID as first key | |
and then a list of supported types, each of them being a dict. | |
:param types: Only return those specific types. | |
""" | |
virtdev = self._host.device_lookup_by_name(devname) | |
xmlstr = virtdev.XMLDesc(0) | |
cfgdev = vconfig.LibvirtConfigNodeDevice() | |
cfgdev.parse_str(xmlstr) | |
device = { | |
"dev_id": cfgdev.name, | |
"types": {}, | |
} | |
for mdev_cap in cfgdev.pci_capability.mdev_capability: | |
for cap in mdev_cap.mdev_types: | |
if not types or cap['type'] in types: | |
device["types"].update({cap['type']: { | |
'availableInstances': cap['availableInstances'], | |
'name': cap['name'], | |
'deviceAPI': cap['deviceAPI']}}) | |
return device | |
def _get_mdev_capable_devices(self, types=None): | |
"""Get host devices supporting mdev types. | |
Obtain devices information from libvirt and returns a list of | |
dictionaries. | |
:param types: Filter only devices supporting those types. | |
""" | |
if not self._host.has_min_version(MIN_LIBVIRT_MDEV_SUPPORT): | |
return [] | |
dev_names = self._host.list_mdev_capable_devices() or [] | |
mdev_capable_devices = [] | |
for name in dev_names: | |
device = self._get_mdev_capabilities_for_dev(name, types) | |
if not device["types"]: | |
continue | |
mdev_capable_devices.append(device) | |
return mdev_capable_devices | |
def _get_mediated_device_information(self, devname): | |
"""Returns a dict of a mediated device.""" | |
virtdev = self._host.device_lookup_by_name(devname) | |
xmlstr = virtdev.XMLDesc(0) | |
cfgdev = vconfig.LibvirtConfigNodeDevice() | |
cfgdev.parse_str(xmlstr) | |
device = { | |
"dev_id": cfgdev.name, | |
# name is like mdev_00ead764_fdc0_46b6_8db9_2963f5c815b4 | |
"uuid": str(uuid.UUID(cfgdev.name[5:].replace('_', '-'))), | |
"type": cfgdev.mdev_information.type, | |
"iommu_group": cfgdev.mdev_information.iommu_group, | |
} | |
return device | |
def _get_mediated_devices(self, types=None): | |
"""Get host mediated devices. | |
Obtain devices information from libvirt and returns a list of | |
dictionaries. | |
:param types: Filter only devices supporting those types. | |
""" | |
if not self._host.has_min_version(MIN_LIBVIRT_MDEV_SUPPORT): | |
return [] | |
dev_names = self._host.list_mediated_devices() or [] | |
mediated_devices = [] | |
for name in dev_names: | |
device = self._get_mediated_device_information(name) | |
if not types or device["type"] in types: | |
mediated_devices.append(device) | |
return mediated_devices | |
def _get_all_assigned_mediated_devices(self, instance=None): | |
"""Lookup all instances from the host and return all the mediated | |
devices that are assigned to a guest. | |
:param instance: Only return mediated devices for that instance. | |
:returns: A dictionary of keys being mediated device UUIDs and their | |
respective values the instance UUID of the guest using it. | |
""" | |
allocated_mdevs = {} | |
if instance: | |
guest = self._host.get_guest(instance) | |
guests = [guest] | |
else: | |
guests = self._host.list_guests(only_running=False) | |
for guest in guests: | |
cfg = guest.get_config() | |
for device in cfg.devices: | |
if isinstance(device, vconfig.LibvirtConfigGuestHostdevMDEV): | |
allocated_mdevs[device.uuid] = guest.uuid | |
return allocated_mdevs | |
@staticmethod | |
def _vgpu_allocations(allocations): | |
"""Filtering only the VGPU allocations from a list of allocations. | |
:param allocations: Information about resources allocated to the | |
instance via placement, of the form returned by | |
SchedulerReportClient.get_allocations_for_consumer. | |
""" | |
if not allocations: | |
# If no allocations, there is no vGPU request. | |
return {} | |
RC_VGPU = fields.ResourceClass.VGPU | |
vgpu_allocations = {} | |
for rp in allocations: | |
res = allocations[rp]['resources'] | |
if RC_VGPU in res and res[RC_VGPU] > 0: | |
vgpu_allocations[rp] = {'resources': {RC_VGPU: res[RC_VGPU]}} | |
return vgpu_allocations | |
def _get_existing_mdevs_not_assigned(self, requested_types=None): | |
"""Returns the already created mediated devices that are not assigned | |
to a guest yet. | |
:param requested_types: Filter out the result for only mediated devices | |
having those types. | |
""" | |
allocated_mdevs = self._get_all_assigned_mediated_devices() | |
mdevs = self._get_mediated_devices(requested_types) | |
available_mdevs = set([mdev["uuid"] | |
for mdev in mdevs]) - set(allocated_mdevs) | |
return available_mdevs | |
def _create_new_mediated_device(self, requested_types, uuid=None): | |
"""Find a physical device that can support a new mediated device and | |
create it. | |
:param requested_types: Filter only capable devices supporting those | |
types. | |
:param uuid: The possible mdev UUID we want to create again | |
:returns: the newly created mdev UUID or None if not possible | |
""" | |
# Try to see if we can still create a new mediated device | |
devices = self._get_mdev_capable_devices(requested_types) | |
for device in devices: | |
# For the moment, the libvirt driver only supports one | |
# type per host | |
# TODO(sbauza): Once we support more than one type, make | |
# sure we look at the flavor/trait for the asked type. | |
asked_type = requested_types[0] | |
if device['types'][asked_type]['availableInstances'] > 0: | |
# That physical GPU has enough room for a new mdev | |
dev_name = device['dev_id'] | |
# We need the PCI address, not the libvirt name | |
# The libvirt name is like 'pci_0000_84_00_0' | |
pci_addr = "{}:{}:{}.{}".format(*dev_name[4:].split('_')) | |
chosen_mdev = nova.privsep.libvirt.create_mdev(pci_addr, | |
asked_type, | |
uuid=uuid) | |
return chosen_mdev | |
@utils.synchronized(VGPU_RESOURCE_SEMAPHORE) | |
def _allocate_mdevs(self, allocations): | |
"""Returns a list of mediated device UUIDs corresponding to available | |
resources we can assign to the guest(s) corresponding to the allocation | |
requests passed as argument. | |
That method can either find an existing but unassigned mediated device | |
it can allocate, or create a new mediated device from a capable | |
physical device if the latter has enough left capacity. | |
:param allocations: Information about resources allocated to the | |
instance via placement, of the form returned by | |
SchedulerReportClient.get_allocations_for_consumer. | |
That code is supporting Placement API version 1.12 | |
""" | |
vgpu_allocations = self._vgpu_allocations(allocations) | |
if not vgpu_allocations: | |
return | |
# TODO(sbauza): Once we have nested resource providers, find which one | |
# is having the related allocation for the specific VGPU type. | |
# For the moment, we should only have one allocation for | |
# ResourceProvider. | |
# TODO(sbauza): Iterate over all the allocations once we have | |
# nested Resource Providers. For the moment, just take the first. | |
if len(vgpu_allocations) > 1: | |
LOG.warning('More than one allocation was passed over to libvirt ' | |
'while at the moment libvirt only supports one. Only ' | |
'the first allocation will be looked up.') | |
alloc = six.next(six.itervalues(vgpu_allocations)) | |
vgpus_asked = alloc['resources'][fields.ResourceClass.VGPU] | |
requested_types = self._get_supported_vgpu_types() | |
# Which mediated devices are created but not assigned to a guest ? | |
mdevs_available = self._get_existing_mdevs_not_assigned( | |
requested_types) | |
chosen_mdevs = [] | |
for c in six.moves.range(vgpus_asked): | |
chosen_mdev = None | |
if mdevs_available: | |
# Take the first available mdev | |
chosen_mdev = mdevs_available.pop() | |
else: | |
chosen_mdev = self._create_new_mediated_device(requested_types) | |
if not chosen_mdev: | |
# If we can't find devices having available VGPUs, just raise | |
raise exception.ComputeResourcesUnavailable( | |
reason='vGPU resource is not available') | |
else: | |
chosen_mdevs.append(chosen_mdev) | |
return chosen_mdevs | |
def _detach_mediated_devices(self, guest): | |
mdevs = guest.get_all_devices( | |
devtype=vconfig.LibvirtConfigGuestHostdevMDEV) | |
for mdev_cfg in mdevs: | |
try: | |
guest.detach_device(mdev_cfg, live=True) | |
except libvirt.libvirtError as ex: | |
error_code = ex.get_error_code() | |
# NOTE(sbauza): There is a pending issue with libvirt that | |
# doesn't allow to hot-unplug mediated devices. Let's | |
# short-circuit the suspend action and set the instance back | |
# to ACTIVE. | |
# TODO(sbauza): Once libvirt supports this, amend the resume() | |
# operation to support reallocating mediated devices. | |
if error_code == libvirt.VIR_ERR_CONFIG_UNSUPPORTED: | |
reason = _("Suspend is not supported for instances having " | |
"attached vGPUs.") | |
raise exception.InstanceFaultRollback( | |
exception.InstanceSuspendFailure(reason=reason)) | |
else: | |
raise | |
def _has_numa_support(self): | |
# This means that the host can support LibvirtConfigGuestNUMATune | |
# and the nodeset field in LibvirtConfigGuestMemoryBackingPage | |
for ver in BAD_LIBVIRT_NUMA_VERSIONS: | |
if self._host.has_version(ver): | |
if not getattr(self, '_bad_libvirt_numa_version_warn', False): | |
LOG.warning('You are running with libvirt version %s ' | |
'which is known to have broken NUMA support. ' | |
'Consider patching or updating libvirt on ' | |
'this host if you need NUMA support.', | |
self._version_to_string(ver)) | |
self._bad_libvirt_numa_version_warn = True | |
return False | |
caps = self._host.get_capabilities() | |
if (caps.host.cpu.arch in (fields.Architecture.I686, | |
fields.Architecture.X86_64, | |
fields.Architecture.AARCH64) and | |
self._host.has_min_version(hv_type=host.HV_DRIVER_QEMU)): | |
return True | |
elif (caps.host.cpu.arch in (fields.Architecture.PPC64, | |
fields.Architecture.PPC64LE) and | |
self._host.has_min_version(MIN_LIBVIRT_NUMA_VERSION_PPC, | |
hv_type=host.HV_DRIVER_QEMU)): | |
return True | |
return False | |
def _get_host_numa_topology(self): | |
if not self._has_numa_support(): | |
return | |
caps = self._host.get_capabilities() | |
topology = caps.host.topology | |
if topology is None or not topology.cells: | |
return | |
cells = [] | |
allowed_cpus = hardware.get_vcpu_pin_set() | |
online_cpus = self._host.get_online_cpus() | |
if allowed_cpus: | |
allowed_cpus &= online_cpus | |
else: | |
allowed_cpus = online_cpus | |
def _get_reserved_memory_for_cell(self, cell_id, page_size): | |
cell = self._reserved_hugepages.get(cell_id, {}) | |
return cell.get(page_size, 0) | |
for cell in topology.cells: | |
cpuset = set(cpu.id for cpu in cell.cpus) | |
siblings = sorted(map(set, | |
set(tuple(cpu.siblings) | |
if cpu.siblings else () | |
for cpu in cell.cpus) | |
)) | |
cpuset &= allowed_cpus | |
siblings = [sib & allowed_cpus for sib in siblings] | |
# Filter out singles and empty sibling sets that may be left | |
siblings = [sib for sib in siblings if len(sib) > 1] | |
mempages = [ | |
objects.NUMAPagesTopology( | |
size_kb=pages.size, | |
total=pages.total, | |
used=0, | |
reserved=_get_reserved_memory_for_cell( | |
self, cell.id, pages.size)) | |
for pages in cell.mempages] | |
cell = objects.NUMACell(id=cell.id, cpuset=cpuset, | |
memory=cell.memory / units.Ki, | |
cpu_usage=0, memory_usage=0, | |
siblings=siblings, | |
pinned_cpus=set([]), | |
mempages=mempages) | |
cells.append(cell) | |
return objects.NUMATopology(cells=cells) | |
def get_all_volume_usage(self, context, compute_host_bdms): | |
"""Return usage info for volumes attached to vms on | |
a given host. | |
""" | |
vol_usage = [] | |
for instance_bdms in compute_host_bdms: | |
instance = instance_bdms['instance'] | |
for bdm in instance_bdms['instance_bdms']: | |
mountpoint = bdm['device_name'] | |
if mountpoint.startswith('/dev/'): | |
mountpoint = mountpoint[5:] | |
volume_id = bdm['volume_id'] | |
LOG.debug("Trying to get stats for the volume %s", | |
volume_id, instance=instance) | |
vol_stats = self.block_stats(instance, mountpoint) | |
if vol_stats: | |
stats = dict(volume=volume_id, | |
instance=instance, | |
rd_req=vol_stats[0], | |
rd_bytes=vol_stats[1], | |
wr_req=vol_stats[2], | |
wr_bytes=vol_stats[3]) | |
LOG.debug( | |
"Got volume usage stats for the volume=%(volume)s," | |
" rd_req=%(rd_req)d, rd_bytes=%(rd_bytes)d, " | |
"wr_req=%(wr_req)d, wr_bytes=%(wr_bytes)d", | |
stats, instance=instance) | |
vol_usage.append(stats) | |
return vol_usage | |
def block_stats(self, instance, disk_id): | |
"""Note that this function takes an instance name.""" | |
try: | |
guest = self._host.get_guest(instance) | |
# TODO(sahid): We are converting all calls from a | |
# virDomain object to use nova.virt.libvirt.Guest. | |
# We should be able to remove domain at the end. | |
domain = guest._domain | |
return domain.blockStats(disk_id) | |
except libvirt.libvirtError as e: | |
errcode = e.get_error_code() | |
LOG.info('Getting block stats failed, device might have ' | |
'been detached. Instance=%(instance_name)s ' | |
'Disk=%(disk)s Code=%(errcode)s Error=%(e)s', | |
{'instance_name': instance.name, 'disk': disk_id, | |
'errcode': errcode, 'e': e}, | |
instance=instance) | |
except exception.InstanceNotFound: | |
LOG.info('Could not find domain in libvirt for instance %s. ' | |
'Cannot get block stats for device', instance.name, | |
instance=instance) | |
def get_console_pool_info(self, console_type): | |
# TODO(mdragon): console proxy should be implemented for libvirt, | |
# in case someone wants to use it with kvm or | |
# such. For now return fake data. | |
return {'address': '127.0.0.1', | |
'username': 'fakeuser', | |
'password': 'fakepassword'} | |
def refresh_security_group_rules(self, security_group_id): | |
self.firewall_driver.refresh_security_group_rules(security_group_id) | |
def refresh_instance_security_rules(self, instance): | |
self.firewall_driver.refresh_instance_security_rules(instance) | |
def get_inventory(self, nodename): | |
"""Return a dict, keyed by resource class, of inventory information for | |
the supplied node. | |
""" | |
disk_gb = int(self._get_local_gb_info()['total']) | |
memory_mb = int(self._host.get_memory_mb_total()) | |
vcpus = self._get_vcpu_total() | |
# NOTE(sbauza): For the moment, the libvirt driver only supports | |
# providing the total number of virtual GPUs for a single GPU type. If | |
# you have multiple physical GPUs, each of them providing multiple GPU | |
# types, libvirt will return the total sum of virtual GPUs | |
# corresponding to the single type passed in enabled_vgpu_types | |
# configuration option. Eg. if you have 2 pGPUs supporting 'nvidia-35', | |
# each of them having 16 available instances, the total here will be | |
# 32. | |
# If one of the 2 pGPUs doesn't support 'nvidia-35', it won't be used. | |
# TODO(sbauza): Use ProviderTree and traits to make a better world. | |
vgpus = self._get_vgpu_total() | |
# NOTE(jaypipes): We leave some fields like allocation_ratio and | |
# reserved out of the returned dicts here because, for now at least, | |
# the RT injects those values into the inventory dict based on the | |
# compute_nodes record values. | |
result = { | |
fields.ResourceClass.VCPU: { | |
'total': vcpus, | |
'min_unit': 1, | |
'max_unit': vcpus, | |
'step_size': 1, | |
}, | |
fields.ResourceClass.MEMORY_MB: { | |
'total': memory_mb, | |
'min_unit': 1, | |
'max_unit': memory_mb, | |
'step_size': 1, | |
}, | |
fields.ResourceClass.DISK_GB: { | |
'total': disk_gb, | |
'min_unit': 1, | |
'max_unit': disk_gb, | |
'step_size': 1, | |
}, | |
} | |
if vgpus > 0: | |
# Only provide VGPU resource classes if the driver supports it. | |
result[fields.ResourceClass.VGPU] = { | |
'total': vgpus, | |
'min_unit': 1, | |
'max_unit': vgpus, | |
'step_size': 1, | |
} | |
return result | |
def get_available_resource(self, nodename): | |
"""Retrieve resource information. | |
This method is called when nova-compute launches, and | |
as part of a periodic task that records the results in the DB. | |
:param nodename: unused in this driver | |
:returns: dictionary containing resource info | |
""" | |
disk_info_dict = self._get_local_gb_info() | |
data = {} | |
# NOTE(dprince): calling capabilities before getVersion works around | |
# an initialization issue with some versions of Libvirt (1.0.5.5). | |
# See: https://bugzilla.redhat.com/show_bug.cgi?id=1000116 | |
# See: https://bugs.launchpad.net/nova/+bug/1215593 | |
data["supported_instances"] = self._get_instance_capabilities() | |
data["vcpus"] = self._get_vcpu_total() | |
data["memory_mb"] = self._host.get_memory_mb_total() | |
data["local_gb"] = disk_info_dict['total'] | |
data["vcpus_used"] = self._get_vcpu_used() | |
data["memory_mb_used"] = self._host.get_memory_mb_used() | |
data["local_gb_used"] = disk_info_dict['used'] | |
data["hypervisor_type"] = self._host.get_driver_type() | |
data["hypervisor_version"] = self._host.get_version() | |
data["hypervisor_hostname"] = self._host.get_hostname() | |
# TODO(berrange): why do we bother converting the | |
# libvirt capabilities XML into a special JSON format ? | |
# The data format is different across all the drivers | |
# so we could just return the raw capabilities XML | |
# which 'compare_cpu' could use directly | |
# | |
# That said, arch_filter.py now seems to rely on | |
# the libvirt drivers format which suggests this | |
# data format needs to be standardized across drivers | |
data["cpu_info"] = jsonutils.dumps(self._get_cpu_info()) | |
disk_free_gb = disk_info_dict['free'] | |
disk_over_committed = self._get_disk_over_committed_size_total() | |
available_least = disk_free_gb * units.Gi - disk_over_committed | |
data['disk_available_least'] = available_least / units.Gi | |
data['pci_passthrough_devices'] = \ | |
self._get_pci_passthrough_devices() | |
numa_topology = self._get_host_numa_topology() | |
if numa_topology: | |
data['numa_topology'] = numa_topology._to_json() | |
else: | |
data['numa_topology'] = None | |
return data | |
def check_instance_shared_storage_local(self, context, instance): | |
"""Check if instance files located on shared storage. | |
This runs check on the destination host, and then calls | |
back to the source host to check the results. | |
:param context: security context | |
:param instance: nova.objects.instance.Instance object | |
:returns: | |
- tempfile: A dict containing the tempfile info on the destination | |
host | |
- None: | |
1. If the instance path is not existing. | |
2. If the image backend is shared block storage type. | |
""" | |
if self.image_backend.backend().is_shared_block_storage(): | |
return None | |
dirpath = libvirt_utils.get_instance_path(instance) | |
if not os.path.exists(dirpath): | |
return None | |
fd, tmp_file = tempfile.mkstemp(dir=dirpath) | |
LOG.debug("Creating tmpfile %s to verify with other " | |
"compute node that the instance is on " | |
"the same shared storage.", | |
tmp_file, instance=instance) | |
os.close(fd) | |
return {"filename": tmp_file} | |
def check_instance_shared_storage_remote(self, context, data): | |
return os.path.exists(data['filename']) | |
def check_instance_shared_storage_cleanup(self, context, data): | |
fileutils.delete_if_exists(data["filename"]) | |
def check_can_live_migrate_destination(self, context, instance, | |
src_compute_info, dst_compute_info, | |
block_migration=False, | |
disk_over_commit=False): | |
"""Check if it is possible to execute live migration. | |
This runs checks on the destination host, and then calls | |
back to the source host to check the results. | |
:param context: security context | |
:param instance: nova.db.sqlalchemy.models.Instance | |
:param block_migration: if true, prepare for block migration | |
:param disk_over_commit: if true, allow disk over commit | |
:returns: a LibvirtLiveMigrateData object | |
""" | |
if disk_over_commit: | |
disk_available_gb = dst_compute_info['local_gb'] | |
else: | |
disk_available_gb = dst_compute_info['disk_available_least'] | |
disk_available_mb = ( | |
(disk_available_gb * units.Ki) - CONF.reserved_host_disk_mb) | |
# Compare CPU | |
if not instance.vcpu_model or not instance.vcpu_model.model: | |
source_cpu_info = src_compute_info['cpu_info'] | |
self._compare_cpu(None, source_cpu_info, instance) | |
else: | |
self._compare_cpu(instance.vcpu_model, None, instance) | |
# Create file on storage, to be checked on source host | |
filename = self._create_shared_storage_test_file(instance) | |
data = objects.LibvirtLiveMigrateData() | |
data.filename = filename | |
data.image_type = CONF.libvirt.images_type | |
data.graphics_listen_addr_vnc = CONF.vnc.server_listen | |
data.graphics_listen_addr_spice = CONF.spice.server_listen | |
if CONF.serial_console.enabled: | |
data.serial_listen_addr = CONF.serial_console.proxyclient_address | |
else: | |
data.serial_listen_addr = None | |
# Notes(eliqiao): block_migration and disk_over_commit are not | |
# nullable, so just don't set them if they are None | |
if block_migration is not None: | |
data.block_migration = block_migration | |
if disk_over_commit is not None: | |
data.disk_over_commit = disk_over_commit | |
data.disk_available_mb = disk_available_mb | |
return data | |
def cleanup_live_migration_destination_check(self, context, | |
dest_check_data): | |
"""Do required cleanup on dest host after check_can_live_migrate calls | |
:param context: security context | |
""" | |
filename = dest_check_data.filename | |
self._cleanup_shared_storage_test_file(filename) | |
def check_can_live_migrate_source(self, context, instance, | |
dest_check_data, | |
block_device_info=None): | |
"""Check if it is possible to execute live migration. | |
This checks if the live migration can succeed, based on the | |
results from check_can_live_migrate_destination. | |
:param context: security context | |
:param instance: nova.db.sqlalchemy.models.Instance | |
:param dest_check_data: result of check_can_live_migrate_destination | |
:param block_device_info: result of _get_instance_block_device_info | |
:returns: a LibvirtLiveMigrateData object | |
""" | |
if not isinstance(dest_check_data, migrate_data_obj.LiveMigrateData): | |
md_obj = objects.LibvirtLiveMigrateData() | |
md_obj.from_legacy_dict(dest_check_data) | |
dest_check_data = md_obj | |
# Checking shared storage connectivity | |
# if block migration, instances_path should not be on shared storage. | |
source = CONF.host | |
dest_check_data.is_shared_instance_path = ( | |
self._check_shared_storage_test_file( | |
dest_check_data.filename, instance)) | |
dest_check_data.is_shared_block_storage = ( | |
self._is_shared_block_storage(instance, dest_check_data, | |
block_device_info)) | |
if 'block_migration' not in dest_check_data: | |
dest_check_data.block_migration = ( | |
not dest_check_data.is_on_shared_storage()) | |
if dest_check_data.block_migration: | |
# TODO(eliqiao): Once block_migration flag is removed from the API | |
# we can safely remove the if condition | |
if dest_check_data.is_on_shared_storage(): | |
reason = _("Block migration can not be used " | |
"with shared storage.") | |
raise exception.InvalidLocalStorage(reason=reason, path=source) | |
if 'disk_over_commit' in dest_check_data: | |
self._assert_dest_node_has_enough_disk(context, instance, | |
dest_check_data.disk_available_mb, | |
dest_check_data.disk_over_commit, | |
block_device_info) | |
if block_device_info: | |
bdm = block_device_info.get('block_device_mapping') | |
# NOTE(pkoniszewski): libvirt from version 1.2.17 upwards | |
# supports selective block device migration. It means that it | |
# is possible to define subset of block devices to be copied | |
# during migration. If they are not specified - block devices | |
# won't be migrated. However, it does not work when live | |
# migration is tunnelled through libvirt. | |
if bdm and not self._host.has_min_version( | |
MIN_LIBVIRT_BLOCK_LM_WITH_VOLUMES_VERSION): | |
# NOTE(stpierre): if this instance has mapped volumes, | |
# we can't do a block migration, since that will result | |
# in volumes being copied from themselves to themselves, | |
# which is a recipe for disaster. | |
ver = ".".join([str(x) for x in | |
MIN_LIBVIRT_BLOCK_LM_WITH_VOLUMES_VERSION]) | |
msg = (_('Cannot block migrate instance %(uuid)s with' | |
' mapped volumes. Selective block device' | |
' migration feature requires libvirt version' | |
' %(libvirt_ver)s') % | |
{'uuid': instance.uuid, 'libvirt_ver': ver}) | |
LOG.error(msg, instance=instance) | |
raise exception.MigrationPreCheckError(reason=msg) | |
# NOTE(eliqiao): Selective disk migrations are not supported | |
# with tunnelled block migrations so we can block them early. | |
if (bdm and | |
(self._block_migration_flags & | |
libvirt.VIR_MIGRATE_TUNNELLED != 0)): | |
msg = (_('Cannot block migrate instance %(uuid)s with' | |
' mapped volumes. Selective block device' | |
' migration is not supported with tunnelled' | |
' block migrations.') % {'uuid': instance.uuid}) | |
LOG.error(msg, instance=instance) | |
raise exception.MigrationPreCheckError(reason=msg) | |
elif not (dest_check_data.is_shared_block_storage or | |
dest_check_data.is_shared_instance_path): | |
reason = _("Shared storage live-migration requires either shared " | |
"storage or boot-from-volume with no local disks.") | |
raise exception.InvalidSharedStorage(reason=reason, path=source) | |
# NOTE(mikal): include the instance directory name here because it | |
# doesn't yet exist on the destination but we want to force that | |
# same name to be used | |
instance_path = libvirt_utils.get_instance_path(instance, | |
relative=True) | |
dest_check_data.instance_relative_path = instance_path | |
# NOTE(lyarwood): Used to indicate to the dest that the src is capable | |
# of wiring up the encrypted disk configuration for the domain. | |
# Note that this does not require the QEMU and Libvirt versions to | |
# decrypt LUKS to be installed on the source node. Only the Nova | |
# utility code to generate the correct XML is required, so we can | |
# default to True here for all computes >= Queens. | |
dest_check_data.src_supports_native_luks = True | |
return dest_check_data | |
def _is_shared_block_storage(self, instance, dest_check_data, | |
block_device_info=None): | |
"""Check if all block storage of an instance can be shared | |
between source and destination of a live migration. | |
Returns true if the instance is volume backed and has no local disks, | |
or if the image backend is the same on source and destination and the | |
backend shares block storage between compute nodes. | |
:param instance: nova.objects.instance.Instance object | |
:param dest_check_data: dict with boolean fields image_type, | |
is_shared_instance_path, and is_volume_backed | |
""" | |
if (dest_check_data.obj_attr_is_set('image_type') and | |
CONF.libvirt.images_type == dest_check_data.image_type and | |
self.image_backend.backend().is_shared_block_storage()): | |
# NOTE(dgenin): currently true only for RBD image backend | |
return True | |
if (dest_check_data.is_shared_instance_path and | |
self.image_backend.backend().is_file_in_instance_path()): | |
# NOTE(angdraug): file based image backends (Flat, Qcow2) | |
# place block device files under the instance path | |
return True | |
if (dest_check_data.is_volume_backed and | |
not bool(self._get_instance_disk_info(instance, | |
block_device_info))): | |
return True | |
return False | |
def _assert_dest_node_has_enough_disk(self, context, instance, | |
available_mb, disk_over_commit, | |
block_device_info): | |
"""Checks if destination has enough disk for block migration.""" | |
# Libvirt supports qcow2 disk format,which is usually compressed | |
# on compute nodes. | |
# Real disk image (compressed) may enlarged to "virtual disk size", | |
# that is specified as the maximum disk size. | |
# (See qemu-img -f path-to-disk) | |
# Scheduler recognizes destination host still has enough disk space | |
# if real disk size < available disk size | |
# if disk_over_commit is True, | |
# otherwise virtual disk size < available disk size. | |
available = 0 | |
if available_mb: | |
available = available_mb * units.Mi | |
disk_infos = self._get_instance_disk_info(instance, block_device_info) | |
necessary = 0 | |
if disk_over_commit: | |
for info in disk_infos: | |
necessary += int(info['disk_size']) | |
else: | |
for info in disk_infos: | |
necessary += int(info['virt_disk_size']) | |
# Check that available disk > necessary disk | |
if (available - necessary) < 0: | |
reason = (_('Unable to migrate %(instance_uuid)s: ' | |
'Disk of instance is too large(available' | |
' on destination host:%(available)s ' | |
'< need:%(necessary)s)') % | |
{'instance_uuid': instance.uuid, | |
'available': available, | |
'necessary': necessary}) | |
raise exception.MigrationPreCheckError(reason=reason) | |
def _compare_cpu(self, guest_cpu, host_cpu_str, instance): | |
"""Check the host is compatible with the requested CPU | |
:param guest_cpu: nova.objects.VirtCPUModel or None | |
:param host_cpu_str: JSON from _get_cpu_info() method | |
If the 'guest_cpu' parameter is not None, this will be | |
validated for migration compatibility with the host. | |
Otherwise the 'host_cpu_str' JSON string will be used for | |
validation. | |
:returns: | |
None. if given cpu info is not compatible to this server, | |
raise exception. | |
""" | |
# NOTE(kchamart): Comparing host to guest CPU model for emulated | |
# guests (<domain type='qemu'>) should not matter -- in this | |
# mode (QEMU "TCG") the CPU is fully emulated in software and no | |
# hardware acceleration, like KVM, is involved. So, skip the CPU | |
# compatibility check for the QEMU domain type, and retain it for | |
# KVM guests. | |
if CONF.libvirt.virt_type not in ['kvm']: | |
return | |
if guest_cpu is None: | |
info = jsonutils.loads(host_cpu_str) | |
LOG.info('Instance launched has CPU info: %s', host_cpu_str) | |
cpu = vconfig.LibvirtConfigCPU() | |
cpu.arch = info['arch'] | |
cpu.model = info['model'] | |
cpu.vendor = info['vendor'] | |
cpu.sockets = info['topology']['sockets'] | |
cpu.cores = info['topology']['cores'] | |
cpu.threads = info['topology']['threads'] | |
for f in info['features']: | |
cpu.add_feature(vconfig.LibvirtConfigCPUFeature(f)) | |
else: | |
cpu = self._vcpu_model_to_cpu_config(guest_cpu) | |
u = ("http://libvirt.org/html/libvirt-libvirt-host.html#" | |
"virCPUCompareResult") | |
m = _("CPU doesn't have compatibility.\n\n%(ret)s\n\nRefer to %(u)s") | |
# unknown character exists in xml, then libvirt complains | |
try: | |
cpu_xml = cpu.to_xml() | |
LOG.debug("cpu compare xml: %s", cpu_xml, instance=instance) | |
ret = self._host.compare_cpu(cpu_xml) | |
except libvirt.libvirtError as e: | |
error_code = e.get_error_code() | |
if error_code == libvirt.VIR_ERR_NO_SUPPORT: | |
LOG.debug("URI %(uri)s does not support cpu comparison. " | |
"It will be proceeded though. Error: %(error)s", | |
{'uri': self._uri(), 'error': e}) | |
return | |
else: | |
LOG.error(m, {'ret': e, 'u': u}) | |
raise exception.MigrationPreCheckError( | |
reason=m % {'ret': e, 'u': u}) | |
if ret <= 0: | |
LOG.error(m, {'ret': ret, 'u': u}) | |
raise exception.InvalidCPUInfo(reason=m % {'ret': ret, 'u': u}) | |
def _create_shared_storage_test_file(self, instance): | |
"""Makes tmpfile under CONF.instances_path.""" | |
dirpath = CONF.instances_path | |
fd, tmp_file = tempfile.mkstemp(dir=dirpath) | |
LOG.debug("Creating tmpfile %s to notify to other " | |
"compute nodes that they should mount " | |
"the same storage.", tmp_file, instance=instance) | |
os.close(fd) | |
return os.path.basename(tmp_file) | |
def _check_shared_storage_test_file(self, filename, instance): | |
"""Confirms existence of the tmpfile under CONF.instances_path. | |
Cannot confirm tmpfile return False. | |
""" | |
# NOTE(tpatzig): if instances_path is a shared volume that is | |
# under heavy IO (many instances on many compute nodes), | |
# then checking the existence of the testfile fails, | |
# just because it takes longer until the client refreshes and new | |
# content gets visible. | |
# os.utime (like touch) on the directory forces the client to refresh. | |
os.utime(CONF.instances_path, None) | |
tmp_file = os.path.join(CONF.instances_path, filename) | |
if not os.path.exists(tmp_file): | |
exists = False | |
else: | |
exists = True | |
LOG.debug('Check if temp file %s exists to indicate shared storage ' | |
'is being used for migration. Exists? %s', tmp_file, exists, | |
instance=instance) | |
return exists | |
def _cleanup_shared_storage_test_file(self, filename): | |
"""Removes existence of the tmpfile under CONF.instances_path.""" | |
tmp_file = os.path.join(CONF.instances_path, filename) | |
os.remove(tmp_file) | |
def ensure_filtering_rules_for_instance(self, instance, network_info): | |
"""Ensure that an instance's filtering rules are enabled. | |
When migrating an instance, we need the filtering rules to | |
be configured on the destination host before starting the | |
migration. | |
Also, when restarting the compute service, we need to ensure | |
that filtering rules exist for all running services. | |
""" | |
self.firewall_driver.setup_basic_filtering(instance, network_info) | |
self.firewall_driver.prepare_instance_filter(instance, | |
network_info) | |
# nwfilters may be defined in a separate thread in the case | |
# of libvirt non-blocking mode, so we wait for completion | |
timeout_count = list(range(CONF.live_migration_retry_count)) | |
while timeout_count: | |
if self.firewall_driver.instance_filter_exists(instance, | |
network_info): | |
break | |
timeout_count.pop() | |
if len(timeout_count) == 0: | |
msg = _('The firewall filter for %s does not exist') | |
raise exception.InternalError(msg % instance.name) | |
greenthread.sleep(1) | |
def filter_defer_apply_on(self): | |
self.firewall_driver.filter_defer_apply_on() | |
def filter_defer_apply_off(self): | |
self.firewall_driver.filter_defer_apply_off() | |
def live_migration(self, context, instance, dest, | |
post_method, recover_method, block_migration=False, | |
migrate_data=None): | |
"""Spawning live_migration operation for distributing high-load. | |
:param context: security context | |
:param instance: | |
nova.db.sqlalchemy.models.Instance object | |
instance object that is migrated. | |
:param dest: destination host | |
:param post_method: | |
post operation method. | |
expected nova.compute.manager._post_live_migration. | |
:param recover_method: | |
recovery method when any exception occurs. | |
expected nova.compute.manager._rollback_live_migration. | |
:param block_migration: if true, do block migration. | |
:param migrate_data: a LibvirtLiveMigrateData object | |
""" | |
# 'dest' will be substituted into 'migration_uri' so ensure | |
# it does't contain any characters that could be used to | |
# exploit the URI accepted by libivrt | |
if not libvirt_utils.is_valid_hostname(dest): | |
raise exception.InvalidHostname(hostname=dest) | |
self._live_migration(context, instance, dest, | |
post_method, recover_method, block_migration, | |
migrate_data) | |
def live_migration_abort(self, instance): | |
"""Aborting a running live-migration. | |
:param instance: instance object that is in migration | |
""" | |
guest = self._host.get_guest(instance) | |
dom = guest._domain | |
try: | |
dom.abortJob() | |
except libvirt.libvirtError as e: | |
LOG.error("Failed to cancel migration %s", | |
encodeutils.exception_to_unicode(e), instance=instance) | |
raise | |
def _verify_serial_console_is_disabled(self): | |
if CONF.serial_console.enabled: | |
msg = _('Your destination node does not support' | |
' retrieving listen addresses. In order' | |
' for live migration to work properly you' | |
' must disable serial console.') | |
raise exception.MigrationError(reason=msg) | |
def _live_migration_operation(self, context, instance, dest, | |
block_migration, migrate_data, guest, | |
device_names): | |
"""Invoke the live migration operation | |
:param context: security context | |
:param instance: | |
nova.db.sqlalchemy.models.Instance object | |
instance object that is migrated. | |
:param dest: destination host | |
:param block_migration: if true, do block migration. | |
:param migrate_data: a LibvirtLiveMigrateData object | |
:param guest: the guest domain object | |
:param device_names: list of device names that are being migrated with | |
instance | |
This method is intended to be run in a background thread and will | |
block that thread until the migration is finished or failed. | |
""" | |
try: | |
if migrate_data.block_migration: | |
migration_flags = self._block_migration_flags | |
else: | |
migration_flags = self._live_migration_flags | |
serial_listen_addr = libvirt_migrate.serial_listen_addr( | |
migrate_data) | |
if not serial_listen_addr: | |
# In this context we want to ensure that serial console is | |
# disabled on source node. This is because nova couldn't | |
# retrieve serial listen address from destination node, so we | |
# consider that destination node might have serial console | |
# disabled as well. | |
self._verify_serial_console_is_disabled() | |
# NOTE(aplanas) migrate_uri will have a value only in the | |
# case that `live_migration_inbound_addr` parameter is | |
# set, and we propose a non tunneled migration. | |
migrate_uri = None | |
if ('target_connect_addr' in migrate_data and | |
migrate_data.target_connect_addr is not None): | |
dest = migrate_data.target_connect_addr | |
if (migration_flags & | |
libvirt.VIR_MIGRATE_TUNNELLED == 0): | |
migrate_uri = self._migrate_uri(dest) | |
params = None | |
new_xml_str = None | |
if CONF.libvirt.virt_type != "parallels": | |
new_xml_str = libvirt_migrate.get_updated_guest_xml( | |
# TODO(sahid): It's not a really good idea to pass | |
# the method _get_volume_config and we should to find | |
# a way to avoid this in future. | |
guest, migrate_data, self._get_volume_config) | |
if self._host.has_min_version( | |
MIN_LIBVIRT_BLOCK_LM_WITH_VOLUMES_VERSION): | |
params = { | |
'destination_xml': new_xml_str, | |
'migrate_disks': device_names, | |
} | |
# NOTE(pkoniszewski): Because of precheck which blocks | |
# tunnelled block live migration with mapped volumes we | |
# can safely remove migrate_disks when tunnelling is on. | |
# Otherwise we will block all tunnelled block migrations, | |
# even when an instance does not have volumes mapped. | |
# This is because selective disk migration is not | |
# supported in tunnelled block live migration. Also we | |
# cannot fallback to migrateToURI2 in this case because of | |
# bug #1398999 | |
if (migration_flags & | |
libvirt.VIR_MIGRATE_TUNNELLED != 0): | |
params.pop('migrate_disks') | |
# TODO(sahid): This should be in | |
# post_live_migration_at_source but no way to retrieve | |
# ports acquired on the host for the guest at this | |
# step. Since the domain is going to be removed from | |
# libvird on source host after migration, we backup the | |
# serial ports to release them if all went well. | |
serial_ports = [] | |
if CONF.serial_console.enabled: | |
serial_ports = list(self._get_serial_ports_from_guest(guest)) | |
guest.migrate(self._live_migration_uri(dest), | |
migrate_uri=migrate_uri, | |
flags=migration_flags, | |
params=params, | |
domain_xml=new_xml_str, | |
bandwidth=CONF.libvirt.live_migration_bandwidth) | |
for hostname, port in serial_ports: | |
serial_console.release_port(host=hostname, port=port) | |
except Exception as e: | |
with excutils.save_and_reraise_exception(): | |
LOG.error("Live Migration failure: %s", e, instance=instance) | |
# If 'migrateToURI' fails we don't know what state the | |
# VM instances on each host are in. Possibilities include | |
# | |
# 1. src==running, dst==none | |
# | |
# Migration failed & rolled back, or never started | |
# | |
# 2. src==running, dst==paused | |
# | |
# Migration started but is still ongoing | |
# | |
# 3. src==paused, dst==paused | |
# | |
# Migration data transfer completed, but switchover | |
# is still ongoing, or failed | |
# | |
# 4. src==paused, dst==running | |
# | |
# Migration data transfer completed, switchover | |
# happened but cleanup on source failed | |
# | |
# 5. src==none, dst==running | |
# | |
# Migration fully succeeded. | |
# | |
# Libvirt will aim to complete any migration operation | |
# or roll it back. So even if the migrateToURI call has | |
# returned an error, if the migration was not finished | |
# libvirt should clean up. | |
# | |
# So we take the error raise here with a pinch of salt | |
# and rely on the domain job info status to figure out | |
# what really happened to the VM, which is a much more | |
# reliable indicator. | |
# | |
# In particular we need to try very hard to ensure that | |
# Nova does not "forget" about the guest. ie leaving it | |
# running on a different host to the one recorded in | |
# the database, as that would be a serious resource leak | |
LOG.debug("Migration operation thread has finished", | |
instance=instance) | |
def _live_migration_copy_disk_paths(self, context, instance, guest): | |
'''Get list of disks to copy during migration | |
:param context: security context | |
:param instance: the instance being migrated | |
:param guest: the Guest instance being migrated | |
Get the list of disks to copy during migration. | |
:returns: a list of local source paths and a list of device names to | |
copy | |
''' | |
disk_paths = [] | |
device_names = [] | |
block_devices = [] | |
# TODO(pkoniszewski): Remove version check when we bump min libvirt | |
# version to >= 1.2.17. | |
if (self._block_migration_flags & | |
libvirt.VIR_MIGRATE_TUNNELLED == 0 and | |
self._host.has_min_version( | |
MIN_LIBVIRT_BLOCK_LM_WITH_VOLUMES_VERSION)): | |
bdm_list = objects.BlockDeviceMappingList.get_by_instance_uuid( | |
context, instance.uuid) | |
block_device_info = driver.get_block_device_info(instance, | |
bdm_list) | |
block_device_mappings = driver.block_device_info_get_mapping( | |
block_device_info) | |
for bdm in block_device_mappings: | |
device_name = str(bdm['mount_device'].rsplit('/', 1)[1]) | |
block_devices.append(device_name) | |
for dev in guest.get_all_disks(): | |
if dev.readonly or dev.shareable: | |
continue | |
if dev.source_type not in ["file", "block"]: | |
continue | |
if dev.target_dev in block_devices: | |
continue | |
disk_paths.append(dev.source_path) | |
device_names.append(dev.target_dev) | |
return (disk_paths, device_names) | |
def _live_migration_data_gb(self, instance, disk_paths): | |
'''Calculate total amount of data to be transferred | |
:param instance: the nova.objects.Instance being migrated | |
:param disk_paths: list of disk paths that are being migrated | |
with instance | |
Calculates the total amount of data that needs to be | |
transferred during the live migration. The actual | |
amount copied will be larger than this, due to the | |
guest OS continuing to dirty RAM while the migration | |
is taking place. So this value represents the minimal | |
data size possible. | |
:returns: data size to be copied in GB | |
''' | |
ram_gb = instance.flavor.memory_mb * units.Mi / units.Gi | |
if ram_gb < 2: | |
ram_gb = 2 | |
disk_gb = 0 | |
for path in disk_paths: | |
try: | |
size = os.stat(path).st_size | |
size_gb = (size / units.Gi) | |
if size_gb < 2: | |
size_gb = 2 | |
disk_gb += size_gb | |
except OSError as e: | |
LOG.warning("Unable to stat %(disk)s: %(ex)s", | |
{'disk': path, 'ex': e}) | |
# Ignore error since we don't want to break | |
# the migration monitoring thread operation | |
return ram_gb + disk_gb | |
def _get_migration_flags(self, is_block_migration): | |
if is_block_migration: | |
return self._block_migration_flags | |
return self._live_migration_flags | |
def _live_migration_monitor(self, context, instance, guest, | |
dest, post_method, | |
recover_method, block_migration, | |
migrate_data, finish_event, | |
disk_paths): | |
on_migration_failure = deque() | |
data_gb = self._live_migration_data_gb(instance, disk_paths) | |
downtime_steps = list(libvirt_migrate.downtime_steps(data_gb)) | |
migration = migrate_data.migration | |
curdowntime = None | |
migration_flags = self._get_migration_flags( | |
migrate_data.block_migration) | |
n = 0 | |
start = time.time() | |
progress_time = start | |
progress_watermark = None | |
previous_data_remaining = -1 | |
is_post_copy_enabled = self._is_post_copy_enabled(migration_flags) | |
while True: | |
info = guest.get_job_info() | |
if info.type == libvirt.VIR_DOMAIN_JOB_NONE: | |
# Either still running, or failed or completed, | |
# lets untangle the mess | |
if not finish_event.ready(): | |
LOG.debug("Operation thread is still running", | |
instance=instance) | |
else: | |
info.type = libvirt_migrate.find_job_type(guest, instance) | |
LOG.debug("Fixed incorrect job type to be %d", | |
info.type, instance=instance) | |
if info.type == libvirt.VIR_DOMAIN_JOB_NONE: | |
# Migration is not yet started | |
LOG.debug("Migration not running yet", | |
instance=instance) | |
elif info.type == libvirt.VIR_DOMAIN_JOB_UNBOUNDED: | |
# Migration is still running | |
# | |
# This is where we wire up calls to change live | |
# migration status. eg change max downtime, cancel | |
# the operation, change max bandwidth | |
libvirt_migrate.run_tasks(guest, instance, | |
self.active_migrations, | |
on_migration_failure, | |
migration, | |
is_post_copy_enabled) | |
now = time.time() | |
elapsed = now - start | |
if ((progress_watermark is None) or | |
(progress_watermark == 0) or | |
(progress_watermark > info.data_remaining)): | |
progress_watermark = info.data_remaining | |
progress_time = now | |
progress_timeout = CONF.libvirt.live_migration_progress_timeout | |
completion_timeout = int( | |
CONF.libvirt.live_migration_completion_timeout * data_gb) | |
if libvirt_migrate.should_abort(instance, now, progress_time, | |
progress_timeout, elapsed, | |
completion_timeout, | |
migration.status): | |
try: | |
guest.abort_job() | |
except libvirt.libvirtError as e: | |
LOG.warning("Failed to abort migration %s", | |
encodeutils.exception_to_unicode(e), | |
instance=instance) | |
self._clear_empty_migration(instance) | |
raise | |
if (is_post_copy_enabled and | |
libvirt_migrate.should_switch_to_postcopy( | |
info.memory_iteration, info.data_remaining, | |
previous_data_remaining, migration.status)): | |
libvirt_migrate.trigger_postcopy_switch(guest, | |
instance, | |
migration) | |
previous_data_remaining = info.data_remaining | |
curdowntime = libvirt_migrate.update_downtime( | |
guest, instance, curdowntime, | |
downtime_steps, elapsed) | |
# We loop every 500ms, so don't log on every | |
# iteration to avoid spamming logs for long | |
# running migrations. Just once every 5 secs | |
# is sufficient for developers to debug problems. | |
# We log once every 30 seconds at info to help | |
# admins see slow running migration operations | |
# when debug logs are off. | |
if (n % 10) == 0: | |
# Ignoring memory_processed, as due to repeated | |
# dirtying of data, this can be way larger than | |
# memory_total. Best to just look at what's | |
# remaining to copy and ignore what's done already | |
# | |
# TODO(berrange) perhaps we could include disk | |
# transfer stats in the progress too, but it | |
# might make memory info more obscure as large | |
# disk sizes might dwarf memory size | |
remaining = 100 | |
if info.memory_total != 0: | |
remaining = round(info.memory_remaining * | |
100 / info.memory_total) | |
libvirt_migrate.save_stats(instance, migration, | |
info, remaining) | |
lg = LOG.debug | |
if (n % 60) == 0: | |
lg = LOG.info | |
lg("Migration running for %(secs)d secs, " | |
"memory %(remaining)d%% remaining; " | |
"(bytes processed=%(processed_memory)d, " | |
"remaining=%(remaining_memory)d, " | |
"total=%(total_memory)d)", | |
{"secs": n / 2, "remaining": remaining, | |
"processed_memory": info.memory_processed, | |
"remaining_memory": info.memory_remaining, | |
"total_memory": info.memory_total}, instance=instance) | |
if info.data_remaining > progress_watermark: | |
lg("Data remaining %(remaining)d bytes, " | |
"low watermark %(watermark)d bytes " | |
"%(last)d seconds ago", | |
{"remaining": info.data_remaining, | |
"watermark": progress_watermark, | |
"last": (now - progress_time)}, instance=instance) | |
n = n + 1 | |
elif info.type == libvirt.VIR_DOMAIN_JOB_COMPLETED: | |
# Migration is all done | |
LOG.info("Migration operation has completed", | |
instance=instance) | |
post_method(context, instance, dest, block_migration, | |
migrate_data) | |
break | |
elif info.type == libvirt.VIR_DOMAIN_JOB_FAILED: | |
# Migration did not succeed | |
LOG.error("Migration operation has aborted", instance=instance) | |
libvirt_migrate.run_recover_tasks(self._host, guest, instance, | |
on_migration_failure) | |
recover_method(context, instance, dest, migrate_data) | |
break | |
elif info.type == libvirt.VIR_DOMAIN_JOB_CANCELLED: | |
# Migration was stopped by admin | |
LOG.warning("Migration operation was cancelled", | |
instance=instance) | |
libvirt_migrate.run_recover_tasks(self._host, guest, instance, | |
on_migration_failure) | |
recover_method(context, instance, dest, migrate_data, | |
migration_status='cancelled') | |
break | |
else: | |
LOG.warning("Unexpected migration job type: %d", | |
info.type, instance=instance) | |
time.sleep(0.5) | |
self._clear_empty_migration(instance) | |
def _clear_empty_migration(self, instance): | |
try: | |
del self.active_migrations[instance.uuid] | |
except KeyError: | |
LOG.warning("There are no records in active migrations " | |
"for instance", instance=instance) | |
def _live_migration(self, context, instance, dest, post_method, | |
recover_method, block_migration, | |
migrate_data): | |
"""Do live migration. | |
:param context: security context | |
:param instance: | |
nova.db.sqlalchemy.models.Instance object | |
instance object that is migrated. | |
:param dest: destination host | |
:param post_method: | |
post operation method. | |
expected nova.compute.manager._post_live_migration. | |
:param recover_method: | |
recovery method when any exception occurs. | |
expected nova.compute.manager._rollback_live_migration. | |
:param block_migration: if true, do block migration. | |
:param migrate_data: a LibvirtLiveMigrateData object | |
This fires off a new thread to run the blocking migration | |
operation, and then this thread monitors the progress of | |
migration and controls its operation | |
""" | |
guest = self._host.get_guest(instance) | |
disk_paths = [] | |
device_names = [] | |
if (migrate_data.block_migration and | |
CONF.libvirt.virt_type != "parallels"): | |
disk_paths, device_names = self._live_migration_copy_disk_paths( | |
context, instance, guest) | |
opthread = utils.spawn(self._live_migration_operation, | |
context, instance, dest, | |
block_migration, | |
migrate_data, guest, | |
device_names) | |
finish_event = eventlet.event.Event() | |
self.active_migrations[instance.uuid] = deque() | |
def thread_finished(thread, event): | |
LOG.debug("Migration operation thread notification", | |
instance=instance) | |
event.send() | |
opthread.link(thread_finished, finish_event) | |
# Let eventlet schedule the new thread right away | |
time.sleep(0) | |
try: | |
LOG.debug("Starting monitoring of live migration", | |
instance=instance) | |
self._live_migration_monitor(context, instance, guest, dest, | |
post_method, recover_method, | |
block_migration, migrate_data, | |
finish_event, disk_paths) | |
except Exception as ex: | |
LOG.warning("Error monitoring migration: %(ex)s", | |
{"ex": ex}, instance=instance, exc_info=True) | |
raise | |
finally: | |
LOG.debug("Live migration monitoring is all done", | |
instance=instance) | |
def _is_post_copy_enabled(self, migration_flags): | |
if self._is_post_copy_available(): | |
if (migration_flags & libvirt.VIR_MIGRATE_POSTCOPY) != 0: | |
return True | |
return False | |
def live_migration_force_complete(self, instance): | |
try: | |
self.active_migrations[instance.uuid].append('force-complete') | |
except KeyError: | |
raise exception.NoActiveMigrationForInstance( | |
instance_id=instance.uuid) | |
def _try_fetch_image(self, context, path, image_id, instance, | |
fallback_from_host=None): | |
try: | |
libvirt_utils.fetch_image(context, path, image_id) | |
except exception.ImageNotFound: | |
if not fallback_from_host: | |
raise | |
LOG.debug("Image %(image_id)s doesn't exist anymore on " | |
"image service, attempting to copy image " | |
"from %(host)s", | |
{'image_id': image_id, 'host': fallback_from_host}) | |
libvirt_utils.copy_image(src=path, dest=path, | |
host=fallback_from_host, | |
receive=True) | |
def _fetch_instance_kernel_ramdisk(self, context, instance, | |
fallback_from_host=None): | |
"""Download kernel and ramdisk for instance in instance directory.""" | |
instance_dir = libvirt_utils.get_instance_path(instance) | |
if instance.kernel_id: | |
kernel_path = os.path.join(instance_dir, 'kernel') | |
# NOTE(dsanders): only fetch image if it's not available at | |
# kernel_path. This also avoids ImageNotFound exception if | |
# the image has been deleted from glance | |
if not os.path.exists(kernel_path): | |
self._try_fetch_image(context, | |
kernel_path, | |
instance.kernel_id, | |
instance, fallback_from_host) | |
if instance.ramdisk_id: | |
ramdisk_path = os.path.join(instance_dir, 'ramdisk') | |
# NOTE(dsanders): only fetch image if it's not available at | |
# ramdisk_path. This also avoids ImageNotFound exception if | |
# the image has been deleted from glance | |
if not os.path.exists(ramdisk_path): | |
self._try_fetch_image(context, | |
ramdisk_path, | |
instance.ramdisk_id, | |
instance, fallback_from_host) | |
def rollback_live_migration_at_destination(self, context, instance, | |
network_info, | |
block_device_info, | |
destroy_disks=True, | |
migrate_data=None): | |
"""Clean up destination node after a failed live migration.""" | |
try: | |
self.destroy(context, instance, network_info, block_device_info, | |
destroy_disks) | |
finally: | |
# NOTE(gcb): Failed block live migration may leave instance | |
# directory at destination node, ensure it is always deleted. | |
is_shared_instance_path = True | |
if migrate_data: | |
is_shared_instance_path = migrate_data.is_shared_instance_path | |
if (migrate_data.obj_attr_is_set("serial_listen_ports") | |
and migrate_data.serial_listen_ports): | |
# Releases serial ports reserved. | |
for port in migrate_data.serial_listen_ports: | |
serial_console.release_port( | |
host=migrate_data.serial_listen_addr, port=port) | |
if not is_shared_instance_path: | |
instance_dir = libvirt_utils.get_instance_path_at_destination( | |
instance, migrate_data) | |
if os.path.exists(instance_dir): | |
shutil.rmtree(instance_dir) | |
def pre_live_migration(self, context, instance, block_device_info, | |
network_info, disk_info, migrate_data): | |
"""Preparation live migration.""" | |
if disk_info is not None: | |
disk_info = jsonutils.loads(disk_info) | |
LOG.debug('migrate_data in pre_live_migration: %s', migrate_data, | |
instance=instance) | |
is_shared_block_storage = migrate_data.is_shared_block_storage | |
is_shared_instance_path = migrate_data.is_shared_instance_path | |
is_block_migration = migrate_data.block_migration | |
if not is_shared_instance_path: | |
instance_dir = libvirt_utils.get_instance_path_at_destination( | |
instance, migrate_data) | |
if os.path.exists(instance_dir): | |
raise exception.DestinationDiskExists(path=instance_dir) | |
LOG.debug('Creating instance directory: %s', instance_dir, | |
instance=instance) | |
os.mkdir(instance_dir) | |
# Recreate the disk.info file and in doing so stop the | |
# imagebackend from recreating it incorrectly by inspecting the | |
# contents of each file when using the Raw backend. | |
if disk_info: | |
image_disk_info = {} | |
for info in disk_info: | |
image_file = os.path.basename(info['path']) | |
image_path = os.path.join(instance_dir, image_file) | |
image_disk_info[image_path] = info['type'] | |
LOG.debug('Creating disk.info with the contents: %s', | |
image_disk_info, instance=instance) | |
image_disk_info_path = os.path.join(instance_dir, | |
'disk.info') | |
libvirt_utils.write_to_file(image_disk_info_path, | |
jsonutils.dumps(image_disk_info)) | |
if not is_shared_block_storage: | |
# Ensure images and backing files are present. | |
LOG.debug('Checking to make sure images and backing files are ' | |
'present before live migration.', instance=instance) | |
self._create_images_and_backing( | |
context, instance, instance_dir, disk_info, | |
fallback_from_host=instance.host) | |
if (configdrive.required_by(instance) and | |
CONF.config_drive_format == 'iso9660'): | |
# NOTE(pkoniszewski): Due to a bug in libvirt iso config | |
# drive needs to be copied to destination prior to | |
# migration when instance path is not shared and block | |
# storage is not shared. Files that are already present | |
# on destination are excluded from a list of files that | |
# need to be copied to destination. If we don't do that | |
# live migration will fail on copying iso config drive to | |
# destination and writing to read-only device. | |
# Please see bug/1246201 for more details. | |
src = "%s:%s/disk.config" % (instance.host, instance_dir) | |
self._remotefs.copy_file(src, instance_dir) | |
if not is_block_migration: | |
# NOTE(angdraug): when block storage is shared between source | |
# and destination and instance path isn't (e.g. volume backed | |
# or rbd backed instance), instance path on destination has to | |
# be prepared | |
# Required by Quobyte CI | |
self._ensure_console_log_for_instance(instance) | |
# if image has kernel and ramdisk, just download | |
# following normal way. | |
self._fetch_instance_kernel_ramdisk(context, instance) | |
# Establishing connection to volume server. | |
block_device_mapping = driver.block_device_info_get_mapping( | |
block_device_info) | |
if len(block_device_mapping): | |
LOG.debug('Connecting volumes before live migration.', | |
instance=instance) | |
for bdm in block_device_mapping: | |
connection_info = bdm['connection_info'] | |
# NOTE(lyarwood): Handle the P to Q LM during upgrade use case | |
# where an instance has encrypted volumes attached using the | |
# os-brick encryptors. Do not attempt to attach the encrypted | |
# volume using native LUKS decryption on the destionation. | |
src_native_luks = False | |
if migrate_data.obj_attr_is_set('src_supports_native_luks'): | |
src_native_luks = migrate_data.src_supports_native_luks | |
dest_native_luks = self._is_native_luks_available() | |
allow_native_luks = src_native_luks and dest_native_luks | |
self._connect_volume(context, connection_info, instance, | |
allow_native_luks=allow_native_luks) | |
# We call plug_vifs before the compute manager calls | |
# ensure_filtering_rules_for_instance, to ensure bridge is set up | |
# Retry operation is necessary because continuously request comes, | |
# concurrent request occurs to iptables, then it complains. | |
LOG.debug('Plugging VIFs before live migration.', instance=instance) | |
max_retry = CONF.live_migration_retry_count | |
for cnt in range(max_retry): | |
try: | |
self.plug_vifs(instance, network_info) | |
break | |
except processutils.ProcessExecutionError: | |
if cnt == max_retry - 1: | |
raise | |
else: | |
LOG.warning('plug_vifs() failed %(cnt)d. Retry up to ' | |
'%(max_retry)d.', | |
{'cnt': cnt, 'max_retry': max_retry}, | |
instance=instance) | |
greenthread.sleep(1) | |
# Store server_listen and latest disk device info | |
if not migrate_data: | |
migrate_data = objects.LibvirtLiveMigrateData(bdms=[]) | |
else: | |
migrate_data.bdms = [] | |
# Store live_migration_inbound_addr | |
migrate_data.target_connect_addr = \ | |
CONF.libvirt.live_migration_inbound_addr | |
migrate_data.supported_perf_events = self._supported_perf_events | |
migrate_data.serial_listen_ports = [] | |
if CONF.serial_console.enabled: | |
num_ports = hardware.get_number_of_serial_ports( | |
instance.flavor, instance.image_meta) | |
for port in six.moves.range(num_ports): | |
migrate_data.serial_listen_ports.append( | |
serial_console.acquire_port( | |
migrate_data.serial_listen_addr)) | |
for vol in block_device_mapping: | |
connection_info = vol['connection_info'] | |
if connection_info.get('serial'): | |
disk_info = blockinfo.get_info_from_bdm( | |
instance, CONF.libvirt.virt_type, | |
instance.image_meta, vol) | |
bdmi = objects.LibvirtLiveMigrateBDMInfo() | |
bdmi.serial = connection_info['serial'] | |
bdmi.connection_info = connection_info | |
bdmi.bus = disk_info['bus'] | |
bdmi.dev = disk_info['dev'] | |
bdmi.type = disk_info['type'] | |
bdmi.format = disk_info.get('format') | |
bdmi.boot_index = disk_info.get('boot_index') | |
volume_secret = self._host.find_secret('volume', vol.volume_id) | |
if volume_secret: | |
bdmi.encryption_secret_uuid = volume_secret.UUIDString() | |
migrate_data.bdms.append(bdmi) | |
return migrate_data | |
def _try_fetch_image_cache(self, image, fetch_func, context, filename, | |
image_id, instance, size, | |
fallback_from_host=None): | |
try: | |
image.cache(fetch_func=fetch_func, | |
context=context, | |
filename=filename, | |
image_id=image_id, | |
size=size) | |
except exception.ImageNotFound: | |
if not fallback_from_host: | |
raise | |
LOG.debug("Image %(image_id)s doesn't exist anymore " | |
"on image service, attempting to copy " | |
"image from %(host)s", | |
{'image_id': image_id, 'host': fallback_from_host}, | |
instance=instance) | |
def copy_from_host(target): | |
libvirt_utils.copy_image(src=target, | |
dest=target, | |
host=fallback_from_host, | |
receive=True) | |
image.cache(fetch_func=copy_from_host, | |
filename=filename) | |
def _create_images_and_backing(self, context, instance, instance_dir, | |
disk_info, fallback_from_host=None): | |
""":param context: security context | |
:param instance: | |
nova.db.sqlalchemy.models.Instance object | |
instance object that is migrated. | |
:param instance_dir: | |
instance path to use, calculated externally to handle block | |
migrating an instance with an old style instance path | |
:param disk_info: | |
disk info specified in _get_instance_disk_info_from_config | |
(list of dicts) | |
:param fallback_from_host: | |
host where we can retrieve images if the glance images are | |
not available. | |
""" | |
# Virtuozzo containers don't use backing file | |
if (CONF.libvirt.virt_type == "parallels" and | |
instance.vm_mode == fields.VMMode.EXE): | |
return | |
if not disk_info: | |
disk_info = [] | |
for info in disk_info: | |
base = os.path.basename(info['path']) | |
# Get image type and create empty disk image, and | |
# create backing file in case of qcow2. | |
instance_disk = os.path.join(instance_dir, base) | |
if not info['backing_file'] and not os.path.exists(instance_disk): | |
libvirt_utils.create_image(info['type'], instance_disk, | |
info['virt_disk_size']) | |
elif info['backing_file']: | |
# Creating backing file follows same way as spawning instances. | |
cache_name = os.path.basename(info['backing_file']) | |
disk = self.image_backend.by_name(instance, instance_disk, | |
CONF.libvirt.images_type) | |
if cache_name.startswith('ephemeral'): | |
# The argument 'size' is used by image.cache to | |
# validate disk size retrieved from cache against | |
# the instance disk size (should always return OK) | |
# and ephemeral_size is used by _create_ephemeral | |
# to build the image if the disk is not already | |
# cached. | |
disk.cache( | |
fetch_func=self._create_ephemeral, | |
fs_label=cache_name, | |
os_type=instance.os_type, | |
filename=cache_name, | |
size=info['virt_disk_size'], | |
ephemeral_size=info['virt_disk_size'] / units.Gi) | |
elif cache_name.startswith('swap'): | |
inst_type = instance.get_flavor() | |
swap_mb = inst_type.swap | |
disk.cache(fetch_func=self._create_swap, | |
filename="swap_%s" % swap_mb, | |
size=swap_mb * units.Mi, | |
swap_mb=swap_mb) | |
else: | |
self._try_fetch_image_cache(disk, | |
libvirt_utils.fetch_image, | |
context, cache_name, | |
instance.image_ref, | |
instance, | |
info['virt_disk_size'], | |
fallback_from_host) | |
# if disk has kernel and ramdisk, just download | |
# following normal way. | |
self._fetch_instance_kernel_ramdisk( | |
context, instance, fallback_from_host=fallback_from_host) | |
def post_live_migration(self, context, instance, block_device_info, | |
migrate_data=None): | |
# Disconnect from volume server | |
block_device_mapping = driver.block_device_info_get_mapping( | |
block_device_info) | |
volume_api = self._volume_api | |
for vol in block_device_mapping: | |
volume_id = vol['connection_info']['serial'] | |
if vol['attachment_id'] is None: | |
# Cinder v2 api flow: Retrieve connection info from Cinder's | |
# initialize_connection API. The info returned will be | |
# accurate for the source server. | |
connector = self.get_volume_connector(instance) | |
connection_info = volume_api.initialize_connection( | |
context, volume_id, connector) | |
else: | |
# cinder v3.44 api flow: Retrieve the connection_info for | |
# the old attachment from cinder. | |
old_attachment_id = \ | |
migrate_data.old_vol_attachment_ids[volume_id] | |
old_attachment = volume_api.attachment_get( | |
context, old_attachment_id) | |
connection_info = old_attachment['connection_info'] | |
# TODO(leeantho) The following multipath_id logic is temporary | |
# and will be removed in the future once os-brick is updated | |
# to handle multipath for drivers in a more efficient way. | |
# For now this logic is needed to ensure the connection info | |
# data is correct. | |
# Pull out multipath_id from the bdm information. The | |
# multipath_id can be placed into the connection info | |
# because it is based off of the volume and will be the | |
# same on the source and destination hosts. | |
if 'multipath_id' in vol['connection_info']['data']: | |
multipath_id = vol['connection_info']['data']['multipath_id'] | |
connection_info['data']['multipath_id'] = multipath_id | |
self._disconnect_volume(context, connection_info, instance) | |
def post_live_migration_at_source(self, context, instance, network_info): | |
"""Unplug VIFs from networks at source. | |
:param context: security context | |
:param instance: instance object reference | |
:param network_info: instance network information | |
""" | |
self.unplug_vifs(instance, network_info) | |
def post_live_migration_at_destination(self, context, | |
instance, | |
network_info, | |
block_migration=False, | |
block_device_info=None): | |
"""Post operation of live migration at destination host. | |
:param context: security context | |
:param instance: | |
nova.db.sqlalchemy.models.Instance object | |
instance object that is migrated. | |
:param network_info: instance network information | |
:param block_migration: if true, post operation of block_migration. | |
""" | |
# The source node set the VIR_MIGRATE_PERSIST_DEST flag when live | |
# migrating so the guest xml should already be persisted on the | |
# destination host, so just perform a sanity check to make sure it | |
# made it as expected. | |
self._host.get_guest(instance) | |
def _get_instance_disk_info_from_config(self, guest_config, | |
block_device_info): | |
"""Get the non-volume disk information from the domain xml | |
:param LibvirtConfigGuest guest_config: the libvirt domain config | |
for the instance | |
:param dict block_device_info: block device info for BDMs | |
:returns disk_info: list of dicts with keys: | |
* 'type': the disk type (str) | |
* 'path': the disk path (str) | |
* 'virt_disk_size': the virtual disk size (int) | |
* 'backing_file': backing file of a disk image (str) | |
* 'disk_size': physical disk size (int) | |
* 'over_committed_disk_size': virt_disk_size - disk_size or 0 | |
""" | |
block_device_mapping = driver.block_device_info_get_mapping( | |
block_device_info) | |
volume_devices = set() | |
for vol in block_device_mapping: | |
disk_dev = vol['mount_device'].rpartition("/")[2] | |
volume_devices.add(disk_dev) | |
disk_info = [] | |
if (guest_config.virt_type == 'parallels' and | |
guest_config.os_type == fields.VMMode.EXE): | |
node_type = 'filesystem' | |
else: | |
node_type = 'disk' | |
for device in guest_config.devices: | |
if device.root_name != node_type: | |
continue | |
disk_type = device.source_type | |
if device.root_name == 'filesystem': | |
target = device.target_dir | |
if device.source_type == 'file': | |
path = device.source_file | |
elif device.source_type == 'block': | |
path = device.source_dev | |
else: | |
path = None | |
else: | |
target = device.target_dev | |
path = device.source_path | |
if not path: | |
LOG.debug('skipping disk for %s as it does not have a path', | |
guest_config.name) | |
continue | |
if disk_type not in ['file', 'block']: | |
LOG.debug('skipping disk because it looks like a volume', path) | |
continue | |
if target in volume_devices: | |
LOG.debug('skipping disk %(path)s (%(target)s) as it is a ' | |
'volume', {'path': path, 'target': target}) | |
continue | |
if device.root_name == 'filesystem': | |
driver_type = device.driver_type | |
else: | |
driver_type = device.driver_format | |
# get the real disk size or | |
# raise a localized error if image is unavailable | |
if disk_type == 'file': | |
if driver_type == 'ploop': | |
dk_size = 0 | |
for dirpath, dirnames, filenames in os.walk(path): | |
for f in filenames: | |
fp = os.path.join(dirpath, f) | |
dk_size += os.path.getsize(fp) | |
else: | |
dk_size = int(os.path.getsize(path)) | |
elif disk_type == 'block' and block_device_info: | |
dk_size = lvm.get_volume_size(path) | |
else: | |
LOG.debug('skipping disk %(path)s (%(target)s) - unable to ' | |
'determine if volume', | |
{'path': path, 'target': target}) | |
continue | |
if driver_type in ("qcow2", "ploop"): | |
backing_file = libvirt_utils.get_disk_backing_file(path) | |
virt_size = disk_api.get_disk_size(path) | |
over_commit_size = int(virt_size) - dk_size | |
else: | |
backing_file = "" | |
virt_size = dk_size | |
over_commit_size = 0 | |
disk_info.append({'type': driver_type, | |
'path': path, | |
'virt_disk_size': virt_size, | |
'backing_file': backing_file, | |
'disk_size': dk_size, | |
'over_committed_disk_size': over_commit_size}) | |
return disk_info | |
def _get_instance_disk_info(self, instance, block_device_info): | |
try: | |
guest = self._host.get_guest(instance) | |
config = guest.get_config() | |
except libvirt.libvirtError as ex: | |
error_code = ex.get_error_code() | |
LOG.warning('Error from libvirt while getting description of ' | |
'%(instance_name)s: [Error Code %(error_code)s] ' | |
'%(ex)s', | |
{'instance_name': instance.name, | |
'error_code': error_code, | |
'ex': encodeutils.exception_to_unicode(ex)}, | |
instance=instance) | |
raise exception.InstanceNotFound(instance_id=instance.uuid) | |
return self._get_instance_disk_info_from_config(config, | |
block_device_info) | |
def get_instance_disk_info(self, instance, | |
block_device_info=None): | |
return jsonutils.dumps( | |
self._get_instance_disk_info(instance, block_device_info)) | |
def _get_disk_over_committed_size_total(self): | |
"""Return total over committed disk size for all instances.""" | |
# Disk size that all instance uses : virtual_size - disk_size | |
disk_over_committed_size = 0 | |
instance_domains = self._host.list_instance_domains(only_running=False) | |
if not instance_domains: | |
return disk_over_committed_size | |
# Get all instance uuids | |
instance_uuids = [dom.UUIDString() for dom in instance_domains] | |
ctx = nova_context.get_admin_context() | |
# Get instance object list by uuid filter | |
filters = {'uuid': instance_uuids} | |
# NOTE(ankit): objects.InstanceList.get_by_filters method is | |
# getting called twice one is here and another in the | |
# _update_available_resource method of resource_tracker. Since | |
# _update_available_resource method is synchronized, there is a | |
# possibility the instances list retrieved here to calculate | |
# disk_over_committed_size would differ to the list you would get | |
# in _update_available_resource method for calculating usages based | |
# on instance utilization. | |
local_instance_list = objects.InstanceList.get_by_filters( | |
ctx, filters, use_slave=True) | |
# Convert instance list to dictionary with instance uuid as key. | |
local_instances = {inst.uuid: inst for inst in local_instance_list} | |
# Get bdms by instance uuids | |
bdms = objects.BlockDeviceMappingList.bdms_by_instance_uuid( | |
ctx, instance_uuids) | |
for dom in instance_domains: | |
try: | |
guest = libvirt_guest.Guest(dom) | |
config = guest.get_config() | |
block_device_info = None | |
if guest.uuid in local_instances \ | |
and (bdms and guest.uuid in bdms): | |
# Get block device info for instance | |
block_device_info = driver.get_block_device_info( | |
local_instances[guest.uuid], bdms[guest.uuid]) | |
disk_infos = self._get_instance_disk_info_from_config( | |
config, block_device_info) | |
if not disk_infos: | |
continue | |
for info in disk_infos: | |
disk_over_committed_size += int( | |
info['over_committed_disk_size']) | |
except libvirt.libvirtError as ex: | |
error_code = ex.get_error_code() | |
LOG.warning( | |
'Error from libvirt while getting description of ' | |
'%(instance_name)s: [Error Code %(error_code)s] %(ex)s', | |
{'instance_name': guest.name, | |
'error_code': error_code, | |
'ex': encodeutils.exception_to_unicode(ex)}) | |
except OSError as e: | |
if e.errno in (errno.ENOENT, errno.ESTALE): | |
LOG.warning('Periodic task is updating the host stat, ' | |
'it is trying to get disk %(i_name)s, ' | |
'but disk file was removed by concurrent ' | |
'operations such as resize.', | |
{'i_name': guest.name}) | |
elif e.errno == errno.EACCES: | |
LOG.warning('Periodic task is updating the host stat, ' | |
'it is trying to get disk %(i_name)s, ' | |
'but access is denied. It is most likely ' | |
'due to a VM that exists on the compute ' | |
'node but is not managed by Nova.', | |
{'i_name': guest.name}) | |
else: | |
raise | |
except exception.VolumeBDMPathNotFound as e: | |
LOG.warning('Periodic task is updating the host stats, ' | |
'it is trying to get disk info for %(i_name)s, ' | |
'but the backing volume block device was removed ' | |
'by concurrent operations such as resize. ' | |
'Error: %(error)s', | |
{'i_name': guest.name, 'error': e}) | |
# NOTE(gtt116): give other tasks a chance. | |
greenthread.sleep(0) | |
return disk_over_committed_size | |
def unfilter_instance(self, instance, network_info): | |
"""See comments of same method in firewall_driver.""" | |
self.firewall_driver.unfilter_instance(instance, | |
network_info=network_info) | |
def get_available_nodes(self, refresh=False): | |
return [self._host.get_hostname()] | |
def get_host_cpu_stats(self): | |
"""Return the current CPU state of the host.""" | |
return self._host.get_cpu_stats() | |
def get_host_uptime(self): | |
"""Returns the result of calling "uptime".""" | |
out, err = utils.execute('env', 'LANG=C', 'uptime') | |
return out | |
def manage_image_cache(self, context, all_instances): | |
"""Manage the local cache of images.""" | |
self.image_cache_manager.update(context, all_instances) | |
def _cleanup_remote_migration(self, dest, inst_base, inst_base_resize, | |
shared_storage=False): | |
"""Used only for cleanup in case migrate_disk_and_power_off fails.""" | |
try: | |
if os.path.exists(inst_base_resize): | |
utils.execute('rm', '-rf', inst_base) | |
utils.execute('mv', inst_base_resize, inst_base) | |
if not shared_storage: | |
self._remotefs.remove_dir(dest, inst_base) | |
except Exception: | |
pass | |
def _is_storage_shared_with(self, dest, inst_base): | |
# NOTE (rmk): There are two methods of determining whether we are | |
# on the same filesystem: the source and dest IP are the | |
# same, or we create a file on the dest system via SSH | |
# and check whether the source system can also see it. | |
# NOTE (drwahl): Actually, there is a 3rd way: if images_type is rbd, | |
# it will always be shared storage | |
if CONF.libvirt.images_type == 'rbd': | |
return True | |
shared_storage = (dest == self.get_host_ip_addr()) | |
if not shared_storage: | |
tmp_file = uuidutils.generate_uuid(dashed=False) + '.tmp' | |
tmp_path = os.path.join(inst_base, tmp_file) | |
try: | |
self._remotefs.create_file(dest, tmp_path) | |
if os.path.exists(tmp_path): | |
shared_storage = True | |
os.unlink(tmp_path) | |
else: | |
self._remotefs.remove_file(dest, tmp_path) | |
except Exception: | |
pass | |
return shared_storage | |
def migrate_disk_and_power_off(self, context, instance, dest, | |
flavor, network_info, | |
block_device_info=None, | |
timeout=0, retry_interval=0): | |
LOG.debug("Starting migrate_disk_and_power_off", | |
instance=instance) | |
ephemerals = driver.block_device_info_get_ephemerals(block_device_info) | |
# get_bdm_ephemeral_disk_size() will return 0 if the new | |
# instance's requested block device mapping contain no | |
# ephemeral devices. However, we still want to check if | |
# the original instance's ephemeral_gb property was set and | |
# ensure that the new requested flavor ephemeral size is greater | |
eph_size = (block_device.get_bdm_ephemeral_disk_size(ephemerals) or | |
instance.flavor.ephemeral_gb) | |
# Checks if the migration needs a disk resize down. | |
root_down = flavor.root_gb < instance.flavor.root_gb | |
ephemeral_down = flavor.ephemeral_gb < eph_size | |
booted_from_volume = self._is_booted_from_volume(block_device_info) | |
if (root_down and not booted_from_volume) or ephemeral_down: | |
reason = _("Unable to resize disk down.") | |
raise exception.InstanceFaultRollback( | |
exception.ResizeError(reason=reason)) | |
# NOTE(dgenin): Migration is not implemented for LVM backed instances. | |
if CONF.libvirt.images_type == 'lvm' and not booted_from_volume: | |
reason = _("Migration is not supported for LVM backed instances") | |
raise exception.InstanceFaultRollback( | |
exception.MigrationPreCheckError(reason=reason)) | |
# copy disks to destination | |
# rename instance dir to +_resize at first for using | |
# shared storage for instance dir (eg. NFS). | |
inst_base = libvirt_utils.get_instance_path(instance) | |
inst_base_resize = inst_base + "_resize" | |
shared_storage = self._is_storage_shared_with(dest, inst_base) | |
# try to create the directory on the remote compute node | |
# if this fails we pass the exception up the stack so we can catch | |
# failures here earlier | |
if not shared_storage: | |
try: | |
self._remotefs.create_dir(dest, inst_base) | |
except processutils.ProcessExecutionError as e: | |
reason = _("not able to execute ssh command: %s") % e | |
raise exception.InstanceFaultRollback( | |
exception.ResizeError(reason=reason)) | |
self.power_off(instance, timeout, retry_interval) | |
block_device_mapping = driver.block_device_info_get_mapping( | |
block_device_info) | |
for vol in block_device_mapping: | |
connection_info = vol['connection_info'] | |
self._disconnect_volume(context, connection_info, instance) | |
disk_info = self._get_instance_disk_info(instance, block_device_info) | |
try: | |
utils.execute('mv', inst_base, inst_base_resize) | |
# if we are migrating the instance with shared storage then | |
# create the directory. If it is a remote node the directory | |
# has already been created | |
if shared_storage: | |
dest = None | |
fileutils.ensure_tree(inst_base) | |
on_execute = lambda process: \ | |
self.job_tracker.add_job(instance, process.pid) | |
on_completion = lambda process: \ | |
self.job_tracker.remove_job(instance, process.pid) | |
for info in disk_info: | |
# assume inst_base == dirname(info['path']) | |
img_path = info['path'] | |
fname = os.path.basename(img_path) | |
from_path = os.path.join(inst_base_resize, fname) | |
# We will not copy over the swap disk here, and rely on | |
# finish_migration to re-create it for us. This is ok because | |
# the OS is shut down, and as recreating a swap disk is very | |
# cheap it is more efficient than copying either locally or | |
# over the network. This also means we don't have to resize it. | |
if fname == 'disk.swap': | |
continue | |
compression = info['type'] not in NO_COMPRESSION_TYPES | |
libvirt_utils.copy_image(from_path, img_path, host=dest, | |
on_execute=on_execute, | |
on_completion=on_completion, | |
compression=compression) | |
# Ensure disk.info is written to the new path to avoid disks being | |
# reinspected and potentially changing format. | |
src_disk_info_path = os.path.join(inst_base_resize, 'disk.info') | |
if os.path.exists(src_disk_info_path): | |
dst_disk_info_path = os.path.join(inst_base, 'disk.info') | |
libvirt_utils.copy_image(src_disk_info_path, | |
dst_disk_info_path, | |
host=dest, on_execute=on_execute, | |
on_completion=on_completion) | |
except Exception: | |
with excutils.save_and_reraise_exception(): | |
self._cleanup_remote_migration(dest, inst_base, | |
inst_base_resize, | |
shared_storage) | |
return jsonutils.dumps(disk_info) | |
def _wait_for_running(self, instance): | |
state = self.get_info(instance).state | |
if state == power_state.RUNNING: | |
LOG.info("Instance running successfully.", instance=instance) | |
raise loopingcall.LoopingCallDone() | |
@staticmethod | |
def _disk_raw_to_qcow2(path): | |
"""Converts a raw disk to qcow2.""" | |
path_qcow = path + '_qcow' | |
utils.execute('qemu-img', 'convert', '-f', 'raw', | |
'-O', 'qcow2', path, path_qcow) | |
utils.execute('mv', path_qcow, path) | |
@staticmethod | |
def _disk_qcow2_to_raw(path): | |
"""Converts a qcow2 disk to raw.""" | |
path_raw = path + '_raw' | |
utils.execute('qemu-img', 'convert', '-f', 'qcow2', | |
'-O', 'raw', path, path_raw) | |
utils.execute('mv', path_raw, path) | |
def finish_migration(self, context, migration, instance, disk_info, | |
network_info, image_meta, resize_instance, | |
block_device_info=None, power_on=True): | |
LOG.debug("Starting finish_migration", instance=instance) | |
block_disk_info = blockinfo.get_disk_info(CONF.libvirt.virt_type, | |
instance, | |
image_meta, | |
block_device_info) | |
# assume _create_image does nothing if a target file exists. | |
# NOTE: This has the intended side-effect of fetching a missing | |
# backing file. | |
self._create_image(context, instance, block_disk_info['mapping'], | |
block_device_info=block_device_info, | |
ignore_bdi_for_swap=True, | |
fallback_from_host=migration.source_compute) | |
# Required by Quobyte CI | |
self._ensure_console_log_for_instance(instance) | |
gen_confdrive = functools.partial( | |
self._create_configdrive, context, instance, | |
InjectionInfo(admin_pass=None, network_info=network_info, | |
files=None)) | |
# Convert raw disks to qcow2 if migrating to host which uses | |
# qcow2 from host which uses raw. | |
disk_info = jsonutils.loads(disk_info) | |
for info in disk_info: | |
path = info['path'] | |
disk_name = os.path.basename(path) | |
# NOTE(mdbooth): The code below looks wrong, but is actually | |
# required to prevent a security hole when migrating from a host | |
# with use_cow_images=False to one with use_cow_images=True. | |
# Imagebackend uses use_cow_images to select between the | |
# atrociously-named-Raw and Qcow2 backends. The Qcow2 backend | |
# writes to disk.info, but does not read it as it assumes qcow2. | |
# Therefore if we don't convert raw to qcow2 here, a raw disk will | |
# be incorrectly assumed to be qcow2, which is a severe security | |
# flaw. The reverse is not true, because the atrociously-named-Raw | |
# backend supports both qcow2 and raw disks, and will choose | |
# appropriately between them as long as disk.info exists and is | |
# correctly populated, which it is because Qcow2 writes to | |
# disk.info. | |
# | |
# In general, we do not yet support format conversion during | |
# migration. For example: | |
# * Converting from use_cow_images=True to use_cow_images=False | |
# isn't handled. This isn't a security bug, but is almost | |
# certainly buggy in other cases, as the 'Raw' backend doesn't | |
# expect a backing file. | |
# * Converting to/from lvm and rbd backends is not supported. | |
# | |
# This behaviour is inconsistent, and therefore undesirable for | |
# users. It is tightly-coupled to implementation quirks of 2 | |
# out of 5 backends in imagebackend and defends against a severe | |
# security flaw which is not at all obvious without deep analysis, | |
# and is therefore undesirable to developers. We should aim to | |
# remove it. This will not be possible, though, until we can | |
# represent the storage layout of a specific instance | |
# independent of the default configuration of the local compute | |
# host. | |
# Config disks are hard-coded to be raw even when | |
# use_cow_images=True (see _get_disk_config_image_type),so don't | |
# need to be converted. | |
if (disk_name != 'disk.config' and | |
info['type'] == 'raw' and CONF.use_cow_images): | |
self._disk_raw_to_qcow2(info['path']) | |
xml = self._get_guest_xml(context, instance, network_info, | |
block_disk_info, image_meta, | |
block_device_info=block_device_info) | |
# NOTE(mriedem): vifs_already_plugged=True here, regardless of whether | |
# or not we've migrated to another host, because we unplug VIFs locally | |
# and the status change in the port might go undetected by the neutron | |
# L2 agent (or neutron server) so neutron may not know that the VIF was | |
# unplugged in the first place and never send an event. | |
guest = self._create_domain_and_network(context, xml, instance, | |
network_info, | |
block_device_info=block_device_info, | |
power_on=power_on, | |
vifs_already_plugged=True, | |
post_xml_callback=gen_confdrive) | |
if power_on: | |
timer = loopingcall.FixedIntervalLoopingCall( | |
self._wait_for_running, | |
instance) | |
timer.start(interval=0.5).wait() | |
# Sync guest time after migration. | |
guest.sync_guest_time() | |
LOG.debug("finish_migration finished successfully.", instance=instance) | |
def _cleanup_failed_migration(self, inst_base): | |
"""Make sure that a failed migrate doesn't prevent us from rolling | |
back in a revert. | |
""" | |
try: | |
shutil.rmtree(inst_base) | |
except OSError as e: | |
if e.errno != errno.ENOENT: | |
raise | |
def finish_revert_migration(self, context, instance, network_info, | |
block_device_info=None, power_on=True): | |
LOG.debug("Starting finish_revert_migration", | |
instance=instance) | |
inst_base = libvirt_utils.get_instance_path(instance) | |
inst_base_resize = inst_base + "_resize" | |
# NOTE(danms): if we're recovering from a failed migration, | |
# make sure we don't have a left-over same-host base directory | |
# that would conflict. Also, don't fail on the rename if the | |
# failure happened early. | |
if os.path.exists(inst_base_resize): | |
self._cleanup_failed_migration(inst_base) | |
utils.execute('mv', inst_base_resize, inst_base) | |
root_disk = self.image_backend.by_name(instance, 'disk') | |
# Once we rollback, the snapshot is no longer needed, so remove it | |
# TODO(nic): Remove the try/except/finally in a future release | |
# To avoid any upgrade issues surrounding instances being in pending | |
# resize state when the software is updated, this portion of the | |
# method logs exceptions rather than failing on them. Once it can be | |
# reasonably assumed that no such instances exist in the wild | |
# anymore, the try/except/finally should be removed, | |
# and ignore_errors should be set back to False (the default) so | |
# that problems throw errors, like they should. | |
if root_disk.exists(): | |
try: | |
root_disk.rollback_to_snap(libvirt_utils.RESIZE_SNAPSHOT_NAME) | |
except exception.SnapshotNotFound: | |
LOG.warning("Failed to rollback snapshot (%s)", | |
libvirt_utils.RESIZE_SNAPSHOT_NAME) | |
finally: | |
root_disk.remove_snap(libvirt_utils.RESIZE_SNAPSHOT_NAME, | |
ignore_errors=True) | |
disk_info = blockinfo.get_disk_info(CONF.libvirt.virt_type, | |
instance, | |
instance.image_meta, | |
block_device_info) | |
xml = self._get_guest_xml(context, instance, network_info, disk_info, | |
instance.image_meta, | |
block_device_info=block_device_info) | |
self._create_domain_and_network(context, xml, instance, network_info, | |
block_device_info=block_device_info, | |
power_on=power_on, | |
vifs_already_plugged=True) | |
if power_on: | |
timer = loopingcall.FixedIntervalLoopingCall( | |
self._wait_for_running, | |
instance) | |
timer.start(interval=0.5).wait() | |
LOG.debug("finish_revert_migration finished successfully.", | |
instance=instance) | |
def confirm_migration(self, context, migration, instance, network_info): | |
"""Confirms a resize, destroying the source VM.""" | |
self._cleanup_resize(context, instance, network_info) | |
@staticmethod | |
def _get_io_devices(xml_doc): | |
"""get the list of io devices from the xml document.""" | |
result = {"volumes": [], "ifaces": []} | |
try: | |
doc = etree.fromstring(xml_doc) | |
except Exception: | |
return result | |
blocks = [('./devices/disk', 'volumes'), | |
('./devices/interface', 'ifaces')] | |
for block, key in blocks: | |
section = doc.findall(block) | |
for node in section: | |
for child in node.getchildren(): | |
if child.tag == 'target' and child.get('dev'): | |
result[key].append(child.get('dev')) | |
return result | |
def get_diagnostics(self, instance): | |
guest = self._host.get_guest(instance) | |
# TODO(sahid): We are converting all calls from a | |
# virDomain object to use nova.virt.libvirt.Guest. | |
# We should be able to remove domain at the end. | |
domain = guest._domain | |
output = {} | |
# get cpu time, might launch an exception if the method | |
# is not supported by the underlying hypervisor being | |
# used by libvirt | |
try: | |
for vcpu in guest.get_vcpus_info(): | |
output["cpu" + str(vcpu.id) + "_time"] = vcpu.time | |
except libvirt.libvirtError: | |
pass | |
# get io status | |
xml = guest.get_xml_desc() | |
dom_io = LibvirtDriver._get_io_devices(xml) | |
for guest_disk in dom_io["volumes"]: | |
try: | |
# blockStats might launch an exception if the method | |
# is not supported by the underlying hypervisor being | |
# used by libvirt | |
stats = domain.blockStats(guest_disk) | |
output[guest_disk + "_read_req"] = stats[0] | |
output[guest_disk + "_read"] = stats[1] | |
output[guest_disk + "_write_req"] = stats[2] | |
output[guest_disk + "_write"] = stats[3] | |
output[guest_disk + "_errors"] = stats[4] | |
except libvirt.libvirtError: | |
pass | |
for interface in dom_io["ifaces"]: | |
try: | |
# interfaceStats might launch an exception if the method | |
# is not supported by the underlying hypervisor being | |
# used by libvirt | |
stats = domain.interfaceStats(interface) | |
output[interface + "_rx"] = stats[0] | |
output[interface + "_rx_packets"] = stats[1] | |
output[interface + "_rx_errors"] = stats[2] | |
output[interface + "_rx_drop"] = stats[3] | |
output[interface + "_tx"] = stats[4] | |
output[interface + "_tx_packets"] = stats[5] | |
output[interface + "_tx_errors"] = stats[6] | |
output[interface + "_tx_drop"] = stats[7] | |
except libvirt.libvirtError: | |
pass | |
output["memory"] = domain.maxMemory() | |
# memoryStats might launch an exception if the method | |
# is not supported by the underlying hypervisor being | |
# used by libvirt | |
try: | |
mem = domain.memoryStats() | |
for key in mem.keys(): | |
output["memory-" + key] = mem[key] | |
except (libvirt.libvirtError, AttributeError): | |
pass | |
return output | |
def get_instance_diagnostics(self, instance): | |
guest = self._host.get_guest(instance) | |
# TODO(sahid): We are converting all calls from a | |
# virDomain object to use nova.virt.libvirt.Guest. | |
# We should be able to remove domain at the end. | |
domain = guest._domain | |
xml = guest.get_xml_desc() | |
xml_doc = etree.fromstring(xml) | |
# TODO(sahid): Needs to use get_info but more changes have to | |
# be done since a mapping STATE_MAP LIBVIRT_POWER_STATE is | |
# needed. | |
(state, max_mem, mem, num_cpu, cpu_time) = \ | |
guest._get_domain_info(self._host) | |
config_drive = configdrive.required_by(instance) | |
launched_at = timeutils.normalize_time(instance.launched_at) | |
uptime = timeutils.delta_seconds(launched_at, | |
timeutils.utcnow()) | |
diags = diagnostics_obj.Diagnostics(state=power_state.STATE_MAP[state], | |
driver='libvirt', | |
config_drive=config_drive, | |
hypervisor=CONF.libvirt.virt_type, | |
hypervisor_os='linux', | |
uptime=uptime) | |
diags.memory_details = diagnostics_obj.MemoryDiagnostics( | |
maximum=max_mem / units.Mi, | |
used=mem / units.Mi) | |
# get cpu time, might launch an exception if the method | |
# is not supported by the underlying hypervisor being | |
# used by libvirt | |
try: | |
for vcpu in guest.get_vcpus_info(): | |
diags.add_cpu(id=vcpu.id, time=vcpu.time) | |
except libvirt.libvirtError: | |
pass | |
# get io status | |
dom_io = LibvirtDriver._get_io_devices(xml) | |
for guest_disk in dom_io["volumes"]: | |
try: | |
# blockStats might launch an exception if the method | |
# is not supported by the underlying hypervisor being | |
# used by libvirt | |
stats = domain.blockStats(guest_disk) | |
diags.add_disk(read_bytes=stats[1], | |
read_requests=stats[0], | |
write_bytes=stats[3], | |
write_requests=stats[2], | |
errors_count=stats[4]) | |
except libvirt.libvirtError: | |
pass | |
for interface in dom_io["ifaces"]: | |
try: | |
# interfaceStats might launch an exception if the method | |
# is not supported by the underlying hypervisor being | |
# used by libvirt | |
stats = domain.interfaceStats(interface) | |
diags.add_nic(rx_octets=stats[0], | |
rx_errors=stats[2], | |
rx_drop=stats[3], | |
rx_packets=stats[1], | |
tx_octets=stats[4], | |
tx_errors=stats[6], | |
tx_drop=stats[7], | |
tx_packets=stats[5]) | |
except libvirt.libvirtError: | |
pass | |
# Update mac addresses of interface if stats have been reported | |
if diags.nic_details: | |
nodes = xml_doc.findall('./devices/interface/mac') | |
for index, node in enumerate(nodes): | |
diags.nic_details[index].mac_address = node.get('address') | |
return diags | |
@staticmethod | |
def _prepare_device_bus(dev): | |
"""Determines the device bus and its hypervisor assigned address | |
""" | |
bus = None | |
address = (dev.device_addr.format_address() if | |
dev.device_addr else None) | |
if isinstance(dev.device_addr, | |
vconfig.LibvirtConfigGuestDeviceAddressPCI): | |
bus = objects.PCIDeviceBus() | |
elif isinstance(dev, vconfig.LibvirtConfigGuestDisk): | |
if dev.target_bus == 'scsi': | |
bus = objects.SCSIDeviceBus() | |
elif dev.target_bus == 'ide': | |
bus = objects.IDEDeviceBus() | |
elif dev.target_bus == 'usb': | |
bus = objects.USBDeviceBus() | |
if address is not None and bus is not None: | |
bus.address = address | |
return bus | |
def _build_device_metadata(self, context, instance): | |
"""Builds a metadata object for instance devices, that maps the user | |
provided tag to the hypervisor assigned device address. | |
""" | |
def _get_device_name(bdm): | |
return block_device.strip_dev(bdm.device_name) | |
network_info = instance.info_cache.network_info | |
vlans_by_mac = netutils.get_cached_vifs_with_vlan(network_info) | |
vifs = objects.VirtualInterfaceList.get_by_instance_uuid(context, | |
instance.uuid) | |
vifs_to_expose = {vif.address: vif for vif in vifs | |
if ('tag' in vif and vif.tag) or | |
vlans_by_mac.get(vif.address)} | |
# TODO(mriedem): We should be able to avoid the DB query here by using | |
# block_device_info['block_device_mapping'] which is passed into most | |
# methods that call this function. | |
bdms = objects.BlockDeviceMappingList.get_by_instance_uuid( | |
context, instance.uuid) | |
tagged_bdms = {_get_device_name(bdm): bdm for bdm in bdms if bdm.tag} | |
devices = [] | |
guest = self._host.get_guest(instance) | |
xml = guest.get_xml_desc() | |
xml_dom = etree.fromstring(xml) | |
guest_config = vconfig.LibvirtConfigGuest() | |
guest_config.parse_dom(xml_dom) | |
for dev in guest_config.devices: | |
# Build network interfaces related metadata | |
if isinstance(dev, vconfig.LibvirtConfigGuestInterface): | |
vif = vifs_to_expose.get(dev.mac_addr) | |
if not vif: | |
continue | |
bus = self._prepare_device_bus(dev) | |
device = objects.NetworkInterfaceMetadata(mac=vif.address) | |
if 'tag' in vif and vif.tag: | |
device.tags = [vif.tag] | |
if bus: | |
device.bus = bus | |
vlan = vlans_by_mac.get(vif.address) | |
if vlan: | |
device.vlan = int(vlan) | |
devices.append(device) | |
# Build disks related metadata | |
if isinstance(dev, vconfig.LibvirtConfigGuestDisk): | |
bdm = tagged_bdms.get(dev.target_dev) | |
if not bdm: | |
continue | |
bus = self._prepare_device_bus(dev) | |
device = objects.DiskMetadata(tags=[bdm.tag]) | |
# NOTE(artom) Setting the serial (which corresponds to | |
# volume_id in BlockDeviceMapping) in DiskMetadata allows us to | |
# find the disks's BlockDeviceMapping object when we detach the | |
# volume and want to clean up its metadata. | |
device.serial = bdm.volume_id | |
if bus: | |
device.bus = bus | |
devices.append(device) | |
if devices: | |
dev_meta = objects.InstanceDeviceMetadata(devices=devices) | |
return dev_meta | |
def instance_on_disk(self, instance): | |
# ensure directories exist and are writable | |
instance_path = libvirt_utils.get_instance_path(instance) | |
LOG.debug('Checking instance files accessibility %s', instance_path, | |
instance=instance) | |
shared_instance_path = os.access(instance_path, os.W_OK) | |
# NOTE(flwang): For shared block storage scenario, the file system is | |
# not really shared by the two hosts, but the volume of evacuated | |
# instance is reachable. | |
shared_block_storage = (self.image_backend.backend(). | |
is_shared_block_storage()) | |
return shared_instance_path or shared_block_storage | |
def inject_network_info(self, instance, nw_info): | |
self.firewall_driver.setup_basic_filtering(instance, nw_info) | |
def delete_instance_files(self, instance): | |
target = libvirt_utils.get_instance_path(instance) | |
# A resize may be in progress | |
target_resize = target + '_resize' | |
# Other threads may attempt to rename the path, so renaming the path | |
# to target + '_del' (because it is atomic) and iterating through | |
# twice in the unlikely event that a concurrent rename occurs between | |
# the two rename attempts in this method. In general this method | |
# should be fairly thread-safe without these additional checks, since | |
# other operations involving renames are not permitted when the task | |
# state is not None and the task state should be set to something | |
# other than None by the time this method is invoked. | |
target_del = target + '_del' | |
for i in range(2): | |
try: | |
utils.execute('mv', target, target_del) | |
break | |
except Exception: | |
pass | |
try: | |
utils.execute('mv', target_resize, target_del) | |
break | |
except Exception: | |
pass | |
# Either the target or target_resize path may still exist if all | |
# rename attempts failed. | |
remaining_path = None | |
for p in (target, target_resize): | |
if os.path.exists(p): | |
remaining_path = p | |
break | |
# A previous delete attempt may have been interrupted, so target_del | |
# may exist even if all rename attempts during the present method | |
# invocation failed due to the absence of both target and | |
# target_resize. | |
if not remaining_path and os.path.exists(target_del): | |
self.job_tracker.terminate_jobs(instance) | |
LOG.info('Deleting instance files %s', target_del, | |
instance=instance) | |
remaining_path = target_del | |
try: | |
shutil.rmtree(target_del) | |
except OSError as e: | |
LOG.error('Failed to cleanup directory %(target)s: %(e)s', | |
{'target': target_del, 'e': e}, instance=instance) | |
# It is possible that the delete failed, if so don't mark the instance | |
# as cleaned. | |
if remaining_path and os.path.exists(remaining_path): | |
LOG.info('Deletion of %s failed', remaining_path, | |
instance=instance) | |
return False | |
LOG.info('Deletion of %s complete', target_del, instance=instance) | |
return True | |
@property | |
def need_legacy_block_device_info(self): | |
return False | |
def default_root_device_name(self, instance, image_meta, root_bdm): | |
disk_bus = blockinfo.get_disk_bus_for_device_type( | |
instance, CONF.libvirt.virt_type, image_meta, "disk") | |
cdrom_bus = blockinfo.get_disk_bus_for_device_type( | |
instance, CONF.libvirt.virt_type, image_meta, "cdrom") | |
root_info = blockinfo.get_root_info( | |
instance, CONF.libvirt.virt_type, image_meta, | |
root_bdm, disk_bus, cdrom_bus) | |
return block_device.prepend_dev(root_info['dev']) | |
def default_device_names_for_instance(self, instance, root_device_name, | |
*block_device_lists): | |
block_device_mapping = list(itertools.chain(*block_device_lists)) | |
# NOTE(ndipanov): Null out the device names so that blockinfo code | |
# will assign them | |
for bdm in block_device_mapping: | |
if bdm.device_name is not None: | |
LOG.warning( | |
"Ignoring supplied device name: %(device_name)s. " | |
"Libvirt can't honour user-supplied dev names", | |
{'device_name': bdm.device_name}, instance=instance) | |
bdm.device_name = None | |
block_device_info = driver.get_block_device_info(instance, | |
block_device_mapping) | |
blockinfo.default_device_names(CONF.libvirt.virt_type, | |
nova_context.get_admin_context(), | |
instance, | |
block_device_info, | |
instance.image_meta) | |
def get_device_name_for_instance(self, instance, bdms, block_device_obj): | |
block_device_info = driver.get_block_device_info(instance, bdms) | |
instance_info = blockinfo.get_disk_info( | |
CONF.libvirt.virt_type, instance, | |
instance.image_meta, block_device_info=block_device_info) | |
suggested_dev_name = block_device_obj.device_name | |
if suggested_dev_name is not None: | |
LOG.warning( | |
'Ignoring supplied device name: %(suggested_dev)s', | |
{'suggested_dev': suggested_dev_name}, instance=instance) | |
# NOTE(ndipanov): get_info_from_bdm will generate the new device name | |
# only when it's actually not set on the bd object | |
block_device_obj.device_name = None | |
disk_info = blockinfo.get_info_from_bdm( | |
instance, CONF.libvirt.virt_type, instance.image_meta, | |
block_device_obj, mapping=instance_info['mapping']) | |
return block_device.prepend_dev(disk_info['dev']) | |
def is_supported_fs_format(self, fs_type): | |
return fs_type in [disk_api.FS_FORMAT_EXT2, disk_api.FS_FORMAT_EXT3, | |
disk_api.FS_FORMAT_EXT4, disk_api.FS_FORMAT_XFS] |
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