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triliodata-4-0-patch / workloadmgr python
Repository URL to install this package:
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Version:
4.0.115 ▾
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# vim: tabstop=4 shiftwidth=4 softtabstop=4
# Copyright 2010 United States Government as represented by the
# Administrator of the National Aeronautics and Space Administration.
# Copyright 2011 Piston Cloud Computing, Inc.
# Copyright 2012-2013 Red Hat, Inc.
# All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
"""Handles all requests relating to compute resources (e.g. guest VMs,
networking and storage of VMs, and compute hosts on which they run)."""
import base64
import functools
import re
import string
import uuid
from oslo_config import cfg
from nova import availability_zones
from nova import block_device
from nova.cells import opts as cells_opts
from nova.compute import flavors
from nova.compute import instance_actions
from nova.compute import power_state
from nova.compute import rpcapi as compute_rpcapi
from nova.compute import task_states
from nova.compute import utils as compute_utils
from nova.compute import vm_states
from nova.consoleauth import rpcapi as consoleauth_rpcapi
from nova import crypto
from nova.db import base
from nova import exception
from nova import hooks
from nova.image import glance
from nova import network
from nova.network import model as network_model
from nova.network.security_group import openstack_driver
from nova.network.security_group import security_group_base
from nova import notifications
from nova import notifier
from nova.objects import aggregate as aggregate_obj
from nova.objects import base as obj_base
from nova.objects import instance as instance_obj
from nova.objects import instance_action
from nova.objects import instance_info_cache
from nova.objects import keypair as keypair_obj
from nova.objects import migration as migration_obj
from nova.objects import security_group as security_group_obj
from nova.objects import service as service_obj
from nova.openstack.common import excutils
from nova.openstack.common.gettextutils import _
from nova.openstack.common import log as logging
from nova.openstack.common import strutils
from nova.openstack.common import timeutils
from nova.openstack.common import uuidutils
import nova.policy
from nova import quota
from nova.scheduler import rpcapi as scheduler_rpcapi
from nova import servicegroup
from nova import utils
from nova import volume
from nova.virt import driver
LOG = logging.getLogger(__name__)
get_notifier = functools.partial(notifier.get_notifier, service='compute')
wrap_exception = functools.partial(exception.wrap_exception,
get_notifier=get_notifier)
compute_opts = [
cfg.BoolOpt('allow_resize_to_same_host',
default=False,
help='Allow destination machine to match source for resize. '
'Useful when testing in single-host environments.'),
cfg.BoolOpt('allow_migrate_to_same_host',
default=False,
help='Allow migrate machine to the same host. '
'Useful when testing in single-host environments.'),
cfg.StrOpt('default_schedule_zone',
help='availability zone to use when user doesn\'t specify one'),
cfg.ListOpt('non_inheritable_image_properties',
default=['cache_in_nova',
'bittorrent'],
help='These are image properties which a snapshot should not'
' inherit from an instance'),
cfg.StrOpt('null_kernel',
default='nokernel',
help='kernel image that indicates not to use a kernel, but to '
'use a raw disk image instead'),
cfg.StrOpt('multi_instance_display_name_template',
default='%(name)s-%(uuid)s',
help='When creating multiple instances with a single request '
'using the os-multiple-create API extension, this '
'template will be used to build the display name for '
'each instance. The benefit is that the instances '
'end up with different hostnames. To restore legacy '
'behavior of every instance having the same name, set '
'this option to "%(name)s". Valid keys for the '
'template are: name, uuid, count.'),
cfg.IntOpt('max_local_block_devices',
default=3,
help='Maximum number of devices that will result '
'in a local image being created on the hypervisor node. '
'Setting this to 0 means nova will allow only '
'boot from volume. A negative number means unlimited.'),
]
CONF = cfg.CONF
CONF.register_opts(compute_opts)
CONF.import_opt('compute_topic', 'nova.compute.rpcapi')
CONF.import_opt('enable', 'nova.cells.opts', group='cells')
CONF.import_opt('default_ephemeral_format', 'nova.virt.driver')
MAX_USERDATA_SIZE = 65535
QUOTAS = quota.QUOTAS
RO_SECURITY_GROUPS = ['default']
def check_instance_state(vm_state=None, task_state=(None,),
must_have_launched=True):
"""Decorator to check VM and/or task state before entry to API functions.
If the instance is in the wrong state, or has not been sucessfully started
at least once the wrapper will raise an exception.
"""
if vm_state is not None and not isinstance(vm_state, set):
vm_state = set(vm_state)
if task_state is not None and not isinstance(task_state, set):
task_state = set(task_state)
def outer(f):
@functools.wraps(f)
def inner(self, context, instance, *args, **kw):
if vm_state is not None and instance['vm_state'] not in vm_state:
raise exception.InstanceInvalidState(
attr='vm_state',
instance_uuid=instance['uuid'],
state=instance['vm_state'],
method=f.__name__)
if (task_state is not None and
instance['task_state'] not in task_state):
raise exception.InstanceInvalidState(
attr='task_state',
instance_uuid=instance['uuid'],
state=instance['task_state'],
method=f.__name__)
if must_have_launched and not instance['launched_at']:
raise exception.InstanceInvalidState(
attr=None,
not_launched=True,
instance_uuid=instance['uuid'],
state=instance['vm_state'],
method=f.__name__)
return f(self, context, instance, *args, **kw)
return inner
return outer
def check_instance_host(function):
@functools.wraps(function)
def wrapped(self, context, instance, *args, **kwargs):
if not instance['host']:
raise exception.InstanceNotReady(instance_id=instance['uuid'])
return function(self, context, instance, *args, **kwargs)
return wrapped
def check_instance_lock(function):
@functools.wraps(function)
def inner(self, context, instance, *args, **kwargs):
if instance['locked'] and not context.is_admin:
raise exception.InstanceIsLocked(instance_uuid=instance['uuid'])
return function(self, context, instance, *args, **kwargs)
return inner
def policy_decorator(scope):
"""Check corresponding policy prior of wrapped method to execution."""
def outer(func):
@functools.wraps(func)
def wrapped(self, context, target, *args, **kwargs):
check_policy(context, func.__name__, target, scope)
return func(self, context, target, *args, **kwargs)
return wrapped
return outer
wrap_check_policy = policy_decorator(scope='compute')
wrap_check_security_groups_policy = policy_decorator(
scope='compute:security_groups')
def check_policy(context, action, target, scope='compute'):
_action = '%s:%s' % (scope, action)
nova.policy.enforce(context, _action, target)
def check_instance_cell(fn):
def _wrapped(self, context, instance, *args, **kwargs):
self._validate_cell(instance, fn.__name__)
return fn(self, context, instance, *args, **kwargs)
_wrapped.__name__ = fn.__name__
return _wrapped
class API(base.Base):
"""API for interacting with the compute manager."""
def __init__(self, image_service=None, network_api=None, volume_api=None,
security_group_api=None, vmware_driver=None, **kwargs):
self.image_service = (image_service or
glance.get_default_image_service())
self.network_api = network_api or network.API()
self.volume_api = volume_api or volume.API()
self.security_group_api = (
security_group_api or openstack_driver.get_openstack_security_group_driver())
self.consoleauth_rpcapi = consoleauth_rpcapi.ConsoleAuthAPI()
self.scheduler_rpcapi = scheduler_rpcapi.SchedulerAPI()
self.compute_rpcapi = compute_rpcapi.ComputeAPI()
self._compute_task_api = None
self.servicegroup_api = servicegroup.API()
self.notifier = notifier.get_notifier('compute', CONF.host)
self.cm = vmware_driver
super(API, self).__init__(**kwargs)
@property
def compute_task_api(self):
if self._compute_task_api is None:
# TODO(alaski): Remove calls into here from conductor manager so
# that this isn't necessary. #1180540
from nova import conductor
self._compute_task_api = conductor.ComputeTaskAPI()
return self._compute_task_api
@property
def cell_type(self):
try:
return getattr(self, '_cell_type')
except AttributeError:
self._cell_type = cells_opts.get_cell_type()
return self._cell_type
def _cell_read_only(self, cell_name):
"""Is the target cell in a read-only mode?"""
# FIXME(comstud): Add support for this.
return False
def _validate_cell(self, instance, method):
if self.cell_type != 'api':
return
cell_name = instance['cell_name']
if not cell_name:
raise exception.InstanceUnknownCell(
instance_uuid=instance['uuid'])
if self._cell_read_only(cell_name):
raise exception.InstanceInvalidState(
attr="vm_state",
instance_uuid=instance['uuid'],
state="temporary_readonly",
method=method)
def _record_action_start(self, context, instance, action):
instance_action.InstanceAction.action_start(context,
instance['uuid'],
action,
want_result=False)
def _check_injected_file_quota(self, context, injected_files):
"""Enforce quota limits on injected files.
Raises a QuotaError if any limit is exceeded.
"""
if injected_files is None:
return
# Check number of files first
try:
QUOTAS.limit_check(context, injected_files=len(injected_files))
except exception.OverQuota:
raise exception.OnsetFileLimitExceeded()
# OK, now count path and content lengths; we're looking for
# the max...
max_path = 0
max_content = 0
for path, content in injected_files:
max_path = max(max_path, len(path))
max_content = max(max_content, len(content))
try:
QUOTAS.limit_check(context, injected_file_path_bytes=max_path,
injected_file_content_bytes=max_content)
except exception.OverQuota as exc:
# Favor path limit over content limit for reporting
# purposes
if 'injected_file_path_bytes' in exc.kwargs['overs']:
raise exception.OnsetFilePathLimitExceeded()
else:
raise exception.OnsetFileContentLimitExceeded()
def _check_num_instances_quota(self, context, instance_type, min_count,
max_count):
"""Enforce quota limits on number of instances created."""
# Determine requested cores and ram
req_cores = max_count * instance_type['vcpus']
req_ram = max_count * instance_type['memory_mb']
# Check the quota
try:
reservations = QUOTAS.reserve(context, instances=max_count,
cores=req_cores, ram=req_ram)
except exception.OverQuota as exc:
# OK, we exceeded quota; let's figure out why...
quotas = exc.kwargs['quotas']
usages = exc.kwargs['usages']
overs = exc.kwargs['overs']
headroom = exc.kwargs['headroom']
allowed = headroom['instances']
# Reduce 'allowed' instances in line with the cores & ram headroom
if instance_type['vcpus']:
allowed = min(allowed,
headroom['cores'] // instance_type['vcpus'])
if instance_type['memory_mb']:
allowed = min(allowed,
headroom['ram'] // instance_type['memory_mb'])
# Convert to the appropriate exception message
if allowed <= 0:
msg = _("Cannot run any more instances of this type.")
allowed = 0
elif min_count <= allowed <= max_count:
# We're actually OK, but still need reservations
return self._check_num_instances_quota(context, instance_type,
min_count, allowed)
else:
msg = (_("Can only run %s more instances of this type.") %
allowed)
resource = overs[0]
used = quotas[resource] - headroom[resource]
total_allowed = used + headroom[resource]
overs = ','.join(overs)
params = {'overs': overs, 'pid': context.project_id,
'min_count': min_count, 'max_count': max_count,
'msg': msg}
if min_count == max_count:
LOG.warn(_("%(overs)s quota exceeded for %(pid)s,"
" tried to run %(min_count)d instances. %(msg)s"),
params)
else:
LOG.warn(_("%(overs)s quota exceeded for %(pid)s,"
" tried to run between %(min_count)d and"
" %(max_count)d instances. %(msg)s"),
params)
num_instances = (str(min_count) if min_count == max_count else
"%s-%s" % (min_count, max_count))
requested = dict(instances=num_instances, cores=req_cores,
ram=req_ram)
raise exception.TooManyInstances(overs=overs,
req=requested[resource],
used=used, allowed=total_allowed,
resource=resource)
return max_count, reservations
def _check_metadata_properties_quota(self, context, metadata=None):
"""Enforce quota limits on metadata properties."""
if not metadata:
metadata = {}
num_metadata = len(metadata)
try:
QUOTAS.limit_check(context, metadata_items=num_metadata)
except exception.OverQuota as exc:
LOG.warn(_("Quota exceeded for %(pid)s, tried to set "
"%(num_metadata)s metadata properties"),
{'pid': context.project_id,
'num_metadata': num_metadata})
quota_metadata = exc.kwargs['quotas']['metadata_items']
raise exception.MetadataLimitExceeded(allowed=quota_metadata)
# Because metadata is stored in the DB, we hard-code the size limits
# In future, we may support more variable length strings, so we act
# as if this is quota-controlled for forwards compatibility
for k, v in metadata.items():
if len(k) == 0:
msg = _("Metadata property key blank")
LOG.warn(msg)
raise exception.InvalidMetadata(reason=msg)
if len(k) > 255:
msg = _("Metadata property key greater than 255 characters")
LOG.warn(msg)
raise exception.InvalidMetadataSize(reason=msg)
if len(v) > 255:
msg = _("Metadata property value greater than 255 characters")
LOG.warn(msg)
raise exception.InvalidMetadataSize(reason=msg)
def _check_requested_secgroups(self, context, secgroups):
"""
Check if the security group requested exists and belongs to
the project.
"""
for secgroup in secgroups:
# NOTE(sdague): default is handled special
if secgroup == "default":
continue
if not self.security_group_api.get(context, secgroup):
raise exception.SecurityGroupNotFoundForProject(
project_id=context.project_id, security_group_id=secgroup)
def _check_requested_networks(self, context, requested_networks):
"""
Check if the networks requested belongs to the project
and the fixed IP address for each network provided is within
same the network block
"""
self.network_api.validate_networks(context, requested_networks)
@staticmethod
def _handle_kernel_and_ramdisk(context, kernel_id, ramdisk_id, image):
"""Choose kernel and ramdisk appropriate for the instance.
The kernel and ramdisk can be chosen in one of three ways:
1. Passed in with create-instance request.
2. Inherited from image.
3. Forced to None by using `null_kernel` FLAG.
"""
# Inherit from image if not specified
image_properties = image.get('properties', {})
if kernel_id is None:
kernel_id = image_properties.get('kernel_id')
if ramdisk_id is None:
ramdisk_id = image_properties.get('ramdisk_id')
# Force to None if using null_kernel
if kernel_id == str(CONF.null_kernel):
kernel_id = None
ramdisk_id = None
# Verify kernel and ramdisk exist (fail-fast)
if kernel_id is not None:
image_service, kernel_id = glance.get_remote_image_service(
context, kernel_id)
image_service.show(context, kernel_id)
if ramdisk_id is not None:
image_service, ramdisk_id = glance.get_remote_image_service(
context, ramdisk_id)
image_service.show(context, ramdisk_id)
return kernel_id, ramdisk_id
@staticmethod
def _handle_availability_zone(context, availability_zone):
# NOTE(vish): We have a legacy hack to allow admins to specify hosts
# via az using az:host:node. It might be nice to expose an
# api to specify specific hosts to force onto, but for
# now it just supports this legacy hack.
# NOTE(deva): It is also possible to specify az::node, in which case
# the host manager will determine the correct host.
forced_host = None
forced_node = None
if availability_zone and ':' in availability_zone:
c = availability_zone.count(':')
if c == 1:
availability_zone, forced_host = availability_zone.split(':')
elif c == 2:
if '::' in availability_zone:
availability_zone, forced_node = \
availability_zone.split('::')
else:
availability_zone, forced_host, forced_node = \
availability_zone.split(':')
else:
raise exception.InvalidInput(
reason="Unable to parse availability_zone")
if not availability_zone:
availability_zone = CONF.default_schedule_zone
if forced_host:
check_policy(context, 'create:forced_host', {})
if forced_node:
check_policy(context, 'create:forced_host', {})
return availability_zone, forced_host, forced_node
def _ensure_auto_disk_config_is_valid(self, auto_disk_config_img,
auto_disk_config, image):
auto_disk_config_disabled = \
utils.is_auto_disk_config_disabled(auto_disk_config_img)
if auto_disk_config_disabled and auto_disk_config:
raise exception.AutoDiskConfigDisabledByImage(image=image)
def _inherit_properties_from_image(self, image, auto_disk_config):
image_properties = image.get('properties', {})
auto_disk_config_img = \
utils.get_auto_disk_config_from_image_props(image_properties)
self._ensure_auto_disk_config_is_valid(auto_disk_config_img,
auto_disk_config,
image.get("id"))
if auto_disk_config is None:
auto_disk_config = strutils.bool_from_string(auto_disk_config_img)
return {
'os_type': image_properties.get('os_type'),
'architecture': image_properties.get('architecture'),
'vm_mode': image_properties.get('vm_mode'),
'auto_disk_config': auto_disk_config
}
def _apply_instance_name_template(self, context, instance, index):
params = {
'uuid': instance['uuid'],
'name': instance['display_name'],
'count': index + 1,
}
try:
new_name = (CONF.multi_instance_display_name_template %
params)
except (KeyError, TypeError):
LOG.exception(_('Failed to set instance name using '
'multi_instance_display_name_template.'))
new_name = instance['display_name']
instance.display_name = new_name
if not instance.get('hostname', None):
instance.hostname = utils.sanitize_hostname(new_name)
instance.save()
return instance
def _check_config_drive(self, config_drive):
if config_drive:
try:
bool_val = strutils.bool_from_string(config_drive,
strict=True)
except ValueError:
raise exception.ConfigDriveInvalidValue(option=config_drive)
else:
bool_val = False
# FIXME(comstud): Bug ID 1193438 filed for this. This looks silly,
# but this is because the config drive column is a String. False
# is represented by using an empty string. And for whatever
# reason, we rely on the DB to cast True to a String.
return True if bool_val else ''
def _check_requested_image(self, context, image_id, image, instance_type):
if not image:
# Image checks don't apply when building from volume
return
if image['status'] != 'active':
raise exception.ImageNotActive(image_id=image_id)
if instance_type['memory_mb'] < int(image.get('min_ram') or 0):
raise exception.InstanceTypeMemoryTooSmall()
# NOTE(johannes): root_gb is allowed to be 0 for legacy reasons
# since libvirt interpreted the value differently than other
# drivers. A value of 0 means don't check size.
root_gb = instance_type['root_gb']
if root_gb:
if int(image.get('size') or 0) > root_gb * (1024 ** 3):
raise exception.InstanceTypeDiskTooSmall()
if int(image.get('min_disk') or 0) > root_gb:
raise exception.InstanceTypeDiskTooSmall()
def _check_and_transform_bdm(self, base_options, image_meta, min_count,
max_count, block_device_mapping, legacy_bdm):
# NOTE (ndipanov): Assume root dev name is 'vda' if not supplied.
# It's needed for legacy conversion to work.
root_device_name = (base_options.get('root_device_name') or 'vda')
image_ref = base_options.get('image_ref', '')
# Get the block device mappings defined by the image.
image_defined_bdms = \
image_meta.get('properties', {}).get('block_device_mapping', [])
if legacy_bdm:
block_device_mapping += image_defined_bdms
block_device_mapping = block_device.from_legacy_mapping(
block_device_mapping, image_ref, root_device_name)
elif image_defined_bdms:
# NOTE (ndipanov): For now assume that image mapping is legacy
block_device_mapping += block_device.from_legacy_mapping(
image_defined_bdms, None, root_device_name)
if min_count > 1 or max_count > 1:
if any([bdm['source_type'] == 'volume' for bdm in block_device_mapping]):
msg = _('Cannot attach one or more volumes to multiple'
' instances')
raise exception.InvalidRequest(msg)
return block_device_mapping
def _get_image(self, context, image_href):
if not image_href:
return None, {}
(image_service, image_id) = glance.get_remote_image_service(
context, image_href)
image = image_service.show(context, image_id)
return image_id, image
def _checks_for_create_and_rebuild(self, context, image_id, image,
instance_type, metadata,
files_to_inject):
self._check_metadata_properties_quota(context, metadata)
self._check_injected_file_quota(context, files_to_inject)
if image_id is not None:
self._check_requested_image(context, image_id,
image, instance_type)
def _validate_and_build_base_options(self, context, instance_type,
boot_meta, image_href, image_id,
kernel_id, ramdisk_id, display_name,
display_description, key_name,
key_data, security_groups,
availability_zone, forced_host,
user_data, metadata, injected_files,
access_ip_v4, access_ip_v6,
requested_networks, config_drive,
block_device_mapping,
auto_disk_config, reservation_id):
"""Verify all the input parameters regardless of the provisioning
strategy being performed.
"""
if availability_zone:
available_zones = availability_zones.\
get_availability_zones(context.elevated(), True)
if forced_host is None and availability_zone not in \
available_zones:
msg = _('The requested availability zone is not available')
raise exception.InvalidRequest(msg)
if instance_type['disabled']:
raise exception.InstanceTypeNotFound(
instance_type_id=instance_type['id'])
if user_data:
ll = len(user_data)
if ll > MAX_USERDATA_SIZE:
# NOTE(mikal): user_data is stored in a text column, and
# the database might silently truncate if its over length.
raise exception.InstanceUserDataTooLarge(
length=l, maxsize=MAX_USERDATA_SIZE)
try:
base64.decodestring(user_data)
except base64.binascii.Error:
raise exception.InstanceUserDataMalformed()
self._checks_for_create_and_rebuild(
context,
image_id,
boot_meta,
instance_type,
metadata,
injected_files)
self._check_requested_secgroups(context, security_groups)
self._check_requested_networks(context, requested_networks)
kernel_id, ramdisk_id = self._handle_kernel_and_ramdisk(
context, kernel_id, ramdisk_id, boot_meta)
config_drive = self._check_config_drive(config_drive)
if key_data is None and key_name:
key_pair = keypair_obj.KeyPair.get_by_name(context,
context.user_id,
key_name)
key_data = key_pair.public_key
root_device_name = block_device.properties_root_device_name(
boot_meta.get('properties', {}))
system_metadata = flavors.save_flavor_info(
dict(), instance_type)
base_options = {
'reservation_id': reservation_id,
'image_ref': image_href,
'kernel_id': kernel_id or '',
'ramdisk_id': ramdisk_id or '',
'power_state': power_state.NOSTATE,
'vm_state': vm_states.BUILDING,
'config_drive': config_drive,
'user_id': context.user_id,
'project_id': context.project_id,
'instance_type_id': instance_type['id'],
'memory_mb': instance_type['memory_mb'],
'vcpus': instance_type['vcpus'],
'root_gb': instance_type['root_gb'],
'ephemeral_gb': instance_type['ephemeral_gb'],
'display_name': display_name,
'display_description': display_description or '',
'user_data': user_data,
'key_name': key_name,
'key_data': key_data,
'locked': False,
'metadata': metadata or {},
'access_ip_v4': access_ip_v4,
'access_ip_v6': access_ip_v6,
'availability_zone': availability_zone,
'root_device_name': root_device_name,
'progress': 0,
'system_metadata': system_metadata}
options_from_image = self._inherit_properties_from_image(
boot_meta, auto_disk_config)
base_options.update(options_from_image)
return base_options
def _build_filter_properties(self, context, scheduler_hints, forced_host,
forced_node, instance_type):
filter_properties = dict(scheduler_hints=scheduler_hints)
filter_properties['instance_type'] = instance_type
if forced_host:
filter_properties['force_hosts'] = [forced_host]
if forced_node:
filter_properties['force_nodes'] = [forced_node]
return filter_properties
def _provision_instances(
self,
context,
instance_type,
min_count,
max_count,
base_options,
boot_meta,
security_groups,
block_device_mapping):
# Reserve quotas
num_instances, quota_reservations = self._check_num_instances_quota(
context, instance_type, min_count, max_count)
LOG.debug(_("Going to run %s instances...") % num_instances)
instances = []
try:
for i in range(num_instances):
instance = instance_obj.Instance()
instance.update(base_options)
instance = self.create_db_entry_for_new_instance(
context, instance_type, boot_meta, instance,
security_groups, block_device_mapping,
num_instances, i)
instances.append(instance)
# send a state update notification for the initial create to
# show it going from non-existent to BUILDING
notifications.send_update_with_states(
context, instance, None, vm_states.BUILDING, None, None, service="api")
# In the case of any exceptions, attempt DB cleanup and rollback the
# quota reservations.
except Exception:
with excutils.save_and_reraise_exception():
try:
for instance in instances:
try:
instance.destroy()
except exception.ObjectActionError:
pass
finally:
QUOTAS.rollback(context, quota_reservations)
# Commit the reservations
QUOTAS.commit(context, quota_reservations)
return instances
def _get_bdm_image_metadata(self, context, block_device_mapping,
legacy_bdm=True):
"""If we are booting from a volume, we need to get the
volume details from Cinder and make sure we pass the
metadata back accordingly.
"""
if not block_device_mapping:
return {}
for bdm in block_device_mapping:
if legacy_bdm and bdm.get('device_name') != 'vda':
continue
elif not legacy_bdm and bdm.get('boot_index') != 0:
continue
if bdm.get('image_id'):
try:
image_id = bdm['image_id']
image_meta = self.image_service.show(context, image_id)
return image_meta.get('properties', {})
except Exception:
raise exception.InvalidBDMImage(id=image_id)
elif bdm.get('volume_id'):
try:
volume_id = bdm['volume_id']
volume = self.volume_api.get(context, volume_id)
return volume.get('volume_image_metadata', {})
except Exception:
raise exception.InvalidBDMVolume(id=volume_id)
return {}
def _create_instance(self, context, instance_type,
image_href, kernel_id, ramdisk_id,
min_count, max_count,
display_name, display_description,
key_name, key_data, security_groups,
availability_zone, user_data, metadata,
injected_files, admin_password,
access_ip_v4, access_ip_v6,
requested_networks, config_drive,
block_device_mapping, auto_disk_config,
reservation_id=None, scheduler_hints=None,
legacy_bdm=True):
"""Verify all the input parameters regardless of the provisioning
strategy being performed and schedule the instance(s) for
creation.
"""
# Normalize and setup some parameters
if reservation_id is None:
reservation_id = utils.generate_uid('r')
security_groups = security_groups or ['default']
if metadata and 'imported_from_vcenter' in metadata and metadata['imported_from_vcenter']:
security_groups = []
min_count = min_count or 1
max_count = max_count or min_count
block_device_mapping = block_device_mapping or []
if not instance_type:
instance_type = flavors.get_default_flavor()
if image_href:
image_id, boot_meta = self._get_image(context, image_href)
else:
image_id = None
boot_meta = {}
boot_meta['properties'] = \
self._get_bdm_image_metadata(context,
block_device_mapping, legacy_bdm)
self._check_auto_disk_config(image=boot_meta,
auto_disk_config=auto_disk_config)
handle_az = self._handle_availability_zone
availability_zone, forced_host, forced_node = handle_az(
context, availability_zone)
base_options = self._validate_and_build_base_options(
context,
instance_type,
boot_meta,
image_href,
image_id,
kernel_id,
ramdisk_id,
display_name,
display_description,
key_name,
key_data,
security_groups,
availability_zone,
forced_host,
user_data,
metadata,
injected_files,
access_ip_v4,
access_ip_v6,
requested_networks,
config_drive,
block_device_mapping,
auto_disk_config,
reservation_id)
block_device_mapping = self._check_and_transform_bdm(
base_options, boot_meta, min_count, max_count,
block_device_mapping, legacy_bdm)
instances = self._provision_instances(
context,
instance_type,
min_count,
max_count,
base_options,
boot_meta,
security_groups,
block_device_mapping)
filter_properties = self._build_filter_properties(
context, scheduler_hints, forced_host, forced_node, instance_type)
for instance in instances:
self._record_action_start(context, instance,
instance_actions.CREATE)
self.compute_task_api.build_instances(
context,
instances=instances,
image=boot_meta,
filter_properties=filter_properties,
admin_password=admin_password,
injected_files=injected_files,
requested_networks=requested_networks,
security_groups=security_groups,
block_device_mapping=block_device_mapping,
legacy_bdm=False)
return (instances, reservation_id)
@staticmethod
def _volume_size(instance_type, bdm):
size = bdm.get('volume_size')
if size is None and bdm.get('source_type') == 'blank':
if bdm.get('guest_format') == 'swap':
size = instance_type.get('swap', 0)
else:
size = instance_type.get('ephemeral_gb', 0)
return size
def _prepare_image_mapping(self, instance_type, instance_uuid, mappings):
"""Extract and format blank devices from image mappings."""
prepared_mappings = []
for bdm in block_device.mappings_prepend_dev(mappings):
LOG.debug(_("Image bdm %s"), bdm, instance_uuid=instance_uuid)
virtual_name = bdm['virtual']
if virtual_name == 'ami' or virtual_name == 'root':
continue
if not block_device.is_swap_or_ephemeral(virtual_name):
continue
guest_format = bdm.get('guest_format')
if virtual_name == 'swap':
guest_format = 'swap'
if not guest_format:
guest_format = CONF.default_ephemeral_format
values = block_device.BlockDeviceDict({
'device_name': bdm['device'],
'source_type': 'blank',
'destination_type': 'local',
'device_type': 'disk',
'guest_format': guest_format,
'delete_on_termination': True,
'boot_index': -1})
values['volume_size'] = self._volume_size(
instance_type, values)
if values['volume_size'] == 0:
continue
prepared_mappings.append(values)
return prepared_mappings
def _update_block_device_mapping(self, elevated_context,
instance_type, instance_uuid,
block_device_mapping):
"""tell vm driver to attach volume at boot time by updating
BlockDeviceMapping
"""
LOG.debug(_("block_device_mapping %s"), block_device_mapping,
instance_uuid=instance_uuid)
for bdm in block_device_mapping:
bdm['volume_size'] = self._volume_size(instance_type, bdm)
if bdm.get('volume_size') == 0:
continue
bdm['instance_uuid'] = instance_uuid
self.db.block_device_mapping_update_or_create(elevated_context,
bdm,
legacy=False)
def _validate_bdm(self, context, instance, instance_type, all_mappings):
def _subsequent_list(l):
return all(el + 1 == l[i + 1] for i, el in enumerate(l[:-1]))
# Make sure that the boot indexes make sense
boot_indexes = sorted([bdm['boot_index']
for bdm in all_mappings
if bdm.get('boot_index') is not None and
bdm.get('boot_index') >= 0])
if 0 not in boot_indexes or not _subsequent_list(boot_indexes):
raise exception.InvalidBDMBootSequence()
for bdm in all_mappings:
# NOTE(vish): For now, just make sure the volumes are accessible.
# Additionally, check that the volume can be attached to this
# instance.
snapshot_id = bdm.get('snapshot_id')
volume_id = bdm.get('volume_id')
image_id = bdm.get('image_id')
if (image_id is not None and
image_id != instance.get('image_ref')):
try:
self._get_image(context, image_id)
except Exception:
raise exception.InvalidBDMImage(id=image_id)
elif volume_id is not None:
try:
volume = self.volume_api.get(context, volume_id)
self.volume_api.check_attach(context,
volume,
instance=instance)
except Exception:
raise exception.InvalidBDMVolume(id=volume_id)
elif snapshot_id is not None:
try:
self.volume_api.get_snapshot(context, snapshot_id)
except Exception:
raise exception.InvalidBDMSnapshot(id=snapshot_id)
ephemeral_size = sum(bdm.get('volume_size') or 0
for bdm in all_mappings
if block_device.new_format_is_ephemeral(bdm))
if ephemeral_size > instance_type['ephemeral_gb']:
raise exception.InvalidBDMEphemeralSize()
# There should be only one swap
swap_list = [bdm for bdm in all_mappings
if block_device.new_format_is_swap(bdm)]
if len(swap_list) > 1:
msg = _("More than one swap drive requested.")
raise exception.InvalidBDMFormat(details=msg)
if swap_list:
swap_size = swap_list[0].get('volume_size') or 0
if swap_size > instance_type['swap']:
raise exception.InvalidBDMSwapSize()
max_local = CONF.max_local_block_devices
if max_local >= 0:
num_local = len([bdm for bdm in all_mappings
if bdm.get('destination_type') == 'local'])
if num_local > max_local:
raise exception.InvalidBDMLocalsLimit()
def _populate_instance_for_bdm(self, context, instance, instance_type,
image, block_device_mapping):
"""Populate instance block device mapping information."""
instance_uuid = instance['uuid']
image_properties = image.get('properties', {})
image_mapping = image_properties.get('mappings', [])
if image_mapping:
image_mapping = self._prepare_image_mapping(
instance_type, instance_uuid, image_mapping)
self._validate_bdm(context, instance, instance_type,
block_device_mapping + image_mapping)
for mapping in (image_mapping, block_device_mapping):
if not mapping:
continue
self._update_block_device_mapping(
context, instance_type, instance_uuid, mapping)
def _populate_instance_shutdown_terminate(self, instance, image,
block_device_mapping):
"""Populate instance shutdown_terminate information."""
image_properties = image.get('properties', {})
if (block_device_mapping or
image_properties.get('mappings') or
image_properties.get('block_device_mapping')):
instance.shutdown_terminate = False
def _populate_instance_names(self, instance, num_instances):
"""Populate instance display_name and hostname."""
display_name = instance.get('display_name')
if instance.obj_attr_is_set('hostname'):
hostname = instance.get('hostname')
else:
hostname = None
if display_name is None:
display_name = self._default_display_name(instance['uuid'])
instance.display_name = display_name
if hostname is None and num_instances == 1:
# NOTE(russellb) In the multi-instance case, we're going to
# overwrite the display_name using the
# multi_instance_display_name_template. We need the default
# display_name set so that it can be used in the template, though.
# Only set the hostname here if we're only creating one instance.
# Otherwise, it will be built after the template based
# display_name.
hostname = display_name
instance.hostname = utils.sanitize_hostname(hostname)
def _default_display_name(self, instance_uuid):
return "Server %s" % instance_uuid
def _populate_instance_for_create(self, instance, image,
index, security_groups, instance_type):
"""Build the beginning of a new instance."""
if not instance.obj_attr_is_set('uuid'):
# Generate the instance_uuid here so we can use it
# for additional setup before creating the DB entry.
instance['uuid'] = str(uuid.uuid4())
instance.launch_index = index
instance.vm_state = vm_states.BUILDING
instance.task_state = task_states.SCHEDULING
info_cache = instance_info_cache.InstanceInfoCache()
info_cache.instance_uuid = instance.uuid
info_cache.network_info = network_model.NetworkInfo()
instance.info_cache = info_cache
# Store image properties so we can use them later
# (for notifications, etc). Only store what we can.
if not instance.obj_attr_is_set('system_metadata'):
instance.system_metadata = {}
# Make sure we have the dict form that we need for instance_update.
instance['system_metadata'] = utils.instance_sys_meta(instance)
system_meta = utils.get_system_metadata_from_image(
image, instance_type)
# In case we couldn't find any suitable base_image
system_meta.setdefault('image_base_image_ref', instance['image_ref'])
instance['system_metadata'].update(system_meta)
self.security_group_api.populate_security_groups(instance,
security_groups)
return instance
# NOTE(bcwaldon): No policy check since this is only used by scheduler and
# the compute api. That should probably be cleaned up, though.
def create_db_entry_for_new_instance(
self,
context,
instance_type,
image,
instance,
security_group,
block_device_mapping,
num_instances,
index):
"""Create an entry in the DB for this new instance,
including any related table updates (such as security group,
etc).
This is called by the scheduler after a location for the
instance has been determined.
"""
self._populate_instance_for_create(instance, image, index,
security_group, instance_type)
self._populate_instance_names(instance, num_instances)
self._populate_instance_shutdown_terminate(instance, image,
block_device_mapping)
self.security_group_api.ensure_default(context)
instance.create(context)
if num_instances > 1:
# NOTE(russellb) We wait until this spot to handle
# multi_instance_display_name_template, because we need
# the UUID from the instance.
instance = self._apply_instance_name_template(context, instance,
index)
# NOTE (ndipanov): This can now raise exceptions but the instance
# has been created, so delete it and re-raise so
# that other cleanup can happen.
try:
self._populate_instance_for_bdm(
context, instance, instance_type, image, block_device_mapping)
except exception.InvalidBDM:
with excutils.save_and_reraise_exception():
self.db.instance_destroy(context, instance['uuid'])
return instance
def _check_create_policies(self, context, availability_zone,
requested_networks, block_device_mapping):
"""Check policies for create()."""
target = {'project_id': context.project_id,
'user_id': context.user_id,
'availability_zone': availability_zone}
check_policy(context, 'create', target)
if requested_networks:
check_policy(context, 'create:attach_network', target)
if block_device_mapping:
check_policy(context, 'create:attach_volume', target)
def _check_multiple_instances_neutron_ports(self, requested_networks):
"""Check whether multiple instances are created from port id(s)."""
for net, ip, port in requested_networks:
if port:
msg = _("Unable to launch multiple instances with"
" a single configured port ID. Please launch your"
" instance one by one with different ports.")
raise exception.MultiplePortsNotApplicable(reason=msg)
@hooks.add_hook("create_instance")
def create(self, context, instance_type,
image_href, kernel_id=None, ramdisk_id=None,
min_count=None, max_count=None,
display_name=None, display_description=None,
key_name=None, key_data=None, security_group=None,
availability_zone=None, user_data=None, metadata=None,
injected_files=None, admin_password=None,
block_device_mapping=None, access_ip_v4=None,
access_ip_v6=None, requested_networks=None, config_drive=None,
auto_disk_config=None, scheduler_hints=None, legacy_bdm=True):
"""
Provision instances, sending instance information to the
scheduler. The scheduler will determine where the instance(s)
go and will handle creating the DB entries.
Returns a tuple of (instances, reservation_id)
"""
self._check_create_policies(context, availability_zone,
requested_networks, block_device_mapping)
if requested_networks and max_count > 1 and utils.is_neutron():
self._check_multiple_instances_neutron_ports(requested_networks)
return self._create_instance(
context, instance_type,
image_href, kernel_id, ramdisk_id,
min_count, max_count,
display_name, display_description,
key_name, key_data, security_group,
availability_zone, user_data, metadata,
injected_files, admin_password,
access_ip_v4, access_ip_v6,
requested_networks, config_drive,
block_device_mapping, auto_disk_config,
scheduler_hints=scheduler_hints,
legacy_bdm=legacy_bdm)
def trigger_provider_fw_rules_refresh(self, context):
"""Called when a rule is added/removed from a provider firewall."""
services = service_obj.ServiceList.get_all_by_topic(context,
CONF.compute_topic)
for service in services:
host_name = service.host
self.compute_rpcapi.refresh_provider_fw_rules(context, host_name)
@wrap_check_policy
def update(self, context, instance, **kwargs):
"""Updates the instance in the datastore.
:param context: The security context
:param instance: The instance to update
:param kwargs: All additional keyword args are treated
as data fields of the instance to be
updated
:returns: A reference to the updated instance
"""
refs = self._update(context, instance, **kwargs)
return refs[1]
def _update(self, context, instance, **kwargs):
# Update the instance record and send a state update notification
# if task or vm state changed
old_ref, instance_ref = self.db.instance_update_and_get_original(
context, instance['uuid'], kwargs)
notifications.send_update(context, old_ref,
instance_ref, service="api")
return dict(iter(old_ref.items())), dict(iter(instance_ref.items()))
def _check_auto_disk_config(self, instance=None, image=None,
**extra_instance_updates):
auto_disk_config = extra_instance_updates.get("auto_disk_config")
if auto_disk_config is None:
return
if not image and not instance:
return
if image:
image_props = image.get("properties", {})
auto_disk_config_img = \
utils.get_auto_disk_config_from_image_props(image_props)
image_ref = image.get("id")
else:
sys_meta = utils.instance_sys_meta(instance)
image_ref = sys_meta.get('image_base_image_ref')
auto_disk_config_img = \
utils.get_auto_disk_config_from_instance(sys_meta=sys_meta)
self._ensure_auto_disk_config_is_valid(auto_disk_config_img,
auto_disk_config,
image_ref)
def _delete(self, context, instance, delete_type, cb, **instance_attrs):
if instance['disable_terminate']:
LOG.info(_('instance termination disabled'),
instance=instance)
return
host = instance['host']
bdms = block_device.legacy_mapping(
self.db.block_device_mapping_get_all_by_instance(
context, instance['uuid']))
reservations = None
if context.is_admin and context.project_id != instance['project_id']:
project_id = instance['project_id']
else:
project_id = context.project_id
if context.user_id != instance['user_id']:
user_id = instance['user_id']
else:
user_id = context.user_id
try:
# NOTE(maoy): no expected_task_state needs to be set
instance.update(instance_attrs)
instance.progress = 0
instance.save()
new_type_id = instance.instance_type_id
# NOTE(comstud): If we delete the instance locally, we'll
# commit the reservations here. Otherwise, the manager side
# will commit or rollback the reservations based on success.
reservations = self._create_reservations(context,
instance,
new_type_id,
project_id, user_id)
if self.cell_type == 'api':
# NOTE(comstud): If we're in the API cell, we need to
# skip all remaining logic and just call the callback,
# which will cause a cast to the child cell. Also,
# commit reservations here early until we have a better
# way to deal with quotas with cells.
cb(context, instance, bdms, reservations=None)
if reservations:
QUOTAS.commit(context,
reservations,
project_id=project_id,
user_id=user_id)
return
if not host:
try:
compute_utils.notify_about_instance_usage(
self.notifier, context, instance,
"%s.start" % delete_type)
instance.destroy()
compute_utils.notify_about_instance_usage(
self.notifier, context, instance,
"%s.end" % delete_type,
system_metadata=instance.system_metadata)
if reservations:
QUOTAS.commit(context,
reservations,
project_id=project_id,
user_id=user_id)
return
except exception.ObjectActionError:
instance.refresh()
if instance['vm_state'] == vm_states.RESIZED:
self._confirm_resize_on_deleting(context, instance)
is_up = False
try:
service = service_obj.Service.get_by_compute_host(
context.elevated(), instance.host)
if self.servicegroup_api.service_is_up(service):
is_up = True
self._record_action_start(context, instance,
instance_actions.DELETE)
cb(context, instance, bdms, reservations=reservations)
except exception.ComputeHostNotFound:
pass
if not is_up:
# If compute node isn't up, just delete from DB
self._local_delete(context, instance, bdms, delete_type, cb)
if reservations:
QUOTAS.commit(context,
reservations,
project_id=project_id,
user_id=user_id)
reservations = None
except exception.InstanceNotFound:
# NOTE(comstud): Race condition. Instance already gone.
if reservations:
QUOTAS.rollback(context,
reservations,
project_id=project_id,
user_id=user_id)
except Exception:
with excutils.save_and_reraise_exception():
if reservations:
QUOTAS.rollback(context,
reservations,
project_id=project_id,
user_id=user_id)
def _confirm_resize_on_deleting(self, context, instance):
# If in the middle of a resize, use confirm_resize to
# ensure the original instance is cleaned up too
mig_cls = migration_obj.Migration
migration = None
for status in ('finished', 'confirming'):
try:
migration = mig_cls.get_by_instance_and_status(
context.elevated(), instance.uuid, status)
LOG.info(_('Found an unconfirmed migration during delete, '
'id: %(id)s, status: %(status)s') %
{'id': migration.id,
'status': migration.status},
context=context, instance=instance)
break
except exception.MigrationNotFoundByStatus:
pass
if not migration:
LOG.info(_('Instance may have been confirmed during delete'),
context=context, instance=instance)
return
src_host = migration.source_compute
# Call since this can race with the terminate_instance.
# The resize is done but awaiting confirmation/reversion,
# so there are two cases:
# 1. up-resize: here -instance['vcpus'/'memory_mb'] match
# the quota usages accounted for this instance,
# so no further quota adjustment is needed
# 2. down-resize: here -instance['vcpus'/'memory_mb'] are
# shy by delta(old, new) from the quota usages accounted
# for this instance, so we must adjust
try:
deltas = self._downsize_quota_delta(context, instance)
except KeyError:
LOG.info(_('Migration %s may have been confirmed during delete') %
migration.id, context=context, instance=instance)
return
downsize_reservations = self._reserve_quota_delta(context,
deltas)
self._record_action_start(context, instance,
instance_actions.CONFIRM_RESIZE)
self.compute_rpcapi.confirm_resize(context,
instance, migration,
src_host, downsize_reservations,
cast=False)
def _create_reservations(self, context, old_instance, new_instance_type_id,
project_id, user_id):
instance_vcpus = old_instance['vcpus']
instance_memory_mb = old_instance['memory_mb']
# NOTE(wangpan): if the instance is resizing, and the resources
# are updated to new instance type, we should use
# the old instance type to create reservation.
# see https://bugs.launchpad.net/nova/+bug/1099729 for more details
if old_instance['task_state'] in (task_states.RESIZE_MIGRATED,
task_states.RESIZE_FINISH):
Migration = migration_obj.Migration
try:
migration = Migration.get_by_instance_and_status(
context.elevated(), old_instance.uuid, 'post-migrating')
except exception.MigrationNotFoundByStatus:
migration = None
if (migration and
new_instance_type_id ==
migration.new_instance_type_id):
old_inst_type_id = migration.old_instance_type_id
try:
old_inst_type = flavors.get_flavor(old_inst_type_id)
except exception.InstanceTypeNotFound:
LOG.warning(_("instance type %d not found"),
old_inst_type_id)
pass
else:
instance_vcpus = old_inst_type['vcpus']
instance_memory_mb = old_inst_type['memory_mb']
LOG.debug(_("going to delete a resizing instance"))
reservations = QUOTAS.reserve(context,
project_id=project_id,
user_id=user_id,
instances=-1,
cores=-instance_vcpus,
ram=-instance_memory_mb)
return reservations
def _local_delete(self, context, instance, bdms, delete_type, cb):
LOG.warning(_("instance's host %s is down, deleting from "
"database") % instance['host'], instance=instance)
instance_uuid = instance['uuid']
instance.info_cache.delete()
compute_utils.notify_about_instance_usage(
self.notifier, context, instance, "%s.start" % delete_type)
elevated = context.elevated()
if self.cell_type != 'api':
self.network_api.deallocate_for_instance(elevated,
instance)
system_meta = self.db.instance_system_metadata_get(context,
instance_uuid)
# cleanup volumes
for bdm in bdms:
if bdm['volume_id']:
# NOTE(vish): We don't have access to correct volume
# connector info, so just pass a fake
# connector. This can be improved when we
# expose get_volume_connector to rpc.
connector = {'ip': '127.0.0.1', 'initiator': 'iqn.fake'}
self.volume_api.terminate_connection(context,
bdm['volume_id'],
connector)
self.volume_api.detach(elevated, bdm['volume_id'])
if bdm['delete_on_termination']:
self.volume_api.delete(context, bdm['volume_id'])
self.db.block_device_mapping_destroy(context, bdm['id'])
cb(context, instance, bdms, local=True)
instance.destroy()
compute_utils.notify_about_instance_usage(
self.notifier, context, instance, "%s.end" % delete_type,
system_metadata=system_meta)
def _do_delete(self, context, instance, bdms, reservations=None,
local=False):
if local:
instance.vm_state = vm_states.DELETED
instance.task_state = None
instance.terminated_at = timeutils.utcnow()
instance.save()
else:
self.compute_rpcapi.terminate_instance(context, instance, bdms,
reservations=reservations)
def _do_soft_delete(self, context, instance, bdms, reservations=None,
local=False):
if local:
instance.vm_state = vm_states.SOFT_DELETED
instance.task_state = None
instance.terminated_at = timeutils.utcnow()
instance.save()
else:
self.compute_rpcapi.soft_delete_instance(context, instance,
reservations=reservations)
# NOTE(maoy): we allow delete to be called no matter what vm_state says.
@wrap_check_policy
@check_instance_lock
@check_instance_cell
@check_instance_state(vm_state=None, task_state=None,
must_have_launched=True)
def soft_delete(self, context, instance):
"""Terminate an instance."""
LOG.debug(_('Going to try to soft delete instance'),
instance=instance)
self._delete(context, instance, 'soft_delete', self._do_soft_delete,
task_state=task_states.SOFT_DELETING,
deleted_at=timeutils.utcnow())
def _delete_instance(self, context, instance):
self._delete(context, instance, 'delete', self._do_delete,
task_state=task_states.DELETING)
@wrap_check_policy
@check_instance_lock
@check_instance_cell
@check_instance_state(vm_state=None, task_state=None,
must_have_launched=False)
def delete(self, context, instance):
"""Terminate an instance."""
LOG.debug(_("Going to try to terminate instance"), instance=instance)
self._delete_instance(context, instance)
@wrap_check_policy
@check_instance_lock
@check_instance_state(vm_state=[vm_states.SOFT_DELETED])
def restore(self, context, instance):
"""Restore a previously deleted (but not reclaimed) instance."""
# Reserve quotas
instance_type = flavors.extract_flavor(instance)
num_instances, quota_reservations = self._check_num_instances_quota(
context, instance_type, 1, 1)
self._record_action_start(context, instance, instance_actions.RESTORE)
try:
if instance['host']:
instance = self.update(context, instance,
task_state=task_states.RESTORING,
expected_task_state=None,
deleted_at=None)
self.compute_rpcapi.restore_instance(context, instance)
else:
self.update(context,
instance,
vm_state=vm_states.ACTIVE,
task_state=None,
expected_task_state=None,
deleted_at=None)
QUOTAS.commit(context, quota_reservations)
except Exception:
with excutils.save_and_reraise_exception():
QUOTAS.rollback(context, quota_reservations)
@wrap_check_policy
@check_instance_lock
@check_instance_state(vm_state=[vm_states.SOFT_DELETED],
must_have_launched=False)
def force_delete(self, context, instance):
"""Force delete a previously deleted (but not reclaimed) instance."""
self._delete_instance(context, instance)
def force_stop(self, context, instance, do_cast=True):
LOG.debug(_("Going to try to stop instance"), instance=instance)
instance.task_state = task_states.POWERING_OFF
instance.progress = 0
instance.save(expected_task_state=None)
self._record_action_start(context, instance, instance_actions.STOP)
self.compute_rpcapi.stop_instance(context, instance, do_cast=do_cast)
@wrap_check_policy
@check_instance_lock
@check_instance_host
@check_instance_cell
@check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.RESCUED,
vm_states.ERROR],
task_state=[None])
def stop(self, context, instance, do_cast=True):
"""Stop an instance."""
self.force_stop(context, instance, do_cast)
@wrap_check_policy
@check_instance_lock
@check_instance_host
@check_instance_cell
@check_instance_state(vm_state=[vm_states.STOPPED])
def start(self, context, instance):
"""Start an instance."""
LOG.debug(_("Going to try to start instance"), instance=instance)
instance.task_state = task_states.POWERING_ON
instance.save(expected_task_state=None)
self._record_action_start(context, instance, instance_actions.START)
# TODO(yamahata): injected_files isn't supported right now.
# It is used only for osapi. not for ec2 api.
# availability_zone isn't used by run_instance.
self.compute_rpcapi.start_instance(context, instance)
# NOTE(bcwaldon): no policy check here since it should be rolled in to
# search_opts in get_all
def get_active_by_window(self, context, begin, end=None, project_id=None):
"""Get instances that were continuously active over a window."""
return self.db.instance_get_active_by_window_joined(context, begin,
end, project_id)
# NOTE(bcwaldon): this doesn't really belong in this class
def get_instance_type(self, context, instance_type_id):
"""Get an instance type by instance type id."""
return flavors.get_flavor(instance_type_id, ctxt=context)
def get_bak(self, context, instance_id, want_objects=False):
"""Get a single instance with the given instance_id."""
# NOTE(ameade): we still need to support integer ids for ec2
expected_attrs = ['metadata', 'system_metadata',
'security_groups', 'info_cache']
try:
if uuidutils.is_uuid_like(instance_id):
instance = instance_obj.Instance.get_by_uuid(
context, instance_id, expected_attrs=expected_attrs)
elif utils.is_int_like(instance_id):
instance = instance_obj.Instance.get_by_id(
context, instance_id, expected_attrs=expected_attrs)
else:
raise exception.InstanceNotFound(instance_id=instance_id)
except exception.InvalidID:
raise exception.InstanceNotFound(instance_id=instance_id)
check_policy(context, 'get', instance)
if not want_objects:
instance = obj_base.obj_to_primitive(instance)
return instance
def get(self, context, instance_id, search_opts=None,
want_objects=False):
"""Refresh the instance db record with new data from vcenter"""
instance_uuid = instance_id
if search_opts['vmuuid'] == '1':
vmware_vms = self._discover_vmware_vms(context, vmuuid=instance_id)
for vm in vmware_vms:
# Create flavors by vmware guid only if the flavor does not exists
# otherwise update flavors
try:
instance_type = flavors.get_flavor_by_name(vm['uuid'])
instance_type['memory_mb'] = vm['flavor']['memoryMBs']
instance_type['vcpus'] = vm['flavor']['vcpus']
instance_type['root_gb'] = vm['flavor']['rootgb']
instance_type['name'] = vm['flavor']['name']
flavors.save_flavor_info(dict(), instance_type)
except BaseException:
flavors.create(
vm['flavor']['name'],
vm['flavor']['memoryMBs'],
vm['flavor']['vcpus'],
vm['flavor']['rootgb'])
# Read existing networks
networks = self.network_api.get_all(context)
vcnets = {}
for vm in vmware_vms:
for vcnet in vm['networks']:
vcnets[vcnet['name']] = vcnet['netid']
# Create networks that don't exists
for key, value in vcnets.items():
found = 0
for net in networks:
if net['name'] == key:
found = 1
break
if not found:
req = {
'network': {
'name': "{0}".format(key),
'admin_state_up': True}}
self.network_api.create_network(context, req)
# first read existing entries from the database
existing_instances = self.get_all_bak(
context, search_opts={'deleted': False})
for inst in existing_instances:
inst['found'] = False
images = self.image_service.detail(context)
if images is None or len(images) == 0:
return []
# refresh networks list
networks = self.network_api.get_all(context)
# Now create db instance for every vm discovered on the vcenter
instance_uuid = None
for vm in vmware_vms:
vmware_vm_found = False
for inst in existing_instances:
if 'metadata' in inst and 'vmware_uuid' in inst['metadata']:
if inst['metadata']['vmware_uuid'] == vm['uuid']:
vmware_vm_found = True
inst['found'] = True
instance_uuid = inst['uuid']
break
if vmware_vm_found:
# update the vmware record
inst['display_name'] = vm['name']
inst['display_description'] = vm['name']
self.update(inst)
continue
requested_networks = []
# for vcnet in vm['networks']:
for net in networks:
# if not net['router:external'] and net['name'] ==
# vcnet['name']:
if not net['router:external'] and net['name'] == 'private':
requested_networks.append((net['id'], None, None))
break
instance_type = flavors.get_flavor_by_name(vm['uuid'])
instance_uuid = self.create(
context,
instance_type,
images[0]['id'],
requested_networks=requested_networks,
metadata={
'imported_from_vcenter': 'True',
'vmware_uuid': vm['uuid']},
display_name=vm['name'],
display_description=vm['name'])[0][0]['uuid']
return self.get_bak(context, instance_uuid, want_objects)
# WLM_MOD:BEGIN function to discover vmware vms
def _discover_vmware_vms(self, context, vmuuid=None):
from nova.virt.vmwareapi import vim
from nova.virt.vmwareapi import vim_util
from nova.virt.vmwareapi import vm_util
instance_list = []
try:
cm = self.cm
instances = cm.list_instances()
for i in instances:
vmref = vm_util.get_vm_ref_from_name(cm._session, i)
uuid = vm_util.get_vm_uuid_from_vmref(cm._session, vmref)
if vmuuid and vmuuid != uuid:
continue
memmbs = vm_util.get_vm_memmbs_from_vmref(cm._session, vmref)
vcpus = vm_util.get_vm_vcpus_from_vmref(cm._session, vmref)
vdisks = vm_util.get_vm_vdisks_from_vmref(cm._session, vmref)
rootgb = vm_util.get_vm_rootgb_from_vmref(
cm._session, vmref) / 1024 / 1024 / 1024
if rootgb == 0:
rootgb = 1
host = vm_util.get_host_id_from_vm_ref(cm._session, vmref)
net_id = vm_util.get_network_id_from_vm_ref(cm._session, vmref)
host_ref = vm_util.get_host_ref_from_id(
cm._session, host, None)
datastore = vm_util.get_datastore_from_vmref(
cm._session, vmref)
datastorefolder = vm_util.get_datastore_folder_from_datastore(
cm._session, datastore)
datacenter = vm_util.get_datacenter_from_datacenterfolder(
cm._session, datastorefolder)
datacenter_name = vm_util.get_name_from_datacenter(
cm._session, datacenter)
networks = []
for n in net_id:
networks.append({'netid': n, 'name': vm_util.get_network_ref_from_id(
cm._session, n).propSet[0].val})
instance_list.append({'name': i,
'vmref': vmref,
'hostid': host,
'uuid': uuid,
'host_name': host_ref.propSet[0].val,
'networks': networks,
'flavor': {'name': uuid,
'memoryMBs': memmbs,
'vcpus': vcpus,
'vdisks': vdisks,
'rootgb': rootgb}})
for i in instance_list:
devices = vm_util.get_vm_virtualdevices_from_vmref(
cm._session, i['vmref'])
i['vdisks'] = []
for d in devices[0]:
if str(d.__class__).find(
'suds.sudsobject.VirtualE1000') != -1:
for n in i['networks']:
netid = ""
if str(d.backing.__class__).find(
'suds.sudsobject.VirtualEthernetCardDistributedVirtualPortBackingInfo') != -1:
netid = d.backing.port.portgroupKey
elif str(d.backing.__class__).find('suds.sudsobject.VirtualEthernetCardNetworkBackingInfo') != -1:
netid = d.backing.network.value
if netid == n['netid']:
n['macAddress'] = d.macAddress
if str(d.__class__).find(
'suds.sudsobject.VirtualDisk') != -1:
# This will feed bdm, but how do we identify the root disk. Explore later
# for now assume there is only one disk
i['vdisks'].append({'capacity': d.capacityInKB,
'label': d.deviceInfo.label,
'summary': d.deviceInfo.summary,
'filename': d.backing.fileName})
i['flavor']['rootgb'] = d.capacityInKB / 1024 / 1024
except Exception as ex:
msg = _("Error discovering VMware VMs: %(exception)s") % {
'exception': ex}
LOG.debug(msg)
LOG.exception(ex)
return instance_list
# WLM_MOD:END
def get_all(self, context, search_opts=None, sort_key='created_at',
sort_dir='desc', limit=None, marker=None, want_objects=False):
# We may derive this class and overload this function to discover the
# VMs from vcenter, but for now, lets stick to this hack for now
# Here is what we do
# Get all instances and its attributes from the VCenter
target = {
'project_id': context.project_id,
'user_id': context.user_id,
}
check_policy(context, "get_all", target)
check_policy(context, "get_all_tenants", target)
search_opts['deep_discover'] = True
if 'deep_discover' in search_opts and search_opts['deep_discover']:
search_opts.pop('deep_discover', None)
vmware_vms = self._discover_vmware_vms(context)
# Create flavors by vmware guid only if the flavor does not exists
for vm in vmware_vms:
try:
instance_type = flavors.get_flavor_by_name(vm['uuid'])
except BaseException:
flavors.create(
vm['flavor']['name'],
vm['flavor']['memoryMBs'],
vm['flavor']['vcpus'],
vm['flavor']['rootgb'])
# Read existing networks
networks = self.network_api.get_all(context)
vcnets = {}
for vm in vmware_vms:
for vcnet in vm['networks']:
vcnets[vcnet['name']] = vcnet['netid']
# Create networks that don't exists
for key, value in vcnets.items():
found = 0
for net in networks:
if net['name'] == key:
found = 1
break
if not found:
req = {
'network': {
'name': "{0}".format(key),
'admin_state_up': True}}
self.network_api.create_network(context, req)
# first read existing entries from the database
existing_instances = self.get_all_bak(
context, search_opts={'deleted': False})
for inst in existing_instances:
inst['found'] = False
images = self.image_service.detail(context)
if images is None or len(images) == 0:
return []
# refresh networks list
networks = self.network_api.get_all(context)
# Now create db instance for every vm discovered on the vcenter
for vm in vmware_vms:
vmware_vm_found = False
for inst in existing_instances:
if 'metadata' in inst and 'vmware_uuid' in inst['metadata']:
if inst['metadata']['vmware_uuid'] == vm['uuid']:
vmware_vm_found = True
inst['found'] = True
break
if vmware_vm_found:
continue
requested_networks = []
# for vcnet in vm['networks']:
for net in networks:
# if not net['router:external'] and net['name'] ==
# vcnet['name']:
if not net['router:external'] and net['name'] == 'private':
requested_networks.append((net['id'], None, None))
break
instance_type = flavors.get_flavor_by_name(vm['uuid'])
self.create(
context,
instance_type,
images[0]['id'],
requested_networks=requested_networks,
metadata={
'imported_from_vcenter': 'True',
'vmware_uuid': vm['uuid']},
display_name=vm['name'],
display_description=vm['name'])
for inst in existing_instances:
if not inst['found'] and 'metadata' in inst:
for key, value in inst['metadata'].items():
if key == 'imported_from_vcenter' and value == 'True':
instance = self.get_bak(
context, inst['uuid'], want_objects=True)
self.delete(context, instance)
# delete corresponding flavor too
fname = inst['metadata']['vmware_uuid']
try:
flavors.get_flavor_by_name(fname, ctxt=context)
except BaseException:
flavors.destroy(fname)
break
return self.get_all_bak(
context,
search_opts=search_opts,
sort_key=sort_key,
sort_dir=sort_dir,
limit=limit,
marker=marker,
want_objects=want_objects)
def get_all_bak(
self,
context,
search_opts=None,
sort_key='created_at',
sort_dir='desc',
limit=None,
marker=None,
want_objects=False):
"""Get all instances filtered by one of the given parameters.
If there is no filter and the context is an admin, it will retrieve
all instances in the system.
Deleted instances will be returned by default, unless there is a
search option that says otherwise.
The results will be returned sorted in the order specified by the
'sort_dir' parameter using the key specified in the 'sort_key'
parameter.
"""
# TODO(bcwaldon): determine the best argument for target here
target = {
'project_id': context.project_id,
'user_id': context.user_id,
}
check_policy(context, "get_all", target)
if search_opts is None:
search_opts = {}
if 'all_tenants' in search_opts:
check_policy(context, "get_all_tenants", target)
LOG.debug(_("Searching by: %s") % str(search_opts))
# Fixups for the DB call
filters = {}
def _remap_flavor_filter(flavor_id):
instance_type = flavors.get_flavor_by_flavor_id(
flavor_id)
filters['instance_type_id'] = instance_type['id']
def _remap_fixed_ip_filter(fixed_ip):
# Turn fixed_ip into a regexp match. Since '.' matches
# any character, we need to use regexp escaping for it.
filters['ip'] = '^%s$' % fixed_ip.replace('.', '\\.')
# search_option to filter_name mapping.
filter_mapping = {
'image': 'image_ref',
'name': 'display_name',
'tenant_id': 'project_id',
'flavor': _remap_flavor_filter,
'fixed_ip': _remap_fixed_ip_filter}
# copy from search_opts, doing various remappings as necessary
for opt, value in search_opts.items():
# Do remappings.
# Values not in the filter_mapping table are copied as-is.
# If remapping is None, option is not copied
# If the remapping is a string, it is the filter_name to use
try:
remap_object = filter_mapping[opt]
except KeyError:
filters[opt] = value
else:
# Remaps are strings to translate to, or functions to call
# to do the translating as defined by the table above.
if isinstance(remap_object, str):
filters[remap_object] = value
else:
try:
remap_object(value)
# We already know we can't match the filter, so
# return an empty list
except ValueError:
return []
inst_models = self._get_instances_by_filters(context, filters,
sort_key, sort_dir,
limit=limit,
marker=marker)
if want_objects:
return inst_models
# Convert the models to dictionaries
instances = []
for inst_model in inst_models:
instances.append(obj_base.obj_to_primitive(inst_model))
return instances
def _get_instances_by_filters(self, context, filters,
sort_key, sort_dir,
limit=None,
marker=None):
if 'ip6' in filters or 'ip' in filters:
res = self.network_api.get_instance_uuids_by_ip_filter(context,
filters)
# NOTE(jkoelker) It is possible that we will get the same
# instance uuid twice (one for ipv4 and ipv6)
uuids = set([r['instance_uuid'] for r in res])
filters['uuid'] = uuids
fields = ['metadata', 'system_metadata', 'info_cache',
'security_groups']
return instance_obj.InstanceList.get_by_filters(
context, filters=filters, sort_key=sort_key, sort_dir=sort_dir,
limit=limit, marker=marker, expected_attrs=fields)
@wrap_check_policy
@check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.PAUSED])
def live_snapshot(self, context, instance, name, extra_properties=None,
image_id=None):
"""Live Snapshot the given instance.
:param instance: nova.db.sqlalchemy.models.Instance
:param name: name of the backup or snapshot
:param extra_properties: dict of extra image properties to include
:returns: A dict containing image metadata
"""
if image_id:
# The image entry has already been created, so just pull the
# metadata.
image_meta = self.image_service.show(context, image_id)
else:
image_meta = self._create_image(
context,
instance,
name,
'snapshot',
extra_properties=extra_properties)
instance = self.update(context, instance,
task_state=task_states.IMAGE_LIVE_SNAPSHOT,
expected_task_state=None)
self.compute_rpcapi.live_snapshot_instance(context, instance=instance,
image_id=image_meta['id'])
return image_meta
@wrap_check_policy
@check_instance_cell
@check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.STOPPED])
def backup(self, context, instance, name, backup_type, rotation,
extra_properties=None):
"""Backup the given instance
:param instance: nova.db.sqlalchemy.models.Instance
:param name: name of the backup
:param backup_type: 'daily' or 'weekly'
:param rotation: int representing how many backups to keep around;
None if rotation shouldn't be used (as in the case of snapshots)
:param extra_properties: dict of extra image properties to include
when creating the image.
"""
props_copy = dict(extra_properties, backup_type=backup_type)
image_meta = self._create_image(context, instance, name,
'backup', extra_properties=props_copy)
# NOTE(comstud): Any changes to this method should also be made
# to the backup_instance() method in nova/cells/messaging.py
instance.task_state = task_states.IMAGE_BACKUP
instance.save(expected_task_state=None)
self.compute_rpcapi.backup_instance(context, instance,
image_meta['id'],
backup_type,
rotation)
return image_meta
@wrap_check_policy
@check_instance_cell
@check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.STOPPED,
vm_states.PAUSED, vm_states.SUSPENDED])
def snapshot(self, context, instance, name, extra_properties=None):
"""Snapshot the given instance.
:param instance: nova.db.sqlalchemy.models.Instance
:param name: name of the snapshot
:param extra_properties: dict of extra image properties to include
when creating the image.
:returns: A dict containing image metadata
"""
image_meta = self._create_image(context, instance, name,
'snapshot',
extra_properties=extra_properties)
# NOTE(comstud): Any changes to this method should also be made
# to the snapshot_instance() method in nova/cells/messaging.py
instance.task_state = task_states.IMAGE_SNAPSHOT
instance.save(expected_task_state=None)
self.compute_rpcapi.snapshot_instance(context, instance,
image_meta['id'])
return image_meta
def _create_image(self, context, instance, name, image_type,
extra_properties=None):
"""Create new image entry in the image service. This new image
will be reserved for the compute manager to upload a snapshot
or backup.
:param context: security context
:param instance: nova.db.sqlalchemy.models.Instance
:param name: string for name of the snapshot
:param image_type: snapshot | backup
:param backup_type: daily | weekly
:param extra_properties: dict of extra image properties to include
"""
if extra_properties is None:
extra_properties = {}
instance_uuid = instance['uuid']
properties = {
'instance_uuid': instance_uuid,
'user_id': str(context.user_id),
'image_type': image_type,
}
image_ref = instance.image_ref
sent_meta = compute_utils.get_image_metadata(
context, self.image_service, image_ref, instance)
sent_meta['name'] = name
sent_meta['is_public'] = False
# The properties set up above and in extra_properties have precedence
properties.update(extra_properties or {})
sent_meta['properties'].update(properties)
return self.image_service.create(context, sent_meta)
@check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.STOPPED])
def snapshot_volume_backed(self, context, instance, image_meta, name,
extra_properties=None):
"""Snapshot the given volume-backed instance.
:param instance: nova.db.sqlalchemy.models.Instance
:param image_meta: metadata for the new image
:param name: name of the backup or snapshot
:param extra_properties: dict of extra image properties to include
:returns: the new image metadata
"""
image_meta['name'] = name
properties = image_meta['properties']
if instance['root_device_name']:
properties['root_device_name'] = instance['root_device_name']
properties.update(extra_properties or {})
# TODO(xqueralt): Use new style BDM in volume snapshots
bdms = self.get_instance_bdms(context, instance)
mapping = []
for bdm in bdms:
if bdm['no_device']:
continue
# Clean the BDM of the database related fields to prevent
# duplicates in the future (e.g. the id was being preserved)
for field in block_device.BlockDeviceDict._db_only_fields:
bdm.pop(field, None)
volume_id = bdm.get('volume_id')
if volume_id:
# create snapshot based on volume_id
volume = self.volume_api.get(context, volume_id)
# NOTE(yamahata): Should we wait for snapshot creation?
# Linux LVM snapshot creation completes in
# short time, it doesn't matter for now.
name = _('snapshot for %s') % image_meta['name']
snapshot = self.volume_api.create_snapshot_force(
context, volume['id'], name, volume['display_description'])
bdm['snapshot_id'] = snapshot['id']
# Clean the extra volume related fields that will be generated
# when booting from the new snapshot.
bdm.pop('volume_id')
bdm.pop('connection_info')
mapping.append(bdm)
for m in block_device.mappings_prepend_dev(properties.get('mappings',
[])):
virtual_name = m['virtual']
if virtual_name in ('ami', 'root'):
continue
assert block_device.is_swap_or_ephemeral(virtual_name)
device_name = m['device']
if device_name in [b['device_name'] for b in mapping
if not b.get('no_device', False)]:
continue
# NOTE(yamahata): swap and ephemeral devices are specified in
# AMI, but disabled for this instance by user.
# So disable those device by no_device.
mapping.append({'device_name': device_name, 'no_device': True})
if mapping:
properties['block_device_mapping'] = mapping
for attr in ('status', 'location', 'id'):
image_meta.pop(attr, None)
# the new image is simply a bucket of properties (particularly the
# block device mapping, kernel and ramdisk IDs) with no image data,
# hence the zero size
image_meta['size'] = 0
return self.image_service.create(context, image_meta, data='')
@wrap_check_policy
@check_instance_lock
@check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.STOPPED,
vm_states.PAUSED, vm_states.SUSPENDED,
vm_states.ERROR],
task_state=[None, task_states.REBOOTING,
task_states.REBOOTING_HARD,
task_states.RESUMING,
task_states.UNPAUSING,
task_states.PAUSING,
task_states.SUSPENDING])
def reboot(self, context, instance, reboot_type):
"""Reboot the given instance."""
if ((reboot_type == 'SOFT' and
instance['task_state'] == task_states.REBOOTING) or
(reboot_type == 'HARD' and
instance['task_state'] == task_states.REBOOTING_HARD)):
raise exception.InstanceInvalidState(
attr='task_state',
instance_uuid=instance['uuid'],
state=instance['task_state'],
method='reboot')
state = {'SOFT': task_states.REBOOTING,
'HARD': task_states.REBOOTING_HARD}[reboot_type]
instance.task_state = state
instance.save(expected_task_state=[None, task_states.REBOOTING])
elevated = context.elevated()
self._record_action_start(context, instance, instance_actions.REBOOT)
self.compute_rpcapi.reboot_instance(context, instance=instance,
block_device_info=None,
reboot_type=reboot_type)
@wrap_check_policy
@check_instance_lock
@check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.STOPPED,
vm_states.ERROR],
task_state=[None])
def rebuild(self, context, instance, image_href, admin_password, **kwargs):
"""Rebuild the given instance with the provided attributes."""
orig_image_ref = instance['image_ref'] or ''
files_to_inject = kwargs.pop('files_to_inject', [])
metadata = kwargs.get('metadata', {})
image_id, image = self._get_image(context, image_href)
self._check_auto_disk_config(image=image, **kwargs)
instance_type = flavors.extract_flavor(instance)
self._checks_for_create_and_rebuild(
context,
image_id,
image,
instance_type,
metadata,
files_to_inject)
kernel_id, ramdisk_id = self._handle_kernel_and_ramdisk(
context, None, None, image)
def _reset_image_metadata():
"""
Remove old image properties that we're storing as instance
system metadata. These properties start with 'image_'.
Then add the properties for the new image.
"""
# FIXME(comstud): There's a race condition here in that
# if the system_metadata for this instance is updated
# after we do the get and before we update.. those other
# updates will be lost. Since this problem exists in a lot
# of other places, I think it should be addressed in a DB
# layer overhaul.
sys_metadata = self.db.instance_system_metadata_get(
context, instance['uuid'])
orig_sys_metadata = dict(sys_metadata)
# Remove the old keys
for key in list(sys_metadata.keys()):
if key.startswith(utils.SM_IMAGE_PROP_PREFIX):
del sys_metadata[key]
# Add the new ones
new_sys_metadata = utils.get_system_metadata_from_image(
image, instance_type)
sys_metadata.update(new_sys_metadata)
self.db.instance_system_metadata_update(
context, instance['uuid'], sys_metadata, True)
return orig_sys_metadata
instance = self.update(context, instance,
task_state=task_states.REBUILDING,
expected_task_state=None,
# Unfortunately we need to set image_ref early,
# so API users can see it.
image_ref=image_href, kernel_id=kernel_id or "",
ramdisk_id=ramdisk_id or "",
progress=0, **kwargs)
# On a rebuild, since we're potentially changing images, we need to
# wipe out the old image properties that we're storing as instance
# system metadata... and copy in the properties for the new image.
orig_sys_metadata = _reset_image_metadata()
bdms = block_device.legacy_mapping(
self.db.block_device_mapping_get_all_by_instance(
context,
instance['uuid']))
self._record_action_start(context, instance, instance_actions.REBUILD)
self.compute_rpcapi.rebuild_instance(
context,
instance=instance,
new_pass=admin_password,
injected_files=files_to_inject,
image_ref=image_href,
orig_image_ref=orig_image_ref,
orig_sys_metadata=orig_sys_metadata,
bdms=bdms)
@wrap_check_policy
@check_instance_lock
@check_instance_cell
@check_instance_state(vm_state=[vm_states.RESIZED])
def revert_resize(self, context, instance):
"""Reverts a resize, deleting the 'new' instance in the process."""
elevated = context.elevated()
migration = migration_obj.Migration.get_by_instance_and_status(
elevated, instance.uuid, 'finished')
# reverse quota reservation for increased resource usage
deltas = self._reverse_upsize_quota_delta(context, migration)
reservations = self._reserve_quota_delta(context, deltas)
instance.task_state = task_states.RESIZE_REVERTING
instance.save(expected_task_state=None)
migration.status = 'reverting'
migration.save()
# With cells, the best we can do right now is commit the reservations
# immediately...
if CONF.cells.enable and reservations:
QUOTAS.commit(context, reservations)
reservations = []
self._record_action_start(context, instance,
instance_actions.REVERT_RESIZE)
self.compute_rpcapi.revert_resize(context, instance,
migration,
migration.dest_compute,
reservations)
@wrap_check_policy
@check_instance_lock
@check_instance_cell
@check_instance_state(vm_state=[vm_states.RESIZED])
def confirm_resize(self, context, instance, migration=None):
"""Confirms a migration/resize and deletes the 'old' instance."""
elevated = context.elevated()
if migration is None:
migration = migration_obj.Migration.get_by_instance_and_status(
elevated, instance.uuid, 'finished')
# reserve quota only for any decrease in resource usage
deltas = self._downsize_quota_delta(context, instance)
reservations = self._reserve_quota_delta(context, deltas)
migration.status = 'confirming'
migration.save()
# With cells, the best we can do right now is commit the reservations
# immediately...
if CONF.cells.enable and reservations:
QUOTAS.commit(context, reservations)
reservations = []
self._record_action_start(context, instance,
instance_actions.CONFIRM_RESIZE)
self.compute_rpcapi.confirm_resize(context,
instance,
migration,
migration.source_compute,
reservations)
@staticmethod
def _resize_quota_delta(context, new_instance_type,
old_instance_type, sense, compare):
"""
Calculate any quota adjustment required at a particular point
in the resize cycle.
:param context: the request context
:param new_instance_type: the target instance type
:param old_instance_type: the original instance type
:param sense: the sense of the adjustment, 1 indicates a
forward adjustment, whereas -1 indicates a
reversal of a prior adjustment
:param compare: the direction of the comparison, 1 indicates
we're checking for positive deltas, whereas
-1 indicates negative deltas
"""
def _quota_delta(resource):
return sense * (new_instance_type[resource] -
old_instance_type[resource])
deltas = {}
if compare * _quota_delta('vcpus') > 0:
deltas['cores'] = _quota_delta('vcpus')
if compare * _quota_delta('memory_mb') > 0:
deltas['ram'] = _quota_delta('memory_mb')
return deltas
@staticmethod
def _upsize_quota_delta(context, new_instance_type, old_instance_type):
"""
Calculate deltas required to adjust quota for an instance upsize.
"""
return API._resize_quota_delta(context, new_instance_type,
old_instance_type, 1, 1)
@staticmethod
def _reverse_upsize_quota_delta(context, migration_ref):
"""
Calculate deltas required to reverse a prior upsizing
quota adjustment.
"""
old_instance_type = flavors.get_flavor(
migration_ref['old_instance_type_id'])
new_instance_type = flavors.get_flavor(
migration_ref['new_instance_type_id'])
return API._resize_quota_delta(context, new_instance_type,
old_instance_type, -1, -1)
@staticmethod
def _downsize_quota_delta(context, instance):
"""
Calculate deltas required to adjust quota for an instance downsize.
"""
old_instance_type = flavors.extract_flavor(instance,
'old_')
new_instance_type = flavors.extract_flavor(instance,
'new_')
return API._resize_quota_delta(context, new_instance_type,
old_instance_type, 1, -1)
@staticmethod
def _reserve_quota_delta(context, deltas, project_id=None):
if not deltas:
return
return QUOTAS.reserve(context, project_id=project_id, **deltas)
@staticmethod
def _resize_cells_support(context, reservations, instance,
current_instance_type, new_instance_type):
"""Special API cell logic for resize."""
if reservations:
# With cells, the best we can do right now is commit the
# reservations immediately...
QUOTAS.commit(context, reservations,
project_id=instance.project_id)
# NOTE(johannes/comstud): The API cell needs a local migration
# record for later resize_confirm and resize_reverts to deal
# with quotas. We don't need source and/or destination
# information, just the old and new flavors. Status is set to
# 'finished' since nothing else will update the status along
# the way.
mig = migration_obj.Migration()
mig.instance_uuid = instance.uuid
mig.old_instance_type_id = current_instance_type['id']
mig.new_instance_type_id = new_instance_type['id']
mig.status = 'finished'
mig.create(context.elevated())
@wrap_check_policy
@check_instance_lock
@check_instance_cell
@check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.STOPPED],
task_state=[None])
def resize(self, context, instance, flavor_id=None,
**extra_instance_updates):
"""Resize (ie, migrate) a running instance.
If flavor_id is None, the process is considered a migration, keeping
the original flavor_id. If flavor_id is not None, the instance should
be migrated to a new host and resized to the new flavor_id.
"""
self._check_auto_disk_config(instance, **extra_instance_updates)
current_instance_type = flavors.extract_flavor(instance)
# If flavor_id is not provided, only migrate the instance.
if not flavor_id:
LOG.debug(_("flavor_id is None. Assuming migration."),
instance=instance)
new_instance_type = current_instance_type
else:
new_instance_type = flavors.get_flavor_by_flavor_id(
flavor_id, read_deleted="no")
current_instance_type_name = current_instance_type['name']
new_instance_type_name = new_instance_type['name']
LOG.debug(_("Old instance type %(current_instance_type_name)s, "
" new instance type %(new_instance_type_name)s"),
{'current_instance_type_name': current_instance_type_name,
'new_instance_type_name': new_instance_type_name},
instance=instance)
# FIXME(sirp): both of these should raise InstanceTypeNotFound instead
if not new_instance_type:
raise exception.FlavorNotFound(flavor_id=flavor_id)
same_instance_type = (current_instance_type['id'] ==
new_instance_type['id'])
# NOTE(sirp): We don't want to force a customer to change their flavor
# when Ops is migrating off of a failed host.
if not same_instance_type and new_instance_type.get('disabled'):
raise exception.FlavorNotFound(flavor_id=flavor_id)
if same_instance_type and flavor_id:
raise exception.CannotResizeToSameFlavor()
# ensure there is sufficient headroom for upsizes
deltas = self._upsize_quota_delta(context, new_instance_type,
current_instance_type)
try:
reservations = self._reserve_quota_delta(context, deltas,
project_id=instance[
'project_id'])
except exception.OverQuota as exc:
quotas = exc.kwargs['quotas']
usages = exc.kwargs['usages']
overs = exc.kwargs['overs']
headroom = exc.kwargs['headroom']
resource = overs[0]
used = quotas[resource] - headroom[resource]
total_allowed = used + headroom[resource]
overs = ','.join(overs)
LOG.warn(_("%(overs)s quota exceeded for %(pid)s,"
" tried to resize instance."),
{'overs': overs, 'pid': context.project_id})
raise exception.TooManyInstances(overs=overs,
req=deltas[resource],
used=used, allowed=total_allowed,
resource=resource)
instance.task_state = task_states.RESIZE_PREP
instance.progress = 0
instance.update(extra_instance_updates)
instance.save(expected_task_state=None)
filter_properties = {'ignore_hosts': []}
if not CONF.allow_resize_to_same_host:
filter_properties['ignore_hosts'].append(instance['host'])
# Here when flavor_id is None, the process is considered as migrate.
if (not flavor_id and not CONF.allow_migrate_to_same_host):
filter_properties['ignore_hosts'].append(instance['host'])
if self.cell_type == 'api':
# Commit reservations early and create migration record.
self._resize_cells_support(context, reservations, instance,
current_instance_type,
new_instance_type)
reservations = []
self._record_action_start(context, instance, instance_actions.RESIZE)
scheduler_hint = {'filter_properties': filter_properties}
self.compute_task_api.resize_instance(
context,
instance,
extra_instance_updates,
scheduler_hint=scheduler_hint,
flavor=new_instance_type,
reservations=reservations)
@wrap_check_policy
@check_instance_lock
@check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.STOPPED,
vm_states.PAUSED, vm_states.SUSPENDED],
task_state=[None])
def shelve(self, context, instance):
"""Shelve an instance.
Shuts down an instance and frees it up to be removed from the
hypervisor.
"""
instance.task_state = task_states.SHELVING
instance.save(expected_task_state=None)
self._record_action_start(context, instance, instance_actions.SHELVE)
image_id = None
bdms = self.get_instance_bdms(context, instance)
if not self.is_volume_backed_instance(context, instance, bdms):
name = '%s-shelved' % instance['name']
image_meta = self._create_image(context, instance, name,
'snapshot')
image_id = image_meta['id']
self.compute_rpcapi.shelve_instance(context, instance=instance,
image_id=image_id)
else:
self.compute_rpcapi.shelve_offload_instance(context,
instance=instance)
@wrap_check_policy
@check_instance_lock
@check_instance_state(vm_state=[vm_states.SHELVED], task_state=[None])
def shelve_offload(self, context, instance):
"""Remove a shelved instance from the hypervisor."""
instance.task_state = task_states.SHELVING_OFFLOADING
instance.save(expected_task_state=None)
self.compute_rpcapi.shelve_offload_instance(context, instance=instance)
@wrap_check_policy
@check_instance_lock
@check_instance_state(
vm_state=[
vm_states.SHELVED,
vm_states.SHELVED_OFFLOADED],
task_state=[None])
def unshelve(self, context, instance):
"""Restore a shelved instance."""
instance.task_state = task_states.UNSHELVING
instance.save(expected_task_state=None)
self._record_action_start(context, instance, instance_actions.UNSHELVE)
self.compute_task_api.unshelve_instance(context, instance)
@wrap_check_policy
@check_instance_lock
def add_fixed_ip(self, context, instance, network_id):
"""Add fixed_ip from specified network to given instance."""
self.compute_rpcapi.add_fixed_ip_to_instance(
context, instance=instance, network_id=network_id)
@wrap_check_policy
@check_instance_lock
def remove_fixed_ip(self, context, instance, address):
"""Remove fixed_ip from specified network to given instance."""
self.compute_rpcapi.remove_fixed_ip_from_instance(
context, instance=instance, address=address)
@wrap_check_policy
@check_instance_lock
@check_instance_cell
@check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.RESCUED])
def pause(self, context, instance):
"""Pause the given instance."""
instance.task_state = task_states.PAUSING
instance.save(expected_task_state=None)
self._record_action_start(context, instance, instance_actions.PAUSE)
self.compute_rpcapi.pause_instance(context, instance)
@wrap_check_policy
@check_instance_lock
@check_instance_cell
@check_instance_state(vm_state=[vm_states.PAUSED])
def unpause(self, context, instance):
"""Unpause the given instance."""
instance.task_state = task_states.UNPAUSING
instance.save(expected_task_state=None)
self._record_action_start(context, instance, instance_actions.UNPAUSE)
self.compute_rpcapi.unpause_instance(context, instance)
@wrap_check_policy
def get_diagnostics(self, context, instance):
"""Retrieve diagnostics for the given instance."""
return self.compute_rpcapi.get_diagnostics(context, instance=instance)
@wrap_check_policy
@check_instance_lock
@check_instance_cell
@check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.RESCUED])
def suspend(self, context, instance):
"""Suspend the given instance."""
instance.task_state = task_states.SUSPENDING
instance.save(expected_task_state=None)
self._record_action_start(context, instance, instance_actions.SUSPEND)
self.compute_rpcapi.suspend_instance(context, instance)
@wrap_check_policy
@check_instance_lock
@check_instance_cell
@check_instance_state(vm_state=[vm_states.SUSPENDED])
def resume(self, context, instance):
"""Resume the given instance."""
instance.task_state = task_states.RESUMING
instance.save(expected_task_state=None)
self._record_action_start(context, instance, instance_actions.RESUME)
self.compute_rpcapi.resume_instance(context, instance)
@wrap_check_policy
@check_instance_lock
@check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.STOPPED,
vm_states.ERROR])
def rescue(self, context, instance, rescue_password=None):
"""Rescue the given instance."""
bdms = self.get_instance_bdms(context, instance)
for bdm in bdms:
if bdm['volume_id']:
volume = self.volume_api.get(context, bdm['volume_id'])
self.volume_api.check_attached(context, volume)
# TODO(ndipanov): This check can be generalized as a decorator to
# check for valid combinations of src and dests - for now check
# if it's booted from volume only
if self.is_volume_backed_instance(context, instance, None):
reason = _("Cannot rescue a volume-backed instance")
raise exception.InstanceNotRescuable(instance_id=instance['uuid'],
reason=reason)
self.update(context,
instance,
task_state=task_states.RESCUING,
expected_task_state=None)
self._record_action_start(context, instance, instance_actions.RESCUE)
self.compute_rpcapi.rescue_instance(context, instance=instance,
rescue_password=rescue_password)
@wrap_check_policy
@check_instance_lock
@check_instance_state(vm_state=[vm_states.RESCUED])
def unrescue(self, context, instance):
"""Unrescue the given instance."""
self.update(context,
instance,
task_state=task_states.UNRESCUING,
expected_task_state=None)
self._record_action_start(context, instance, instance_actions.UNRESCUE)
self.compute_rpcapi.unrescue_instance(context, instance=instance)
@wrap_check_policy
@check_instance_lock
@check_instance_state(vm_state=[vm_states.ACTIVE])
def set_admin_password(self, context, instance, password=None):
"""Set the root/admin password for the given instance."""
self.update(context,
instance,
task_state=task_states.UPDATING_PASSWORD,
expected_task_state=None)
self._record_action_start(context, instance,
instance_actions.CHANGE_PASSWORD)
self.compute_rpcapi.set_admin_password(context,
instance=instance,
new_pass=password)
@wrap_check_policy
@check_instance_lock
def inject_file(self, context, instance, path, file_contents):
"""Write a file to the given instance."""
self.compute_rpcapi.inject_file(context, instance=instance, path=path,
file_contents=file_contents)
@wrap_check_policy
@check_instance_host
def get_vnc_console(self, context, instance, console_type):
"""Get a url to an instance Console."""
connect_info = self.compute_rpcapi.get_vnc_console(
context, instance=instance, console_type=console_type)
self.consoleauth_rpcapi.authorize_console(
context,
connect_info['token'],
console_type,
connect_info['host'],
connect_info['port'],
connect_info['internal_access_path'],
instance['uuid'])
return {'url': connect_info['access_url']}
@check_instance_host
def get_vnc_connect_info(self, context, instance, console_type):
"""Used in a child cell to get console info."""
connect_info = self.compute_rpcapi.get_vnc_console(
context, instance=instance, console_type=console_type)
return connect_info
@wrap_check_policy
@check_instance_host
def get_spice_console(self, context, instance, console_type):
"""Get a url to an instance Console."""
connect_info = self.compute_rpcapi.get_spice_console(
context, instance=instance, console_type=console_type)
self.consoleauth_rpcapi.authorize_console(
context,
connect_info['token'],
console_type,
connect_info['host'],
connect_info['port'],
connect_info['internal_access_path'],
instance['uuid'])
return {'url': connect_info['access_url']}
@check_instance_host
def get_spice_connect_info(self, context, instance, console_type):
"""Used in a child cell to get console info."""
connect_info = self.compute_rpcapi.get_spice_console(
context, instance=instance, console_type=console_type)
return connect_info
@wrap_check_policy
@check_instance_host
def get_console_output(self, context, instance, tail_length=None):
"""Get console output for an instance."""
return self.compute_rpcapi.get_console_output(
context, instance=instance, tail_length=tail_length)
@wrap_check_policy
def lock(self, context, instance):
"""Lock the given instance."""
# Only update the lock if we are an admin (non-owner)
is_owner = instance.project_id == context.project_id
if instance.locked and is_owner:
return
context = context.elevated()
LOG.debug(_('Locking'), context=context, instance=instance)
instance.locked = True
instance.locked_by = 'owner' if is_owner else 'admin'
instance.save()
@wrap_check_policy
def unlock(self, context, instance):
"""Unlock the given instance."""
# If the instance was locked by someone else, check
# that we're allowed to override the lock
is_owner = instance.project_id == context.project_id
expect_locked_by = 'owner' if is_owner else 'admin'
locked_by = instance.locked_by
if locked_by and locked_by != expect_locked_by:
check_policy(context, 'unlock_override', instance)
context = context.elevated()
LOG.debug(_('Unlocking'), context=context, instance=instance)
instance.locked = False
instance.locked_by = None
instance.save()
@wrap_check_policy
def get_lock(self, context, instance):
"""Return the boolean state of given instance's lock."""
return self.get(context, instance['uuid'])['locked']
@wrap_check_policy
@check_instance_lock
@check_instance_cell
def reset_network(self, context, instance):
"""Reset networking on the instance."""
self.compute_rpcapi.reset_network(context, instance=instance)
@wrap_check_policy
@check_instance_lock
@check_instance_cell
def inject_network_info(self, context, instance):
"""Inject network info for the instance."""
self.compute_rpcapi.inject_network_info(context, instance=instance)
@wrap_check_policy
@check_instance_lock
@check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.PAUSED,
vm_states.SUSPENDED, vm_states.STOPPED,
vm_states.RESIZED, vm_states.SOFT_DELETED],
task_state=None)
def attach_volume(self, context, instance, volume_id, device=None):
"""Attach an existing volume to an existing instance."""
# NOTE(vish): Fail fast if the device is not going to pass. This
# will need to be removed along with the test if we
# change the logic in the manager for what constitutes
# a valid device.
if device and not block_device.match_device(device):
raise exception.InvalidDevicePath(path=device)
# NOTE(vish): This is done on the compute host because we want
# to avoid a race where two devices are requested at
# the same time. When db access is removed from
# compute, the bdm will be created here and we will
# have to make sure that they are assigned atomically.
device = self.compute_rpcapi.reserve_block_device_name(
context, device=device, instance=instance, volume_id=volume_id)
try:
volume = self.volume_api.get(context, volume_id)
self.volume_api.check_attach(context, volume, instance=instance)
self.volume_api.reserve_volume(context, volume_id)
self.compute_rpcapi.attach_volume(
context,
instance=instance,
volume_id=volume_id,
mountpoint=device)
except Exception:
with excutils.save_and_reraise_exception():
self.db.block_device_mapping_destroy_by_instance_and_device(
context, instance['uuid'], device)
return device
def _detach_volume(self, context, instance, volume):
"""Detach volume from instance. This method is separated to make
it easier for cells version to override.
"""
self.volume_api.check_detach(context, volume)
self.volume_api.begin_detaching(context, volume['id'])
self.compute_rpcapi.detach_volume(context, instance=instance,
volume_id=volume['id'])
@wrap_check_policy
@check_instance_lock
@check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.PAUSED,
vm_states.SUSPENDED, vm_states.STOPPED,
vm_states.RESIZED, vm_states.SOFT_DELETED],
task_state=None)
def detach_volume(self, context, instance, volume):
"""Detach a volume from an instance."""
if volume['attach_status'] == 'detached':
msg = _("Volume must be attached in order to detach.")
raise exception.InvalidVolume(reason=msg)
# The caller likely got the instance from volume['instance_uuid']
# in the first place, but let's sanity check.
if volume['instance_uuid'] != instance['uuid']:
raise exception.VolumeUnattached(volume_id=volume['id'])
self._detach_volume(context, instance, volume)
@wrap_check_policy
@check_instance_lock
@check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.PAUSED,
vm_states.SUSPENDED, vm_states.STOPPED,
vm_states.RESIZED, vm_states.SOFT_DELETED],
task_state=None)
def swap_volume(self, context, instance, old_volume, new_volume):
"""Swap volume attached to an instance."""
if old_volume['attach_status'] == 'detached':
raise exception.VolumeUnattached(volume_id=old_volume['id'])
# The caller likely got the instance from volume['instance_uuid']
# in the first place, but let's sanity check.
if old_volume['instance_uuid'] != instance['uuid']:
msg = _("Old volume is attached to a different instance.")
raise exception.InvalidVolume(reason=msg)
if new_volume['attach_status'] == 'attached':
msg = _("New volume must be detached in order to swap.")
raise exception.InvalidVolume(reason=msg)
if int(new_volume['size']) < int(old_volume['size']):
msg = _("New volume must be the same size or larger.")
raise exception.InvalidVolume(reason=msg)
self.volume_api.check_detach(context, old_volume)
self.volume_api.check_attach(context, new_volume, instance=instance)
self.volume_api.begin_detaching(context, old_volume['id'])
self.volume_api.reserve_volume(context, new_volume['id'])
try:
self.compute_rpcapi.swap_volume(
context, instance=instance,
old_volume_id=old_volume['id'],
new_volume_id=new_volume['id'])
except Exception: # pylint: disable=W0702
with excutils.save_and_reraise_exception():
self.volume_api.roll_detaching(context, old_volume['id'])
self.volume_api.unreserve_volume(context, new_volume['id'])
@wrap_check_policy
def attach_interface(self, context, instance, network_id, port_id,
requested_ip):
"""Use hotplug to add an network adapter to an instance."""
return self.compute_rpcapi.attach_interface(
context,
instance=instance,
network_id=network_id,
port_id=port_id,
requested_ip=requested_ip)
@wrap_check_policy
def detach_interface(self, context, instance, port_id):
"""Detach an network adapter from an instance."""
self.compute_rpcapi.detach_interface(context, instance=instance,
port_id=port_id)
@wrap_check_policy
def get_instance_metadata(self, context, instance):
"""Get all metadata associated with an instance."""
rv = self.db.instance_metadata_get(context, instance['uuid'])
return dict(iter(rv.items()))
def get_all_instance_metadata(self, context, search_filts):
return self._get_all_instance_metadata(
context, search_filts, metadata_type='metadata')
def get_all_system_metadata(self, context, search_filts):
return self._get_all_instance_metadata(
context, search_filts, metadata_type='system_metadata')
def _get_all_instance_metadata(self, context, search_filts, metadata_type):
"""Get all metadata."""
def _match_any(pattern_list, string):
return any([re.match(pattern, string)
for pattern in pattern_list])
def _filter_metadata(instance, search_filt, input_metadata):
uuids = search_filt.get('resource_id', [])
keys_filter = search_filt.get('key', [])
values_filter = search_filt.get('value', [])
output_metadata = {}
if uuids and instance.get('uuid') not in uuids:
return {}
for (k, v) in input_metadata.items():
# Both keys and value defined -- AND
if ((keys_filter and values_filter) and
not _match_any(keys_filter, k) and
not _match_any(values_filter, v)):
continue
# Only keys or value is defined
elif ((keys_filter and not _match_any(keys_filter, k)) or
(values_filter and not _match_any(values_filter, v))):
continue
output_metadata[k] = v
return output_metadata
formatted_metadata_list = []
instances = self._get_instances_by_filters(context, filters={},
sort_key='created_at',
sort_dir='desc')
for instance in instances:
try:
check_policy(context, 'get_all_instance_%s' % metadata_type,
instance)
metadata = instance.get(metadata_type, {})
for filt in search_filts:
# By chaining the input to the output, the filters are
# ANDed together
metadata = _filter_metadata(instance, filt, metadata)
for (k, v) in metadata.items():
formatted_metadata_list.append(
{'key': k, 'value': v, 'instance_id': instance.get('uuid')})
except exception.PolicyNotAuthorized:
# failed policy check - not allowed to
# read this metadata
continue
return formatted_metadata_list
@wrap_check_policy
@check_instance_lock
@check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.PAUSED,
vm_states.SUSPENDED, vm_states.STOPPED],
task_state=None)
def delete_instance_metadata(self, context, instance, key):
"""Delete the given metadata item from an instance."""
self.db.instance_metadata_delete(context, instance['uuid'], key)
instance['metadata'] = {}
notifications.send_update(context, instance, instance)
self.compute_rpcapi.change_instance_metadata(context,
instance=instance,
diff={key: ['-']})
@wrap_check_policy
@check_instance_lock
@check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.PAUSED,
vm_states.SUSPENDED, vm_states.STOPPED],
task_state=None)
def update_instance_metadata(self, context, instance,
metadata, delete=False):
"""Updates or creates instance metadata.
If delete is True, metadata items that are not specified in the
`metadata` argument will be deleted.
"""
orig = self.get_instance_metadata(context, instance)
if delete:
_metadata = metadata
else:
_metadata = orig.copy()
_metadata.update(metadata)
self._check_metadata_properties_quota(context, _metadata)
metadata = self.db.instance_metadata_update(context, instance['uuid'],
_metadata, True)
instance['metadata'] = metadata
notifications.send_update(context, instance, instance)
diff = utils.diff_dict(orig, _metadata)
self.compute_rpcapi.change_instance_metadata(context,
instance=instance,
diff=diff)
return _metadata
def get_instance_faults(self, context, instances):
"""Get all faults for a list of instance uuids."""
if not instances:
return {}
for instance in instances:
check_policy(context, 'get_instance_faults', instance)
uuids = [instance['uuid'] for instance in instances]
return self.db.instance_fault_get_by_instance_uuids(context, uuids)
def get_instance_bdms(self, context, instance, legacy=True):
"""Get all bdm tables for specified instance."""
bdms = self.db.block_device_mapping_get_all_by_instance(
context, instance['uuid'])
if legacy:
return block_device.legacy_mapping(bdms)
return bdms
def is_volume_backed_instance(self, context, instance, bdms):
if not instance['image_ref']:
return True
if instance.get('root_device_name') is None:
return False
if bdms is None:
bdms = self.get_instance_bdms(context, instance)
for bdm in bdms:
if ((block_device.strip_dev(bdm['device_name']) ==
block_device.strip_dev(instance['root_device_name'])) and
(bdm['volume_id'] is not None or
bdm['snapshot_id'] is not None)):
return True
return False
@check_instance_cell
@check_instance_state(vm_state=[vm_states.ACTIVE])
def live_migrate(self, context, instance, block_migration,
disk_over_commit, host_name):
"""Migrate a server lively to a new host."""
LOG.debug(_("Going to try to live migrate instance to %s"),
host_name or "another host", instance=instance)
instance.task_state = task_states.MIGRATING
instance.save(expected_task_state=None)
self.compute_task_api.live_migrate_instance(
context,
instance,
host_name,
block_migration=block_migration,
disk_over_commit=disk_over_commit)
@check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.STOPPED],
task_state=[None])
def evacuate(self, context, instance, host, on_shared_storage,
admin_password=None):
"""Running evacuate to target host.
Checking vm compute host state, if the host not in expected_state,
raising an exception.
"""
LOG.debug(_('vm evacuation scheduled'))
inst_host = instance['host']
service = service_obj.Service.get_by_compute_host(context, inst_host)
if self.servicegroup_api.service_is_up(service):
msg = (_('Instance compute service state on %s '
'expected to be down, but it was up.') % inst_host)
LOG.error(msg)
raise exception.ComputeServiceUnavailable(msg)
instance = self.update(context, instance, expected_task_state=None,
task_state=task_states.REBUILDING)
self._record_action_start(context, instance, instance_actions.EVACUATE)
return self.compute_rpcapi.rebuild_instance(
context,
instance=instance,
new_pass=admin_password,
injected_files=None,
image_ref=None,
orig_image_ref=None,
orig_sys_metadata=None,
bdms=None,
recreate=True,
on_shared_storage=on_shared_storage,
host=host)
def get_migrations(self, context, filters):
"""Get all migrations for the given filters."""
return migration_obj.MigrationList.get_by_filters(context, filters)
@wrap_check_policy
def volume_snapshot_create(self, context, volume_id, create_info):
bdm = self.db.block_device_mapping_get_by_volume_id(
context, volume_id, ['instance'])
self.compute_rpcapi.volume_snapshot_create(context, bdm['instance'],
volume_id, create_info)
snapshot = {
'snapshot': {
'id': create_info.get('id'),
'volumeId': volume_id
}
}
return snapshot
@wrap_check_policy
def volume_snapshot_delete(self, context, volume_id, snapshot_id,
delete_info):
bdm = self.db.block_device_mapping_get_by_volume_id(
context, volume_id, ['instance'])
self.compute_rpcapi.volume_snapshot_delete(
context, bdm['instance'], volume_id, snapshot_id, delete_info)
class HostAPI(base.Base):
"""Sub-set of the Compute Manager API for managing host operations."""
def __init__(self, rpcapi=None, vmware_driver=None):
self.rpcapi = rpcapi or compute_rpcapi.ComputeAPI()
self.servicegroup_api = servicegroup.API()
self.cm = vmware_driver
super(HostAPI, self).__init__()
def _assert_host_exists(self, context, host_name, must_be_up=False):
"""Raise HostNotFound if compute host doesn't exist."""
service = service_obj.Service.get_by_compute_host(context, host_name)
if not service:
raise exception.HostNotFound(host=host_name)
if must_be_up and not self.servicegroup_api.service_is_up(service):
raise exception.ComputeServiceUnavailable(host=host_name)
return service['host']
def set_host_enabled(self, context, host_name, enabled):
"""Sets the specified host's ability to accept new instances."""
host_name = self._assert_host_exists(context, host_name)
return self.rpcapi.set_host_enabled(context, enabled=enabled,
host=host_name)
def get_host_uptime(self, context, host_name):
"""Returns the result of calling "uptime" on the target host."""
host_name = self._assert_host_exists(context, host_name,
must_be_up=True)
return self.rpcapi.get_host_uptime(context, host=host_name)
def host_power_action(self, context, host_name, action):
"""Reboots, shuts down or powers up the host."""
host_name = self._assert_host_exists(context, host_name)
return self.rpcapi.host_power_action(context, action=action,
host=host_name)
def set_host_maintenance(self, context, host_name, mode):
"""Start/Stop host maintenance window. On start, it triggers
guest VMs evacuation.
"""
host_name = self._assert_host_exists(context, host_name)
return self.rpcapi.host_maintenance_mode(
context, host_param=host_name, mode=mode, host=host_name)
def service_get_all(self, context, filters=None, set_zones=False):
"""Returns a list of services, optionally filtering the results.
If specified, 'filters' should be a dictionary containing services
attributes and matching values. Ie, to get a list of services for
the 'compute' topic, use filters={'topic': 'compute'}.
"""
if filters is None:
filters = {}
disabled = filters.pop('disabled', None)
if 'availability_zone' in filters:
set_zones = True
services = service_obj.ServiceList.get_all(context, disabled,
set_zones=set_zones)
ret_services = []
for service in services:
for key, val in filters.items():
if service[key] != val:
break
else:
# All filters matched.
ret_services.append(service)
return ret_services
def service_get_by_compute_host(self, context, host_name):
"""Get service entry for the given compute hostname."""
return service_obj.Service.get_by_compute_host(context, host_name)
def service_update(self, context, host_name, binary, params_to_update):
"""Enable / Disable a service.
For compute services, this stops new builds and migrations going to
the host.
"""
service = service_obj.Service.get_by_args(context, host_name,
binary)
service.update(params_to_update)
service.save()
return service
def instance_get_all_by_host(self, context, host_name):
"""Return all instances on the given host."""
return self.db.instance_get_all_by_host(context, host_name)
def task_log_get_all(self, context, task_name, period_beginning,
period_ending, host=None, state=None):
"""Return the task logs within a given range, optionally
filtering by host and/or state.
"""
return self.db.task_log_get_all(context, task_name,
period_beginning,
period_ending,
host=host,
state=state)
def compute_node_get(self, context, compute_id):
"""Return compute node entry for particular integer ID."""
return self.db.compute_node_get(context, int(compute_id))
def compute_node_get_all(self, context):
return self.db.compute_node_get_all(context)
def compute_node_search_by_hypervisor(self, context, hypervisor_match):
return self.db.compute_node_search_by_hypervisor(context,
hypervisor_match)
def compute_node_statistics(self, context):
return self.db.compute_node_statistics(context)
def datacenters(self, context):
if not self.cm:
self.cm = driver.load_compute_driver(
None, "vmwareapi.VMwareVCDriver")
return self.cm.list_datacenters()
def clusters(self, context):
if not self.cm:
self.cm = driver.load_compute_driver(
None, "vmwareapi.VMwareVCDriver")
return self.cm.list_clusters()
def vmfolder(self, context, vmfolderref):
if not self.cm:
self.cm = driver.load_compute_driver(
None, "vmwareapi.VMwareVCDriver")
return self.cm.list_vmfolders(vmfolderref)
def resourcepool(self, context, resourcepoolref):
if not self.cm:
self.cm = driver.load_compute_driver(
None, "vmwareapi.VMwareVCDriver")
return self.cm.list_resourcepools(resourcepoolref)
def datastore(self, context, datastoreref):
if not self.cm:
self.cm = driver.load_compute_driver(
None, "vmwareapi.VMwareVCDriver")
return self.cm.list_datastores(datastoreref)
def vmnetwork(self, context, vmnetworkref):
if not self.cm:
self.cm = driver.load_compute_driver(
None, "vmwareapi.VMwareVCDriver")
return self.cm.list_vmnetworks(vmnetworkref)
class InstanceActionAPI(base.Base):
"""Sub-set of the Compute Manager API for managing instance actions."""
def actions_get(self, context, instance):
return instance_action.InstanceActionList.get_by_instance_uuid(
context, instance['uuid'])
def action_get_by_request_id(self, context, instance, request_id):
return instance_action.InstanceAction.get_by_request_id(
context, instance['uuid'], request_id)
def action_events_get(self, context, instance, action_id):
return instance_action.InstanceActionEventList.get_by_action(
context, action_id)
class AggregateAPI(base.Base):
"""Sub-set of the Compute Manager API for managing host aggregates."""
def __init__(self, **kwargs):
self.compute_rpcapi = compute_rpcapi.ComputeAPI()
super(AggregateAPI, self).__init__(**kwargs)
@wrap_exception()
def create_aggregate(self, context, aggregate_name, availability_zone):
"""Creates the model for the aggregate."""
aggregate = aggregate_obj.Aggregate()
aggregate.name = aggregate_name
if availability_zone:
aggregate.metadata = {'availability_zone': availability_zone}
aggregate.create(context)
aggregate = self._reformat_aggregate_info(aggregate)
# To maintain the same API result as before.
del aggregate['hosts']
del aggregate['metadata']
return aggregate
def get_aggregate(self, context, aggregate_id):
"""Get an aggregate by id."""
aggregate = aggregate_obj.Aggregate.get_by_id(context, aggregate_id)
return self._reformat_aggregate_info(aggregate)
def get_aggregate_list(self, context):
"""Get all the aggregates."""
aggregates = aggregate_obj.AggregateList.get_all(context)
return [self._reformat_aggregate_info(agg) for agg in aggregates]
@wrap_exception()
def update_aggregate(self, context, aggregate_id, values):
"""Update the properties of an aggregate."""
aggregate = aggregate_obj.Aggregate.get_by_id(context, aggregate_id)
if 'name' in values:
aggregate.name = values.pop('name')
if values:
aggregate.metadata = values
aggregate.save()
# If updated values include availability_zones, then the cache
# which stored availability_zones and host need to be reset
if values.get('availability_zone'):
availability_zones.reset_cache()
return self._reformat_aggregate_info(aggregate)
@wrap_exception()
def update_aggregate_metadata(self, context, aggregate_id, metadata):
"""Updates the aggregate metadata."""
aggregate = aggregate_obj.Aggregate.get_by_id(context, aggregate_id)
aggregate.update_metadata(metadata)
return aggregate
@wrap_exception()
def delete_aggregate(self, context, aggregate_id):
"""Deletes the aggregate."""
aggregate_payload = {'aggregate_id': aggregate_id}
compute_utils.notify_about_aggregate_update(context,
"delete.start",
aggregate_payload)
aggregate = aggregate_obj.Aggregate.get_by_id(context,
aggregate_id)
if len(aggregate.hosts) > 0:
raise exception.InvalidAggregateAction(action='delete',
aggregate_id=aggregate_id,
reason='not empty')
aggregate.destroy()
compute_utils.notify_about_aggregate_update(context,
"delete.end",
aggregate_payload)
def _check_az_for_host(self, aggregate_meta, host_az, aggregate_id):
# NOTE(mtreinish) The availability_zone key returns a set of
# zones so loop over each zone. However there should only
# ever be one zone in the set because an aggregate can only
# have a single availability zone set at one time.
for aggregate_az in aggregate_meta["availability_zone"]:
# NOTE(mtreinish) Ensure that the aggregate_az is not none
# if it is none then that is just a regular aggregate and
# it is valid to have a host in multiple aggregates.
if aggregate_az and aggregate_az != host_az:
msg = _("Host already in availability zone"
"%s.") % host_az
action_name = "add_host_to_aggregate"
raise exception.InvalidAggregateAction(
action=action_name, aggregate_id=aggregate_id,
reason=msg)
@wrap_exception()
def add_host_to_aggregate(self, context, aggregate_id, host_name):
"""Adds the host to an aggregate."""
aggregate_payload = {'aggregate_id': aggregate_id,
'host_name': host_name}
compute_utils.notify_about_aggregate_update(context,
"addhost.start",
aggregate_payload)
# validates the host; ComputeHostNotFound is raised if invalid
service_obj.Service.get_by_compute_host(context, host_name)
host_az = availability_zones.get_host_availability_zone(context,
host_name)
if host_az and host_az != CONF.default_availability_zone:
aggregate_meta = self.db.aggregate_metadata_get_by_metadata_key(
context, aggregate_id, 'availability_zone')
if aggregate_meta.get("availability_zone"):
self._check_az_for_host(aggregate_meta, host_az, aggregate_id)
aggregate = aggregate_obj.Aggregate.get_by_id(context, aggregate_id)
aggregate.add_host(context, host_name)
# NOTE(jogo): Send message to host to support resource pools
self.compute_rpcapi.add_aggregate_host(
context,
aggregate=obj_base.obj_to_primitive(aggregate),
host_param=host_name,
host=host_name)
aggregate_payload.update({'name': aggregate['name']})
compute_utils.notify_about_aggregate_update(context,
"addhost.end",
aggregate_payload)
return self._reformat_aggregate_info(aggregate)
@wrap_exception()
def remove_host_from_aggregate(self, context, aggregate_id, host_name):
"""Removes host from the aggregate."""
aggregate_payload = {'aggregate_id': aggregate_id,
'host_name': host_name}
compute_utils.notify_about_aggregate_update(context,
"removehost.start",
aggregate_payload)
# validates the host; ComputeHostNotFound is raised if invalid
service_obj.Service.get_by_compute_host(context, host_name)
aggregate = aggregate_obj.Aggregate.get_by_id(context, aggregate_id)
aggregate.delete_host(host_name)
self.compute_rpcapi.remove_aggregate_host(
context,
aggregate=obj_base.obj_to_primitive(aggregate),
host_param=host_name,
host=host_name)
compute_utils.notify_about_aggregate_update(context,
"removehost.end",
aggregate_payload)
return self._reformat_aggregate_info(aggregate)
def _reformat_aggregate_info(self, aggregate):
"""Builds a dictionary with aggregate props, metadata and hosts."""
return dict(iter(aggregate.items()))
class KeypairAPI(base.Base):
"""Subset of the Compute Manager API for managing key pairs."""
def _validate_new_key_pair(self, context, user_id, key_name):
safe_chars = "_- " + string.digits + string.ascii_letters
clean_value = "".join(x for x in key_name if x in safe_chars)
if clean_value != key_name:
raise exception.InvalidKeypair(
reason=_("Keypair name contains unsafe characters"))
if not 0 < len(key_name) < 256:
raise exception.InvalidKeypair(
reason=_('Keypair name must be between '
'1 and 255 characters long'))
count = QUOTAS.count(context, 'key_pairs', user_id)
try:
QUOTAS.limit_check(context, key_pairs=count + 1)
except exception.OverQuota:
raise exception.KeypairLimitExceeded()
def import_key_pair(self, context, user_id, key_name, public_key):
"""Import a key pair using an existing public key."""
self._validate_new_key_pair(context, user_id, key_name)
fingerprint = crypto.generate_fingerprint(public_key)
keypair = keypair_obj.KeyPair()
keypair.user_id = user_id
keypair.name = key_name
keypair.fingerprint = fingerprint
keypair.public_key = public_key
keypair.create(context)
return keypair
def create_key_pair(self, context, user_id, key_name):
"""Create a new key pair."""
self._validate_new_key_pair(context, user_id, key_name)
private_key, public_key, fingerprint = crypto.generate_key_pair()
keypair = keypair_obj.KeyPair()
keypair.user_id = user_id
keypair.name = key_name
keypair.fingerprint = fingerprint
keypair.public_key = public_key
keypair.create(context)
return keypair, private_key
def delete_key_pair(self, context, user_id, key_name):
"""Delete a keypair by name."""
keypair_obj.KeyPair.destroy_by_name(context, user_id, key_name)
def get_key_pairs(self, context, user_id):
"""List key pairs."""
return keypair_obj.KeyPairList.get_by_user(context, user_id)
def get_key_pair(self, context, user_id, key_name):
"""Get a keypair by name."""
return keypair_obj.KeyPair.get_by_name(context, user_id, key_name)
class SecurityGroupAPI(base.Base, security_group_base.SecurityGroupBase):
"""
Sub-set of the Compute API related to managing security groups
and security group rules
"""
# The nova seurity group api does not use a uuid for the id.
id_is_uuid = False
def __init__(self, **kwargs):
super(SecurityGroupAPI, self).__init__(**kwargs)
self.security_group_rpcapi = compute_rpcapi.SecurityGroupAPI()
def validate_property(self, value, property, allowed):
"""
Validate given security group property.
:param value: the value to validate, as a string or unicode
:param property: the property, either 'name' or 'description'
:param allowed: the range of characters allowed
"""
try:
val = value.strip()
except AttributeError:
msg = _("Security group %s is not a string or unicode") % property
self.raise_invalid_property(msg)
if not val:
msg = _("Security group %s cannot be empty.") % property
self.raise_invalid_property(msg)
if allowed and not re.match(allowed, val):
# Some validation to ensure that values match API spec.
# - Alphanumeric characters, spaces, dashes, and underscores.
# TODO(Daviey): LP: #813685 extend beyond group_name checking, and
# probably create a param validator that can be used elsewhere.
msg = (_("Value (%(value)s) for parameter Group%(property)s is "
"invalid. Content limited to '%(allowed)s'.") %
{'value': value, 'allowed': allowed,
'property': property.capitalize()})
self.raise_invalid_property(msg)
if len(val) > 255:
msg = _("Security group %s should not be greater "
"than 255 characters.") % property
self.raise_invalid_property(msg)
def ensure_default(self, context):
"""Ensure that a context has a security group.
Creates a security group for the security context if it does not
already exist.
:param context: the security context
"""
self.db.security_group_ensure_default(context)
def create_security_group(self, context, name, description):
try:
reservations = QUOTAS.reserve(context, security_groups=1)
except exception.OverQuota:
msg = _("Quota exceeded, too many security groups.")
self.raise_over_quota(msg)
LOG.audit(_("Create Security Group %s"), name, context=context)
try:
self.ensure_default(context)
group = {'user_id': context.user_id,
'project_id': context.project_id,
'name': name,
'description': description}
try:
group_ref = self.db.security_group_create(context, group)
except exception.SecurityGroupExists:
msg = _('Security group %s already exists') % name
self.raise_group_already_exists(msg)
# Commit the reservation
QUOTAS.commit(context, reservations)
except Exception:
with excutils.save_and_reraise_exception():
QUOTAS.rollback(context, reservations)
return group_ref
def update_security_group(self, context, security_group,
name, description):
if security_group['name'] in RO_SECURITY_GROUPS:
msg = (_("Unable to update system group '%s'") %
security_group['name'])
self.raise_invalid_group(msg)
group = {'name': name,
'description': description}
columns_to_join = ['rules.grantee_group']
group_ref = self.db.security_group_update(
context, security_group['id'], group, columns_to_join=columns_to_join)
return group_ref
def get(self, context, name=None, id=None, map_exception=False):
self.ensure_default(context)
try:
if name:
return self.db.security_group_get_by_name(context,
context.project_id,
name)
elif id:
return self.db.security_group_get(context, id)
except exception.NotFound as exp:
if map_exception:
msg = exp.format_message()
self.raise_not_found(msg)
else:
raise
def list(self, context, names=None, ids=None, project=None,
search_opts=None):
self.ensure_default(context)
groups = []
if names or ids:
if names:
for name in names:
groups.append(self.db.security_group_get_by_name(context,
project,
name))
if ids:
for id in ids:
groups.append(self.db.security_group_get(context, id))
elif context.is_admin:
# TODO(eglynn): support a wider set of search options than just
# all_tenants, at least include the standard filters defined for
# the EC2 DescribeSecurityGroups API for the non-admin case also
if (search_opts and 'all_tenants' in search_opts):
groups = self.db.security_group_get_all(context)
else:
groups = self.db.security_group_get_by_project(context,
project)
elif project:
groups = self.db.security_group_get_by_project(context, project)
return groups
def destroy(self, context, security_group):
if security_group['name'] in RO_SECURITY_GROUPS:
msg = _("Unable to delete system group '%s'") % \
security_group['name']
self.raise_invalid_group(msg)
if self.db.security_group_in_use(context, security_group['id']):
msg = _("Security group is still in use")
self.raise_invalid_group(msg)
# Get reservations
try:
reservations = QUOTAS.reserve(context, security_groups=-1)
except Exception:
reservations = None
LOG.exception(_("Failed to update usages deallocating "
"security group"))
LOG.audit(_("Delete security group %s"), security_group['name'],
context=context)
self.db.security_group_destroy(context, security_group['id'])
# Commit the reservations
if reservations:
QUOTAS.commit(context, reservations)
def is_associated_with_server(self, security_group, instance_uuid):
"""Check if the security group is already associated
with the instance. If Yes, return True.
"""
if not security_group:
return False
instances = security_group.get('instances')
if not instances:
return False
for inst in instances:
if (instance_uuid == inst['uuid']):
return True
return False
@wrap_check_security_groups_policy
def add_to_instance(self, context, instance, security_group_name):
"""Add security group to the instance."""
security_group = self.db.security_group_get_by_name(
context, context.project_id, security_group_name)
instance_uuid = instance['uuid']
# check if the security group is associated with the server
if self.is_associated_with_server(security_group, instance_uuid):
raise exception.SecurityGroupExistsForInstance(
security_group_id=security_group['id'],
instance_id=instance_uuid)
self.db.instance_add_security_group(context.elevated(),
instance_uuid,
security_group['id'])
# NOTE(comstud): No instance_uuid argument to this compute manager
# call
self.security_group_rpcapi.refresh_security_group_rules(
context, security_group['id'], host=instance['host'])
@wrap_check_security_groups_policy
def remove_from_instance(self, context, instance, security_group_name):
"""Remove the security group associated with the instance."""
security_group = self.db.security_group_get_by_name(
context, context.project_id, security_group_name)
instance_uuid = instance['uuid']
# check if the security group is associated with the server
if not self.is_associated_with_server(security_group, instance_uuid):
raise exception.SecurityGroupNotExistsForInstance(
security_group_id=security_group['id'],
instance_id=instance_uuid)
self.db.instance_remove_security_group(context.elevated(),
instance_uuid,
security_group['id'])
# NOTE(comstud): No instance_uuid argument to this compute manager
# call
self.security_group_rpcapi.refresh_security_group_rules(
context, security_group['id'], host=instance['host'])
def get_rule(self, context, id):
self.ensure_default(context)
try:
return self.db.security_group_rule_get(context, id)
except exception.NotFound:
msg = _("Rule (%s) not found") % id
self.raise_not_found(msg)
def add_rules(self, context, id, name, vals):
"""Add security group rule(s) to security group.
Note: the Nova security group API doesn't support adding muliple
security group rules at once but the EC2 one does. Therefore,
this function is writen to support both.
"""
count = QUOTAS.count(context, 'security_group_rules', id)
try:
projected = count + len(vals)
QUOTAS.limit_check(context, security_group_rules=projected)
except exception.OverQuota:
msg = _("Quota exceeded, too many security group rules.")
self.raise_over_quota(msg)
msg = _("Authorize security group ingress %s")
LOG.audit(msg, name, context=context)
rules = [self.db.security_group_rule_create(context, v) for v in vals]
self.trigger_rules_refresh(context, id=id)
return rules
def remove_rules(self, context, security_group, rule_ids):
msg = _("Revoke security group ingress %s")
LOG.audit(msg, security_group['name'], context=context)
for rule_id in rule_ids:
self.db.security_group_rule_destroy(context, rule_id)
# NOTE(vish): we removed some rules, so refresh
self.trigger_rules_refresh(context, id=security_group['id'])
def remove_default_rules(self, context, rule_ids):
for rule_id in rule_ids:
self.db.security_group_default_rule_destroy(context, rule_id)
def add_default_rules(self, context, vals):
rules = [self.db.security_group_default_rule_create(context, v)
for v in vals]
return rules
def default_rule_exists(self, context, values):
"""Indicates whether the specified rule values are already
defined in the default security group rules.
"""
for rule in self.db.security_group_default_rule_list(context):
is_duplicate = True
keys = ('cidr', 'from_port', 'to_port', 'protocol')
for key in keys:
if rule.get(key) != values.get(key):
is_duplicate = False
break
if is_duplicate:
return rule.get('id') or True
return False
def get_all_default_rules(self, context):
try:
rules = self.db.security_group_default_rule_list(context)
except Exception:
msg = 'cannot get default security group rules'
raise exception.SecurityGroupDefaultRuleNotFound(msg)
return rules
def get_default_rule(self, context, id):
try:
return self.db.security_group_default_rule_get(context, id)
except exception.NotFound:
msg = _("Rule (%s) not found") % id
self.raise_not_found(msg)
def validate_id(self, id):
try:
return int(id)
except ValueError:
msg = _("Security group id should be integer")
self.raise_invalid_property(msg)
def trigger_rules_refresh(self, context, id):
"""Called when a rule is added to or removed from a security_group."""
security_group = self.db.security_group_get(
context, id, columns_to_join=['instances'])
for instance in security_group['instances']:
if instance['host'] is not None:
self.security_group_rpcapi.refresh_instance_security_rules(
context, instance['host'], instance)
def trigger_members_refresh(self, context, group_ids):
"""Called when a security group gains a new or loses a member.
Sends an update request to each compute node for each instance for
which this is relevant.
"""
# First, we get the security group rules that reference these groups as
# the grantee..
security_group_rules = set()
for group_id in group_ids:
security_group_rules.update(
self.db.security_group_rule_get_by_security_group_grantee(
context,
group_id))
# ..then we distill the rules into the groups to which they belong..
security_groups = set()
for rule in security_group_rules:
security_group = self.db.security_group_get(
context, rule['parent_group_id'],
columns_to_join=['instances'])
security_groups.add(security_group)
# ..then we find the instances that are members of these groups..
instances = {}
for security_group in security_groups:
for instance in security_group['instances']:
if instance['uuid'] not in instances:
instances[instance['uuid']] = instance
# ..then we send a request to refresh the rules for each instance.
for instance in list(instances.values()):
if instance['host']:
self.security_group_rpcapi.refresh_instance_security_rules(
context, instance['host'], instance)
def get_instance_security_groups(self, context, instance_uuid,
detailed=False):
if detailed:
return self.db.security_group_get_by_instance(context,
instance_uuid)
instance = self.db.instance_get_by_uuid(context, instance_uuid)
groups = instance.get('security_groups')
if groups:
return [{'name': group['name']} for group in groups]
def populate_security_groups(self, instance, security_groups):
if not security_groups:
# Make sure it's an empty list and not None
security_groups = []
instance.security_groups = security_group_obj.make_secgroup_list(
security_groups)