# 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 collections import contextlib import errno import functools import glob import mmap import operator import os import random import shutil import sys import tempfile import time import uuid import eventlet from eventlet import greenthread from eventlet import tpool from lxml import etree from oslo_concurrency import processutils from oslo_config import cfg from oslo_log import log as logging from oslo_serialization import jsonutils from oslo_utils import encodeutils from oslo_utils import excutils from oslo_utils import importutils from oslo_utils import strutils from oslo_utils import timeutils from oslo_utils import units import six from nova.api.metadata import base as instance_metadata from nova import block_device from nova.compute import arch from nova.compute import hv_type from nova.compute import power_state from nova.compute import task_states from nova.compute import utils as compute_utils from nova.compute import vm_mode 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.i18n import _LE from nova.i18n import _LI from nova.i18n import _LW from nova import image from nova.network import model as network_model from nova import objects from nova.openstack.common import fileutils from nova.openstack.common import loopingcall from nova.pci import manager as pci_manager from nova.pci import utils as pci_utils 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 import diagnostics from nova.virt.disk import api as disk 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.libvirt import blockinfo from nova.virt.libvirt import config as vconfig from nova.virt.libvirt import dmcrypt from nova.virt.libvirt import firewall as libvirt_firewall from nova.virt.libvirt import host from nova.virt.libvirt import imagebackend from nova.virt.libvirt import imagecache from nova.virt.libvirt import lvm from nova.virt.libvirt import rbd_utils from nova.virt.libvirt import utils as libvirt_utils from nova.virt.libvirt import vif as libvirt_vif from nova.virt import netutils from nova.virt import watchdog_actions from nova import volume from nova.volume import encryptors libvirt = None LOG = logging.getLogger(__name__) libvirt_opts = [ cfg.StrOpt('rescue_image_id', help='Rescue ami image. This will not be used if an image id ' 'is provided by the user.'), cfg.StrOpt('rescue_kernel_id', help='Rescue aki image'), cfg.StrOpt('rescue_ramdisk_id', help='Rescue ari image'), cfg.StrOpt('virt_type', default='kvm', help='Libvirt domain type (valid options are: ' 'kvm, lxc, qemu, uml, xen and parallels)'), cfg.StrOpt('connection_uri', default='', help='Override the default libvirt URI ' '(which is dependent on virt_type)'), cfg.BoolOpt('inject_password', default=False, help='Inject the admin password at boot time, ' 'without an agent.'), cfg.BoolOpt('inject_key', default=False, help='Inject the ssh public key at boot time'), cfg.IntOpt('inject_partition', default=-2, help='The partition to inject to : ' '-2 => disable, -1 => inspect (libguestfs only), ' '0 => not partitioned, >0 => partition number'), cfg.BoolOpt('use_usb_tablet', default=True, help='Sync virtual and real mouse cursors in Windows VMs'), cfg.StrOpt('live_migration_uri', default="qemu+tcp://%s/system", help='Migration target URI ' '(any included "%s" is replaced with ' 'the migration target hostname)'), cfg.StrOpt('live_migration_flag', default='VIR_MIGRATE_UNDEFINE_SOURCE, VIR_MIGRATE_PEER2PEER, ' 'VIR_MIGRATE_LIVE, VIR_MIGRATE_TUNNELLED', help='Migration flags to be set for live migration'), cfg.StrOpt('block_migration_flag', default='VIR_MIGRATE_UNDEFINE_SOURCE, VIR_MIGRATE_PEER2PEER, ' 'VIR_MIGRATE_LIVE, VIR_MIGRATE_TUNNELLED, ' 'VIR_MIGRATE_NON_SHARED_INC', help='Migration flags to be set for block migration'), cfg.IntOpt('live_migration_bandwidth', default=0, help='Maximum bandwidth to be used during migration, in Mbps'), cfg.StrOpt('snapshot_image_format', help='Snapshot image format (valid options are : ' 'raw, qcow2, vmdk, vdi). ' 'Defaults to same as source image'), cfg.StrOpt('disk_prefix', help='Override the default disk prefix for the devices attached' ' to a server, which is dependent on virt_type. ' '(valid options are: sd, xvd, uvd, vd)'), cfg.IntOpt('wait_soft_reboot_seconds', default=120, help='Number of seconds to wait for instance to shut down after' ' soft reboot request is made. We fall back to hard reboot' ' if instance does not shutdown within this window.'), cfg.StrOpt('cpu_mode', help='Set to "host-model" to clone the host CPU feature flags; ' 'to "host-passthrough" to use the host CPU model exactly; ' 'to "custom" to use a named CPU model; ' 'to "none" to not set any CPU model. ' 'If virt_type="kvm|qemu", it will default to ' '"host-model", otherwise it will default to "none"'), cfg.StrOpt('cpu_model', help='Set to a named libvirt CPU model (see names listed ' 'in /usr/share/libvirt/cpu_map.xml). Only has effect if ' 'cpu_mode="custom" and virt_type="kvm|qemu"'), cfg.StrOpt('snapshots_directory', default='$instances_path/snapshots', help='Location where libvirt driver will store snapshots ' 'before uploading them to image service'), cfg.StrOpt('xen_hvmloader_path', default='/usr/lib/xen/boot/hvmloader', help='Location where the Xen hvmloader is kept'), cfg.ListOpt('disk_cachemodes', default=[], help='Specific cachemodes to use for different disk types ' 'e.g: file=directsync,block=none'), cfg.StrOpt('rng_dev_path', help='A path to a device that will be used as source of ' 'entropy on the host. Permitted options are: ' '/dev/random or /dev/hwrng'), cfg.ListOpt('hw_machine_type', help='For qemu or KVM guests, set this option to specify ' 'a default machine type per host architecture. ' 'You can find a list of supported machine types ' 'in your environment by checking the output of ' 'the "virsh capabilities"command. The format of the ' 'value for this config option is host-arch=machine-type. ' 'For example: x86_64=machinetype1,armv7l=machinetype2'), cfg.StrOpt('sysinfo_serial', default='auto', help='The data source used to the populate the host "serial" ' 'UUID exposed to guest in the virtual BIOS. Permitted ' 'options are "hardware", "os", "none" or "auto" ' '(default).'), cfg.IntOpt('mem_stats_period_seconds', default=10, help='A number of seconds to memory usage statistics period. ' 'Zero or negative value mean to disable memory usage ' 'statistics.'), cfg.ListOpt('uid_maps', default=[], help='List of uid targets and ranges.' 'Syntax is guest-uid:host-uid:count' 'Maximum of 5 allowed.'), cfg.ListOpt('gid_maps', default=[], help='List of guid targets and ranges.' 'Syntax is guest-gid:host-gid:count' 'Maximum of 5 allowed.') ] CONF = cfg.CONF CONF.register_opts(libvirt_opts, 'libvirt') CONF.import_opt('host', 'nova.netconf') CONF.import_opt('my_ip', 'nova.netconf') CONF.import_opt('default_ephemeral_format', 'nova.virt.driver') CONF.import_opt('use_cow_images', 'nova.virt.driver') CONF.import_opt('enabled', 'nova.compute.api', group='ephemeral_storage_encryption') CONF.import_opt('cipher', 'nova.compute.api', group='ephemeral_storage_encryption') CONF.import_opt('key_size', 'nova.compute.api', group='ephemeral_storage_encryption') CONF.import_opt('live_migration_retry_count', 'nova.compute.manager') CONF.import_opt('vncserver_proxyclient_address', 'nova.vnc') CONF.import_opt('server_proxyclient_address', 'nova.spice', group='spice') CONF.import_opt('vcpu_pin_set', 'nova.virt.hardware') CONF.import_opt('vif_plugging_is_fatal', 'nova.virt.driver') CONF.import_opt('vif_plugging_timeout', 'nova.virt.driver') CONF.import_opt('enabled', 'nova.console.serial', group='serial_console') CONF.import_opt('proxyclient_address', 'nova.console.serial', group='serial_console') CONF.import_opt('hw_disk_discard', 'nova.virt.libvirt.imagebackend', group='libvirt') CONF.import_group('workarounds', 'nova.utils') DEFAULT_FIREWALL_DRIVER = "%s.%s" % ( libvirt_firewall.__name__, libvirt_firewall.IptablesFirewallDriver.__name__) 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" GuestNumaConfig = collections.namedtuple( 'GuestNumaConfig', ['cpuset', 'cputune', 'numaconfig', 'numatune']) libvirt_volume_drivers = [ 'iscsi=nova.virt.libvirt.volume.LibvirtISCSIVolumeDriver', 'iser=nova.virt.libvirt.volume.LibvirtISERVolumeDriver', 'local=nova.virt.libvirt.volume.LibvirtVolumeDriver', 'fake=nova.virt.libvirt.volume.LibvirtFakeVolumeDriver', 'rbd=nova.virt.libvirt.volume.LibvirtNetVolumeDriver', 'sheepdog=nova.virt.libvirt.volume.LibvirtNetVolumeDriver', 'nfs=nova.virt.libvirt.volume.LibvirtNFSVolumeDriver', 'smbfs=nova.virt.libvirt.volume.LibvirtSMBFSVolumeDriver', 'aoe=nova.virt.libvirt.volume.LibvirtAOEVolumeDriver', 'glusterfs=nova.virt.libvirt.volume.LibvirtGlusterfsVolumeDriver', 'fibre_channel=nova.virt.libvirt.volume.LibvirtFibreChannelVolumeDriver', 'scality=nova.virt.libvirt.volume.LibvirtScalityVolumeDriver', 'gpfs=nova.virt.libvirt.volume.LibvirtGPFSVolumeDriver', 'quobyte=nova.virt.libvirt.volume.LibvirtQuobyteVolumeDriver', ] 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() VIR_DOMAIN_NOSTATE = 0 VIR_DOMAIN_RUNNING = 1 VIR_DOMAIN_BLOCKED = 2 VIR_DOMAIN_PAUSED = 3 VIR_DOMAIN_SHUTDOWN = 4 VIR_DOMAIN_SHUTOFF = 5 VIR_DOMAIN_CRASHED = 6 VIR_DOMAIN_PMSUSPENDED = 7 LIBVIRT_POWER_STATE = { VIR_DOMAIN_NOSTATE: power_state.NOSTATE, VIR_DOMAIN_RUNNING: power_state.RUNNING, # NOTE(maoy): The DOMAIN_BLOCKED state is only valid in Xen. # It means that the VM is running and the vCPU is idle. So, # we map it to RUNNING VIR_DOMAIN_BLOCKED: power_state.RUNNING, VIR_DOMAIN_PAUSED: power_state.PAUSED, # NOTE(maoy): The libvirt API doc says that DOMAIN_SHUTDOWN # means the domain is being shut down. So technically the domain # is still running. SHUTOFF is the real powered off state. # But we will map both to SHUTDOWN anyway. # http://libvirt.org/html/libvirt-libvirt.html VIR_DOMAIN_SHUTDOWN: power_state.SHUTDOWN, VIR_DOMAIN_SHUTOFF: power_state.SHUTDOWN, VIR_DOMAIN_CRASHED: power_state.CRASHED, VIR_DOMAIN_PMSUSPENDED: power_state.SUSPENDED, } MIN_LIBVIRT_VERSION = (0, 9, 11) # When the above version matches/exceeds this version # delete it & corresponding code using it MIN_LIBVIRT_DEVICE_CALLBACK_VERSION = (1, 1, 1) # Live snapshot requirements REQ_HYPERVISOR_LIVESNAPSHOT = "QEMU" MIN_LIBVIRT_LIVESNAPSHOT_VERSION = (1, 0, 0) MIN_QEMU_LIVESNAPSHOT_VERSION = (1, 3, 0) # block size tuning requirements MIN_LIBVIRT_BLOCKIO_VERSION = (0, 10, 2) # BlockJobInfo management requirement MIN_LIBVIRT_BLOCKJOBINFO_VERSION = (1, 1, 1) # Relative block commit (feature is detected, # this version is only used for messaging) MIN_LIBVIRT_BLOCKCOMMIT_RELATIVE_VERSION = (1, 2, 7) # libvirt discard feature MIN_LIBVIRT_DISCARD_VERSION = (1, 0, 6) MIN_QEMU_DISCARD_VERSION = (1, 6, 0) REQ_HYPERVISOR_DISCARD = "QEMU" # While earlier versions could support NUMA reporting and # NUMA placement, not until 1.2.7 was there the ability # to pin guest nodes to host nodes, so mandate that. Without # this the scheduler cannot make guaranteed decisions, as the # guest placement may not match what was requested MIN_LIBVIRT_NUMA_VERSION = (1, 2, 7) # While earlier versions could support hugepage backed # guests, not until 1.2.8 was there the ability to request # a particular huge page size. Without this the scheduler # cannot make guaranteed decisions, as the huge page size # used by the guest may not match what was requested MIN_LIBVIRT_HUGEPAGE_VERSION = (1, 2, 8) # missing libvirt cpu pinning support BAD_LIBVIRT_CPU_POLICY_VERSIONS = [(1, 2, 9, 2), (1, 2, 10)] # fsFreeze/fsThaw requirement MIN_LIBVIRT_FSFREEZE_VERSION = (1, 2, 5) # Hyper-V paravirtualized time source MIN_LIBVIRT_HYPERV_TIMER_VERSION = (1, 2, 2) MIN_QEMU_HYPERV_TIMER_VERSION = (2, 0, 0) MIN_LIBVIRT_HYPERV_FEATURE_VERSION = (1, 0, 0) MIN_LIBVIRT_HYPERV_FEATURE_EXTRA_VERSION = (1, 1, 0) MIN_QEMU_HYPERV_FEATURE_VERSION = (1, 1, 0) # parallels driver support MIN_LIBVIRT_PARALLELS_VERSION = (1, 2, 12) class LibvirtDriver(driver.ComputeDriver): capabilities = { "has_imagecache": True, "supports_recreate": True, "supports_migrate_to_same_host": False } def __init__(self, virtapi, read_only=False): super(LibvirtDriver, self).__init__(virtapi) global libvirt if libvirt is None: libvirt = importutils.import_module('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._vcpu_total = 0 self.firewall_driver = firewall.load_driver( DEFAULT_FIREWALL_DRIVER, self.virtapi, host=self._host) self.vif_driver = libvirt_vif.LibvirtGenericVIFDriver() self.volume_drivers = driver.driver_dict_from_config( self._get_volume_drivers(), self) 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.warn(_LW('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 = volume.API() self._image_api = image.API() self._events_delayed = {} # Note(toabctl): During a reboot of a Xen domain, STOPPED and # STARTED events are sent. To prevent shutting # down the domain during a reboot, delay the # STOPPED lifecycle event some seconds. if CONF.libvirt.virt_type == "xen": self._lifecycle_delay = 15 else: self._lifecycle_delay = 0 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) if not self._sysinfo_serial_func: raise exception.NovaException( _("Unexpected sysinfo_serial setting '%(actual)s'. " "Permitted values are %(expect)s'") % {'actual': CONF.libvirt.sysinfo_serial, 'expect': ', '.join("'%s'" % k for k in sysinfo_serial_funcs.keys())}) def _get_volume_drivers(self): return libvirt_volume_drivers @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 (eg GlusterFS via FUSE) 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 self._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 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 (arch.I686, arch.X86_64)): LOG.warn(_LW('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://wiki.openstack.org/wiki/' 'HypervisorSupportMatrix'), {'type': CONF.libvirt.virt_type, 'arch': hostarch}) def _handle_conn_event(self, enabled, reason): LOG.info(_LI("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() if (CONF.libvirt.virt_type == 'lxc' and not (CONF.libvirt.uid_maps and CONF.libvirt.gid_maps)): LOG.warn(_LW("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.NovaException( _('Nova requires libvirt version %s or greater.') % self._version_to_string(MIN_LIBVIRT_VERSION)) if (CONF.libvirt.virt_type == 'parallels' and not self._host.has_min_version(MIN_LIBVIRT_PARALLELS_VERSION)): raise exception.NovaException( _('Running Nova with parallels virt_type requires ' 'libvirt version %s') % self._version_to_string(MIN_LIBVIRT_PARALLELS_VERSION)) 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 def instance_exists(self, instance): """Efficient override of base instance_exists method.""" try: self._host.get_domain(instance) return True except exception.NovaException: return False def list_instances(self): names = [] for dom in self._host.list_instance_domains(only_running=False): names.append(dom.name()) return names def list_instance_uuids(self): uuids = [] for dom in self._host.list_instance_domains(only_running=False): uuids.append(dom.UUIDString()) 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') disk.teardown_container(container_dir, rootfs_dev) def _destroy(self, instance): try: virt_dom = self._host.get_domain(instance) except exception.InstanceNotFound: virt_dom = None # If the instance is already terminated, we're still happy # Otherwise, destroy it old_domid = -1 if virt_dom is not None: try: old_domid = virt_dom.ID() virt_dom.destroy() 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 = self._get_power_state(virt_dom) 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.warn(_LW("Cannot destroy instance, operation time " "out"), instance=instance) reason = _("operation time out") raise exception.InstancePowerOffFailure(reason=reason) if not is_okay: with excutils.save_and_reraise_exception(): LOG.error(_LE('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.id except exception.InstanceNotFound: LOG.info(_LI("During wait destroy, instance disappeared."), instance=instance) raise loopingcall.LoopingCallDone() if state == power_state.SHUTDOWN: LOG.info(_LI("Instance destroyed successfully."), instance=instance) raise loopingcall.LoopingCallDone() # NOTE(wangpan): If the instance was booted again after destroy, # this may be a 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(_LI("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(_LI("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, migrate_data=None): self._destroy(instance) self.cleanup(context, instance, network_info, block_device_info, destroy_disks, migrate_data) def _undefine_domain(self, instance): try: virt_dom = self._host.get_domain(instance) except exception.InstanceNotFound: virt_dom = None if virt_dom: try: try: virt_dom.undefineFlags( libvirt.VIR_DOMAIN_UNDEFINE_MANAGED_SAVE) except libvirt.libvirtError: LOG.debug("Error from libvirt during undefineFlags." " Retrying with undefine", instance=instance) virt_dom.undefine() except AttributeError: # NOTE(vish): Older versions of libvirt don't support # undefine flags, so attempt to do the # right thing. try: if virt_dom.hasManagedSaveImage(0): virt_dom.managedSaveRemove(0) except AttributeError: pass virt_dom.undefine() except libvirt.libvirtError as e: with excutils.save_and_reraise_exception(): errcode = e.get_error_code() LOG.error(_LE('Error from libvirt during undefine. ' 'Code=%(errcode)s Error=%(e)s'), {'errcode': errcode, 'e': e}, instance=instance) 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) retry = True while retry: try: self.unfilter_instance(instance, network_info) 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.warn(_LW("Instance may be still running, destroy " "it again."), instance=instance) self._destroy(instance) else: retry = False errcode = e.get_error_code() LOG.exception(_LE('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: retry = False raise else: retry = False # FIXME(wangpan): if the instance is booted again here, such as the # 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] if ('data' in connection_info and 'volume_id' in connection_info['data']): volume_id = connection_info['data']['volume_id'] encryption = encryptors.get_encryption_metadata( context, self._volume_api, volume_id, connection_info) if encryption: # The volume must be detached from the VM before # disconnecting it from its encryptor. Otherwise, the # encryptor may report that the volume is still in use. encryptor = self._get_volume_encryptor(connection_info, encryption) encryptor.detach_volume(**encryption) try: self._disconnect_volume(connection_info, disk_dev) 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.warn(_LW("Ignoring Volume Error on vol %(vol_id)s " "during delete %(exc)s"), {'vol_id': vol.get('volume_id'), 'exc': exc}, instance=instance) if destroy_disks: # NOTE(haomai): destroy volumes if needed if CONF.libvirt.images_type == 'lvm': self._cleanup_lvm(instance) if CONF.libvirt.images_type == 'rbd': self._cleanup_rbd(instance) if destroy_disks or ( migrate_data and migrate_data.get('is_shared_block_storage', False)): 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() if CONF.serial_console.enabled: serials = self._get_serial_ports_from_instance(instance) for hostname, port in serials: serial_console.release_port(host=hostname, port=port) self._undefine_domain(instance) def _detach_encrypted_volumes(self, instance): """Detaches encrypted volumes attached to instance.""" disks = jsonutils.loads(self.get_instance_disk_info(instance)) 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_instance(self, instance, mode=None): """Returns an iterator over serial port(s) configured on instance. :param mode: Should be a value in (None, bind, connect) """ virt_dom = self._host.get_domain(instance) xml = virt_dom.XMLDesc(0) tree = etree.fromstring(xml) # The 'serial' device is the base for x86 platforms. Other platforms # (e.g. kvm on system z = arch.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"))) @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): LibvirtDriver._get_rbd_driver().cleanup_volumes(instance) def _cleanup_lvm(self, instance): """Delete all LVM disks for given instance object.""" if instance.get('ephemeral_key_uuid') is not None: self._detach_encrypted_volumes(instance) 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) disk_names = filter(belongs_to_instance, logical_volumes) disks = map(fullpath, disk_names) return disks return [] def get_volume_connector(self, instance): if self._initiator is None: self._initiator = libvirt_utils.get_iscsi_initiator() if not self._initiator: LOG.debug('Could not determine iscsi initiator name', instance=instance) if self._fc_wwnns is None: self._fc_wwnns = libvirt_utils.get_fc_wwnns() if not self._fc_wwnns or len(self._fc_wwnns) == 0: LOG.debug('Could not determine fibre channel ' 'world wide node names', instance=instance) if self._fc_wwpns is None: self._fc_wwpns = libvirt_utils.get_fc_wwpns() if not self._fc_wwpns or len(self._fc_wwpns) == 0: LOG.debug('Could not determine fibre channel ' 'world wide port names', instance=instance) connector = {'ip': CONF.my_block_storage_ip, 'host': CONF.host} if self._initiator: connector['initiator'] = self._initiator if self._fc_wwnns and self._fc_wwpns: connector["wwnns"] = self._fc_wwnns connector["wwpns"] = self._fc_wwpns return connector def _cleanup_resize(self, instance, network_info): # NOTE(wangpan): we get the pre-grizzly instance path firstly, # so the backup dir of pre-grizzly instance can # be deleted correctly with grizzly or later nova. pre_grizzly_name = libvirt_utils.get_instance_path(instance, forceold=True) target = pre_grizzly_name + '_resize' if not os.path.exists(target): target = libvirt_utils.get_instance_path(instance) + '_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) 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, connection_info, disk_info): driver = self._get_volume_driver(connection_info) driver.connect_volume(connection_info, disk_info) def _disconnect_volume(self, connection_info, disk_dev): driver = self._get_volume_driver(connection_info) return driver.disconnect_volume(connection_info, disk_dev) def _get_volume_config(self, connection_info, disk_info): driver = self._get_volume_driver(connection_info) return driver.get_config(connection_info, disk_info) def _get_volume_encryptor(self, connection_info, encryption): encryptor = encryptors.get_volume_encryptor(connection_info, **encryption) return encryptor def attach_volume(self, context, connection_info, instance, mountpoint, disk_bus=None, device_type=None, encryption=None): image_meta = utils.get_image_from_system_metadata( instance.system_metadata) virt_dom = self._host.get_domain(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) if not self._host.has_min_version(MIN_LIBVIRT_BLOCKIO_VERSION): ver = ".".join([str(x) for x in MIN_LIBVIRT_BLOCKIO_VERSION]) msg = _("Volume sets block size, but libvirt '%s' or later is " "required.") % ver raise exception.Invalid(msg) disk_info = blockinfo.get_info_from_bdm(CONF.libvirt.virt_type, image_meta, bdm) self._connect_volume(connection_info, disk_info) conf = self._get_volume_config(connection_info, disk_info) self._set_cache_mode(conf) try: # NOTE(vish): We can always affect config because our # domains are persistent, but we should only # affect live if the domain is running. flags = libvirt.VIR_DOMAIN_AFFECT_CONFIG state = self._get_power_state(virt_dom) if state in (power_state.RUNNING, power_state.PAUSED): flags |= libvirt.VIR_DOMAIN_AFFECT_LIVE if encryption: encryptor = self._get_volume_encryptor(connection_info, encryption) encryptor.attach_volume(context, **encryption) virt_dom.attachDeviceFlags(conf.to_xml(), flags) except Exception as ex: LOG.exception(_LE('Failed to attach volume at mountpoint: %s'), mountpoint, instance=instance) if isinstance(ex, libvirt.libvirtError): errcode = ex.get_error_code() if errcode == libvirt.VIR_ERR_OPERATION_FAILED: self._disconnect_volume(connection_info, disk_dev) raise exception.DeviceIsBusy(device=disk_dev) with excutils.save_and_reraise_exception(): self._disconnect_volume(connection_info, disk_dev) def _swap_volume(self, domain, disk_path, new_path, resize_to): """Swap existing disk with a new block device.""" # Save a copy of the domain's persistent XML file xml = domain.XMLDesc( libvirt.VIR_DOMAIN_XML_INACTIVE | libvirt.VIR_DOMAIN_XML_SECURE) # Abort is an idempotent operation, so make sure any block # jobs which may have failed are ended. try: domain.blockJobAbort(disk_path, 0) 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 domain.isPersistent(): domain.undefine() # Start copy with VIR_DOMAIN_REBASE_REUSE_EXT flag to # allow writing to existing external volume file domain.blockRebase(disk_path, new_path, 0, libvirt.VIR_DOMAIN_BLOCK_REBASE_COPY | libvirt.VIR_DOMAIN_BLOCK_REBASE_REUSE_EXT) while self._wait_for_block_job(domain, disk_path): time.sleep(0.5) domain.blockJobAbort(disk_path, libvirt.VIR_DOMAIN_BLOCK_JOB_ABORT_PIVOT) if resize_to: # NOTE(alex_xu): domain.blockJobAbort isn't sync call. This # is bug in libvirt. So we need waiting for the pivot is # finished. libvirt bug #1119173 while self._wait_for_block_job(domain, disk_path, wait_for_job_clean=True): time.sleep(0.5) domain.blockResize(disk_path, resize_to * units.Gi / units.Ki) finally: self._conn.defineXML(xml) def swap_volume(self, old_connection_info, new_connection_info, instance, mountpoint, resize_to): virt_dom = self._host.get_domain(instance) disk_dev = mountpoint.rpartition("/")[2] xml = self._get_disk_xml(virt_dom.XMLDesc(0), disk_dev) if not xml: 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', } self._connect_volume(new_connection_info, disk_info) conf = self._get_volume_config(new_connection_info, disk_info) if not conf.source_path: self._disconnect_volume(new_connection_info, disk_dev) raise NotImplementedError(_("Swap only supports host devices")) # Save updates made in connection_info when connect_volume was called volume_id = new_connection_info.get('serial') bdm = objects.BlockDeviceMapping.get_by_volume_id( nova_context.get_admin_context(), volume_id) driver_bdm = driver_block_device.DriverVolumeBlockDevice(bdm) driver_bdm['connection_info'] = new_connection_info driver_bdm.save() self._swap_volume(virt_dom, disk_dev, conf.source_path, resize_to) self._disconnect_volume(old_connection_info, disk_dev) @staticmethod def _get_disk_xml(xml, device): """Returns the xml for the disk mounted at device.""" try: doc = etree.fromstring(xml) except Exception: return None node = doc.find("./devices/disk/target[@dev='%s'].." % device) if node is not None: return etree.tostring(node) def _get_existing_domain_xml(self, instance, network_info, block_device_info=None): try: virt_dom = self._host.get_domain(instance) xml = virt_dom.XMLDesc(0) except exception.InstanceNotFound: image_meta = utils.get_image_from_system_metadata( instance.system_metadata) disk_info = blockinfo.get_disk_info(CONF.libvirt.virt_type, instance, image_meta, block_device_info) xml = self._get_guest_xml(nova_context.get_admin_context(), instance, network_info, disk_info, 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: virt_dom = self._host.get_domain(instance) xml = self._get_disk_xml(virt_dom.XMLDesc(0), disk_dev) if not xml: raise exception.DiskNotFound(location=disk_dev) else: # NOTE(vish): We can always affect config because our # domains are persistent, but we should only # affect live if the domain is running. flags = libvirt.VIR_DOMAIN_AFFECT_CONFIG state = self._get_power_state(virt_dom) if state in (power_state.RUNNING, power_state.PAUSED): flags |= libvirt.VIR_DOMAIN_AFFECT_LIVE virt_dom.detachDeviceFlags(xml, flags) if encryption: # The volume must be detached from the VM before # disconnecting it from its encryptor. Otherwise, the # encryptor may report that the volume is still in use. encryptor = self._get_volume_encryptor(connection_info, encryption) encryptor.detach_volume(**encryption) 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.warn(_LW("During detach_volume, instance disappeared.")) 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.warn(_LW("During detach_volume, instance disappeared.")) else: raise self._disconnect_volume(connection_info, disk_dev) def attach_interface(self, instance, image_meta, vif): virt_dom = self._host.get_domain(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) try: flags = libvirt.VIR_DOMAIN_AFFECT_CONFIG state = self._get_power_state(virt_dom) if state == power_state.RUNNING or state == power_state.PAUSED: flags |= libvirt.VIR_DOMAIN_AFFECT_LIVE virt_dom.attachDeviceFlags(cfg.to_xml(), flags) except libvirt.libvirtError: LOG.error(_LE('attaching network adapter failed.'), instance=instance, exc_info=True) self.vif_driver.unplug(instance, vif) raise exception.InterfaceAttachFailed( instance_uuid=instance.uuid) def detach_interface(self, instance, vif): virt_dom = self._host.get_domain(instance) cfg = self.vif_driver.get_config(instance, vif, None, instance.flavor, CONF.libvirt.virt_type) try: self.vif_driver.unplug(instance, vif) flags = libvirt.VIR_DOMAIN_AFFECT_CONFIG state = self._get_power_state(virt_dom) if state == power_state.RUNNING or state == power_state.PAUSED: flags |= libvirt.VIR_DOMAIN_AFFECT_LIVE virt_dom.detachDeviceFlags(cfg.to_xml(), flags) except libvirt.libvirtError as ex: error_code = ex.get_error_code() if error_code == libvirt.VIR_ERR_NO_DOMAIN: LOG.warn(_LW("During detach_interface, " "instance disappeared."), instance=instance) else: LOG.error(_LE('detaching network adapter failed.'), instance=instance, exc_info=True) raise exception.InterfaceDetachFailed( instance_uuid=instance.uuid) def _create_snapshot_metadata(self, base, 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 base.get('disk_format') == 'ami': metadata['disk_format'] = 'ami' else: metadata['disk_format'] = img_fmt metadata['container_format'] = base.get('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: virt_dom = self._host.get_domain(instance) except exception.InstanceNotFound: raise exception.InstanceNotRunning(instance_id=instance.uuid) base_image_ref = instance.image_ref base = compute_utils.get_image_metadata( context, self._image_api, base_image_ref, instance) snapshot = self._image_api.get(context, image_id) disk_path = libvirt_utils.find_disk(virt_dom) source_format = libvirt_utils.get_disk_type(disk_path) image_format = CONF.libvirt.snapshot_image_format or source_format # NOTE(bfilippov): save lvm and rbd as raw if image_format == 'lvm' or image_format == 'rbd': image_format = 'raw' metadata = self._create_snapshot_metadata(base, instance, image_format, snapshot['name']) snapshot_name = uuid.uuid4().hex state = self._get_power_state(virt_dom) # NOTE(rmk): Live snapshots require QEMU 1.3 and Libvirt 1.0.0. # These restrictions can be relaxed as other configurations # can be validated. # 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(MIN_LIBVIRT_LIVESNAPSHOT_VERSION, MIN_QEMU_LIVESNAPSHOT_VERSION, REQ_HYPERVISOR_LIVESNAPSHOT) and source_format not in ('lvm', 'rbd') and not CONF.ephemeral_storage_encryption.enabled and not CONF.workarounds.disable_libvirt_livesnapshot): 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: virt_dom.blockJobAbort(disk_path, 0) 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 # 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. if state == power_state.SHUTDOWN: live_snapshot = False # 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._detach_pci_devices(virt_dom, pci_manager.get_instance_pci_devs(instance)) self._detach_sriov_ports(context, instance, virt_dom) virt_dom.managedSave(0) snapshot_backend = self.image_backend.snapshot(instance, disk_path, image_type=source_format) if live_snapshot: LOG.info(_LI("Beginning live snapshot process"), instance=instance) else: LOG.info(_LI("Beginning cold snapshot process"), instance=instance) update_task_state(task_state=task_states.IMAGE_PENDING_UPLOAD) 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 temp directory os.chmod(tmpdir, 0o701) self._live_snapshot(context, instance, virt_dom, disk_path, out_path, image_format, base) else: snapshot_backend.snapshot_extract(out_path, image_format) finally: new_dom = 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: new_dom = self._create_domain(domain=virt_dom) elif state == power_state.PAUSED: new_dom = self._create_domain(domain=virt_dom, launch_flags=libvirt.VIR_DOMAIN_START_PAUSED) if new_dom is not None: self._attach_pci_devices(new_dom, pci_manager.get_instance_pci_devs(instance)) self._attach_sriov_ports(context, instance, new_dom) LOG.info(_LI("Snapshot extracted, beginning image upload"), instance=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) as image_file: self._image_api.update(context, image_id, metadata, image_file) LOG.info(_LI("Snapshot image upload complete"), instance=instance) @staticmethod def _wait_for_block_job(domain, disk_path, abort_on_error=False, wait_for_job_clean=False): """Wait for libvirt block job to complete. Libvirt may return either cur==end or an empty dict when the job is complete, depending on whether the job has been cleaned up by libvirt yet, or not. :returns: True if still in progress False if completed """ status = domain.blockJobInfo(disk_path, 0) if status == -1 and abort_on_error: msg = _('libvirt error while requesting blockjob info.') raise exception.NovaException(msg) try: cur = status.get('cur', 0) end = status.get('end', 0) except Exception: return False if wait_for_job_clean: job_ended = not status else: job_ended = cur == end return not job_ended def _can_quiesce(self, image_meta): if CONF.libvirt.virt_type not in ('kvm', 'qemu'): return (False, _('Only KVM and QEMU are supported')) if not self._host.has_min_version(MIN_LIBVIRT_FSFREEZE_VERSION): ver = ".".join([str(x) for x in MIN_LIBVIRT_FSFREEZE_VERSION]) return (False, _('Quiescing requires libvirt version %(version)s ' 'or greater') % {'version': ver}) img_meta_prop = image_meta.get('properties', {}) if image_meta else {} hw_qga = img_meta_prop.get('hw_qemu_guest_agent', '') if not strutils.bool_from_string(hw_qga): return (False, _('QEMU guest agent is not enabled')) return (True, None) def _set_quiesced(self, context, instance, image_meta, quiesced): supported, reason = self._can_quiesce(image_meta) if not supported: raise exception.InstanceQuiesceNotSupported( instance_id=instance.uuid, reason=reason) try: domain = self._host.get_domain(instance) if quiesced: domain.fsFreeze() else: domain.fsThaw() except libvirt.libvirtError as ex: error_code = ex.get_error_code() 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': ex}) raise exception.NovaException(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, domain, disk_path, out_path, image_format, image_meta): """Snapshot an instance without downtime.""" # Save a copy of the domain's persistent XML file xml = domain.XMLDesc( libvirt.VIR_DOMAIN_XML_INACTIVE | libvirt.VIR_DOMAIN_XML_SECURE) # Abort is an idempotent operation, so make sure any block # jobs which may have failed are ended. try: domain.blockJobAbort(disk_path, 0) 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) src_back_path = libvirt_utils.get_disk_backing_file(disk_path, basename=False) disk_delta = out_path + '.delta' libvirt_utils.create_cow_image(src_back_path, disk_delta, src_disk_size) img_meta_prop = image_meta.get('properties', {}) if image_meta else {} require_quiesce = strutils.bool_from_string( img_meta_prop.get('os_require_quiesce', '')) if require_quiesce: self.quiesce(context, instance, image_meta) 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 domain.isPersistent(): domain.undefine() # NOTE (rmk): Establish a temporary mirror of our root disk and # issue an abort once we have a complete copy. domain.blockRebase(disk_path, disk_delta, 0, libvirt.VIR_DOMAIN_BLOCK_REBASE_COPY | libvirt.VIR_DOMAIN_BLOCK_REBASE_REUSE_EXT | libvirt.VIR_DOMAIN_BLOCK_REBASE_SHALLOW) while self._wait_for_block_job(domain, disk_path): time.sleep(0.5) domain.blockJobAbort(disk_path, 0) libvirt_utils.chown(disk_delta, os.getuid()) finally: self._conn.defineXML(xml) if require_quiesce: self.unquiesce(context, instance, image_meta) # 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(_LE('Failed to send updated snapshot status ' 'to volume service.')) def _volume_snapshot_create(self, context, instance, domain, volume_id, new_file): """Perform volume snapshot. :param domain: 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 = domain.XMLDesc(0) 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, gluster, 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)) elif disk_info['source_protocol'] in ('gluster', '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.NovaException(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) snap_flags = (libvirt.VIR_DOMAIN_SNAPSHOT_CREATE_DISK_ONLY | libvirt.VIR_DOMAIN_SNAPSHOT_CREATE_NO_METADATA | libvirt.VIR_DOMAIN_SNAPSHOT_CREATE_REUSE_EXT) QUIESCE = libvirt.VIR_DOMAIN_SNAPSHOT_CREATE_QUIESCE try: domain.snapshotCreateXML(snapshot_xml, snap_flags | QUIESCE) return except libvirt.libvirtError: LOG.exception(_LE('Unable to create quiesced VM snapshot, ' 'attempting again with quiescing disabled.')) try: domain.snapshotCreateXML(snapshot_xml, snap_flags) except libvirt.libvirtError: LOG.exception(_LE('Unable to create VM snapshot, ' 'failing volume_snapshot operation.')) raise def _volume_refresh_connection_info(self, context, instance, volume_id): bdm = objects.BlockDeviceMapping.get_by_volume_id(context, volume_id) 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 / - 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: virt_dom = self._host.get_domain(instance) except exception.InstanceNotFound: raise exception.InstanceNotRunning(instance_id=instance.uuid) if create_info['type'] != 'qcow2': raise exception.NovaException(_('Unknown type: %s') % create_info['type']) snapshot_id = create_info.get('snapshot_id', None) if snapshot_id is None: raise exception.NovaException(_('snapshot_id required ' 'in create_info')) try: self._volume_snapshot_create(context, instance, virt_dom, volume_id, create_info['new_file']) except Exception: with excutils.save_and_reraise_exception(): LOG.exception(_LE('Error occurred during ' 'volume_snapshot_create, ' 'sending error status to Cinder.')) 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() 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) } Libvirt blockjob handling required for this method is broken in versions of libvirt that do not contain: http://libvirt.org/git/?p=libvirt.git;h=0f9e67bfad (1.1.1) (Patch is pending in 1.0.5-maint branch as well, but we cannot detect libvirt 1.0.5.5 vs. 1.0.5.6 here.) """ if not self._host.has_min_version(MIN_LIBVIRT_BLOCKJOBINFO_VERSION): ver = '.'.join([str(x) for x in MIN_LIBVIRT_BLOCKJOBINFO_VERSION]) msg = _("Libvirt '%s' or later is required for online deletion " "of volume snapshots.") % ver raise exception.Invalid(msg) LOG.debug('volume_snapshot_delete: delete_info: %s', delete_info) if delete_info['type'] != 'qcow2': msg = _('Unknown delete_info type %s') % delete_info['type'] raise exception.NovaException(msg) try: virt_dom = self._host.get_domain(instance) except exception.InstanceNotFound: raise exception.InstanceNotRunning(instance_id=instance.uuid) # Find dev name my_dev = None active_disk = None xml = virt_dom.XMLDesc(0) 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): msg = _('Disk with id: %s ' 'not found attached to instance.') % volume_id LOG.debug('Domain XML: %s', xml) raise exception.NovaException(msg) LOG.debug("found device at %s", my_dev) def _get_snap_dev(filename, backing_store): if filename is None: msg = _('filename cannot be None') raise exception.NovaException(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.NovaException(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_flags = 0 rebase_base = delete_info['file_to_merge'] # often None if active_protocol is not None: rebase_base = _get_snap_dev(delete_info['file_to_merge'], active_disk_object.backing_store) rebase_bw = 0 LOG.debug('disk: %(disk)s, base: %(base)s, ' 'bw: %(bw)s, flags: %(flags)s', {'disk': rebase_disk, 'base': rebase_base, 'bw': rebase_bw, 'flags': rebase_flags}) result = virt_dom.blockRebase(rebase_disk, rebase_base, rebase_bw, rebase_flags) if result == 0: LOG.debug('blockRebase started successfully') while self._wait_for_block_job(virt_dom, my_dev, abort_on_error=True): LOG.debug('waiting for blockRebase job completion') time.sleep(0.5) else: # commit with blockCommit() my_snap_base = None my_snap_top = None commit_disk = my_dev commit_flags = 0 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) try: commit_flags |= libvirt.VIR_DOMAIN_BLOCK_COMMIT_RELATIVE except AttributeError: ver = '.'.join( [str(x) for x in MIN_LIBVIRT_BLOCKCOMMIT_RELATIVE_VERSION]) msg = _("Relative blockcommit support was not detected. " "Libvirt '%s' or later is required for online " "deletion of network storage-backed volume " "snapshots.") % ver raise exception.Invalid(msg) commit_base = my_snap_base or delete_info['merge_target_file'] commit_top = my_snap_top or delete_info['file_to_merge'] bandwidth = 0 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}) result = virt_dom.blockCommit(commit_disk, commit_base, commit_top, bandwidth, commit_flags) if result == 0: LOG.debug('blockCommit started successfully') while self._wait_for_block_job(virt_dom, my_dev, abort_on_error=True): LOG.debug('waiting for blockCommit job completion') 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(_LE('Error occurred during ' 'volume_snapshot_delete, ' 'sending error status to Cinder.')) 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", e) soft_reboot_success = False if soft_reboot_success: LOG.info(_LI("Instance soft rebooted successfully."), instance=instance) return else: LOG.warn(_LW("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 """ dom = self._host.get_domain(instance) state = self._get_power_state(dom) old_domid = dom.ID() # NOTE(vish): This check allows us to reboot an instance that # is already shutdown. if state == power_state.RUNNING: dom.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 xrange(CONF.libvirt.wait_soft_reboot_seconds): dom = self._host.get_domain(instance) state = self._get_power_state(dom) new_domid = dom.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(_LI("Instance shutdown successfully."), instance=instance) self._create_domain(domain=dom) timer = loopingcall.FixedIntervalLoopingCall( self._wait_for_running, instance) timer.start(interval=0.5).wait() return True else: LOG.info(_LI("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. If xml is set, it uses the passed in xml in place of the xml from the existing domain. """ self._destroy(instance) # Convert the system metadata to image metadata image_meta = utils.get_image_from_system_metadata( instance.system_metadata) # NOTE(stpierre): In certain cases -- e.g., when booting a # guest to restore its state after restarting # Nova compute -- the context is not # populated, which causes this (and # _create_images_and_backing below) to error. if not image_meta and context.auth_token is not None: image_ref = instance.get('image_ref') image_meta = compute_utils.get_image_metadata(context, self._image_api, image_ref, instance) instance_dir = libvirt_utils.get_instance_path(instance) fileutils.ensure_tree(instance_dir) disk_info = blockinfo.get_disk_info(CONF.libvirt.virt_type, 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, image_meta, block_device_info=block_device_info, write_to_disk=True) # NOTE (rmk): Re-populate any missing backing files. disk_info_json = self._get_instance_disk_info(instance.name, xml, block_device_info) if context.auth_token is not None: self._create_images_and_backing(context, instance, instance_dir, disk_info_json) # Initialize all the necessary networking, block devices and # start the instance. self._create_domain_and_network(context, xml, instance, network_info, disk_info, block_device_info=block_device_info, reboot=True, 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(_LI("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.""" dom = self._host.get_domain(instance) dom.suspend() def unpause(self, instance): """Unpause paused VM instance.""" dom = self._host.get_domain(instance) dom.resume() 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: dom = self._host.get_domain(instance) except exception.InstanceNotFound: # If the instance has gone then we don't need to # wait for it to shutdown return True state = self._get_power_state(dom) if state in SHUTDOWN_STATES: LOG.info(_LI("Instance already shutdown."), instance=instance) return True LOG.debug("Shutting down instance from state %s", state, instance=instance) dom.shutdown() retry_countdown = retry_interval for sec in six.moves.range(timeout): dom = self._host.get_domain(instance) state = self._get_power_state(dom) if state in SHUTDOWN_STATES: LOG.info(_LI("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) dom.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(_LI("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 suspend(self, context, instance): """Suspend the specified instance.""" dom = self._host.get_domain(instance) self._detach_pci_devices(dom, pci_manager.get_instance_pci_devs(instance)) self._detach_sriov_ports(context, instance, dom) dom.managedSave(0) def resume(self, context, instance, network_info, block_device_info=None): """resume the specified instance.""" image_meta = compute_utils.get_image_metadata(context, self._image_api, instance.image_ref, instance) disk_info = blockinfo.get_disk_info( CONF.libvirt.virt_type, instance, image_meta, block_device_info=block_device_info) xml = self._get_existing_domain_xml(instance, network_info, block_device_info) dom = self._create_domain_and_network(context, xml, instance, network_info, disk_info, block_device_info=block_device_info, vifs_already_plugged=True) self._attach_pci_devices(dom, pci_manager.get_instance_pci_devs(instance)) self._attach_sriov_ports(context, instance, dom, network_info) 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: domain = self._host.get_domain(instance) state = self._get_power_state(domain) ignored_states = (power_state.RUNNING, power_state.SUSPENDED, power_state.NOSTATE, power_state.PAUSED) if state in ignored_states: return except exception.NovaException: 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) if image_meta is not None: rescue_image_id = image_meta.get('id') else: rescue_image_id = None 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) self._create_image(context, instance, disk_info['mapping'], suffix='.rescue', disk_images=rescue_images, network_info=network_info, admin_pass=rescue_password) xml = self._get_guest_xml(context, instance, network_info, disk_info, image_meta, rescue=rescue_images, write_to_disk=True) self._destroy(instance) self._create_domain(xml) 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) virt_dom = self._host.get_domain(instance) self._destroy(instance) self._create_domain(xml, virt_dom) libvirt_utils.file_delete(unrescue_xml_path) rescue_files = os.path.join(instance_dir, "*.rescue") for rescue_file in glob.iglob(rescue_files): libvirt_utils.file_delete(rescue_file) # cleanup rescue volume lvm.remove_volumes([lvmdisk for lvmdisk in self._lvm_disks(instance) if lvmdisk.endswith('.rescue')]) def poll_rebooting_instances(self, timeout, instances): pass def _enable_hairpin(self, xml): interfaces = self._get_interfaces(xml) for interface in interfaces: utils.execute('tee', '/sys/class/net/%s/brport/hairpin_mode' % interface, process_input='1', run_as_root=True, check_exit_code=[0, 1]) # NOTE(ilyaalekseyev): Implementation like in multinics # for xenapi(tr3buchet) def spawn(self, context, instance, image_meta, injected_files, admin_password, network_info=None, block_device_info=None): disk_info = blockinfo.get_disk_info(CONF.libvirt.virt_type, instance, image_meta, block_device_info) self._create_image(context, instance, disk_info['mapping'], network_info=network_info, block_device_info=block_device_info, files=injected_files, admin_pass=admin_password) xml = self._get_guest_xml(context, instance, network_info, disk_info, image_meta, block_device_info=block_device_info, write_to_disk=True) self._create_domain_and_network(context, xml, instance, network_info, disk_info, block_device_info=block_device_info) 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(_LI("Instance spawned successfully."), instance=instance) raise loopingcall.LoopingCallDone() timer = loopingcall.FixedIntervalLoopingCall(_wait_for_boot) timer.start(interval=0.5).wait() def _flush_libvirt_console(self, pty): out, err = utils.execute('dd', 'if=%s' % pty, 'iflag=nonblock', run_as_root=True, check_exit_code=False) return out def _append_to_file(self, data, fpath): LOG.info(_LI('data: %(data)r, fpath: %(fpath)r'), {'data': data, 'fpath': fpath}) with open(fpath, 'a+') as fp: fp.write(data) return fpath def get_console_output(self, context, instance): virt_dom = self._host.get_domain(instance) xml = virt_dom.XMLDesc(0) tree = etree.fromstring(xml) console_types = {} # NOTE(comstud): We want to try 'file' types first, then try 'pty' # types. We can't use Python 2.7 syntax of: # tree.find("./devices/console[@type='file']/source") # because we need to support 2.6. console_nodes = tree.findall('./devices/console') for console_node in console_nodes: console_type = console_node.get('type') console_types.setdefault(console_type, []) console_types[console_type].append(console_node) # If the guest has a console logging to a file prefer to use that if console_types.get('file'): for file_console in console_types.get('file'): 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(_LI('Instance is configured with a file console, ' 'but the backing file is not (yet?) present'), instance=instance) return "" libvirt_utils.chown(path, os.getuid()) with libvirt_utils.file_open(path, 'rb') as fp: log_data, remaining = utils.last_bytes(fp, MAX_CONSOLE_BYTES) if remaining > 0: LOG.info(_LI('Truncated console log returned, ' '%d bytes ignored'), remaining, instance=instance) return log_data # Try 'pty' types if console_types.get('pty'): for pty_console in console_types.get('pty'): source_node = pty_console.find('./source') if source_node is None: continue pty = source_node.get("path") if not pty: continue break else: msg = _("Guest does not have a console available") raise exception.NovaException(msg) self._chown_console_log_for_instance(instance) data = self._flush_libvirt_console(pty) console_log = self._get_console_log_path(instance) fpath = self._append_to_file(data, console_log) with libvirt_utils.file_open(fpath, 'rb') as fp: log_data, remaining = utils.last_bytes(fp, MAX_CONSOLE_BYTES) if remaining > 0: LOG.info(_LI('Truncated console log returned, ' '%d bytes ignored'), remaining, instance=instance) return log_data @staticmethod def get_host_ip_addr(): ips = compute_utils.get_machine_ips() if CONF.my_ip not in ips: LOG.warn(_LW('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): virt_dom = self._host.get_domain(instance) xml = virt_dom.XMLDesc(0) 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.vncserver_proxyclient_address return ctype.ConsoleVNC(host=host, port=port) def get_spice_console(self, context, instance): def get_spice_ports_for_instance(instance_name): virt_dom = self._host.get_domain(instance) xml = virt_dom.XMLDesc(0) 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): for hostname, port in self._get_serial_ports_from_instance( instance, mode='bind'): return ctype.ConsoleSerial(host=hostname, port=port) raise exception.ConsoleTypeUnavailable(console_type='serial') @staticmethod def _supports_direct_io(dirpath): if not hasattr(os, 'O_DIRECT'): LOG.debug("This python runtime does not support direct I/O") return False testfile = os.path.join(dirpath, ".directio.test") hasDirectIO = True try: f = os.open(testfile, os.O_CREAT | os.O_WRONLY | os.O_DIRECT) # Check is the write allowed with 512 byte alignment align_size = 512 m = mmap.mmap(-1, align_size) m.write(r"x" * align_size) os.write(f, m) os.close(f) LOG.debug("Path '%(path)s' supports direct I/O", {'path': dirpath}) except OSError as e: if e.errno == errno.EINVAL: LOG.debug("Path '%(path)s' does not support direct I/O: " "'%(ex)s'", {'path': dirpath, 'ex': e}) hasDirectIO = False else: with excutils.save_and_reraise_exception(): LOG.error(_LE("Error on '%(path)s' while checking " "direct I/O: '%(ex)s'"), {'path': dirpath, 'ex': e}) except Exception as e: with excutils.save_and_reraise_exception(): LOG.error(_LE("Error on '%(path)s' while checking direct I/O: " "'%(ex)s'"), {'path': dirpath, 'ex': e}) finally: try: os.unlink(testfile) except Exception: pass return hasDirectIO @staticmethod def _create_local(target, local_size, unit='G', fs_format=None, label=None): """Create a blank image of specified size.""" libvirt_utils.create_image('raw', target, '%d%c' % (local_size, unit)) def _create_ephemeral(self, target, ephemeral_size, fs_label, os_type, is_block_dev=False, max_size=None, context=None, specified_fs=None): if not is_block_dev: self._create_local(target, ephemeral_size) # Run as root only for block devices. disk.mkfs(os_type, fs_label, target, run_as_root=is_block_dev, specified_fs=specified_fs) @staticmethod def _create_swap(target, swap_mb, max_size=None, 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') @staticmethod def _get_disk_config_path(instance, suffix=''): return os.path.join(libvirt_utils.get_instance_path(instance), 'disk.config' + suffix) def _chown_console_log_for_instance(self, instance): console_log = self._get_console_log_path(instance) if os.path.exists(console_log): libvirt_utils.chown(console_log, os.getuid()) def _chown_disk_config_for_instance(self, instance): disk_config = self._get_disk_config_path(instance) if os.path.exists(disk_config): libvirt_utils.chown(disk_config, os.getuid()) @staticmethod def _is_booted_from_volume(instance, disk_mapping): """Determines whether the VM is booting from volume Determines whether the disk mapping indicates that the VM is booting from a volume. """ return ((not bool(instance.get('image_ref'))) or 'disk' not in disk_mapping) def _inject_data(self, instance, network_info, admin_pass, files, suffix): """Injects data in a disk image Helper used for injecting data in a disk image file system. Keyword arguments: instance -- a dict that refers instance specifications network_info -- a dict that refers network speficications admin_pass -- a string used to set an admin password files -- a list of files needs to be injected suffix -- a string used as an image name suffix """ # Handles the partition need to be used. 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 # Handles the network injection. net = netutils.get_injected_network_template( network_info, libvirt_virt_type=CONF.libvirt.virt_type) # Handles the metadata injection metadata = instance.get('metadata') image_type = CONF.libvirt.images_type if any((key, net, metadata, admin_pass, files)): injection_image = self.image_backend.image( instance, 'disk' + suffix, image_type) img_id = instance.image_ref if not injection_image.check_image_exists(): LOG.warn(_LW('Image %s not found on disk storage. ' 'Continue without injecting data'), injection_image.path, instance=instance) return try: disk.inject_data(injection_image.path, key, net, metadata, admin_pass, files, partition=target_partition, use_cow=CONF.use_cow_images, mandatory=('files',)) except Exception as e: with excutils.save_and_reraise_exception(): LOG.error(_LE('Error injecting data into image ' '%(img_id)s (%(e)s)'), {'img_id': img_id, 'e': e}, instance=instance) def _create_image(self, context, instance, disk_mapping, suffix='', disk_images=None, network_info=None, block_device_info=None, files=None, admin_pass=None, inject_files=True, fallback_from_host=None): booted_from_volume = self._is_booted_from_volume( instance, disk_mapping) def image(fname, image_type=CONF.libvirt.images_type): return self.image_backend.image(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(_LI('Creating image'), instance=instance) # NOTE(dprince): for rescue console.log may already exist... chown it. self._chown_console_log_for_instance(instance) # NOTE(yaguang): For evacuate disk.config already exist in shared # storage, chown it. self._chown_disk_config_for_instance(instance) # NOTE(vish): No need add the suffix to console.log libvirt_utils.write_to_file( self._get_console_log_path(instance), '', 7) 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_image, context=context, filename=fname, image_id=disk_images['kernel_id'], user_id=instance.user_id, project_id=instance.project_id) if disk_images['ramdisk_id']: fname = imagecache.get_cache_fname(disk_images, 'ramdisk_id') raw('ramdisk').cache(fetch_func=libvirt_utils.fetch_image, context=context, filename=fname, image_id=disk_images['ramdisk_id'], user_id=instance.user_id, project_id=instance.project_id) inst_type = instance.get_flavor() # 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.root_gb * units.Gi if size == 0 or suffix == '.rescue': size = None backend = image('disk') 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) # Lookup the filesystem type if required os_type_with_default = disk.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.get_file_extension_for_os_type( os_type_with_default) ephemeral_gb = instance.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) 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) 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 'disk.swap' in disk_mapping: mapping = disk_mapping['disk.swap'] swap_mb = 0 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: 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) # Config drive if configdrive.required_by(instance): LOG.info(_LI('Using config drive'), instance=instance) extra_md = {} if admin_pass: extra_md['admin_pass'] = admin_pass inst_md = instance_metadata.InstanceMetadata(instance, content=files, extra_md=extra_md, network_info=network_info) with configdrive.ConfigDriveBuilder(instance_md=inst_md) as cdb: configdrive_path = self._get_disk_config_path(instance, suffix) LOG.info(_LI('Creating config drive at %(path)s'), {'path': configdrive_path}, instance=instance) try: cdb.make_drive(configdrive_path) except processutils.ProcessExecutionError as e: with excutils.save_and_reraise_exception(): LOG.error(_LE('Creating config drive failed ' 'with error: %s'), e, instance=instance) # File injection only if needed elif inject_files and CONF.libvirt.inject_partition != -2: if booted_from_volume: LOG.warn(_LW('File injection into a boot from volume ' 'instance is not supported'), instance=instance) self._inject_data( instance, network_info, admin_pass, files, suffix) if CONF.libvirt.virt_type == 'uml': libvirt_utils.chown(image('disk').path, 'root') 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._conn.nodeDeviceLookupByName(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._conn.nodeDeviceLookupByName(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, dom, pci_devs): # for libvirt version < 1.1.1, this is race condition # so forbid detach if not had this version if not self._host.has_min_version(MIN_LIBVIRT_DEVICE_CALLBACK_VERSION): if pci_devs: reason = (_("Detaching PCI devices with libvirt < %(ver)s" " is not permitted") % {'ver': MIN_LIBVIRT_DEVICE_CALLBACK_VERSION}) raise exception.PciDeviceDetachFailed(reason=reason, dev=pci_devs) try: for dev in pci_devs: dom.detachDeviceFlags(self._get_guest_pci_device(dev).to_xml(), libvirt.VIR_DOMAIN_AFFECT_LIVE) # after detachDeviceFlags returned, we should check the dom to # ensure the detaching is finished xml = dom.XMLDesc(0) 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.warn(_LW("Instance disappeared while detaching " "a PCI device from it.")) else: raise def _attach_pci_devices(self, dom, pci_devs): try: for dev in pci_devs: dom.attachDevice(self._get_guest_pci_device(dev).to_xml()) except libvirt.libvirtError: LOG.error(_LE('Attaching PCI devices %(dev)s to %(dom)s failed.'), {'dev': pci_devs, 'dom': dom.ID()}) raise def _prepare_args_for_get_config(self, context, instance): image_ref = instance.image_ref image_meta = compute_utils.get_image_metadata( context, self._image_api, image_ref, instance) return instance.flavor, image_meta @staticmethod def _has_sriov_port(network_info): for vif in network_info: if vif['vnic_type'] == network_model.VNIC_TYPE_DIRECT: return True return False def _attach_sriov_ports(self, context, instance, dom, network_info=None): if network_info is None: network_info = instance.info_cache.network_info if network_info is None: return if self._has_sriov_port(network_info): flavor, image_meta = self._prepare_args_for_get_config(context, instance) for vif in network_info: if vif['vnic_type'] == network_model.VNIC_TYPE_DIRECT: cfg = self.vif_driver.get_config(instance, vif, image_meta, flavor, CONF.libvirt.virt_type) LOG.debug('Attaching SR-IOV port %(port)s to %(dom)s', {'port': vif, 'dom': dom.ID()}) dom.attachDevice(cfg.to_xml()) def _detach_sriov_ports(self, context, instance, dom): network_info = instance.info_cache.network_info if network_info is None: return if self._has_sriov_port(network_info): # for libvirt version < 1.1.1, this is race condition # so forbid detach if it's an older version if not self._host.has_min_version( MIN_LIBVIRT_DEVICE_CALLBACK_VERSION): reason = (_("Detaching SR-IOV ports with" " libvirt < %(ver)s is not permitted") % {'ver': MIN_LIBVIRT_DEVICE_CALLBACK_VERSION}) raise exception.PciDeviceDetachFailed(reason=reason, dev=network_info) flavor, image_meta = self._prepare_args_for_get_config(context, instance) for vif in network_info: if vif['vnic_type'] == network_model.VNIC_TYPE_DIRECT: cfg = self.vif_driver.get_config(instance, vif, image_meta, flavor, CONF.libvirt.virt_type) dom.detachDeviceFlags(cfg.to_xml(), libvirt.VIR_DOMAIN_AFFECT_LIVE) 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 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.warn(_LW('Cannot update service status on host "%s" ' 'since it is not registered.'), CONF.host) except Exception: LOG.warn(_LW('Cannot update service status on host "%s" ' 'due to an unexpected exception.'), CONF.host, exc_info=True) 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: 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, 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, 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): if CONF.libvirt.hw_disk_discard: if not self._host.has_min_version(MIN_LIBVIRT_DISCARD_VERSION, MIN_QEMU_DISCARD_VERSION, REQ_HYPERVISOR_DISCARD): msg = (_('Volume sets discard option, but libvirt %(libvirt)s' ' or later is required, qemu %(qemu)s' ' or later is required.') % {'libvirt': MIN_LIBVIRT_DISCARD_VERSION, 'qemu': MIN_QEMU_DISCARD_VERSION}) raise exception.Invalid(msg) image = self.image_backend.image(instance, name, image_type) disk_info = disk_mapping[name] return image.libvirt_info(disk_info['bus'], disk_info['dev'], disk_info['type'], self.disk_cachemode, inst_type['extra_specs'], self._host.get_version()) def _get_guest_fs_config(self, instance, name, image_type=None): image = self.image_backend.image(instance, name, image_type) return image.libvirt_fs_info("/", "ploop") def _get_guest_storage_config(self, 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" 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 == vm_mode.EXE and CONF.libvirt.virt_type == "parallels": fs = self._get_guest_fs_config(instance, "disk") devices.append(fs) 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)) 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) devices.append(diskeph) 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)) if 'disk.config' in disk_mapping: diskconfig = self._get_guest_disk_config(instance, 'disk.config', disk_mapping, inst_type, 'raw') 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(connection_info, info) 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 (image_meta and image_meta.get('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 devices.append(scsi_controller) return devices 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. """ with open("/etc/machine-id") as f: # We want to have '-' in the right place # so we parse & reformat the value return str(uuid.UUID(f.read().split()[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 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, context, 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 if context is not None: ometa = vconfig.LibvirtConfigGuestMetaNovaOwner() ometa.userid = context.user_id ometa.username = context.user_name ometa.projectid = context.project_id ometa.projectname = context.project_name 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 is not None and image_meta.get('properties') and 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 == arch.ARMV7: mach_type = "vexpress-a15" if caps.host.cpu.arch == arch.AARCH64: mach_type = "virt" if caps.host.cpu.arch in (arch.S390, arch.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.warn(_LW("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.warn(_LW("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): if virt_type in ('lxc', 'kvm', 'qemu'): 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 cputuning = ['shares', 'period', 'quota'] 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): 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 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(version) raise exception.CPUPinningNotSupported(reason=_( 'Invalid libvirt version %(version)s') % {'version': ver_}) return True def _get_guest_numa_config(self, instance_numa_topology, flavor, pci_devs, allowed_cpus=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) if not guest_cpu_numa_config: # No NUMA topology defined for instance vcpus = flavor.vcpus memory = flavor.memory_mb if topology: # Host is NUMA capable so try to keep the instance in a cell pci_cells = {pci.numa_node for pci in pci_devs} if len(pci_cells) == 0: viable_cells_cpus = [] for cell in topology.cells: if vcpus <= len(cell.cpuset) and memory <= cell.memory: viable_cells_cpus.append(cell.cpuset) if viable_cells_cpus: pin_cpuset = random.choice(viable_cells_cpus) return GuestNumaConfig(pin_cpuset, None, None, None) elif len(pci_cells) == 1 and None not in pci_cells: cell = topology.cells[pci_cells.pop()] if vcpus <= len(cell.cpuset) and memory <= cell.memory: return GuestNumaConfig(cell.cpuset, None, None, None) # We have no NUMA topology in the host either, # or we can't find a single cell to acomodate the instance # 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() allpcpus = [] numa_mem = vconfig.LibvirtConfigGuestNUMATuneMemory() numa_memnodes = [vconfig.LibvirtConfigGuestNUMATuneMemNode() for _ in guest_cpu_numa_config.cells] 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_config_cell.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 allpcpus.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 eliminiate # cross NUMA node traffic. This is an area of investigation # for QEMU community devs. emulatorpin = vconfig.LibvirtConfigGuestCPUTuneEmulatorPin() emulatorpin.cpuset = set(allpcpus) 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 = vm_mode.EXE elif virt_type == "uml": ret = vm_mode.UML elif virt_type == "xen": ret = vm_mode.XEN else: ret = vm_mode.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") if virt_type == "xen": guest.os_cmdline = "ro root=%s" % root_device_name else: 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") if virt_type == "xen": guest.os_cmdline = "ro root=%s" % root_device_name else: 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: img_props = image_meta.get('properties', {}) if img_props.get('os_command_line'): guest.os_cmdline = img_props.get('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(_LI('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 (arch.I686, arch.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) # With new enough QEMU we can 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' and self._host.has_min_version(MIN_LIBVIRT_HYPERV_TIMER_VERSION, MIN_QEMU_HYPERV_TIMER_VERSION)): tmhyperv = vconfig.LibvirtConfigGuestTimer() tmhyperv.name = "hypervclock" tmhyperv.present = True clk.add_timer(tmhyperv) def _set_features(self, guest, os_type, caps, virt_type): if virt_type == "xen": # PAE only makes sense in X86 if caps.host.cpu.arch in (arch.I686, arch.X86_64): guest.features.append(vconfig.LibvirtConfigGuestFeaturePAE()) if (virt_type not in ("lxc", "uml", "parallels", "xen") or (virt_type == "xen" and guest.os_type == vm_mode.HVM)): guest.features.append(vconfig.LibvirtConfigGuestFeatureACPI()) guest.features.append(vconfig.LibvirtConfigGuestFeatureAPIC()) if (virt_type in ("qemu", "kvm") and os_type == 'windows' and self._host.has_min_version(MIN_LIBVIRT_HYPERV_FEATURE_VERSION, MIN_QEMU_HYPERV_FEATURE_VERSION)): hv = vconfig.LibvirtConfigGuestFeatureHyperV() hv.relaxed = True if self._host.has_min_version( MIN_LIBVIRT_HYPERV_FEATURE_EXTRA_VERSION): 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) def _create_serial_console_devices(self, guest, instance, flavor, image_meta): guest_arch = libvirt_utils.get_arch(image_meta) if CONF.serial_console.enabled: num_ports = hardware.get_number_of_serial_ports( flavor, image_meta) for port in six.moves.range(num_ports): if guest_arch in (arch.S390, arch.S390X): console = vconfig.LibvirtConfigGuestConsole() else: console = vconfig.LibvirtConfigGuestSerial() console.port = port console.type = "tcp" console.listen_host = ( CONF.serial_console.proxyclient_address) console.listen_port = ( serial_console.acquire_port( console.listen_host)) guest.add_device(console) else: # The QEMU 'pty' driver throws away any data if no # client app is connected. Thus we can't get away # with a single type=pty console. Instead we have # to configure two separate consoles. if guest_arch in (arch.S390, arch.S390X): consolelog = vconfig.LibvirtConfigGuestConsole() consolelog.target_type = "sclplm" else: consolelog = vconfig.LibvirtConfigGuestSerial() consolelog.type = "file" consolelog.source_path = self._get_console_log_path(instance) guest.add_device(consolelog) def _add_video_driver(self, guest, image_meta, img_meta_prop, flavor): VALID_VIDEO_DEVICES = ("vga", "cirrus", "vmvga", "xen", "qxl") 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 == vm_mode.XEN: video.type = 'xen' elif CONF.libvirt.virt_type == 'parallels': video.type = 'vga' elif guestarch in (arch.PPC, arch.PPC64): # NOTE(ldbragst): PowerKVM doesn't support 'cirrus' be default # so use 'vga' instead when running on Power hardware. video.type = 'vga' elif CONF.spice.enabled: video.type = 'qxl' if img_meta_prop.get('hw_video_model'): video.type = img_meta_prop.get('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 = int(img_meta_prop.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, img_meta_prop): qga_enabled = False # Enable qga only if the 'hw_qemu_guest_agent' is equal to yes hw_qga = img_meta_prop.get('hw_qemu_guest_agent', '') if strutils.bool_from_string(hw_qga): LOG.debug("Qemu guest agent is enabled through image " "metadata", instance=instance) qga_enabled = True if qga_enabled: self._add_qga_device(guest, instance) rng_is_virtio = img_meta_prop.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): wantsmempages = False if inst_topology: for cell in inst_topology.cells: if cell.pagesize: wantsmempages = True break if not wantsmempages: return if not self._has_hugepage_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... if pages: membacking = vconfig.LibvirtConfigGuestMemoryBacking() membacking.hugepages = pages return membacking def _get_flavor(self, ctxt, instance, flavor): if flavor is not None: return flavor return instance.flavor 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 == vm_mode.HVM: guest.os_loader = CONF.libvirt.xen_hvmloader_path elif virt_type in ("kvm", "qemu"): if caps.host.cpu.arch in (arch.I686, arch.X86_64): guest.sysinfo = self._get_guest_config_sysinfo(instance) guest.os_smbios = vconfig.LibvirtConfigGuestSMBIOS() guest.os_mach_type = self._get_machine_type(image_meta, caps) guest.os_bootmenu = strutils.bool_from_string( flavor.extra_specs.get( 'hw:boot_menu', image_meta.get('properties', {}).get( 'hw_boot_menu', 'no'))) 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 == vm_mode.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, instance, flavor, image_meta, caps): if virt_type in ("qemu", "kvm"): # Create the serial console char devices self._create_serial_console_devices(guest, instance, flavor, image_meta) if caps.host.cpu.arch in (arch.S390, arch.S390X): consolepty = vconfig.LibvirtConfigGuestConsole() consolepty.target_type = "sclp" else: consolepty = vconfig.LibvirtConfigGuestSerial() else: consolepty = vconfig.LibvirtConfigGuestConsole() return consolepty 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 _get_guest_config(self, instance, network_info, image_meta, disk_info, rescue=None, block_device_info=None, context=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. """ flavor = instance.flavor inst_path = libvirt_utils.get_instance_path(instance) disk_mapping = disk_info['mapping'] img_meta_prop = image_meta.get('properties', {}) if image_meta else {} 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() pci_devs = pci_manager.get_instance_pci_devs(instance, 'all') guest_numa_config = self._get_guest_numa_config( instance.numa_topology, flavor, pci_devs, allowed_cpus) 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) guest.metadata.append(self._get_guest_config_meta(context, instance)) guest.idmaps = self._get_guest_idmaps() 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 = (vm_mode.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) self._set_clock(guest, instance.os_type, image_meta, virt_type) storage_configs = self._get_guest_storage_config( 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) guest.add_device(config) consolepty = self._create_consoles(virt_type, guest, instance, flavor, image_meta, caps) if virt_type != 'parallels': consolepty.type = "pty" guest.add_device(consolepty) # 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). # # NB: this implies that if both SPICE + VNC are enabled # at the same time, we'll get the tablet whether the # SPICE agent is used or not. need_usb_tablet = False if CONF.vnc_enabled: need_usb_tablet = CONF.libvirt.use_usb_tablet elif CONF.spice.enabled and not CONF.spice.agent_enabled: need_usb_tablet = CONF.libvirt.use_usb_tablet if need_usb_tablet and guest.os_type == vm_mode.HVM: tablet = vconfig.LibvirtConfigGuestInput() tablet.type = "tablet" tablet.bus = "usb" guest.add_device(tablet) if (CONF.spice.enabled and CONF.spice.agent_enabled and virt_type not in ('lxc', 'uml', 'xen')): channel = vconfig.LibvirtConfigGuestChannel() channel.target_name = "com.redhat.spice.0" guest.add_device(channel) # 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 virt_type not in ('lxc', 'uml'))): graphics = vconfig.LibvirtConfigGuestGraphics() graphics.type = "vnc" graphics.keymap = CONF.vnc_keymap graphics.listen = CONF.vncserver_listen guest.add_device(graphics) add_video_driver = True if (CONF.spice.enabled and virt_type not in ('lxc', 'uml', 'xen')): graphics = vconfig.LibvirtConfigGuestGraphics() graphics.type = "spice" graphics.keymap = CONF.spice.keymap graphics.listen = CONF.spice.server_listen guest.add_device(graphics) add_video_driver = True if add_video_driver: self._add_video_driver(guest, image_meta, img_meta_prop, flavor) # Qemu guest agent only support 'qemu' and 'kvm' hypervisor if virt_type in ('qemu', 'kvm'): self._set_qemu_guest_agent(guest, flavor, instance, img_meta_prop) if virt_type in ('xen', 'qemu', 'kvm'): for pci_dev in pci_manager.get_instance_pci_devs(instance): guest.add_device(self._get_guest_pci_device(pci_dev)) else: if len(pci_devs) > 0: raise exception.PciDeviceUnsupportedHypervisor( type=virt_type) if 'hw_watchdog_action' in flavor.extra_specs: LOG.warn(_LW('Old property name "hw_watchdog_action" is now ' 'deprecated and will be removed in the next release. ' 'Use updated property name ' '"hw:watchdog_action" instead')) # TODO(pkholkin): accepting old property name 'hw_watchdog_action' # should be removed in the next release watchdog_action = (flavor.extra_specs.get('hw_watchdog_action') or flavor.extra_specs.get('hw:watchdog_action') or 'disabled') if (image_meta is not None and image_meta.get('properties', {}).get('hw_watchdog_action')): watchdog_action = image_meta['properties']['hw_watchdog_action'] # NB(sross): currently only actually supported by KVM/QEmu if watchdog_action != 'disabled': if watchdog_actions.is_valid_watchdog_action(watchdog_action): bark = vconfig.LibvirtConfigGuestWatchdog() bark.action = watchdog_action guest.add_device(bark) else: raise exception.InvalidWatchdogAction(action=watchdog_action) # 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) return guest def _get_guest_xml(self, context, instance, network_info, disk_info, image_meta, rescue=None, block_device_info=None, write_to_disk=False): # 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) xml = conf.to_xml() if write_to_disk: instance_dir = libvirt_utils.get_instance_path(instance) xml_path = os.path.join(instance_dir, 'libvirt.xml') libvirt_utils.write_to_file(xml_path, 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 name. 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. """ virt_dom = self._host.get_domain(instance) try: dom_info = self._host.get_domain_info(virt_dom) except libvirt.libvirtError as ex: error_code = ex.get_error_code() if error_code == libvirt.VIR_ERR_NO_DOMAIN: raise exception.InstanceNotFound(instance_id=instance.name) msg = (_('Error from libvirt while getting domain info for ' '%(instance_name)s: [Error Code %(error_code)s] %(ex)s') % {'instance_name': instance.name, 'error_code': error_code, 'ex': ex}) raise exception.NovaException(msg) return hardware.InstanceInfo(state=LIBVIRT_POWER_STATE[dom_info[0]], max_mem_kb=dom_info[1], mem_kb=dom_info[2], num_cpu=dom_info[3], cpu_time_ns=dom_info[4], id=virt_dom.ID()) def _create_domain_setup_lxc(self, instance, image_meta, block_device_info, disk_info): inst_path = libvirt_utils.get_instance_path(instance) block_device_mapping = driver.block_device_info_get_mapping( block_device_info) disk_info = disk_info or {} disk_mapping = disk_info.get('mapping', []) if self._is_booted_from_volume(instance, disk_mapping): root_disk = block_device.get_root_bdm(block_device_mapping) disk_path = root_disk['connection_info']['data']['device_path'] disk_info = blockinfo.get_info_from_bdm( CONF.libvirt.virt_type, image_meta, root_disk) self._connect_volume(root_disk['connection_info'], disk_info) # Get the system metadata from the instance use_cow = instance.system_metadata['image_disk_format'] == 'qcow2' else: image = self.image_backend.image(instance, 'disk') disk_path = image.path use_cow = CONF.use_cow_images container_dir = os.path.join(inst_path, 'rootfs') fileutils.ensure_tree(container_dir) rootfs_dev = disk.setup_container(disk_path, container_dir=container_dir, use_cow=use_cow) 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 disk.clean_lxc_namespace(container_dir=container_dir) else: disk.teardown_container(container_dir=container_dir) @contextlib.contextmanager def _lxc_disk_handler(self, instance, image_meta, block_device_info, disk_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(instance, image_meta, block_device_info, disk_info) try: yield finally: self._create_domain_cleanup_lxc(instance) def _create_domain(self, xml=None, domain=None, instance=None, launch_flags=0, power_on=True): """Create a domain. Either domain or xml must be passed in. If both are passed, then the domain definition is overwritten from the xml. """ err = None try: if xml: err = _LE('Error defining a domain with XML: %s') % xml domain = self._conn.defineXML(xml) if power_on: err = _LE('Error launching a defined domain with XML: %s') \ % encodeutils.safe_decode(domain.XMLDesc(0), errors='ignore') domain.createWithFlags(launch_flags) if not utils.is_neutron(): err = _LE('Error enabling hairpin mode with XML: %s') \ % encodeutils.safe_decode(domain.XMLDesc(0), errors='ignore') self._enable_hairpin(domain.XMLDesc(0)) except Exception: with excutils.save_and_reraise_exception(): if err: LOG.error(err) return domain def _neutron_failed_callback(self, event_name, instance): LOG.error(_LE('Neutron Reported failure on event ' '%(event)s for instance %(uuid)s'), {'event': event_name, 'uuid': instance.uuid}) 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 _create_domain_and_network(self, context, xml, instance, network_info, disk_info, block_device_info=None, power_on=True, reboot=False, vifs_already_plugged=False): """Do required network setup and create domain.""" block_device_mapping = driver.block_device_info_get_mapping( block_device_info) image_meta = utils.get_image_from_system_metadata( instance.system_metadata) for vol in block_device_mapping: connection_info = vol['connection_info'] if (not reboot and 'data' in connection_info and 'volume_id' in connection_info['data']): volume_id = connection_info['data']['volume_id'] encryption = encryptors.get_encryption_metadata( context, self._volume_api, volume_id, connection_info) if encryption: encryptor = self._get_volume_encryptor(connection_info, encryption) encryptor.attach_volume(context, **encryption) 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 = [] launch_flags = events and libvirt.VIR_DOMAIN_START_PAUSED or 0 domain = 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(instance, image_meta, block_device_info, disk_info): domain = self._create_domain( xml, instance=instance, launch_flags=launch_flags, power_on=power_on) 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(): if domain: domain.destroy() self.cleanup(context, instance, network_info=network_info, block_device_info=block_device_info) except eventlet.timeout.Timeout: # We never heard from Neutron LOG.warn(_LW('Timeout waiting for vif plugging callback for ' 'instance %(uuid)s'), {'uuid': instance.uuid}) if CONF.vif_plugging_is_fatal: if domain: domain.destroy() self.cleanup(context, instance, network_info=network_info, block_device_info=block_device_info) raise exception.VirtualInterfaceCreateException() # Resume only if domain has been paused if launch_flags & libvirt.VIR_DOMAIN_START_PAUSED: domain.resume() return domain def _get_all_block_devices(self): """Return all block devices in use on this node.""" devices = [] for dom in self._host.list_instance_domains(): try: doc = etree.fromstring(dom.XMLDesc(0)) except libvirt.libvirtError as e: LOG.warn(_LW("couldn't obtain the XML from domain:" " %(uuid)s, exception: %(ex)s") % {"uuid": dom.UUIDString(), "ex": e}) continue except Exception: continue sources = doc.findall("./devices/disk[@type='block']/source") for source in sources: devices.append(source.get('dev')) return devices def _get_interfaces(self, xml): """Note that this function takes a domain xml. Returns a list of all network interfaces for this instance. """ doc = None try: doc = etree.fromstring(xml) except Exception: return [] interfaces = [] nodes = doc.findall('./devices/interface/target') for target in nodes: interfaces.append(target.get('dev')) return interfaces def _get_vcpu_total(self): """Get available vcpu number of physical computer. :returns: the number of cpu core instances can be used. """ if self._vcpu_total != 0: return self._vcpu_total try: total_pcpus = self._conn.getInfo()[2] except libvirt.libvirtError: LOG.warn(_LW("Cannot get the number of cpu, because this " "function is not implemented for this platform. ")) return 0 if CONF.vcpu_pin_set is None: self._vcpu_total = total_pcpus return self._vcpu_total available_ids = hardware.get_vcpu_pin_set() if sorted(available_ids)[-1] >= total_pcpus: raise exception.Invalid(_("Invalid vcpu_pin_set config, " "out of hypervisor cpu range.")) self._vcpu_total = len(available_ids) return self._vcpu_total def _get_memory_mb_total(self): """Get the total memory size(MB) of physical computer. :returns: the total amount of memory(MB). """ return self._conn.getInfo()[1] @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.iteritems(): 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 if CONF.libvirt.virt_type == 'lxc': return total + 1 for dom in self._host.list_instance_domains(): try: vcpus = dom.vcpus() except libvirt.libvirtError as e: LOG.warn(_LW("couldn't obtain the vpu count from domain id:" " %(uuid)s, exception: %(ex)s") % {"uuid": dom.UUIDString(), "ex": e}) else: if vcpus is not None and len(vcpus) > 1: total += len(vcpus[1]) # NOTE(gtt116): give other tasks a chance. greenthread.sleep(0) return total def _get_memory_mb_used(self): """Get the used memory size(MB) of physical computer. :returns: the total usage of memory(MB). """ if sys.platform.upper() not in ['LINUX2', 'LINUX3']: return 0 with open('/proc/meminfo') as fp: m = fp.read().split() idx1 = m.index('MemFree:') idx2 = m.index('Buffers:') idx3 = m.index('Cached:') if CONF.libvirt.virt_type == 'xen': used = 0 for dom in self._host.list_instance_domains(only_guests=False): try: dom_mem = int(self._host.get_domain_info(dom)[2]) except libvirt.libvirtError as e: LOG.warn(_LW("couldn't obtain the memory from domain:" " %(uuid)s, exception: %(ex)s") % {"uuid": dom.UUIDString(), "ex": e}) continue # skip dom0 if dom.ID() != 0: used += dom_mem else: # the mem reported by dom0 is be greater of what # it is being used used += (dom_mem - (int(m[idx1 + 1]) + int(m[idx2 + 1]) + int(m[idx3 + 1]))) # Convert it to MB return used / units.Ki else: avail = (int(m[idx1 + 1]) + int(m[idx2 + 1]) + int(m[idx3 + 1])) # Convert it to MB return self._get_memory_mb_total() - avail / units.Ki 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 = ( arch.canonicalize(g.arch), hv_type.canonicalize(dt), vm_mode.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['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_pcidev_info(self, devname): """Returns a dict of PCI device.""" def _get_device_type(cfgdev): """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. Please notice that a PCI device with SR-IOV capability but not enabled is reported as normal PCI device. """ for fun_cap in cfgdev.pci_capability.fun_capability: if len(fun_cap.device_addrs) != 0: if fun_cap.type == 'virt_functions': return {'dev_type': 'type-PF'} if fun_cap.type == 'phys_function': 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': 'type-VF', 'phys_function': phys_address} return {'dev_type': 'type-PCI'} virtdev = self._conn.nodeDeviceLookupByName(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)) 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 containaing 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._conn.listDevices('pci', 0) 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.warn(_LW("URI %(uri)s does not support " "listDevices: %(error)s"), {'uri': self.uri(), 'error': 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 _has_numa_support(self): if not self._host.has_min_version(MIN_LIBVIRT_NUMA_VERSION): return False if CONF.libvirt.virt_type not in ['qemu', 'kvm']: return False return True def _has_hugepage_support(self): if not self._host.has_min_version(MIN_LIBVIRT_HUGEPAGE_VERSION): return False if CONF.libvirt.virt_type not in ['qemu', 'kvm']: return False return True 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 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 = [] if self._has_hugepage_support(): mempages = [ objects.NUMAPagesTopology( size_kb=pages.size, total=pages.total, used=0) 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']: vol_stats = [] 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) 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: domain = self._host.get_domain(instance) return domain.blockStats(disk_id) except libvirt.libvirtError as e: errcode = e.get_error_code() LOG.info(_LI('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}) except exception.InstanceNotFound: LOG.info(_LI('Could not find domain in libvirt for instance %s. ' 'Cannot get block stats for device'), instance.name) 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_security_group_members(self, security_group_id): self.firewall_driver.refresh_security_group_members(security_group_id) def refresh_instance_security_rules(self, instance): self.firewall_driver.refresh_instance_security_rules(instance) def refresh_provider_fw_rules(self): self.firewall_driver.refresh_provider_fw_rules() 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: will be put in PCI device :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 # Temporary convert supported_instances into a string, while keeping # the RPC version as JSON. Can be changed when RPC broadcast is removed data["supported_instances"] = jsonutils.dumps( self._get_instance_capabilities()) data["vcpus"] = self._get_vcpu_total() data["memory_mb"] = self._get_memory_mb_total() data["local_gb"] = disk_info_dict['total'] data["vcpus_used"] = self._get_vcpu_used() data["memory_mb_used"] = self._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 dict containing: :filename: name of the tmpfile under CONF.instances_path :block_migration: whether this is block migration :disk_over_commit: disk-over-commit factor on dest host :disk_available_mb: available disk space on dest host """ disk_available_mb = None if block_migration: 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) else: self._compare_cpu(instance.vcpu_model, None) # Create file on storage, to be checked on source host filename = self._create_shared_storage_test_file() return {"filename": filename, "image_type": CONF.libvirt.images_type, "block_migration": block_migration, "disk_over_commit": disk_over_commit, "disk_available_mb": disk_available_mb} def check_can_live_migrate_destination_cleanup(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 dict containing migration info """ # Checking shared storage connectivity # if block migration, instances_paths should not be on shared storage. source = CONF.host dest_check_data.update({'is_shared_instance_path': self._check_shared_storage_test_file( dest_check_data['filename'])}) dest_check_data.update({'is_shared_block_storage': self._is_shared_block_storage(instance, dest_check_data, block_device_info)}) if dest_check_data['block_migration']: if (dest_check_data['is_shared_block_storage'] or dest_check_data['is_shared_instance_path']): reason = _("Block migration can not be used " "with shared storage.") raise exception.InvalidLocalStorage(reason=reason, path=source) self._assert_dest_node_has_enough_disk(context, instance, dest_check_data['disk_available_mb'], dest_check_data['disk_over_commit'], block_device_info) elif not (dest_check_data['is_shared_block_storage'] or dest_check_data['is_shared_instance_path']): reason = _("Live migration can not be used " "without shared storage.") 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(danms): Emulate this old flag in case we're talking to # an older client (<= Juno). We can remove this when we bump the # compute RPC API to 4.0. dest_check_data['is_shared_storage'] = ( dest_check_data['is_shared_instance_path']) 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 (CONF.libvirt.images_type == dest_check_data.get('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.get('is_shared_instance_path') and self.image_backend.backend().is_file_in_instance_path()): # NOTE(angdraug): file based image backends (Raw, Qcow2) # place block device files under the instance path return True if (dest_check_data.get('is_volume_backed') and not bool(jsonutils.loads( 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=None): """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 ret = self.get_instance_disk_info(instance, block_device_info=block_device_info) disk_infos = jsonutils.loads(ret) 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): """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(berendt): virConnectCompareCPU not working for Xen if CONF.libvirt.virt_type not in ['qemu', 'kvm']: return if guest_cpu is None: info = jsonutils.loads(host_cpu_str) LOG.info(_LI('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.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: ret = self._conn.compareCPU(cpu.to_xml(), 0) except libvirt.libvirtError as e: 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): """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) os.close(fd) return os.path.basename(tmp_file) def _check_shared_storage_test_file(self, filename): """Confirms existence of the tmpfile under CONF.instances_path. Cannot confirm tmpfile return False. """ tmp_file = os.path.join(CONF.instances_path, filename) if not os.path.exists(tmp_file): return False else: return True 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 = 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.NovaException(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: implementation specific params """ # '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) greenthread.spawn(self._live_migration, context, instance, dest, post_method, recover_method, block_migration, migrate_data) def _update_xml(self, xml_str, volume, listen_addrs): xml_doc = etree.fromstring(xml_str) if volume: xml_doc = self._update_volume_xml(xml_doc, volume) if listen_addrs: xml_doc = self._update_graphics_xml(xml_doc, listen_addrs) else: self._check_graphics_addresses_can_live_migrate(listen_addrs) return etree.tostring(xml_doc) def _update_graphics_xml(self, xml_doc, listen_addrs): # change over listen addresses for dev in xml_doc.findall('./devices/graphics'): gr_type = dev.get('type') listen_tag = dev.find('listen') if gr_type in ('vnc', 'spice'): if listen_tag is not None: listen_tag.set('address', listen_addrs[gr_type]) if dev.get('listen') is not None: dev.set('listen', listen_addrs[gr_type]) return xml_doc def _update_volume_xml(self, xml_doc, volume): """Update XML using device information of destination host.""" # Update volume xml parser = etree.XMLParser(remove_blank_text=True) disk_nodes = xml_doc.findall('./devices/disk') for pos, disk_dev in enumerate(disk_nodes): serial_source = disk_dev.findtext('serial') if serial_source is None or volume.get(serial_source) is None: continue if ('connection_info' not in volume[serial_source] or 'disk_info' not in volume[serial_source]): continue conf = self._get_volume_config( volume[serial_source]['connection_info'], volume[serial_source]['disk_info']) xml_doc2 = etree.XML(conf.to_xml(), parser) serial_dest = xml_doc2.findtext('serial') # Compare source serial and destination serial number. # If these serial numbers match, continue the process. if (serial_dest and (serial_source == serial_dest)): LOG.debug("Find same serial number: pos=%(pos)s, " "serial=%(num)s", {'pos': pos, 'num': serial_source}) for cnt, item_src in enumerate(disk_dev): # If source and destination have same item, update # the item using destination value. for item_dst in xml_doc2.findall(item_src.tag): disk_dev.remove(item_src) item_dst.tail = None disk_dev.insert(cnt, item_dst) # If destination has additional items, thses items should be # added here. for item_dst in list(xml_doc2): item_dst.tail = None disk_dev.insert(cnt, item_dst) return xml_doc def _check_graphics_addresses_can_live_migrate(self, listen_addrs): LOCAL_ADDRS = ('0.0.0.0', '127.0.0.1', '::', '::1') local_vnc = CONF.vncserver_listen in LOCAL_ADDRS local_spice = CONF.spice.server_listen in LOCAL_ADDRS if ((CONF.vnc_enabled and not local_vnc) or (CONF.spice.enabled and not local_spice)): msg = _('Your libvirt version does not support the' ' VIR_DOMAIN_XML_MIGRATABLE flag or your' ' destination node does not support' ' retrieving listen addresses. In order' ' for live migration to work properly, you' ' must configure the graphics (VNC and/or' ' SPICE) listen addresses to be either' ' the catch-all address (0.0.0.0 or ::) or' ' the local address (127.0.0.1 or ::1).') raise exception.MigrationError(reason=msg) if listen_addrs is not None: dest_local_vnc = listen_addrs['vnc'] in LOCAL_ADDRS dest_local_spice = listen_addrs['spice'] in LOCAL_ADDRS if ((CONF.vnc_enabled and not dest_local_vnc) or (CONF.spice.enabled and not dest_local_spice)): LOG.warn(_LW('Your libvirt version does not support the' ' VIR_DOMAIN_XML_MIGRATABLE flag, and the ' ' graphics (VNC and/or SPICE) listen' ' addresses on the destination node do not' ' match the addresses on the source node.' ' Since the source node has listen' ' addresses set to either the catch-all' ' address (0.0.0.0 or ::) or the local' ' address (127.0.0.1 or ::1), the live' ' migration will succeed, but the VM will' ' continue to listen on the current' ' addresses.')) def _live_migration_operation(self, context, instance, dest, block_migration, migrate_data, dom): """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: implementation specific params :param dom: the libvirt domain object 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 block_migration: flaglist = CONF.libvirt.block_migration_flag.split(',') else: flaglist = CONF.libvirt.live_migration_flag.split(',') flagvals = [getattr(libvirt, x.strip()) for x in flaglist] logical_sum = reduce(lambda x, y: x | y, flagvals) pre_live_migrate_data = (migrate_data or {}).get( 'pre_live_migration_result', {}) listen_addrs = pre_live_migrate_data.get('graphics_listen_addrs') volume = pre_live_migrate_data.get('volume') migratable_flag = getattr(libvirt, 'VIR_DOMAIN_XML_MIGRATABLE', None) if (migratable_flag is None or (listen_addrs is None and not volume)): self._check_graphics_addresses_can_live_migrate(listen_addrs) dom.migrateToURI(CONF.libvirt.live_migration_uri % dest, logical_sum, None, CONF.libvirt.live_migration_bandwidth) else: old_xml_str = dom.XMLDesc(migratable_flag) new_xml_str = self._update_xml(old_xml_str, volume, listen_addrs) try: dom.migrateToURI2(CONF.libvirt.live_migration_uri % dest, None, new_xml_str, logical_sum, None, CONF.libvirt.live_migration_bandwidth) except libvirt.libvirtError as ex: # NOTE(mriedem): There is a bug in older versions of # libvirt where the VIR_DOMAIN_XML_MIGRATABLE flag causes # virDomainDefCheckABIStability to not compare the source # and target domain xml's correctly for the CPU model. # We try to handle that error here and attempt the legacy # migrateToURI path, which could fail if the console # addresses are not correct, but in that case we have the # _check_graphics_addresses_can_live_migrate check in place # to catch it. # TODO(mriedem): Remove this workaround when # Red Hat BZ #1141838 is closed. error_code = ex.get_error_code() if error_code == libvirt.VIR_ERR_CONFIG_UNSUPPORTED: LOG.warn(_LW('An error occurred trying to live ' 'migrate. Falling back to legacy live ' 'migrate flow. Error: %s'), ex, instance=instance) self._check_graphics_addresses_can_live_migrate( listen_addrs) dom.migrateToURI( CONF.libvirt.live_migration_uri % dest, logical_sum, None, CONF.libvirt.live_migration_bandwidth) else: raise except Exception as e: with excutils.save_and_reraise_exception(): LOG.error(_LE("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_monitor(self, context, instance, dest, post_method, recover_method, block_migration, migrate_data, dom, finish_event): n = 0 while True: info = host.DomainJobInfo.for_domain(dom) if info.type == libvirt.VIR_DOMAIN_JOB_NONE: # Annoyingly this could indicate many possible # states, so we must fix the mess: # # 1. Migration has not yet begun # 2. Migration has stopped due to failure # 3. Migration has stopped due to completion # # We can detect option 1 by seeing if thread is still # running. We can distinguish 2 vs 3 by seeing if the # VM still exists & running on the current host # if not finish_event.ready(): LOG.debug("Operation thread is still running", instance=instance) # Leave type untouched else: try: if dom.isActive(): LOG.debug("VM running on src, migration failed", instance=instance) info.type = libvirt.VIR_DOMAIN_JOB_FAILED else: LOG.debug("VM is shutoff, migration finished", instance=instance) info.type = libvirt.VIR_DOMAIN_JOB_COMPLETED except libvirt.libvirtError as ex: LOG.debug("Error checking domain status %(ex)s", ex, instance=instance) if ex.get_error_code() == libvirt.VIR_ERR_NO_DOMAIN: LOG.debug("VM is missing, migration finished", instance=instance) info.type = libvirt.VIR_DOMAIN_JOB_COMPLETED else: LOG.info(_LI("Error %(ex)s, migration failed"), instance=instance) info.type = libvirt.VIR_DOMAIN_JOB_FAILED if info.type != libvirt.VIR_DOMAIN_JOB_NONE: 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: # 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 progress = 0 if info.memory_total != 0: progress = round(info.memory_remaining * 100 / info.memory_total) instance.progress = 100 - progress instance.save() lg = LOG.debug if (n % 60) == 0: lg = LOG.info lg(_LI("Migration running for %(secs)d secs, " "memory %(progress)d%% remaining; " "(bytes processed=%(processed)d, " "remaining=%(remaining)d, " "total=%(total)d)"), {"secs": n / 2, "progress": progress, "processed": info.memory_processed, "remaining": info.memory_remaining, "total": info.memory_total}, instance=instance) # Migration is still running # # This is where we'd wire up calls to change live # migration status. eg change max downtime, cancel # the operation, change max bandwidth n = n + 1 elif info.type == libvirt.VIR_DOMAIN_JOB_COMPLETED: # Migration is all done LOG.info(_LI("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(_LE("Migration operation has aborted"), instance=instance) recover_method(context, instance, dest, block_migration, migrate_data) break elif info.type == libvirt.VIR_DOMAIN_JOB_CANCELLED: # Migration was stopped by admin LOG.warn(_LW("Migration operation was cancelled"), instance=instance) recover_method(context, instance, dest, block_migration, migrate_data) break else: LOG.warn(_LW("Unexpected migration job type: %d"), info.type, instance=instance) time.sleep(0.5) 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: implementation specific params 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 """ dom = self._host.get_domain(instance) opthread = greenthread.spawn(self._live_migration_operation, context, instance, dest, block_migration, migrate_data, dom) finish_event = eventlet.event.Event() 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, dest, post_method, recover_method, block_migration, migrate_data, dom, finish_event) except Exception as ex: LOG.warn(_LW("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 _try_fetch_image(self, context, path, image_id, instance, fallback_from_host=None): try: libvirt_utils.fetch_image(context, path, image_id, instance.user_id, instance.project_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: self._try_fetch_image(context, os.path.join(instance_dir, 'kernel'), instance.kernel_id, instance, fallback_from_host) if instance.ramdisk_id: self._try_fetch_image(context, os.path.join(instance_dir, 'ramdisk'), 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, migrate_data) 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.get( 'is_shared_instance_path', True) 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=None): """Preparation live migration.""" # Steps for volume backed instance live migration w/o shared storage. is_shared_block_storage = True is_shared_instance_path = True is_block_migration = True if migrate_data: LOG.debug('migrate_data in pre_live_migration: %s', migrate_data, instance=instance) is_shared_block_storage = migrate_data.get( 'is_shared_block_storage', True) is_shared_instance_path = migrate_data.get( 'is_shared_instance_path', True) is_block_migration = migrate_data.get('block_migration', True) image_meta = utils.get_image_from_system_metadata( instance.system_metadata) if not (is_shared_instance_path and is_shared_block_storage): # NOTE(dims): Using config drive with iso format does not work # because of a bug in libvirt with read only devices. However # one can use vfat as config_drive_format which works fine. # Please see bug/1246201 for details on the libvirt bug. if CONF.config_drive_format != 'vfat': if configdrive.required_by(instance): raise exception.NoLiveMigrationForConfigDriveInLibVirt() 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) 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 not (is_block_migration or is_shared_instance_path): # 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 # Touch the console.log file, required by libvirt. console_file = self._get_console_log_path(instance) LOG.debug('Touch instance console log: %s', console_file, instance=instance) libvirt_utils.file_open(console_file, 'a').close() # 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 vol in block_device_mapping: connection_info = vol['connection_info'] disk_info = blockinfo.get_info_from_bdm( CONF.libvirt.virt_type, image_meta, vol) self._connect_volume(connection_info, disk_info) if is_block_migration and len(block_device_mapping): # 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. LOG.error( _LE('Cannot block migrate instance %s with mapped volumes'), instance.uuid) msg = (_('Cannot block migrate instance %s with mapped volumes') % instance.uuid) raise exception.MigrationError(reason=msg) # 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.warn(_LW('plug_vifs() failed %(cnt)d. Retry up to ' '%(max_retry)d.'), {'cnt': cnt, 'max_retry': max_retry}, instance=instance) greenthread.sleep(1) # Store vncserver_listen and latest disk device info res_data = {'graphics_listen_addrs': {}, 'volume': {}} res_data['graphics_listen_addrs']['vnc'] = CONF.vncserver_listen res_data['graphics_listen_addrs']['spice'] = CONF.spice.server_listen for vol in block_device_mapping: connection_info = vol['connection_info'] if connection_info.get('serial'): serial = connection_info['serial'] res_data['volume'][serial] = {'connection_info': {}, 'disk_info': {}} res_data['volume'][serial]['connection_info'] = \ connection_info disk_info = blockinfo.get_info_from_bdm( CONF.libvirt.virt_type, image_meta, vol) res_data['volume'][serial]['disk_info'] = disk_info return res_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, user_id=instance.user_id, project_id=instance.project_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}) def copy_from_host(target, max_size): 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_json, 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_json: json strings specified in get_instance_disk_info :param fallback_from_host: host where we can retrieve images if the glance images are not available. """ if not disk_info_json: disk_info = [] else: disk_info = jsonutils.loads(disk_info_json) 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']) image = self.image_backend.image(instance, instance_disk, CONF.libvirt.images_type) if cache_name.startswith('ephemeral'): image.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=instance.ephemeral_gb) elif cache_name.startswith('swap'): inst_type = instance.get_flavor() swap_mb = inst_type.swap image.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(image, libvirt_utils.fetch_image, context, cache_name, instance.image_ref, instance, info['virt_disk_size'], fallback_from_host) # if image 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) for vol in block_device_mapping: connection_info = vol['connection_info'] disk_dev = vol['mount_device'].rpartition("/")[2] self._disconnect_volume(connection_info, disk_dev) 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. """ # Define migrated instance, otherwise, suspend/destroy does not work. dom_list = self._conn.listDefinedDomains() if instance.name not in dom_list: image_meta = utils.get_image_from_system_metadata( instance.system_metadata) # In case of block migration, destination does not have # libvirt.xml disk_info = blockinfo.get_disk_info( CONF.libvirt.virt_type, instance, image_meta, block_device_info) xml = self._get_guest_xml(context, instance, network_info, disk_info, image_meta, block_device_info=block_device_info, write_to_disk=True) self._conn.defineXML(xml) def _get_instance_disk_info(self, instance_name, xml, block_device_info=None): 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 = [] doc = etree.fromstring(xml) disk_nodes = doc.findall('.//devices/disk') path_nodes = doc.findall('.//devices/disk/source') driver_nodes = doc.findall('.//devices/disk/driver') target_nodes = doc.findall('.//devices/disk/target') for cnt, path_node in enumerate(path_nodes): disk_type = disk_nodes[cnt].get('type') path = path_node.get('file') or path_node.get('dev') target = target_nodes[cnt].attrib['dev'] if not path: LOG.debug('skipping disk for %s as it does not have a path', instance_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 # get the real disk size or # raise a localized error if image is unavailable if disk_type == 'file': 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 disk_type = driver_nodes[cnt].get('type') if disk_type == "qcow2": backing_file = libvirt_utils.get_disk_backing_file(path) virt_size = disk.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': disk_type, 'path': path, 'virt_disk_size': virt_size, 'backing_file': backing_file, 'disk_size': dk_size, 'over_committed_disk_size': over_commit_size}) return jsonutils.dumps(disk_info) def get_instance_disk_info(self, instance, block_device_info=None): try: dom = self._host.get_domain(instance) xml = dom.XMLDesc(0) except libvirt.libvirtError as ex: error_code = ex.get_error_code() msg = (_('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': ex}) LOG.warn(msg) raise exception.InstanceNotFound(instance_id=instance.name) return self._get_instance_disk_info(instance.name, xml, 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 for dom in self._host.list_instance_domains(): try: xml = dom.XMLDesc(0) disk_infos = jsonutils.loads( self._get_instance_disk_info(dom.name(), xml)) 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.warn(_LW( 'Error from libvirt while getting description of ' '%(instance_name)s: [Error Code %(error_code)s] %(ex)s' ) % {'instance_name': dom.name(), 'error_code': error_code, 'ex': ex}) except OSError as e: if e.errno == errno.ENOENT: LOG.warn(_LW('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': dom.name()}) elif e.errno == errno.EACCES: LOG.warn(_LW('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': dom.name()}) else: raise except exception.VolumeBDMPathNotFound as e: LOG.warn(_LW('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': dom.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.""" # Extract node's CPU statistics. stats = self._conn.getCPUStats(libvirt.VIR_NODE_CPU_STATS_ALL_CPUS, 0) # getInfo() returns various information about the host node # No. 3 is the expected CPU frequency. stats["frequency"] = self._conn.getInfo()[3] return 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: utils.ssh_execute(dest, 'rm', '-rf', 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. shared_storage = (dest == self.get_host_ip_addr()) if not shared_storage: tmp_file = uuid.uuid4().hex + '.tmp' tmp_path = os.path.join(inst_base, tmp_file) try: utils.ssh_execute(dest, 'touch', tmp_path) if os.path.exists(tmp_path): shared_storage = True os.unlink(tmp_path) else: utils.ssh_execute(dest, 'rm', 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.ephemeral_gb) # Checks if the migration needs a disk resize down. root_down = flavor['root_gb'] < instance.root_gb ephemeral_down = flavor['ephemeral_gb'] < eph_size disk_info_text = self.get_instance_disk_info( instance, block_device_info=block_device_info) booted_from_volume = self._is_booted_from_volume(instance, disk_info_text) if (root_down and not booted_from_volume) or ephemeral_down: reason = _("Unable to resize disk down.") raise exception.InstanceFaultRollback( exception.ResizeError(reason=reason)) disk_info = jsonutils.loads(disk_info_text) # 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: utils.ssh_execute(dest, 'mkdir', '-p', 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'] disk_dev = vol['mount_device'].rpartition("/")[2] self._disconnect_volume(connection_info, disk_dev) 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 utils.execute('mkdir', '-p', inst_base) active_flavor = instance.get_flavor() 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) if (fname == 'disk.swap' and active_flavor.get('swap', 0) != flavor.get('swap', 0)): # To properly resize the swap partition, it must be # re-created with the proper size. This is acceptable # because when an OS is shut down, the contents of the # swap space are just garbage, the OS doesn't bother about # what is in it. # We will not copy over the swap disk here, and rely on # finish_migration/_create_image to re-create it for us. continue if info['type'] == 'qcow2' and info['backing_file']: tmp_path = from_path + "_rbase" # merge backing file utils.execute('qemu-img', 'convert', '-f', 'qcow2', '-O', 'qcow2', from_path, tmp_path) if shared_storage: utils.execute('mv', tmp_path, img_path) else: libvirt_utils.copy_image(tmp_path, img_path, host=dest) utils.execute('rm', '-f', tmp_path) else: # raw or qcow2 with no backing file libvirt_utils.copy_image(from_path, img_path, host=dest) except Exception: with excutils.save_and_reraise_exception(): self._cleanup_remote_migration(dest, inst_base, inst_base_resize, shared_storage) return disk_info_text def _wait_for_running(self, instance): state = self.get_info(instance).state if state == power_state.RUNNING: LOG.info(_LI("Instance running successfully."), instance=instance) raise loopingcall.LoopingCallDone() @staticmethod def _disk_size_from_instance(instance, info): """Determines the disk size from instance properties Returns the disk size by using the disk name to determine whether it is a root or an ephemeral disk, then by checking properties of the instance returns the size converted to bytes. Returns 0 if the disk name not match (disk, disk.local). """ fname = os.path.basename(info['path']) if fname == 'disk': size = instance.root_gb elif fname == 'disk.local': size = instance.ephemeral_gb else: size = 0 return size * units.Gi @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 _disk_resize(self, info, size): """Attempts to resize a disk to size Attempts to resize a disk by checking the capabilities and preparing the format, then calling disk.api.extend. Note: Currently only support disk extend. """ # If we have a non partitioned image that we can extend # then ensure we're in 'raw' format so we can extend file system. fmt, org = [info['type']] * 2 pth = info['path'] if (size and fmt == 'qcow2' and disk.can_resize_image(pth, size) and disk.is_image_extendable(pth, use_cow=True)): self._disk_qcow2_to_raw(pth) fmt = 'raw' if size: use_cow = fmt == 'qcow2' disk.extend(pth, size, use_cow=use_cow) if fmt != org: # back to qcow2 (no backing_file though) so that snapshot # will be available self._disk_raw_to_qcow2(pth) 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) # resize disks. only "disk" and "disk.local" are necessary. disk_info = jsonutils.loads(disk_info) for info in disk_info: size = self._disk_size_from_instance(instance, info) if resize_instance: self._disk_resize(info, size) if info['type'] == 'raw' and CONF.use_cow_images: self._disk_raw_to_qcow2(info['path']) disk_info = blockinfo.get_disk_info(CONF.libvirt.virt_type, instance, image_meta, block_device_info) # assume _create_image do nothing if a target file exists. self._create_image(context, instance, disk_info['mapping'], network_info=network_info, block_device_info=None, inject_files=False, fallback_from_host=migration.source_compute) xml = self._get_guest_xml(context, instance, network_info, disk_info, image_meta, block_device_info=block_device_info, write_to_disk=True) # 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. self._create_domain_and_network(context, xml, instance, network_info, disk_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() 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) image_ref = instance.get('image_ref') image_meta = compute_utils.get_image_metadata(context, self._image_api, image_ref, instance) disk_info = blockinfo.get_disk_info(CONF.libvirt.virt_type, instance, image_meta, block_device_info) xml = self._get_guest_xml(context, instance, network_info, disk_info, image_meta, block_device_info=block_device_info) self._create_domain_and_network(context, xml, instance, network_info, disk_info, block_device_info=block_device_info, power_on=power_on) if power_on: timer = loopingcall.FixedIntervalLoopingCall( self._wait_for_running, instance) timer.start(interval=0.5).wait() def confirm_migration(self, migration, instance, network_info): """Confirms a resize, destroying the source VM.""" self._cleanup_resize(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): domain = self._host.get_domain(instance) output = {} # get cpu time, might launch an exception if the method # is not supported by the underlying hypervisor being # used by libvirt try: cputime = domain.vcpus()[0] for i in range(len(cputime)): output["cpu" + str(i) + "_time"] = cputime[i][2] except libvirt.libvirtError: pass # get io status xml = domain.XMLDesc(0) 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): domain = self._host.get_domain(instance) xml = domain.XMLDesc(0) xml_doc = etree.fromstring(xml) (state, max_mem, mem, num_cpu, cpu_time) = \ self._host.get_domain_info(domain) config_drive = configdrive.required_by(instance) launched_at = timeutils.normalize_time(instance.launched_at) uptime = timeutils.delta_seconds(launched_at, timeutils.utcnow()) diags = diagnostics.Diagnostics(state=power_state.STATE_MAP[state], driver='libvirt', config_drive=config_drive, hypervisor_os='linux', uptime=uptime) diags.memory_details.maximum = max_mem / units.Mi diags.memory_details.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: cputime = domain.vcpus()[0] num_cpus = len(cputime) for i in range(num_cpus): diags.add_cpu(time=cputime[i][2]) 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]) 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 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) 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 six.moves.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): LOG.info(_LI('Deleting instance files %s'), target_del, instance=instance) remaining_path = target_del try: shutil.rmtree(target_del) except OSError as e: LOG.error(_LE('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(_LI('Deletion of %s failed'), remaining_path, instance=instance) return False LOG.info(_LI('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( CONF.libvirt.virt_type, image_meta, "disk") cdrom_bus = blockinfo.get_disk_bus_for_device_type( CONF.libvirt.virt_type, image_meta, "cdrom") root_info = blockinfo.get_root_info( 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): image_meta = utils.get_image_from_system_metadata( instance.system_metadata) ephemerals, swap, block_device_mapping = block_device_lists[:3] blockinfo.default_device_names(CONF.libvirt.virt_type, nova_context.get_admin_context(), instance, root_device_name, ephemerals, swap, block_device_mapping, image_meta) def is_supported_fs_format(self, fs_type): return fs_type in [disk.FS_FORMAT_EXT2, disk.FS_FORMAT_EXT3, disk.FS_FORMAT_EXT4, disk.FS_FORMAT_XFS] def _get_power_state(self, virt_dom): dom_info = self._host.get_domain_info(virt_dom) return LIBVIRT_POWER_STATE[dom_info[0]]