# 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 collections import copy import functools import re import string from castellan import key_manager from oslo_log import log as logging from oslo_messaging import exceptions as oslo_exceptions from oslo_serialization import base64 as base64utils from oslo_utils import excutils from oslo_utils import strutils from oslo_utils import timeutils from oslo_utils import units from oslo_utils import uuidutils import six from six.moves import range from nova 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 instance_list from nova.compute import migration_list 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.utils import wrap_instance_event from nova.compute import vm_states from nova import conductor import nova.conf from nova.consoleauth import rpcapi as consoleauth_rpcapi from nova import context as nova_context from nova import crypto from nova.db import base from nova import exception from nova import exception_wrapper from nova import hooks from nova.i18n import _ from nova import image 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 objects from nova.objects import base as obj_base from nova.objects import block_device as block_device_obj from nova.objects import fields as fields_obj from nova.objects import keypair as keypair_obj from nova.objects import quotas as quotas_obj from nova.pci import request as pci_request from nova.policies import servers as servers_policies import nova.policy from nova import profiler from nova import rpc from nova.scheduler.client import query from nova.scheduler.client import report from nova.scheduler import utils as scheduler_utils from nova import servicegroup from nova import utils from nova.virt import hardware from nova.volume import cinder LOG = logging.getLogger(__name__) get_notifier = functools.partial(rpc.get_notifier, service='compute') # NOTE(gibi): legacy notification used compute as a service but these # calls still run on the client side of the compute service which is # nova-api. By setting the binary to nova-api below, we can make sure # that the new versioned notifications has the right publisher_id but the # legacy notifications does not change. wrap_exception = functools.partial(exception_wrapper.wrap_exception, get_notifier=get_notifier, binary='nova-api') CONF = nova.conf.CONF RO_SECURITY_GROUPS = ['default'] AGGREGATE_ACTION_UPDATE = 'Update' AGGREGATE_ACTION_UPDATE_META = 'UpdateMeta' AGGREGATE_ACTION_DELETE = 'Delete' AGGREGATE_ACTION_ADD = 'Add' CINDER_V3_ATTACH_MIN_COMPUTE_VERSION = 24 MIN_COMPUTE_MULTIATTACH = 27 MIN_COMPUTE_TRUSTED_CERTS = 31 MIN_COMPUTE_ABORT_QUEUED_LIVE_MIGRATION = 34 MIN_COMPUTE_VOLUME_TYPE = 36 # FIXME(danms): Keep a global cache of the cells we find the # first time we look. This needs to be refreshed on a timer or # trigger. CELLS = [] 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 successfully 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): @six.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='launched_at', instance_uuid=instance.uuid, state=instance.launched_at, method=f.__name__) return f(self, context, instance, *args, **kw) return inner return outer def _set_or_none(q): return q if q is None or isinstance(q, set) else set(q) def reject_instance_state(vm_state=None, task_state=None): """Decorator. Raise InstanceInvalidState if instance is in any of the given states. """ vm_state = _set_or_none(vm_state) task_state = _set_or_none(task_state) def outer(f): @six.wraps(f) def inner(self, context, instance, *args, **kw): _InstanceInvalidState = functools.partial( exception.InstanceInvalidState, instance_uuid=instance.uuid, method=f.__name__) if vm_state is not None and instance.vm_state in vm_state: raise _InstanceInvalidState( attr='vm_state', state=instance.vm_state) if task_state is not None and instance.task_state in task_state: raise _InstanceInvalidState( attr='task_state', state=instance.task_state) return f(self, context, instance, *args, **kw) return inner return outer def check_instance_host(function): @six.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): @six.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 check_instance_cell(fn): @six.wraps(fn) def _wrapped(self, context, instance, *args, **kwargs): self._validate_cell(instance) return fn(self, context, instance, *args, **kwargs) return _wrapped def _diff_dict(orig, new): """Return a dict describing how to change orig to new. The keys correspond to values that have changed; the value will be a list of one or two elements. The first element of the list will be either '+' or '-', indicating whether the key was updated or deleted; if the key was updated, the list will contain a second element, giving the updated value. """ # Figure out what keys went away result = {k: ['-'] for k in set(orig.keys()) - set(new.keys())} # Compute the updates for key, value in new.items(): if key not in orig or value != orig[key]: result[key] = ['+', value] return result def load_cells(): global CELLS if not CELLS: CELLS = objects.CellMappingList.get_all( nova_context.get_admin_context()) LOG.debug('Found %(count)i cells: %(cells)s', dict(count=len(CELLS), cells=','.join([c.identity for c in CELLS]))) if not CELLS: LOG.error('No cells are configured, unable to continue') def _get_image_meta_obj(image_meta_dict): try: image_meta = objects.ImageMeta.from_dict(image_meta_dict) except ValueError as e: # there must be invalid values in the image meta properties so # consider this an invalid request msg = _('Invalid image metadata. Error: %s') % six.text_type(e) raise exception.InvalidRequest(msg) return image_meta @profiler.trace_cls("compute_api") class API(base.Base): """API for interacting with the compute manager.""" def __init__(self, image_api=None, network_api=None, volume_api=None, security_group_api=None, **kwargs): self.image_api = image_api or image.API() self.network_api = network_api or network.API() self.volume_api = volume_api or cinder.API() self._placementclient = None # Lazy-load on first access. self.security_group_api = (security_group_api or openstack_driver.get_openstack_security_group_driver()) self.consoleauth_rpcapi = consoleauth_rpcapi.ConsoleAuthAPI() self.compute_rpcapi = compute_rpcapi.ComputeAPI() self.compute_task_api = conductor.ComputeTaskAPI() self.servicegroup_api = servicegroup.API() self.notifier = rpc.get_notifier('compute', CONF.host) if CONF.ephemeral_storage_encryption.enabled: self.key_manager = key_manager.API() # Help us to record host in EventReporter self.host = CONF.host super(API, self).__init__(**kwargs) @property def cell_type(self): return getattr(self, '_cell_type', cells_opts.get_cell_type()) def _validate_cell(self, instance): if self.cell_type != 'api': return cell_name = instance.cell_name if not cell_name: raise exception.InstanceUnknownCell( instance_uuid=instance.uuid) def _record_action_start(self, context, instance, action): objects.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: objects.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: objects.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( allowed=exc.kwargs['quotas']['injected_file_path_bytes']) else: raise exception.OnsetFileContentLimitExceeded( allowed=exc.kwargs['quotas']['injected_file_content_bytes']) def _check_metadata_properties_quota(self, context, metadata=None): """Enforce quota limits on metadata properties.""" if not metadata: metadata = {} if not isinstance(metadata, dict): msg = (_("Metadata type should be dict.")) raise exception.InvalidMetadata(reason=msg) num_metadata = len(metadata) try: objects.Quotas.limit_check(context, metadata_items=num_metadata) except exception.OverQuota as exc: 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. # Those are only used in V2 API, from V2.1 API, those checks are # validated at API layer schema validation. for k, v in metadata.items(): try: utils.check_string_length(v) utils.check_string_length(k, min_length=1) except exception.InvalidInput as e: raise exception.InvalidMetadata(reason=e.format_message()) if len(k) > 255: msg = _("Metadata property key greater than 255 characters") raise exception.InvalidMetadataSize(reason=msg) if len(v) > 255: msg = _("Metadata property value greater than 255 characters") raise exception.InvalidMetadataSize(reason=msg) def _check_requested_secgroups(self, context, secgroups): """Check if the security group requested exists and belongs to the project. :param context: The nova request context. :type context: nova.context.RequestContext :param secgroups: list of requested security group names, or uuids in the case of Neutron. :type secgroups: list :returns: list of requested security group names unmodified if using nova-network. If using Neutron, the list returned is all uuids. Note that 'default' is a special case and will be unmodified if it's requested. """ security_groups = [] for secgroup in secgroups: # NOTE(sdague): default is handled special if secgroup == "default": security_groups.append(secgroup) continue secgroup_dict = self.security_group_api.get(context, secgroup) if not secgroup_dict: raise exception.SecurityGroupNotFoundForProject( project_id=context.project_id, security_group_id=secgroup) # Check to see if it's a nova-network or neutron type. if isinstance(secgroup_dict['id'], int): # This is nova-network so just return the requested name. security_groups.append(secgroup) else: # The id for neutron is a uuid, so we return the id (uuid). security_groups.append(secgroup_dict['id']) return security_groups def _check_requested_networks(self, context, requested_networks, max_count): """Check if the networks requested belongs to the project and the fixed IP address for each network provided is within same the network block """ if requested_networks is not None: if requested_networks.no_allocate: # If the network request was specifically 'none' meaning don't # allocate any networks, we just return the number of requested # instances since quotas don't change at all. return max_count # NOTE(danms): Temporary transition requested_networks = requested_networks.as_tuples() return self.network_api.validate_networks(context, requested_networks, max_count) def _handle_kernel_and_ramdisk(self, context, kernel_id, ramdisk_id, image): """Choose kernel and ramdisk appropriate for the instance. The kernel and ramdisk can be chosen in one of two ways: 1. Passed in with create-instance request. 2. Inherited from image metadata. If inherited from image metadata, and if that image metadata value is set to 'nokernel', both kernel and ramdisk will default to None. """ # 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 kernel_id indicates that a kernel is not to be used if kernel_id == 'nokernel': kernel_id = None ramdisk_id = None # Verify kernel and ramdisk exist (fail-fast) if kernel_id is not None: kernel_image = self.image_api.get(context, kernel_id) # kernel_id could have been a URI, not a UUID, so to keep behaviour # from before, which leaked that implementation detail out to the # caller, we return the image UUID of the kernel image and ramdisk # image (below) and not any image URIs that might have been # supplied. # TODO(jaypipes): Get rid of this silliness once we move to a real # Image object and hide all of that stuff within nova.image.api. kernel_id = kernel_image['id'] if ramdisk_id is not None: ramdisk_image = self.image_api.get(context, ramdisk_id) ramdisk_id = ramdisk_image['id'] return kernel_id, ramdisk_id @staticmethod def parse_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 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 _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 _validate_flavor_image(self, context, image_id, image, instance_type, root_bdm, validate_numa=True): """Validate the flavor and image. This is called from the API service to ensure that the flavor extra-specs and image properties are self-consistent and compatible with each other. :param context: A context.RequestContext :param image_id: UUID of the image :param image: a dict representation of the image including properties, enforces the image status is active. :param instance_type: Flavor object :param root_bdm: BlockDeviceMapping for root disk. Will be None for the resize case. :param validate_numa: Flag to indicate whether or not to validate the NUMA-related metadata. :raises: Many different possible exceptions. See api.openstack.compute.servers.INVALID_FLAVOR_IMAGE_EXCEPTIONS for the full list. """ if image and image['status'] != 'active': raise exception.ImageNotActive(image_id=image_id) self._validate_flavor_image_nostatus(context, image, instance_type, root_bdm, validate_numa) @staticmethod def _validate_flavor_image_nostatus(context, image, instance_type, root_bdm, validate_numa=True, validate_pci=False): """Validate the flavor and image. This is called from the API service to ensure that the flavor extra-specs and image properties are self-consistent and compatible with each other. :param context: A context.RequestContext :param image: a dict representation of the image including properties, enforces the image status is active. :param instance_type: Flavor object :param root_bdm: BlockDeviceMapping for root disk. Will be None for the resize case. :param validate_numa: Flag to indicate whether or not to validate the NUMA-related metadata. :param validate_pci: Flag to indicate whether or not to validate the PCI-related metadata. :raises: Many different possible exceptions. See api.openstack.compute.servers.INVALID_FLAVOR_IMAGE_EXCEPTIONS for the full list. """ if not image: return image_properties = image.get('properties', {}) config_drive_option = image_properties.get( 'img_config_drive', 'optional') if config_drive_option not in ['optional', 'mandatory']: raise exception.InvalidImageConfigDrive( config_drive=config_drive_option) if instance_type['memory_mb'] < int(image.get('min_ram') or 0): raise exception.FlavorMemoryTooSmall() # Image min_disk is in gb, size is in bytes. For sanity, have them both # in bytes. image_min_disk = int(image.get('min_disk') or 0) * units.Gi image_size = int(image.get('size') or 0) # Target disk is a volume. Don't check flavor disk size because it # doesn't make sense, and check min_disk against the volume size. if (root_bdm is not None and root_bdm.is_volume): # There are 2 possibilities here: either the target volume already # exists, or it doesn't, in which case the bdm will contain the # intended volume size. # # Cinder does its own check against min_disk, so if the target # volume already exists this has already been done and we don't # need to check it again here. In this case, volume_size may not be # set on the bdm. # # If we're going to create the volume, the bdm will contain # volume_size. Therefore we should check it if it exists. This will # still be checked again by cinder when the volume is created, but # that will not happen until the request reaches a host. By # checking it here, the user gets an immediate and useful failure # indication. # # The third possibility is that we have failed to consider # something, and there are actually more than 2 possibilities. In # this case cinder will still do the check at volume creation time. # The behaviour will still be correct, but the user will not get an # immediate failure from the api, and will instead have to # determine why the instance is in an error state with a task of # block_device_mapping. # # We could reasonably refactor this check into _validate_bdm at # some future date, as the various size logic is already split out # in there. dest_size = root_bdm.volume_size if dest_size is not None: dest_size *= units.Gi if image_min_disk > dest_size: raise exception.VolumeSmallerThanMinDisk( volume_size=dest_size, image_min_disk=image_min_disk) # Target disk is a local disk whose size is taken from the flavor else: dest_size = instance_type['root_gb'] * units.Gi # 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. if dest_size != 0: if image_size > dest_size: raise exception.FlavorDiskSmallerThanImage( flavor_size=dest_size, image_size=image_size) if image_min_disk > dest_size: raise exception.FlavorDiskSmallerThanMinDisk( flavor_size=dest_size, image_min_disk=image_min_disk) else: # The user is attempting to create a server with a 0-disk # image-backed flavor, which can lead to issues with a large # image consuming an unexpectedly large amount of local disk # on the compute host. Check to see if the deployment will # allow that. if not context.can( servers_policies.ZERO_DISK_FLAVOR, fatal=False): raise exception.BootFromVolumeRequiredForZeroDiskFlavor() image_meta = _get_image_meta_obj(image) # Only validate values of flavor/image so the return results of # following 'get' functions are not used. hardware.get_number_of_serial_ports(instance_type, image_meta) if hardware.is_realtime_enabled(instance_type): hardware.vcpus_realtime_topology(instance_type, image_meta) hardware.get_cpu_topology_constraints(instance_type, image_meta) if validate_numa: hardware.numa_get_constraints(instance_type, image_meta) if validate_pci: pci_request.get_pci_requests_from_flavor(instance_type) def _get_image_defined_bdms(self, instance_type, image_meta, root_device_name): image_properties = image_meta.get('properties', {}) # Get the block device mappings defined by the image. image_defined_bdms = image_properties.get('block_device_mapping', []) legacy_image_defined = not image_properties.get('bdm_v2', False) image_mapping = image_properties.get('mappings', []) if legacy_image_defined: image_defined_bdms = block_device.from_legacy_mapping( image_defined_bdms, None, root_device_name) else: image_defined_bdms = list(map(block_device.BlockDeviceDict, image_defined_bdms)) if image_mapping: image_mapping = self._prepare_image_mapping(instance_type, image_mapping) image_defined_bdms = self._merge_bdms_lists( image_mapping, image_defined_bdms) return image_defined_bdms def _get_flavor_defined_bdms(self, instance_type, block_device_mapping): flavor_defined_bdms = [] have_ephemeral_bdms = any(filter( block_device.new_format_is_ephemeral, block_device_mapping)) have_swap_bdms = any(filter( block_device.new_format_is_swap, block_device_mapping)) if instance_type.get('ephemeral_gb') and not have_ephemeral_bdms: flavor_defined_bdms.append( block_device.create_blank_bdm(instance_type['ephemeral_gb'])) if instance_type.get('swap') and not have_swap_bdms: flavor_defined_bdms.append( block_device.create_blank_bdm(instance_type['swap'], 'swap')) return flavor_defined_bdms def _merge_bdms_lists(self, overridable_mappings, overrider_mappings): """Override any block devices from the first list by device name :param overridable_mappings: list which items are overridden :param overrider_mappings: list which items override :returns: A merged list of bdms """ device_names = set(bdm['device_name'] for bdm in overrider_mappings if bdm['device_name']) return (overrider_mappings + [bdm for bdm in overridable_mappings if bdm['device_name'] not in device_names]) def _check_and_transform_bdm(self, context, base_options, instance_type, 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', '') # If the instance is booted by image and has a volume attached, # the volume cannot have the same device name as root_device_name if image_ref: for bdm in block_device_mapping: if (bdm.get('destination_type') == 'volume' and block_device.strip_dev(bdm.get( 'device_name')) == root_device_name): msg = _('The volume cannot be assigned the same device' ' name as the root device %s') % root_device_name raise exception.InvalidRequest(msg) image_defined_bdms = self._get_image_defined_bdms( instance_type, image_meta, root_device_name) root_in_image_bdms = ( block_device.get_root_bdm(image_defined_bdms) is not None) if legacy_bdm: block_device_mapping = block_device.from_legacy_mapping( block_device_mapping, image_ref, root_device_name, no_root=root_in_image_bdms) elif root_in_image_bdms: # NOTE (ndipanov): client will insert an image mapping into the v2 # block_device_mapping, but if there is a bootable device in image # mappings - we need to get rid of the inserted image # NOTE (gibi): another case is when a server is booted with an # image to bdm mapping where the image only contains a bdm to a # snapshot. In this case the other image to bdm mapping # contains an unnecessary device with boot_index == 0. # Also in this case the image_ref is None as we are booting from # an image to volume bdm. def not_image_and_root_bdm(bdm): return not (bdm.get('boot_index') == 0 and bdm.get('source_type') == 'image') block_device_mapping = list( filter(not_image_and_root_bdm, block_device_mapping)) block_device_mapping = self._merge_bdms_lists( image_defined_bdms, block_device_mapping) if min_count > 1 or max_count > 1: if any(map(lambda bdm: bdm['source_type'] == 'volume', block_device_mapping)): msg = _('Cannot attach one or more volumes to multiple' ' instances') raise exception.InvalidRequest(msg) block_device_mapping += self._get_flavor_defined_bdms( instance_type, block_device_mapping) return block_device_obj.block_device_make_list_from_dicts( context, block_device_mapping) def _get_image(self, context, image_href): if not image_href: return None, {} image = self.image_api.get(context, image_href) return image['id'], image def _checks_for_create_and_rebuild(self, context, image_id, image, instance_type, metadata, files_to_inject, root_bdm, validate_numa=True): self._check_metadata_properties_quota(context, metadata) self._check_injected_file_quota(context, files_to_inject) self._validate_flavor_image(context, image_id, image, instance_type, root_bdm, validate_numa=validate_numa) 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, user_data, metadata, access_ip_v4, access_ip_v6, requested_networks, config_drive, auto_disk_config, reservation_id, max_count, supports_port_resource_request): """Verify all the input parameters regardless of the provisioning strategy being performed. """ if instance_type['disabled']: raise exception.FlavorNotFound(flavor_id=instance_type['id']) if user_data: try: base64utils.decode_as_bytes(user_data) except TypeError: raise exception.InstanceUserDataMalformed() # When using Neutron, _check_requested_secgroups will translate and # return any requested security group names to uuids. security_groups = ( self._check_requested_secgroups(context, security_groups)) # Note: max_count is the number of instances requested by the user, # max_network_count is the maximum number of instances taking into # account any network quotas max_network_count = self._check_requested_networks(context, requested_networks, max_count) 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 is not None: key_pair = objects.KeyPair.get_by_name(context, context.user_id, key_name) key_data = key_pair.public_key else: key_pair = None root_device_name = block_device.prepend_dev( block_device.properties_root_device_name( boot_meta.get('properties', {}))) image_meta = _get_image_meta_obj(boot_meta) numa_topology = hardware.numa_get_constraints( instance_type, image_meta) system_metadata = {} # PCI requests come from two sources: instance flavor and # requested_networks. The first call in below returns an # InstancePCIRequests object which is a list of InstancePCIRequest # objects. The second call in below creates an InstancePCIRequest # object for each SR-IOV port, and append it to the list in the # InstancePCIRequests object pci_request_info = pci_request.get_pci_requests_from_flavor( instance_type) result = self.network_api.create_resource_requests( context, requested_networks, pci_request_info) network_metadata, port_resource_requests = result # Creating servers with ports that have resource requests, like QoS # minimum bandwidth rules, is only supported in a requested minimum # microversion. if port_resource_requests and not supports_port_resource_request: raise exception.CreateWithPortResourceRequestOldVersion() 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, '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, 'pci_requests': pci_request_info, 'numa_topology': numa_topology, 'system_metadata': system_metadata, 'port_resource_requests': port_resource_requests} options_from_image = self._inherit_properties_from_image( boot_meta, auto_disk_config) base_options.update(options_from_image) # return the validated options and maximum number of instances allowed # by the network quotas return (base_options, max_network_count, key_pair, security_groups, network_metadata) def _provision_instances(self, context, instance_type, min_count, max_count, base_options, boot_meta, security_groups, block_device_mapping, shutdown_terminate, instance_group, check_server_group_quota, filter_properties, key_pair, tags, trusted_certs, supports_multiattach, network_metadata=None): # Check quotas num_instances = compute_utils.check_num_instances_quota( context, instance_type, min_count, max_count) security_groups = self.security_group_api.populate_security_groups( security_groups) self.security_group_api.ensure_default(context) port_resource_requests = base_options.pop('port_resource_requests') LOG.debug("Going to run %s instances...", num_instances) instances_to_build = [] try: for i in range(num_instances): # Create a uuid for the instance so we can store the # RequestSpec before the instance is created. instance_uuid = uuidutils.generate_uuid() # Store the RequestSpec that will be used for scheduling. req_spec = objects.RequestSpec.from_components(context, instance_uuid, boot_meta, instance_type, base_options['numa_topology'], base_options['pci_requests'], filter_properties, instance_group, base_options['availability_zone'], security_groups=security_groups, port_resource_requests=port_resource_requests) if block_device_mapping: # Record whether or not we are a BFV instance root = block_device_mapping.root_bdm() req_spec.is_bfv = bool(root and root.is_volume) else: # If we have no BDMs, we're clearly not BFV req_spec.is_bfv = False # NOTE(danms): We need to record num_instances on the request # spec as this is how the conductor knows how many were in this # batch. req_spec.num_instances = num_instances req_spec.create() # NOTE(stephenfin): The network_metadata field is not persisted # and is therefore set after 'create' is called. if network_metadata: req_spec.network_metadata = network_metadata # Create an instance object, but do not store in db yet. instance = objects.Instance(context=context) instance.uuid = instance_uuid instance.update(base_options) instance.keypairs = objects.KeyPairList(objects=[]) if key_pair: instance.keypairs.objects.append(key_pair) instance.trusted_certs = self._retrieve_trusted_certs_object( context, trusted_certs) instance = self.create_db_entry_for_new_instance(context, instance_type, boot_meta, instance, security_groups, block_device_mapping, num_instances, i, shutdown_terminate, create_instance=False) block_device_mapping = ( self._bdm_validate_set_size_and_instance(context, instance, instance_type, block_device_mapping, supports_multiattach)) instance_tags = self._transform_tags(tags, instance.uuid) build_request = objects.BuildRequest(context, instance=instance, instance_uuid=instance.uuid, project_id=instance.project_id, block_device_mappings=block_device_mapping, tags=instance_tags) build_request.create() # Create an instance_mapping. The null cell_mapping indicates # that the instance doesn't yet exist in a cell, and lookups # for it need to instead look for the RequestSpec. # cell_mapping will be populated after scheduling, with a # scheduling failure using the cell_mapping for the special # cell0. inst_mapping = objects.InstanceMapping(context=context) inst_mapping.instance_uuid = instance_uuid inst_mapping.project_id = context.project_id inst_mapping.user_id = context.user_id inst_mapping.cell_mapping = None inst_mapping.create() instances_to_build.append( (req_spec, build_request, inst_mapping)) if instance_group: if check_server_group_quota: try: objects.Quotas.check_deltas( context, {'server_group_members': 1}, instance_group, context.user_id) except exception.OverQuota: msg = _("Quota exceeded, too many servers in " "group") raise exception.QuotaError(msg) members = objects.InstanceGroup.add_members( context, instance_group.uuid, [instance.uuid]) # NOTE(melwitt): We recheck the quota after creating the # object to prevent users from allocating more resources # than their allowed quota in the event of a race. This is # configurable because it can be expensive if strict quota # limits are not required in a deployment. if CONF.quota.recheck_quota and check_server_group_quota: try: objects.Quotas.check_deltas( context, {'server_group_members': 0}, instance_group, context.user_id) except exception.OverQuota: objects.InstanceGroup._remove_members_in_db( context, instance_group.id, [instance.uuid]) msg = _("Quota exceeded, too many servers in " "group") raise exception.QuotaError(msg) # list of members added to servers group in this iteration # is needed to check quota of server group during add next # instance instance_group.members.extend(members) # In the case of any exceptions, attempt DB cleanup except Exception: with excutils.save_and_reraise_exception(): self._cleanup_build_artifacts(None, instances_to_build) return instances_to_build @staticmethod def _retrieve_trusted_certs_object(context, trusted_certs, rebuild=False): """Convert user-requested trusted cert IDs to TrustedCerts object Also validates that the deployment is new enough to support trusted image certification validation. :param context: The user request auth context :param trusted_certs: list of user-specified trusted cert string IDs, may be None :param rebuild: True if rebuilding the server, False if creating a new server :returns: nova.objects.TrustedCerts object or None if no user-specified trusted cert IDs were given and nova is not configured with default trusted cert IDs :raises: nova.exception.CertificateValidationNotYetAvailable: If rebuilding a server with trusted certs on a compute host that is too old to supported trusted image cert validation, or if creating a server with trusted certs and there are no compute hosts in the deployment that are new enough to support trusted image cert validation """ # Retrieve trusted_certs parameter, or use CONF value if certificate # validation is enabled if trusted_certs: certs_to_return = objects.TrustedCerts(ids=trusted_certs) elif (CONF.glance.verify_glance_signatures and CONF.glance.enable_certificate_validation and CONF.glance.default_trusted_certificate_ids): certs_to_return = objects.TrustedCerts( ids=CONF.glance.default_trusted_certificate_ids) else: return None # Confirm trusted_certs are supported by the minimum nova # compute service version # TODO(mriedem): This minimum version compat code can be dropped in the # 19.0.0 Stein release when all computes must be at a minimum running # Rocky code. if rebuild: # we only care about the current cell since this is # a rebuild min_compute_version = objects.Service.get_minimum_version( context, 'nova-compute') else: # we don't know which cell it's going to get scheduled # to, so check all cells # NOTE(mriedem): For multi-create server requests, we're hitting # this for each instance since it's not cached; we could likely # optimize this. min_compute_version = \ objects.service.get_minimum_version_all_cells( context, ['nova-compute']) if min_compute_version < MIN_COMPUTE_TRUSTED_CERTS: raise exception.CertificateValidationNotYetAvailable() return certs_to_return 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 block_device.get_device_letter( bdm.get('device_name', '')) != 'a'): continue elif not legacy_bdm and bdm.get('boot_index') != 0: continue volume_id = bdm.get('volume_id') snapshot_id = bdm.get('snapshot_id') if snapshot_id: # NOTE(alaski): A volume snapshot inherits metadata from the # originating volume, but the API does not expose metadata # on the snapshot itself. So we query the volume for it below. snapshot = self.volume_api.get_snapshot(context, snapshot_id) volume_id = snapshot['volume_id'] if bdm.get('image_id'): try: image_id = bdm['image_id'] image_meta = self.image_api.get(context, image_id) return image_meta except Exception: raise exception.InvalidBDMImage(id=image_id) elif volume_id: try: volume = self.volume_api.get(context, volume_id) except exception.CinderConnectionFailed: raise except Exception: raise exception.InvalidBDMVolume(id=volume_id) if not volume.get('bootable', True): raise exception.InvalidBDMVolumeNotBootable(id=volume_id) return utils.get_image_metadata_from_volume(volume) return {} @staticmethod def _get_requested_instance_group(context, filter_properties): if (not filter_properties or not filter_properties.get('scheduler_hints')): return group_hint = filter_properties.get('scheduler_hints').get('group') if not group_hint: return return objects.InstanceGroup.get_by_uuid(context, group_hint) 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, filter_properties, reservation_id=None, legacy_bdm=True, shutdown_terminate=False, check_server_group_quota=False, tags=None, supports_multiattach=False, trusted_certs=None, supports_port_resource_request=False): """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'] min_count = min_count or 1 max_count = max_count or min_count block_device_mapping = block_device_mapping or [] tags = tags or [] if image_href: image_id, boot_meta = self._get_image(context, image_href) else: # This is similar to the logic in _retrieve_trusted_certs_object. if (trusted_certs or (CONF.glance.verify_glance_signatures and CONF.glance.enable_certificate_validation and CONF.glance.default_trusted_certificate_ids)): msg = _("Image certificate validation is not supported " "when booting from volume") raise exception.CertificateValidationFailed(message=msg) image_id = None boot_meta = 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) base_options, max_net_count, key_pair, security_groups, \ network_metadata = 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, user_data, metadata, access_ip_v4, access_ip_v6, requested_networks, config_drive, auto_disk_config, reservation_id, max_count, supports_port_resource_request) # max_net_count is the maximum number of instances requested by the # user adjusted for any network quota constraints, including # consideration of connections to each requested network if max_net_count < min_count: raise exception.PortLimitExceeded() elif max_net_count < max_count: LOG.info("max count reduced from %(max_count)d to " "%(max_net_count)d due to network port quota", {'max_count': max_count, 'max_net_count': max_net_count}) max_count = max_net_count block_device_mapping = self._check_and_transform_bdm(context, base_options, instance_type, boot_meta, min_count, max_count, block_device_mapping, legacy_bdm) # We can't do this check earlier because we need bdms from all sources # to have been merged in order to get the root bdm. # Set validate_numa=False since numa validation is already done by # _validate_and_build_base_options(). self._checks_for_create_and_rebuild(context, image_id, boot_meta, instance_type, metadata, injected_files, block_device_mapping.root_bdm(), validate_numa=False) instance_group = self._get_requested_instance_group(context, filter_properties) tags = self._create_tag_list_obj(context, tags) instances_to_build = self._provision_instances( context, instance_type, min_count, max_count, base_options, boot_meta, security_groups, block_device_mapping, shutdown_terminate, instance_group, check_server_group_quota, filter_properties, key_pair, tags, trusted_certs, supports_multiattach, network_metadata) instances = [] request_specs = [] build_requests = [] for rs, build_request, im in instances_to_build: build_requests.append(build_request) instance = build_request.get_new_instance(context) instances.append(instance) request_specs.append(rs) if CONF.cells.enable: # NOTE(danms): CellsV1 can't do the new thing, so we # do the old thing here. We can remove this path once # we stop supporting v1. for instance in instances: instance.create() # NOTE(melwitt): We recheck the quota after creating the objects # to prevent users from allocating more resources than their # allowed quota in the event of a race. This is configurable # because it can be expensive if strict quota limits are not # required in a deployment. if CONF.quota.recheck_quota: try: compute_utils.check_num_instances_quota( context, instance_type, 0, 0, orig_num_req=len(instances)) except exception.TooManyInstances: with excutils.save_and_reraise_exception(): # Need to clean up all the instances we created # along with the build requests, request specs, # and instance mappings. self._cleanup_build_artifacts(instances, instances_to_build) 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) else: self.compute_task_api.schedule_and_build_instances( context, build_requests=build_requests, request_spec=request_specs, image=boot_meta, admin_password=admin_password, injected_files=injected_files, requested_networks=requested_networks, block_device_mapping=block_device_mapping, tags=tags) return instances, reservation_id @staticmethod def _cleanup_build_artifacts(instances, instances_to_build): # instances_to_build is a list of tuples: # (RequestSpec, BuildRequest, InstanceMapping) # Be paranoid about artifacts being deleted underneath us. for instance in instances or []: try: instance.destroy() except exception.InstanceNotFound: pass for rs, build_request, im in instances_to_build or []: try: rs.destroy() except exception.RequestSpecNotFound: pass try: build_request.destroy() except exception.BuildRequestNotFound: pass try: im.destroy() except exception.InstanceMappingNotFound: pass @staticmethod def _volume_size(instance_type, bdm): size = bdm.get('volume_size') # NOTE (ndipanov): inherit flavor size only for swap and ephemeral if (size is None and bdm.get('source_type') == 'blank' and bdm.get('destination_type') == 'local'): 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, 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) 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 _bdm_validate_set_size_and_instance(self, context, instance, instance_type, block_device_mapping, supports_multiattach=False): """Ensure the bdms are valid, then set size and associate with instance Because this method can be called multiple times when more than one instance is booted in a single request it makes a copy of the bdm list. """ LOG.debug("block_device_mapping %s", list(block_device_mapping), instance_uuid=instance.uuid) self._validate_bdm( context, instance, instance_type, block_device_mapping, supports_multiattach) instance_block_device_mapping = block_device_mapping.obj_clone() for bdm in instance_block_device_mapping: bdm.volume_size = self._volume_size(instance_type, bdm) bdm.instance_uuid = instance.uuid return instance_block_device_mapping def _create_block_device_mapping(self, block_device_mapping): # Copy the block_device_mapping because this method can be called # multiple times when more than one instance is booted in a single # request. This avoids 'id' being set and triggering the object dupe # detection db_block_device_mapping = copy.deepcopy(block_device_mapping) # Create the BlockDeviceMapping objects in the db. for bdm in db_block_device_mapping: # TODO(alaski): Why is this done? if bdm.volume_size == 0: continue bdm.update_or_create() @staticmethod def _check_requested_volume_type(bdm, volume_type_id_or_name, volume_types): """If we are specifying a volume type, we need to get the volume type details from Cinder and make sure the ``volume_type`` is available. """ # NOTE(brinzhang): Verify that the specified volume type exists. # And save the volume type name internally for consistency in the # BlockDeviceMapping object. for vol_type in volume_types: if (volume_type_id_or_name == vol_type['id'] or volume_type_id_or_name == vol_type['name']): bdm.volume_type = vol_type['name'] break else: raise exception.VolumeTypeNotFound( id_or_name=volume_type_id_or_name) @staticmethod def _check_compute_supports_volume_type(context): # NOTE(brinzhang): Checking the minimum nova-compute service # version across the deployment. Just make sure the volume # type can be supported when the bdm.volume_type is requested. min_compute_version = objects.service.get_minimum_version_all_cells( context, ['nova-compute']) if min_compute_version < MIN_COMPUTE_VOLUME_TYPE: raise exception.VolumeTypeSupportNotYetAvailable() def _validate_bdm(self, context, instance, instance_type, block_device_mappings, supports_multiattach=False): # Make sure that the boot indexes make sense. # Setting a negative value or None indicates that the device should not # be used for booting. boot_indexes = sorted([bdm.boot_index for bdm in block_device_mappings if bdm.boot_index is not None and bdm.boot_index >= 0]) # Each device which is capable of being used as boot device should # be given a unique boot index, starting from 0 in ascending order, and # there needs to be at least one boot device. if not boot_indexes or any(i != v for i, v in enumerate(boot_indexes)): # Convert the BlockDeviceMappingList to a list for repr details. LOG.debug('Invalid block device mapping boot sequence for ' 'instance: %s', list(block_device_mappings), instance=instance) raise exception.InvalidBDMBootSequence() volume_types = None volume_type_is_supported = False for bdm in block_device_mappings: volume_type = bdm.volume_type if volume_type: if not volume_type_is_supported: # The following method raises # VolumeTypeSupportNotYetAvailable if the minimum # nova-compute service version across the deployment is # not new enough to support creating volumes with a # specific type. self._check_compute_supports_volume_type(context) # Set the flag to avoid calling # _check_compute_supports_volume_type more than once in # this for loop. volume_type_is_supported = True if not volume_types: # In order to reduce the number of hit cinder APIs, # initialize our cache of volume types. volume_types = self.volume_api.get_all_volume_types( context) # NOTE(brinzhang): Ensure the validity of volume_type. self._check_requested_volume_type(bdm, volume_type, volume_types) # 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.snapshot_id volume_id = bdm.volume_id image_id = bdm.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) if (bdm.source_type == 'image' and bdm.destination_type == 'volume' and not bdm.volume_size): raise exception.InvalidBDM(message=_("Images with " "destination_type 'volume' need to have a non-zero " "size specified")) elif volume_id is not None: try: volume = self.volume_api.get(context, volume_id) self._check_attach_and_reserve_volume( context, volume, instance, bdm, supports_multiattach) bdm.volume_size = volume.get('size') # NOTE(mnaser): If we end up reserving the volume, it will # not have an attachment_id which is needed # for cleanups. This can be removed once # all calls to reserve_volume are gone. if 'attachment_id' not in bdm: bdm.attachment_id = None except (exception.CinderConnectionFailed, exception.InvalidVolume, exception.MultiattachNotSupportedOldMicroversion, exception.MultiattachSupportNotYetAvailable): raise except exception.InvalidInput as exc: raise exception.InvalidVolume(reason=exc.format_message()) except Exception: raise exception.InvalidBDMVolume(id=volume_id) elif snapshot_id is not None: try: snap = self.volume_api.get_snapshot(context, snapshot_id) bdm.volume_size = bdm.volume_size or snap.get('size') except exception.CinderConnectionFailed: raise except Exception: raise exception.InvalidBDMSnapshot(id=snapshot_id) elif (bdm.source_type == 'blank' and bdm.destination_type == 'volume' and not bdm.volume_size): raise exception.InvalidBDM(message=_("Blank volumes " "(source: 'blank', dest: 'volume') need to have non-zero " "size")) ephemeral_size = sum(bdm.volume_size or instance_type['ephemeral_gb'] for bdm in block_device_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 = block_device.get_bdm_swap_list(block_device_mappings) 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].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 block_device_mappings if bdm.destination_type == 'local']) if num_local > max_local: raise exception.InvalidBDMLocalsLimit() def _populate_instance_names(self, instance, num_instances, index): """Populate instance display_name and hostname. :param instance: The instance to set the display_name, hostname for :type instance: nova.objects.Instance :param num_instances: Total number of instances being created in this request :param index: The 0-based index of this particular instance """ # NOTE(mriedem): This is only here for test simplicity since a server # name is required in the REST API. if 'display_name' not in instance or instance.display_name is None: instance.display_name = 'Server %s' % instance.uuid # if we're booting multiple instances, we need to add an indexing # suffix to both instance.hostname and instance.display_name. This is # not necessary for a single instance. if num_instances == 1: default_hostname = 'Server-%s' % instance.uuid instance.hostname = utils.sanitize_hostname( instance.display_name, default_hostname) elif num_instances > 1 and self.cell_type != 'api': old_display_name = instance.display_name new_display_name = '%s-%d' % (old_display_name, index + 1) if utils.sanitize_hostname(old_display_name) == "": instance.hostname = 'Server-%s' % instance.uuid else: instance.hostname = utils.sanitize_hostname( new_display_name) instance.display_name = new_display_name def _populate_instance_for_create(self, context, instance, image, index, security_groups, instance_type, num_instances, shutdown_terminate): """Build the beginning of a new instance.""" instance.launch_index = index instance.vm_state = vm_states.BUILDING instance.task_state = task_states.SCHEDULING info_cache = objects.InstanceInfoCache() info_cache.instance_uuid = instance.uuid info_cache.network_info = network_model.NetworkInfo() instance.info_cache = info_cache instance.flavor = instance_type instance.old_flavor = None instance.new_flavor = None if CONF.ephemeral_storage_encryption.enabled: # NOTE(kfarr): dm-crypt expects the cipher in a # hyphenated format: cipher-chainmode-ivmode # (ex: aes-xts-plain64). The algorithm needs # to be parsed out to pass to the key manager (ex: aes). cipher = CONF.ephemeral_storage_encryption.cipher algorithm = cipher.split('-')[0] if cipher else None instance.ephemeral_key_uuid = self.key_manager.create_key( context, algorithm=algorithm, length=CONF.ephemeral_storage_encryption.key_size) else: instance.ephemeral_key_uuid = None # 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) system_meta['owner_user_name'] = context.user_name system_meta['owner_project_name'] = context.project_name instance.system_metadata.update(system_meta) if CONF.use_neutron: # For Neutron we don't actually store anything in the database, we # proxy the security groups on the instance from the ports # attached to the instance. instance.security_groups = objects.SecurityGroupList() else: instance.security_groups = security_groups self._populate_instance_names(instance, num_instances, index) instance.shutdown_terminate = shutdown_terminate return instance def _create_tag_list_obj(self, context, tags): """Create TagList objects from simple string tags. :param context: security context. :param tags: simple string tags from API request. :returns: TagList object. """ tag_list = [objects.Tag(context=context, tag=t) for t in tags] tag_list_obj = objects.TagList(objects=tag_list) return tag_list_obj def _transform_tags(self, tags, resource_id): """Change the resource_id of the tags according to the input param. Because this method can be called multiple times when more than one instance is booted in a single request it makes a copy of the tags list. :param tags: TagList object. :param resource_id: string. :returns: TagList object. """ instance_tags = tags.obj_clone() for tag in instance_tags: tag.resource_id = resource_id return instance_tags # This method remains because cellsv1 uses it in the scheduler def create_db_entry_for_new_instance(self, context, instance_type, image, instance, security_group, block_device_mapping, num_instances, index, shutdown_terminate=False, create_instance=True): """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. :param create_instance: Determines if the instance is created here or just populated for later creation. This is done so that this code can be shared with cellsv1 which needs the instance creation to happen here. It should be removed and this method cleaned up when cellsv1 is a distant memory. """ self._populate_instance_for_create(context, instance, image, index, security_group, instance_type, num_instances, shutdown_terminate) if create_instance: instance.create() return instance def _check_multiple_instances_with_neutron_ports(self, requested_networks): """Check whether multiple instances are created from port id(s).""" for requested_net in requested_networks: if requested_net.port_id: 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) def _check_multiple_instances_with_specified_ip(self, requested_networks): """Check whether multiple instances are created with specified ip.""" for requested_net in requested_networks: if requested_net.network_id and requested_net.address: msg = _("max_count cannot be greater than 1 if an fixed_ip " "is specified.") raise exception.InvalidFixedIpAndMaxCountRequest(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_groups=None, availability_zone=None, forced_host=None, forced_node=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, shutdown_terminate=False, check_server_group_quota=False, tags=None, supports_multiattach=False, trusted_certs=None, supports_port_resource_request=False): """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) """ if requested_networks and max_count is not None and max_count > 1: self._check_multiple_instances_with_specified_ip( requested_networks) if utils.is_neutron(): self._check_multiple_instances_with_neutron_ports( requested_networks) 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) filter_properties = scheduler_utils.build_filter_properties( scheduler_hints, forced_host, forced_node, instance_type) 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_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, filter_properties=filter_properties, legacy_bdm=legacy_bdm, shutdown_terminate=shutdown_terminate, check_server_group_quota=check_server_group_quota, tags=tags, supports_multiattach=supports_multiattach, trusted_certs=trusted_certs, supports_port_resource_request=supports_port_resource_request) 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 _lookup_instance(self, context, uuid): '''Helper method for pulling an instance object from a database. During the transition to cellsv2 there is some complexity around retrieving an instance from the database which this method hides. If there is an instance mapping then query the cell for the instance, if no mapping exists then query the configured nova database. Once we are past the point that all deployments can be assumed to be migrated to cellsv2 this method can go away. ''' inst_map = None try: inst_map = objects.InstanceMapping.get_by_instance_uuid( context, uuid) except exception.InstanceMappingNotFound: # TODO(alaski): This exception block can be removed once we're # guaranteed everyone is using cellsv2. pass if (inst_map is None or inst_map.cell_mapping is None or CONF.cells.enable): # If inst_map is None then the deployment has not migrated to # cellsv2 yet. # If inst_map.cell_mapping is None then the instance is not in a # cell yet. Until instance creation moves to the conductor the # instance can be found in the configured database, so attempt # to look it up. # If we're on cellsv1, we can't yet short-circuit the cells # messaging path cell = None try: instance = objects.Instance.get_by_uuid(context, uuid) except exception.InstanceNotFound: # If we get here then the conductor is in charge of writing the # instance to the database and hasn't done that yet. It's up to # the caller of this method to determine what to do with that # information. return None, None else: cell = inst_map.cell_mapping with nova_context.target_cell(context, cell) as cctxt: try: instance = objects.Instance.get_by_uuid(cctxt, uuid) except exception.InstanceNotFound: # Since the cell_mapping exists we know the instance is in # the cell, however InstanceNotFound means it's already # deleted. return None, None return cell, instance def _delete_while_booting(self, context, instance): """Handle deletion if the instance has not reached a cell yet Deletion before an instance reaches a cell needs to be handled differently. What we're attempting to do is delete the BuildRequest before the api level conductor does. If we succeed here then the boot request stops before reaching a cell. If not then the instance will need to be looked up in a cell db and the normal delete path taken. """ deleted = self._attempt_delete_of_buildrequest(context, instance) if deleted: # If we've reached this block the successful deletion of the # buildrequest indicates that the build process should be halted by # the conductor. # NOTE(alaski): Though the conductor halts the build process it # does not currently delete the instance record. This is # because in the near future the instance record will not be # created if the buildrequest has been deleted here. For now we # ensure the instance has been set to deleted at this point. # Yes this directly contradicts the comment earlier in this # method, but this is a temporary measure. # Look up the instance because the current instance object was # stashed on the buildrequest and therefore not complete enough # to run .destroy(). try: instance_uuid = instance.uuid cell, instance = self._lookup_instance(context, instance_uuid) if instance is not None: # If instance is None it has already been deleted. if cell: with nova_context.target_cell(context, cell) as cctxt: # FIXME: When the instance context is targeted, # we can remove this with compute_utils.notify_about_instance_delete( self.notifier, cctxt, instance): instance.destroy() else: instance.destroy() except exception.InstanceNotFound: pass return True return False def _attempt_delete_of_buildrequest(self, context, instance): # If there is a BuildRequest then the instance may not have been # written to a cell db yet. Delete the BuildRequest here, which # will indicate that the Instance build should not proceed. try: build_req = objects.BuildRequest.get_by_instance_uuid( context, instance.uuid) build_req.destroy() except exception.BuildRequestNotFound: # This means that conductor has deleted the BuildRequest so the # instance is now in a cell and the delete needs to proceed # normally. return False # We need to detach from any volumes so they aren't orphaned. self._local_cleanup_bdm_volumes( build_req.block_device_mappings, instance, context) return True def _delete(self, context, instance, delete_type, cb, **instance_attrs): if instance.disable_terminate: LOG.info('instance termination disabled', instance=instance) return cell = None # If there is an instance.host (or the instance is shelved-offloaded or # in error state), the instance has been scheduled and sent to a # cell/compute which means it was pulled from the cell db. # Normal delete should be attempted. may_have_ports_or_volumes = compute_utils.may_have_ports_or_volumes( instance) if not instance.host and not may_have_ports_or_volumes: try: if self._delete_while_booting(context, instance): return # If instance.host was not set it's possible that the Instance # object here was pulled from a BuildRequest object and is not # fully populated. Notably it will be missing an 'id' field # which will prevent instance.destroy from functioning # properly. A lookup is attempted which will either return a # full Instance or None if not found. If not found then it's # acceptable to skip the rest of the delete processing. cell, instance = self._lookup_instance(context, instance.uuid) if cell and instance: try: # Now destroy the instance from the cell it lives in. with compute_utils.notify_about_instance_delete( self.notifier, context, instance): instance.destroy() except exception.InstanceNotFound: pass # The instance was deleted or is already gone. return if not instance: # Instance is already deleted. return except exception.ObjectActionError: # NOTE(melwitt): This means the instance.host changed # under us indicating the instance became scheduled # during the destroy(). Refresh the instance from the DB and # continue on with the delete logic for a scheduled instance. # NOTE(danms): If instance.host is set, we should be able to # do the following lookup. If not, there's not much we can # do to recover. cell, instance = self._lookup_instance(context, instance.uuid) if not instance: # Instance is already deleted return bdms = objects.BlockDeviceMappingList.get_by_instance_uuid( context, instance.uuid) # At these states an instance has a snapshot associate. if instance.vm_state in (vm_states.SHELVED, vm_states.SHELVED_OFFLOADED): snapshot_id = instance.system_metadata.get('shelved_image_id') LOG.info("Working on deleting snapshot %s " "from shelved instance...", snapshot_id, instance=instance) try: self.image_api.delete(context, snapshot_id) except (exception.ImageNotFound, exception.ImageNotAuthorized) as exc: LOG.warning("Failed to delete snapshot " "from shelved instance (%s).", exc.format_message(), instance=instance) except Exception: LOG.exception("Something wrong happened when trying to " "delete snapshot from shelved instance.", instance=instance) original_task_state = instance.task_state try: # NOTE(maoy): no expected_task_state needs to be set instance.update(instance_attrs) instance.progress = 0 instance.save() # NOTE(dtp): cells.enable = False means "use cells v2". # Run everywhere except v1 compute cells. if (not CONF.cells.enable and CONF.workarounds.enable_consoleauth ) or self.cell_type == 'api': # TODO(melwitt): Remove the conditions for running this line # with cells v2, when consoleauth is no longer being used by # cells v2, in Stein. self.consoleauth_rpcapi.delete_tokens_for_instance( context, instance.uuid) 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. cb(context, instance, bdms) return if not instance.host and not may_have_ports_or_volumes: try: with compute_utils.notify_about_instance_delete( self.notifier, context, instance, delete_type if delete_type != 'soft_delete' else 'delete'): instance.destroy() LOG.info('Instance deleted and does not have host ' 'field, its vm_state is %(state)s.', {'state': instance.vm_state}, instance=instance) return except exception.ObjectActionError as ex: # The instance's host likely changed under us as # this instance could be building and has since been # scheduled. Continue with attempts to delete it. LOG.debug('Refreshing instance because: %s', ex, instance=instance) instance.refresh() if instance.vm_state == vm_states.RESIZED: self._confirm_resize_on_deleting(context, instance) # NOTE(neha_alhat): After confirm resize vm_state will become # 'active' and task_state will be set to 'None'. But for soft # deleting a vm, the _do_soft_delete callback requires # task_state in 'SOFT_DELETING' status. So, we need to set # task_state as 'SOFT_DELETING' again for soft_delete case. # After confirm resize and before saving the task_state to # "SOFT_DELETING", during the short window, user can submit # soft delete vm request again and system will accept and # process it without any errors. if delete_type == 'soft_delete': instance.task_state = instance_attrs['task_state'] instance.save() is_local_delete = True try: # instance.host must be set in order to look up the service. if instance.host is not None: service = objects.Service.get_by_compute_host( context.elevated(), instance.host) is_local_delete = not self.servicegroup_api.service_is_up( service) if not is_local_delete: if original_task_state in (task_states.DELETING, task_states.SOFT_DELETING): LOG.info('Instance is already in deleting state, ' 'ignoring this request', instance=instance) return self._record_action_start(context, instance, instance_actions.DELETE) cb(context, instance, bdms) except exception.ComputeHostNotFound: LOG.debug('Compute host %s not found during service up check, ' 'going to local delete instance', instance.host, instance=instance) if is_local_delete: # If instance is in shelved_offloaded state or compute node # isn't up, delete instance from db and clean bdms info and # network info if cell is None: # NOTE(danms): If we didn't get our cell from one of the # paths above, look it up now. try: im = objects.InstanceMapping.get_by_instance_uuid( context, instance.uuid) cell = im.cell_mapping except exception.InstanceMappingNotFound: LOG.warning('During local delete, failed to find ' 'instance mapping', instance=instance) return LOG.debug('Doing local delete in cell %s', cell.identity, instance=instance) with nova_context.target_cell(context, cell) as cctxt: self._local_delete(cctxt, instance, bdms, delete_type, cb) except exception.InstanceNotFound: # NOTE(comstud): Race condition. Instance already gone. pass 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 along # with its allocations (and migration-based allocations) # in placement. migration = None for status in ('finished', 'confirming'): try: migration = objects.Migration.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}, instance=instance) break except exception.MigrationNotFoundByStatus: pass if not migration: LOG.info('Instance may have been confirmed during delete', instance=instance) return src_host = migration.source_compute self._record_action_start(context, instance, instance_actions.CONFIRM_RESIZE) self.compute_rpcapi.confirm_resize(context, instance, migration, src_host, cast=False) def _local_cleanup_bdm_volumes(self, bdms, instance, context): """The method deletes the bdm records and, if a bdm is a volume, call the terminate connection and the detach volume via the Volume API. """ elevated = context.elevated() for bdm in bdms: if bdm.is_volume: try: if bdm.attachment_id: self.volume_api.attachment_delete(context, bdm.attachment_id) else: connector = compute_utils.get_stashed_volume_connector( bdm, instance) if connector: self.volume_api.terminate_connection(context, bdm.volume_id, connector) else: LOG.debug('Unable to find connector for volume %s,' ' not attempting terminate_connection.', bdm.volume_id, instance=instance) # Attempt to detach the volume. If there was no # connection made in the first place this is just # cleaning up the volume state in the Cinder DB. self.volume_api.detach(elevated, bdm.volume_id, instance.uuid) if bdm.delete_on_termination: self.volume_api.delete(context, bdm.volume_id) except Exception as exc: LOG.warning("Ignoring volume cleanup failure due to %s", exc, instance=instance) # If we're cleaning up volumes from an instance that wasn't yet # created in a cell, i.e. the user deleted the server while # the BuildRequest still existed, then the BDM doesn't actually # exist in the DB to destroy it. if 'id' in bdm: bdm.destroy() @property def placementclient(self): if self._placementclient is None: self._placementclient = report.SchedulerReportClient() return self._placementclient def _local_delete(self, context, instance, bdms, delete_type, cb): if instance.vm_state == vm_states.SHELVED_OFFLOADED: LOG.info("instance is in SHELVED_OFFLOADED state, cleanup" " the instance's info from database.", instance=instance) else: LOG.warning("instance's host %s is down, deleting from " "database", instance.host, instance=instance) with compute_utils.notify_about_instance_delete( self.notifier, context, instance, delete_type if delete_type != 'soft_delete' else 'delete'): elevated = context.elevated() if self.cell_type != 'api': # NOTE(liusheng): In nova-network multi_host scenario,deleting # network info of the instance may need instance['host'] as # destination host of RPC call. If instance in # SHELVED_OFFLOADED state, instance['host'] is None, here, use # shelved_host as host to deallocate network info and reset # instance['host'] after that. Here we shouldn't use # instance.save(), because this will mislead user who may think # the instance's host has been changed, and actually, the # instance.host is always None. orig_host = instance.host try: if instance.vm_state == vm_states.SHELVED_OFFLOADED: sysmeta = getattr(instance, obj_base.get_attrname( 'system_metadata')) instance.host = sysmeta.get('shelved_host') self.network_api.deallocate_for_instance(elevated, instance) finally: instance.host = orig_host # cleanup volumes self._local_cleanup_bdm_volumes(bdms, instance, context) # Cleanup allocations in Placement since we can't do it from the # compute service. self.placementclient.delete_allocation_for_instance( context, instance.uuid) cb(context, instance, bdms, local=True) instance.destroy() @staticmethod def _update_queued_for_deletion(context, instance, qfd): # NOTE(tssurya): We query the instance_mapping record of this instance # and update the queued_for_delete flag to True (or False according to # the state of the instance). This just means that the instance is # queued for deletion (or is no longer queued for deletion). It does # not guarantee its successful deletion (or restoration). Hence the # value could be stale which is fine, considering its use is only # during down cell (desperate) situation. im = objects.InstanceMapping.get_by_instance_uuid(context, instance.uuid) im.queued_for_delete = qfd im.save() def _do_delete(self, context, instance, bdms, 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, delete_type='delete') self._update_queued_for_deletion(context, instance, True) def _do_force_delete(self, context, instance, bdms, 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, delete_type='force_delete') self._update_queued_for_deletion(context, instance, True) def _do_soft_delete(self, context, instance, bdms, 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) self._update_queued_for_deletion(context, instance, True) # NOTE(maoy): we allow delete to be called no matter what vm_state says. @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) @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) @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.""" # Check quotas flavor = instance.get_flavor() project_id, user_id = quotas_obj.ids_from_instance(context, instance) compute_utils.check_num_instances_quota(context, flavor, 1, 1, project_id=project_id, user_id=user_id) self._record_action_start(context, instance, instance_actions.RESTORE) if instance.host: instance.task_state = task_states.RESTORING instance.deleted_at = None instance.save(expected_task_state=[None]) # TODO(melwitt): We're not rechecking for strict quota here to # guard against going over quota during a race at this time because # the resource consumption for this operation is written to the # database by compute. self.compute_rpcapi.restore_instance(context, instance) else: instance.vm_state = vm_states.ACTIVE instance.task_state = None instance.deleted_at = None instance.save(expected_task_state=[None]) self._update_queued_for_deletion(context, instance, False) @check_instance_lock @check_instance_state(task_state=None, must_have_launched=False) def force_delete(self, context, instance): """Force delete an instance in any vm_state/task_state.""" self._delete(context, instance, 'force_delete', self._do_force_delete, task_state=task_states.DELETING) def force_stop(self, context, instance, do_cast=True, clean_shutdown=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, clean_shutdown=clean_shutdown) @check_instance_lock @check_instance_host @check_instance_cell @check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.ERROR]) def stop(self, context, instance, do_cast=True, clean_shutdown=True): """Stop an instance.""" self.force_stop(context, instance, do_cast, clean_shutdown) @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) @check_instance_lock @check_instance_host @check_instance_cell @check_instance_state(vm_state=vm_states.ALLOW_TRIGGER_CRASH_DUMP) def trigger_crash_dump(self, context, instance): """Trigger crash dump in an instance.""" LOG.debug("Try to trigger crash dump", instance=instance) self._record_action_start(context, instance, instance_actions.TRIGGER_CRASH_DUMP) self.compute_rpcapi.trigger_crash_dump(context, instance) def _generate_minimal_construct_for_down_cells(self, context, down_cell_uuids, project, limit): """Generate a list of minimal instance constructs for a given list of cells that did not respond to a list operation. This will list every instance mapping in the affected cells and return a minimal objects.Instance for each (non-queued-for-delete) mapping. :param context: RequestContext :param down_cell_uuids: A list of cell UUIDs that did not respond :param project: A project ID to filter mappings, or None :param limit: A numeric limit on the number of results, or None :returns: An InstanceList() of partial Instance() objects """ unavailable_servers = objects.InstanceList() for cell_uuid in down_cell_uuids: LOG.warning("Cell %s is not responding and hence only " "partial results are available from this " "cell if any.", cell_uuid) instance_mappings = (objects.InstanceMappingList. get_not_deleted_by_cell_and_project(context, cell_uuid, project, limit=limit)) for im in instance_mappings: unavailable_servers.objects.append( objects.Instance( context=context, uuid=im.instance_uuid, project_id=im.project_id, created_at=im.created_at ) ) if limit is not None: limit -= len(instance_mappings) if limit <= 0: break return unavailable_servers def _get_instance_map_or_none(self, context, instance_uuid): try: inst_map = objects.InstanceMapping.get_by_instance_uuid( context, instance_uuid) except exception.InstanceMappingNotFound: # InstanceMapping should always be found generally. This exception # may be raised if a deployment has partially migrated the nova-api # services. inst_map = None return inst_map @staticmethod def _save_user_id_in_instance_mapping(mapping, instance): # TODO(melwitt): We take the opportunity to migrate user_id on the # instance mapping if it's not yet been migrated. This can be removed # in a future release, when all migrations are complete. # If the instance came from a RequestSpec because of a down cell, its # user_id could be None and the InstanceMapping.user_id field is # non-nullable. Avoid trying to set/save the user_id in that case. if 'user_id' not in mapping and instance.user_id is not None: mapping.user_id = instance.user_id mapping.save() def _get_instance_from_cell(self, context, im, expected_attrs, cell_down_support): # NOTE(danms): Even though we're going to scatter/gather to the # right cell, other code depends on this being force targeted when # the get call returns. nova_context.set_target_cell(context, im.cell_mapping) uuid = im.instance_uuid result = nova_context.scatter_gather_single_cell(context, im.cell_mapping, objects.Instance.get_by_uuid, uuid, expected_attrs=expected_attrs) cell_uuid = im.cell_mapping.uuid if not nova_context.is_cell_failure_sentinel(result[cell_uuid]): inst = result[cell_uuid] self._save_user_id_in_instance_mapping(im, inst) return inst elif isinstance(result[cell_uuid], exception.InstanceNotFound): raise exception.InstanceNotFound(instance_id=uuid) elif cell_down_support: if im.queued_for_delete: # should be treated like deleted instance. raise exception.InstanceNotFound(instance_id=uuid) # instance in down cell, return a minimal construct LOG.warning("Cell %s is not responding and hence only " "partial results are available from this " "cell.", cell_uuid) try: rs = objects.RequestSpec.get_by_instance_uuid(context, uuid) # For BFV case, we could have rs.image but rs.image.id might # still not be set. So we check the existence of both image # and its id. image_ref = (rs.image.id if rs.image and 'id' in rs.image else None) inst = objects.Instance(context=context, power_state=0, uuid=uuid, project_id=im.project_id, created_at=im.created_at, user_id=rs.user_id, flavor=rs.flavor, image_ref=image_ref, availability_zone=rs.availability_zone) self._save_user_id_in_instance_mapping(im, inst) return inst except exception.RequestSpecNotFound: # could be that a deleted instance whose request # spec has been archived is being queried. raise exception.InstanceNotFound(instance_id=uuid) else: raise exception.NovaException( _("Cell %s is not responding and hence instance " "info is not available.") % cell_uuid) def _get_instance(self, context, instance_uuid, expected_attrs, cell_down_support=False): # If we're on cellsv1, we need to consult the top-level # merged replica instead of the cell directly. if CONF.cells.enable: return objects.Instance.get_by_uuid(context, instance_uuid, expected_attrs=expected_attrs) inst_map = self._get_instance_map_or_none(context, instance_uuid) if inst_map and (inst_map.cell_mapping is not None): instance = self._get_instance_from_cell(context, inst_map, expected_attrs, cell_down_support) elif inst_map and (inst_map.cell_mapping is None): # This means the instance has not been scheduled and put in # a cell yet. For now it also may mean that the deployer # has not created their cell(s) yet. try: build_req = objects.BuildRequest.get_by_instance_uuid( context, instance_uuid) instance = build_req.instance except exception.BuildRequestNotFound: # Instance was mapped and the BuildRequest was deleted # while fetching. Try again. inst_map = self._get_instance_map_or_none(context, instance_uuid) if inst_map and (inst_map.cell_mapping is not None): instance = self._get_instance_from_cell(context, inst_map, expected_attrs, cell_down_support) else: raise exception.InstanceNotFound(instance_id=instance_uuid) else: # If we got here, we don't have an instance mapping, but we aren't # sure why. The instance mapping might be missing because the # upgrade is incomplete (map_instances wasn't run). Or because the # instance was deleted and the DB was archived at which point the # mapping is deleted. The former case is bad, but because of the # latter case we can't really log any kind of warning/error here # since it might be normal. raise exception.InstanceNotFound(instance_id=instance_uuid) return instance def get(self, context, instance_id, expected_attrs=None, cell_down_support=False): """Get a single instance with the given instance_id. :param cell_down_support: True if the API (and caller) support returning a minimal instance construct if the relevant cell is down. If False, an error is raised since the instance cannot be retrieved due to the cell being down. """ if not expected_attrs: expected_attrs = [] expected_attrs.extend(['metadata', 'system_metadata', 'security_groups', 'info_cache']) # NOTE(ameade): we still need to support integer ids for ec2 try: if uuidutils.is_uuid_like(instance_id): LOG.debug("Fetching instance by UUID", instance_uuid=instance_id) instance = self._get_instance(context, instance_id, expected_attrs, cell_down_support=cell_down_support) else: LOG.debug("Failed to fetch instance by id %s", instance_id) raise exception.InstanceNotFound(instance_id=instance_id) except exception.InvalidID: LOG.debug("Invalid instance id %s", instance_id) raise exception.InstanceNotFound(instance_id=instance_id) return instance def get_all(self, context, search_opts=None, limit=None, marker=None, expected_attrs=None, sort_keys=None, sort_dirs=None, cell_down_support=False, all_tenants=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 sorted based on the list of sort keys in the 'sort_keys' parameter (first value is primary sort key, second value is secondary sort ket, etc.). For each sort key, the associated sort direction is based on the list of sort directions in the 'sort_dirs' parameter. :param cell_down_support: True if the API (and caller) support returning a minimal instance construct if the relevant cell is down. If False, instances from unreachable cells will be omitted. :param all_tenants: True if the "all_tenants" filter was passed. """ if search_opts is None: search_opts = {} LOG.debug("Searching by: %s", str(search_opts)) # Fixups for the DB call filters = {} def _remap_flavor_filter(flavor_id): flavor = objects.Flavor.get_by_flavor_id(context, flavor_id) filters['instance_type_id'] = flavor.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, six.string_types): 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 objects.InstanceList() # IP address filtering cannot be applied at the DB layer, remove any DB # limit so that it can be applied after the IP filter. filter_ip = 'ip6' in filters or 'ip' in filters skip_build_request = False orig_limit = limit if filter_ip: # We cannot skip build requests if there is a marker since the # the marker could be a build request. skip_build_request = marker is None if self.network_api.has_substr_port_filtering_extension(context): # We're going to filter by IP using Neutron so set filter_ip # to False so we don't attempt post-DB query filtering in # memory below. filter_ip = False instance_uuids = self._ip_filter_using_neutron(context, filters) if instance_uuids: # Note that 'uuid' is not in the 2.1 GET /servers query # parameter schema, however, we allow additionalProperties # so someone could filter instances by uuid, which doesn't # make a lot of sense but we have to account for it. if 'uuid' in filters and filters['uuid']: filter_uuids = filters['uuid'] if isinstance(filter_uuids, list): instance_uuids.extend(filter_uuids) else: # Assume a string. If it's a dict or tuple or # something, well...that's too bad. This is why # we have query parameter schema definitions. if filter_uuids not in instance_uuids: instance_uuids.append(filter_uuids) filters['uuid'] = instance_uuids else: # No matches on the ip filter(s), return an empty list. return objects.InstanceList() elif limit: LOG.debug('Removing limit for DB query due to IP filter') limit = None # Skip get BuildRequest if filtering by IP address, as building # instances will not have IP addresses. if skip_build_request: build_requests = objects.BuildRequestList() else: # The ordering of instances will be # [sorted instances with no host] + [sorted instances with host]. # This means BuildRequest and cell0 instances first, then cell # instances try: build_requests = objects.BuildRequestList.get_by_filters( context, filters, limit=limit, marker=marker, sort_keys=sort_keys, sort_dirs=sort_dirs) # If we found the marker in we need to set it to None # so we don't expect to find it in the cells below. marker = None except exception.MarkerNotFound: # If we didn't find the marker in the build requests then keep # looking for it in the cells. build_requests = objects.BuildRequestList() build_req_instances = objects.InstanceList( objects=[build_req.instance for build_req in build_requests]) # Only subtract from limit if it is not None limit = (limit - len(build_req_instances)) if limit else limit # We could arguably avoid joining on security_groups if we're using # neutron (which is the default) but if you're using neutron then the # security_group_instance_association table should be empty anyway # and the DB should optimize out that join, making it insignificant. fields = ['metadata', 'info_cache', 'security_groups'] if expected_attrs: fields.extend(expected_attrs) if CONF.cells.enable: insts = self._do_old_style_instance_list_for_poor_cellsv1_users( context, filters, limit, marker, fields, sort_keys, sort_dirs) else: insts, down_cell_uuids = instance_list.get_instance_objects_sorted( context, filters, limit, marker, fields, sort_keys, sort_dirs, cell_down_support=cell_down_support) def _get_unique_filter_method(): seen_uuids = set() def _filter(instance): if instance.uuid in seen_uuids: return False seen_uuids.add(instance.uuid) return True return _filter filter_method = _get_unique_filter_method() # Only subtract from limit if it is not None limit = (limit - len(insts)) if limit else limit # TODO(alaski): Clean up the objects concatenation when List objects # support it natively. instances = objects.InstanceList( objects=list(filter(filter_method, build_req_instances.objects + insts.objects))) if filter_ip: instances = self._ip_filter(instances, filters, orig_limit) if cell_down_support: # API and client want minimal construct instances for any cells # that didn't return, so generate and prefix those to the actual # results. project = search_opts.get('project_id', context.project_id) if all_tenants: # NOTE(tssurya): The only scenario where project has to be None # is when using "all_tenants" in which case we do not want # the query to be restricted based on the project_id. project = None limit = (orig_limit - len(instances)) if limit else limit return (self._generate_minimal_construct_for_down_cells(context, down_cell_uuids, project, limit) + instances) return instances def _do_old_style_instance_list_for_poor_cellsv1_users(self, context, filters, limit, marker, fields, sort_keys, sort_dirs): try: cell0_mapping = objects.CellMapping.get_by_uuid(context, objects.CellMapping.CELL0_UUID) except exception.CellMappingNotFound: cell0_instances = objects.InstanceList(objects=[]) else: with nova_context.target_cell(context, cell0_mapping) as cctxt: try: cell0_instances = self._get_instances_by_filters( cctxt, filters, limit=limit, marker=marker, fields=fields, sort_keys=sort_keys, sort_dirs=sort_dirs) # If we found the marker in cell0 we need to set it to None # so we don't expect to find it in the cells below. marker = None except exception.MarkerNotFound: # We can ignore this since we need to look in the cell DB cell0_instances = objects.InstanceList(objects=[]) # Only subtract from limit if it is not None limit = (limit - len(cell0_instances)) if limit else limit # There is only planned support for a single cell here. Multiple cell # instance lists should be proxied to project Searchlight, or a similar # alternative. if limit is None or limit > 0: # NOTE(melwitt): If we're on cells v1, we need to read # instances from the top-level database because reading from # cells results in changed behavior, because of the syncing. # We can remove this path once we stop supporting cells v1. cell_instances = self._get_instances_by_filters( context, filters, limit=limit, marker=marker, fields=fields, sort_keys=sort_keys, sort_dirs=sort_dirs) else: LOG.debug('Limit excludes any results from real cells') cell_instances = objects.InstanceList(objects=[]) return cell0_instances + cell_instances @staticmethod def _ip_filter(inst_models, filters, limit): ipv4_f = re.compile(str(filters.get('ip'))) ipv6_f = re.compile(str(filters.get('ip6'))) def _match_instance(instance): nw_info = instance.get_network_info() for vif in nw_info: for fixed_ip in vif.fixed_ips(): address = fixed_ip.get('address') if not address: continue version = fixed_ip.get('version') if ((version == 4 and ipv4_f.match(address)) or (version == 6 and ipv6_f.match(address))): return True return False result_objs = [] for instance in inst_models: if _match_instance(instance): result_objs.append(instance) if limit and len(result_objs) == limit: break return objects.InstanceList(objects=result_objs) def _ip_filter_using_neutron(self, context, filters): ip4_address = filters.get('ip') ip6_address = filters.get('ip6') addresses = [ip4_address, ip6_address] uuids = [] for address in addresses: if address: try: ports = self.network_api.list_ports( context, fixed_ips='ip_address_substr=' + address, fields=['device_id'])['ports'] for port in ports: uuids.append(port['device_id']) except Exception as e: LOG.error('An error occurred while listing ports ' 'with an ip_address filter value of "%s". ' 'Error: %s', address, six.text_type(e)) return uuids def _get_instances_by_filters(self, context, filters, limit=None, marker=None, fields=None, sort_keys=None, sort_dirs=None): return objects.InstanceList.get_by_filters( context, filters=filters, limit=limit, marker=marker, expected_attrs=fields, sort_keys=sort_keys, sort_dirs=sort_dirs) def update_instance(self, context, instance, updates): """Updates a single Instance object with some updates dict. Returns the updated instance. """ # NOTE(sbauza): Given we only persist the Instance object after we # create the BuildRequest, we are sure that if the Instance object # has an ID field set, then it was persisted in the right Cell DB. if instance.obj_attr_is_set('id'): instance.update(updates) # Instance has been scheduled and the BuildRequest has been deleted # we can directly write the update down to the right cell. inst_map = self._get_instance_map_or_none(context, instance.uuid) # If we have a cell_mapping and we're not on cells v1, then # look up the instance in the cell database if inst_map and (inst_map.cell_mapping is not None) and ( not CONF.cells.enable): with nova_context.target_cell(context, inst_map.cell_mapping) as cctxt: with instance.obj_alternate_context(cctxt): instance.save() else: # If inst_map.cell_mapping does not point at a cell then cell # migration has not happened yet. # TODO(alaski): Make this a failure case after we put in # a block that requires migrating to cellsv2. instance.save() else: # Instance is not yet mapped to a cell, so we need to update # BuildRequest instead # TODO(sbauza): Fix the possible race conditions where BuildRequest # could be deleted because of either a concurrent instance delete # or because the scheduler just returned a destination right # after we called the instance in the API. try: build_req = objects.BuildRequest.get_by_instance_uuid( context, instance.uuid) instance = build_req.instance instance.update(updates) # FIXME(sbauza): Here we are updating the current # thread-related BuildRequest object. Given that another worker # could have looking up at that BuildRequest in the API, it # means that it could pass it down to the conductor without # making sure that it's not updated, we could have some race # condition where it would missing the updated fields, but # that's something we could discuss once the instance record # is persisted by the conductor. build_req.save() except exception.BuildRequestNotFound: # Instance was mapped and the BuildRequest was deleted # while fetching (and possibly the instance could have been # deleted as well). We need to lookup again the Instance object # in order to correctly update it. # TODO(sbauza): Figure out a good way to know the expected # attributes by checking which fields are set or not. expected_attrs = ['flavor', 'pci_devices', 'numa_topology', 'tags', 'metadata', 'system_metadata', 'security_groups', 'info_cache'] inst_map = self._get_instance_map_or_none(context, instance.uuid) if inst_map and (inst_map.cell_mapping is not None): with nova_context.target_cell( context, inst_map.cell_mapping) as cctxt: instance = objects.Instance.get_by_uuid( cctxt, instance.uuid, expected_attrs=expected_attrs) instance.update(updates) instance.save() else: # If inst_map.cell_mapping does not point at a cell then # cell migration has not happened yet. # TODO(alaski): Make this a failure case after we put in # a block that requires migrating to cellsv2. instance = objects.Instance.get_by_uuid( context, instance.uuid, expected_attrs=expected_attrs) instance.update(updates) instance.save() return instance # NOTE(melwitt): We don't check instance lock for backup because lock is # intended to prevent accidental change/delete of instances @check_instance_cell @check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.STOPPED, vm_states.PAUSED, vm_states.SUSPENDED]) def backup(self, context, instance, name, backup_type, rotation, extra_properties=None): """Backup the given instance :param instance: nova.objects.instance.Instance object :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. :returns: A dict containing image metadata """ props_copy = dict(extra_properties, backup_type=backup_type) if compute_utils.is_volume_backed_instance(context, instance): LOG.info("It's not supported to backup volume backed " "instance.", instance=instance) raise exception.InvalidRequest( _('Backup is not supported for volume-backed instances.')) else: image_meta = compute_utils.create_image( context, instance, name, 'backup', self.image_api, 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._record_action_start(context, instance, instance_actions.BACKUP) self.compute_rpcapi.backup_instance(context, instance, image_meta['id'], backup_type, rotation) return image_meta # NOTE(melwitt): We don't check instance lock for snapshot because lock is # intended to prevent accidental change/delete of instances @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.objects.instance.Instance object :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 = compute_utils.create_image( context, instance, name, 'snapshot', self.image_api, 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_PENDING try: instance.save(expected_task_state=[None]) except (exception.InstanceNotFound, exception.UnexpectedDeletingTaskStateError) as ex: # Changing the instance task state to use in raising the # InstanceInvalidException below LOG.debug('Instance disappeared during snapshot.', instance=instance) try: image_id = image_meta['id'] self.image_api.delete(context, image_id) LOG.info('Image %s deleted because instance ' 'deleted before snapshot started.', image_id, instance=instance) except exception.ImageNotFound: pass except Exception as exc: LOG.warning("Error while trying to clean up image %(img_id)s: " "%(error_msg)s", {"img_id": image_meta['id'], "error_msg": six.text_type(exc)}) attr = 'task_state' state = task_states.DELETING if type(ex) == exception.InstanceNotFound: attr = 'vm_state' state = vm_states.DELETED raise exception.InstanceInvalidState(attr=attr, instance_uuid=instance.uuid, state=state, method='snapshot') self._record_action_start(context, instance, instance_actions.CREATE_IMAGE) self.compute_rpcapi.snapshot_instance(context, instance, image_meta['id']) return image_meta # NOTE(melwitt): We don't check instance lock for snapshot because lock is # intended to prevent accidental change/delete of instances @check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.STOPPED, vm_states.SUSPENDED]) def snapshot_volume_backed(self, context, instance, name, extra_properties=None): """Snapshot the given volume-backed instance. :param instance: nova.objects.instance.Instance object :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 = compute_utils.initialize_instance_snapshot_metadata( context, instance, name, extra_properties) # 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 for attr in ('container_format', 'disk_format'): image_meta.pop(attr, None) properties = image_meta['properties'] # clean properties before filling for key in ('block_device_mapping', 'bdm_v2', 'root_device_name'): properties.pop(key, None) if instance.root_device_name: properties['root_device_name'] = instance.root_device_name bdms = objects.BlockDeviceMappingList.get_by_instance_uuid( context, instance.uuid) mapping = [] # list of BDM dicts that can go into the image properties # Do some up-front filtering of the list of BDMs from # which we are going to create snapshots. volume_bdms = [] for bdm in bdms: if bdm.no_device: continue if bdm.is_volume: # These will be handled below. volume_bdms.append(bdm) else: mapping.append(bdm.get_image_mapping()) # Check limits in Cinder before creating snapshots to avoid going over # quota in the middle of a list of volumes. This is a best-effort check # but concurrently running snapshot requests from the same project # could still fail to create volume snapshots if they go over limit. if volume_bdms: limits = self.volume_api.get_absolute_limits(context) total_snapshots_used = limits['totalSnapshotsUsed'] max_snapshots = limits['maxTotalSnapshots'] # -1 means there is unlimited quota for snapshots if (max_snapshots > -1 and len(volume_bdms) + total_snapshots_used > max_snapshots): LOG.debug('Unable to create volume snapshots for instance. ' 'Currently has %s snapshots, requesting %s new ' 'snapshots, with a limit of %s.', total_snapshots_used, len(volume_bdms), max_snapshots, instance=instance) raise exception.OverQuota(overs='snapshots') quiesced = False if instance.vm_state == vm_states.ACTIVE: try: LOG.info("Attempting to quiesce instance before volume " "snapshot.", instance=instance) self.compute_rpcapi.quiesce_instance(context, instance) quiesced = True except (exception.InstanceQuiesceNotSupported, exception.QemuGuestAgentNotEnabled, exception.NovaException, NotImplementedError) as err: if strutils.bool_from_string(instance.system_metadata.get( 'image_os_require_quiesce')): raise else: LOG.info('Skipping quiescing instance: %(reason)s.', {'reason': err}, instance=instance) # NOTE(tasker): discovered that an uncaught exception could occur # after the instance has been frozen. catch and thaw. except Exception as ex: with excutils.save_and_reraise_exception(): LOG.error("An error occurred during quiesce of instance. " "Unquiescing to ensure instance is thawed. " "Error: %s", six.text_type(ex), instance=instance) self.compute_rpcapi.unquiesce_instance(context, instance, mapping=None) @wrap_instance_event(prefix='api') def snapshot_instance(self, context, instance, bdms): try: for bdm in volume_bdms: # create snapshot based on volume_id volume = self.volume_api.get(context, bdm.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'] LOG.debug('Creating snapshot from volume %s.', volume['id'], instance=instance) snapshot = self.volume_api.create_snapshot_force( context, volume['id'], name, volume['display_description']) mapping_dict = block_device.snapshot_from_bdm( snapshot['id'], bdm) mapping_dict = mapping_dict.get_image_mapping() mapping.append(mapping_dict) return mapping # NOTE(tasker): No error handling is done in the above for loop. # This means that if the snapshot fails and throws an exception # the traceback will skip right over the unquiesce needed below. # Here, catch any exception, unquiesce the instance, and raise the # error so that the calling function can do what it needs to in # order to properly treat a failed snap. except Exception: with excutils.save_and_reraise_exception(): if quiesced: LOG.info("Unquiescing instance after volume snapshot " "failure.", instance=instance) self.compute_rpcapi.unquiesce_instance( context, instance, mapping) self._record_action_start(context, instance, instance_actions.CREATE_IMAGE) mapping = snapshot_instance(self, context, instance, bdms) if quiesced: self.compute_rpcapi.unquiesce_instance(context, instance, mapping) if mapping: properties['block_device_mapping'] = mapping properties['bdm_v2'] = True return self.image_api.create(context, image_meta) @check_instance_lock def reboot(self, context, instance, reboot_type): """Reboot the given instance.""" if reboot_type == 'SOFT': self._soft_reboot(context, instance) else: self._hard_reboot(context, instance) @check_instance_state(vm_state=set(vm_states.ALLOW_SOFT_REBOOT), task_state=[None]) def _soft_reboot(self, context, instance): expected_task_state = [None] instance.task_state = task_states.REBOOTING instance.save(expected_task_state=expected_task_state) self._record_action_start(context, instance, instance_actions.REBOOT) self.compute_rpcapi.reboot_instance(context, instance=instance, block_device_info=None, reboot_type='SOFT') @check_instance_state(vm_state=set(vm_states.ALLOW_HARD_REBOOT), task_state=task_states.ALLOW_REBOOT) def _hard_reboot(self, context, instance): instance.task_state = task_states.REBOOTING_HARD instance.save(expected_task_state=task_states.ALLOW_REBOOT) self._record_action_start(context, instance, instance_actions.REBOOT) self.compute_rpcapi.reboot_instance(context, instance=instance, block_device_info=None, reboot_type='HARD') @check_instance_lock @check_instance_cell @check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.STOPPED, vm_states.ERROR]) def rebuild(self, context, instance, image_href, admin_password, files_to_inject=None, **kwargs): """Rebuild the given instance with the provided attributes.""" files_to_inject = files_to_inject or [] metadata = kwargs.get('metadata', {}) preserve_ephemeral = kwargs.get('preserve_ephemeral', False) auto_disk_config = kwargs.get('auto_disk_config') if 'key_name' in kwargs: key_name = kwargs.pop('key_name') if key_name: # NOTE(liuyulong): we are intentionally using the user_id from # the request context rather than the instance.user_id because # users own keys but instances are owned by projects, and # another user in the same project can rebuild an instance # even if they didn't create it. key_pair = objects.KeyPair.get_by_name(context, context.user_id, key_name) instance.key_name = key_pair.name instance.key_data = key_pair.public_key instance.keypairs = objects.KeyPairList(objects=[key_pair]) else: instance.key_name = None instance.key_data = None instance.keypairs = objects.KeyPairList(objects=[]) # Use trusted_certs value from kwargs to create TrustedCerts object trusted_certs = None if 'trusted_certs' in kwargs: # Note that the user can set, change, or unset / reset trusted # certs. If they are explicitly specifying # trusted_image_certificates=None, that means we'll either unset # them on the instance *or* reset to use the defaults (if defaults # are configured). trusted_certs = kwargs.pop('trusted_certs') instance.trusted_certs = self._retrieve_trusted_certs_object( context, trusted_certs, rebuild=True) image_id, image = self._get_image(context, image_href) self._check_auto_disk_config(image=image, **kwargs) flavor = instance.get_flavor() bdms = objects.BlockDeviceMappingList.get_by_instance_uuid( context, instance.uuid) root_bdm = compute_utils.get_root_bdm(context, instance, bdms) # Check to see if the image is changing and we have a volume-backed # server. The compute doesn't support changing the image in the # root disk of a volume-backed server, so we need to just fail fast. is_volume_backed = compute_utils.is_volume_backed_instance( context, instance, bdms) if is_volume_backed: if trusted_certs: # The only way we can get here is if the user tried to set # trusted certs or specified trusted_image_certificates=None # and default_trusted_certificate_ids is configured. msg = _("Image certificate validation is not supported " "for volume-backed servers.") raise exception.CertificateValidationFailed(message=msg) # For boot from volume, instance.image_ref is empty, so we need to # query the image from the volume. if root_bdm is None: # This shouldn't happen and is an error, we need to fail. This # is not the users fault, it's an internal error. Without a # root BDM we have no way of knowing the backing volume (or # image in that volume) for this instance. raise exception.NovaException( _('Unable to find root block device mapping for ' 'volume-backed instance.')) volume = self.volume_api.get(context, root_bdm.volume_id) volume_image_metadata = volume.get('volume_image_metadata', {}) orig_image_ref = volume_image_metadata.get('image_id') if orig_image_ref != image_href: # Leave a breadcrumb. LOG.debug('Requested to rebuild instance with a new image %s ' 'for a volume-backed server with image %s in its ' 'root volume which is not supported.', image_href, orig_image_ref, instance=instance) msg = _('Unable to rebuild with a different image for a ' 'volume-backed server.') raise exception.ImageUnacceptable( image_id=image_href, reason=msg) else: orig_image_ref = instance.image_ref request_spec = objects.RequestSpec.get_by_instance_uuid( context, instance.uuid) self._checks_for_create_and_rebuild(context, image_id, image, flavor, metadata, files_to_inject, root_bdm) 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 previous save() 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. orig_sys_metadata = dict(instance.system_metadata) # Remove the old keys for key in list(instance.system_metadata.keys()): if key.startswith(utils.SM_IMAGE_PROP_PREFIX): del instance.system_metadata[key] # Add the new ones new_sys_metadata = utils.get_system_metadata_from_image( image, flavor) instance.system_metadata.update(new_sys_metadata) instance.save() return orig_sys_metadata # Since image might have changed, we may have new values for # os_type, vm_mode, etc options_from_image = self._inherit_properties_from_image( image, auto_disk_config) instance.update(options_from_image) instance.task_state = task_states.REBUILDING # An empty instance.image_ref is currently used as an indication # of BFV. Preserve that over a rebuild to not break users. if not is_volume_backed: instance.image_ref = image_href instance.kernel_id = kernel_id or "" instance.ramdisk_id = ramdisk_id or "" instance.progress = 0 instance.update(kwargs) instance.save(expected_task_state=[None]) # 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() self._record_action_start(context, instance, instance_actions.REBUILD) # NOTE(sbauza): The migration script we provided in Newton should make # sure that all our instances are currently migrated to have an # attached RequestSpec object but let's consider that the operator only # half migrated all their instances in the meantime. host = instance.host # If a new image is provided on rebuild, we will need to run # through the scheduler again, but we want the instance to be # rebuilt on the same host it's already on. if orig_image_ref != image_href: # We have to modify the request spec that goes to the scheduler # to contain the new image. We persist this since we've already # changed the instance.image_ref above so we're being # consistent. request_spec.image = objects.ImageMeta.from_dict(image) request_spec.save() if 'scheduler_hints' not in request_spec: request_spec.scheduler_hints = {} # Nuke the id on this so we can't accidentally save # this hint hack later del request_spec.id # NOTE(danms): Passing host=None tells conductor to # call the scheduler. The _nova_check_type hint # requires that the scheduler returns only the same # host that we are currently on and only checks # rebuild-related filters. request_spec.scheduler_hints['_nova_check_type'] = ['rebuild'] request_spec.force_hosts = [instance.host] request_spec.force_nodes = [instance.node] host = None self.compute_task_api.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, preserve_ephemeral=preserve_ephemeral, host=host, request_spec=request_spec, kwargs=kwargs) @staticmethod def _check_quota_for_upsize(context, instance, current_flavor, new_flavor): project_id, user_id = quotas_obj.ids_from_instance(context, instance) # Deltas will be empty if the resize is not an upsize. deltas = compute_utils.upsize_quota_delta(new_flavor, current_flavor) if deltas: try: res_deltas = {'cores': deltas.get('cores', 0), 'ram': deltas.get('ram', 0)} objects.Quotas.check_deltas(context, res_deltas, project_id, user_id=user_id, check_project_id=project_id, check_user_id=user_id) except exception.OverQuota as exc: quotas = exc.kwargs['quotas'] overs = exc.kwargs['overs'] usages = exc.kwargs['usages'] headroom = compute_utils.get_headroom(quotas, usages, deltas) (overs, reqs, total_alloweds, useds) = compute_utils.get_over_quota_detail(headroom, overs, quotas, deltas) LOG.info("%(overs)s quota exceeded for %(pid)s," " tried to resize instance.", {'overs': overs, 'pid': context.project_id}) raise exception.TooManyInstances(overs=overs, req=reqs, used=useds, allowed=total_alloweds) @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 = objects.Migration.get_by_instance_and_status( elevated, instance.uuid, 'finished') # If this is a resize down, a revert might go over quota. self._check_quota_for_upsize(context, instance, instance.flavor, instance.old_flavor) # Conductor updated the RequestSpec.flavor during the initial resize # operation to point at the new flavor, so we need to update the # RequestSpec to point back at the original flavor, otherwise # subsequent move operations through the scheduler will be using the # wrong flavor. reqspec = objects.RequestSpec.get_by_instance_uuid( context, instance.uuid) reqspec.flavor = instance.old_flavor reqspec.save() instance.task_state = task_states.RESIZE_REVERTING instance.save(expected_task_state=[None]) migration.status = 'reverting' migration.save() self._record_action_start(context, instance, instance_actions.REVERT_RESIZE) # TODO(melwitt): We're not rechecking for strict quota here to guard # against going over quota during a race at this time because the # resource consumption for this operation is written to the database # by compute. self.compute_rpcapi.revert_resize(context, instance, migration, migration.dest_compute) @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() # NOTE(melwitt): We're not checking quota here because there isn't a # change in resource usage when confirming a resize. Resource # consumption for resizes are written to the database by compute, so # a confirm resize is just a clean up of the migration objects and a # state change in compute. if migration is None: migration = objects.Migration.get_by_instance_and_status( elevated, instance.uuid, 'finished') migration.status = 'confirming' migration.save() self._record_action_start(context, instance, instance_actions.CONFIRM_RESIZE) self.compute_rpcapi.confirm_resize(context, instance, migration, migration.source_compute) @staticmethod def _resize_cells_support(context, instance, current_instance_type, new_instance_type): """Special API cell logic for resize.""" # NOTE(johannes/comstud): The API cell needs a local migration # record for later resize_confirm and resize_reverts. # 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 = objects.Migration(context=context.elevated()) 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.migration_type = ( mig.old_instance_type_id != mig.new_instance_type_id and 'resize' or 'migration') mig.create() @check_instance_lock @check_instance_cell @check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.STOPPED]) def resize(self, context, instance, flavor_id=None, clean_shutdown=True, host_name=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. host_name is always None in the resize case. host_name can be set in the cold migration case only. """ if host_name is not None: # Cannot migrate to the host where the instance exists # because it is useless. if host_name == instance.host: raise exception.CannotMigrateToSameHost() # Check whether host exists or not. node = objects.ComputeNode.get_first_node_by_host_for_old_compat( context, host_name, use_slave=True) self._check_auto_disk_config(instance, **extra_instance_updates) current_instance_type = instance.get_flavor() # 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") if (new_instance_type.get('root_gb') == 0 and current_instance_type.get('root_gb') != 0 and not compute_utils.is_volume_backed_instance(context, instance)): reason = _('Resize to zero disk flavor is not allowed.') raise exception.CannotResizeDisk(reason=reason) if not new_instance_type: raise exception.FlavorNotFound(flavor_id=flavor_id) 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) 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 and self.cell_type != 'compute': raise exception.CannotResizeToSameFlavor() # ensure there is sufficient headroom for upsizes if flavor_id: self._check_quota_for_upsize(context, instance, current_instance_type, new_instance_type) if not same_instance_type: image = utils.get_image_from_system_metadata( instance.system_metadata) # Can skip root_bdm check since it will not change during resize. self._validate_flavor_image_nostatus( context, image, new_instance_type, root_bdm=None, validate_pci=True) filter_properties = {'ignore_hosts': []} if not CONF.allow_resize_to_same_host: filter_properties['ignore_hosts'].append(instance.host) request_spec = objects.RequestSpec.get_by_instance_uuid( context, instance.uuid) request_spec.ignore_hosts = filter_properties['ignore_hosts'] instance.task_state = task_states.RESIZE_PREP instance.progress = 0 instance.update(extra_instance_updates) instance.save(expected_task_state=[None]) if self.cell_type == 'api': # Create migration record. self._resize_cells_support(context, instance, current_instance_type, new_instance_type) if not flavor_id: self._record_action_start(context, instance, instance_actions.MIGRATE) else: self._record_action_start(context, instance, instance_actions.RESIZE) # TODO(melwitt): We're not rechecking for strict quota here to guard # against going over quota during a race at this time because the # resource consumption for this operation is written to the database # by compute. scheduler_hint = {'filter_properties': filter_properties} if host_name is None: # If 'host_name' is not specified, # clear the 'requested_destination' field of the RequestSpec. request_spec.requested_destination = None else: # Set the host and the node so that the scheduler will # validate them. request_spec.requested_destination = objects.Destination( host=node.host, node=node.hypervisor_hostname) self.compute_task_api.resize_instance(context, instance, extra_instance_updates, scheduler_hint=scheduler_hint, flavor=new_instance_type, clean_shutdown=clean_shutdown, request_spec=request_spec) @check_instance_lock @check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.STOPPED, vm_states.PAUSED, vm_states.SUSPENDED]) def shelve(self, context, instance, clean_shutdown=True): """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) if not compute_utils.is_volume_backed_instance(context, instance): name = '%s-shelved' % instance.display_name image_meta = compute_utils.create_image( context, instance, name, 'snapshot', self.image_api) image_id = image_meta['id'] self.compute_rpcapi.shelve_instance(context, instance=instance, image_id=image_id, clean_shutdown=clean_shutdown) else: self.compute_rpcapi.shelve_offload_instance(context, instance=instance, clean_shutdown=clean_shutdown) @check_instance_lock @check_instance_state(vm_state=[vm_states.SHELVED]) def shelve_offload(self, context, instance, clean_shutdown=True): """Remove a shelved instance from the hypervisor.""" instance.task_state = task_states.SHELVING_OFFLOADING instance.save(expected_task_state=[None]) self._record_action_start(context, instance, instance_actions.SHELVE_OFFLOAD) self.compute_rpcapi.shelve_offload_instance(context, instance=instance, clean_shutdown=clean_shutdown) @check_instance_lock @check_instance_state(vm_state=[vm_states.SHELVED, vm_states.SHELVED_OFFLOADED]) def unshelve(self, context, instance): """Restore a shelved instance.""" request_spec = objects.RequestSpec.get_by_instance_uuid( context, instance.uuid) 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, request_spec) @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) @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) @check_instance_lock @check_instance_cell @check_instance_state(vm_state=[vm_states.ACTIVE]) 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) @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) @check_instance_host def get_diagnostics(self, context, instance): """Retrieve diagnostics for the given instance.""" return self.compute_rpcapi.get_diagnostics(context, instance=instance) @check_instance_host def get_instance_diagnostics(self, context, instance): """Retrieve diagnostics for the given instance.""" return self.compute_rpcapi.get_instance_diagnostics(context, instance=instance) @check_instance_lock @check_instance_cell @check_instance_state(vm_state=[vm_states.ACTIVE]) 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) @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) @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_image_ref=None, clean_shutdown=True): """Rescue the given instance.""" bdms = objects.BlockDeviceMappingList.get_by_instance_uuid( context, instance.uuid) for bdm in bdms: if bdm.volume_id: vol = self.volume_api.get(context, bdm.volume_id) self.volume_api.check_attached(context, vol) if compute_utils.is_volume_backed_instance(context, instance, bdms): reason = _("Cannot rescue a volume-backed instance") raise exception.InstanceNotRescuable(instance_id=instance.uuid, reason=reason) instance.task_state = task_states.RESCUING instance.save(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, rescue_image_ref=rescue_image_ref, clean_shutdown=clean_shutdown) @check_instance_lock @check_instance_state(vm_state=[vm_states.RESCUED]) def unrescue(self, context, instance): """Unrescue the given instance.""" instance.task_state = task_states.UNRESCUING instance.save(expected_task_state=[None]) self._record_action_start(context, instance, instance_actions.UNRESCUE) self.compute_rpcapi.unrescue_instance(context, instance=instance) @check_instance_lock @check_instance_cell @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. @param context: Nova auth context. @param instance: Nova instance object. @param password: The admin password for the instance. """ instance.task_state = task_states.UPDATING_PASSWORD instance.save(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) @check_instance_host @reject_instance_state( task_state=[task_states.DELETING, task_states.MIGRATING]) 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) # TODO(melwitt): In Rocky, the compute manager puts the # console authorization in the database in the above method. # The following will be removed when everything has been # converted to use the database, in Stein. if CONF.workarounds.enable_consoleauth: self.consoleauth_rpcapi.authorize_console(context, connect_info['token'], console_type, connect_info['host'], connect_info['port'], connect_info['internal_access_path'], instance.uuid, access_url=connect_info['access_url']) 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 @check_instance_host @reject_instance_state( task_state=[task_states.DELETING, task_states.MIGRATING]) 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) # TODO(melwitt): In Rocky, the compute manager puts the # console authorization in the database in the above method. # The following will be removed when everything has been # converted to use the database, in Stein. if CONF.workarounds.enable_consoleauth: self.consoleauth_rpcapi.authorize_console(context, connect_info['token'], console_type, connect_info['host'], connect_info['port'], connect_info['internal_access_path'], instance.uuid, access_url=connect_info['access_url']) 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 @check_instance_host @reject_instance_state( task_state=[task_states.DELETING, task_states.MIGRATING]) def get_rdp_console(self, context, instance, console_type): """Get a url to an instance Console.""" connect_info = self.compute_rpcapi.get_rdp_console(context, instance=instance, console_type=console_type) # TODO(melwitt): In Rocky, the compute manager puts the # console authorization in the database in the above method. # The following will be removed when everything has been # converted to use the database, in Stein. if CONF.workarounds.enable_consoleauth: self.consoleauth_rpcapi.authorize_console(context, connect_info['token'], console_type, connect_info['host'], connect_info['port'], connect_info['internal_access_path'], instance.uuid, access_url=connect_info['access_url']) return {'url': connect_info['access_url']} @check_instance_host def get_rdp_connect_info(self, context, instance, console_type): """Used in a child cell to get console info.""" connect_info = self.compute_rpcapi.get_rdp_console(context, instance=instance, console_type=console_type) return connect_info @check_instance_host @reject_instance_state( task_state=[task_states.DELETING, task_states.MIGRATING]) def get_serial_console(self, context, instance, console_type): """Get a url to a serial console.""" connect_info = self.compute_rpcapi.get_serial_console(context, instance=instance, console_type=console_type) # TODO(melwitt): In Rocky, the compute manager puts the # console authorization in the database in the above method. # The following will be removed when everything has been # converted to use the database, in Stein. if CONF.workarounds.enable_consoleauth: self.consoleauth_rpcapi.authorize_console(context, connect_info['token'], console_type, connect_info['host'], connect_info['port'], connect_info['internal_access_path'], instance.uuid, access_url=connect_info['access_url']) return {'url': connect_info['access_url']} @check_instance_host def get_serial_console_connect_info(self, context, instance, console_type): """Used in a child cell to get serial console.""" connect_info = self.compute_rpcapi.get_serial_console(context, instance=instance, console_type=console_type) return connect_info @check_instance_host @reject_instance_state( task_state=[task_states.DELETING, task_states.MIGRATING]) def get_mks_console(self, context, instance, console_type): """Get a url to a MKS console.""" connect_info = self.compute_rpcapi.get_mks_console(context, instance=instance, console_type=console_type) # TODO(melwitt): In Rocky, the compute manager puts the # console authorization in the database in the above method. # The following will be removed when everything has been # converted to use the database, in Stein. if CONF.workarounds.enable_consoleauth: self.consoleauth_rpcapi.authorize_console(context, connect_info['token'], console_type, connect_info['host'], connect_info['port'], connect_info['internal_access_path'], instance.uuid, access_url=connect_info['access_url']) return {'url': connect_info['access_url']} @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) 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() self._record_action_start(context, instance, instance_actions.LOCK) @wrap_instance_event(prefix='api') def lock(self, context, instance): LOG.debug('Locking', instance=instance) instance.locked = True instance.locked_by = 'owner' if is_owner else 'admin' instance.save() lock(self, context, instance) compute_utils.notify_about_instance_action( context, instance, CONF.host, action=fields_obj.NotificationAction.LOCK, source=fields_obj.NotificationSource.API) def is_expected_locked_by(self, context, instance): 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: return False return True def unlock(self, context, instance): """Unlock the given instance.""" context = context.elevated() self._record_action_start(context, instance, instance_actions.UNLOCK) @wrap_instance_event(prefix='api') def unlock(self, context, instance): LOG.debug('Unlocking', instance=instance) instance.locked = False instance.locked_by = None instance.save() unlock(self, context, instance) compute_utils.notify_about_instance_action( context, instance, CONF.host, action=fields_obj.NotificationAction.UNLOCK, source=fields_obj.NotificationSource.API) @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) @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) def _create_volume_bdm(self, context, instance, device, volume, disk_bus, device_type, is_local_creation=False, tag=None): volume_id = volume['id'] if is_local_creation: # when the creation is done locally we can't specify the device # name as we do not have a way to check that the name specified is # a valid one. # We leave the setting of that value when the actual attach # happens on the compute manager # NOTE(artom) Local attach (to a shelved-offload instance) cannot # support device tagging because we have no way to call the compute # manager to check that it supports device tagging. In fact, we # don't even know which computer manager the instance will # eventually end up on when it's unshelved. volume_bdm = objects.BlockDeviceMapping( context=context, source_type='volume', destination_type='volume', instance_uuid=instance.uuid, boot_index=None, volume_id=volume_id, device_name=None, guest_format=None, disk_bus=disk_bus, device_type=device_type) volume_bdm.create() else: # 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. volume_bdm = self.compute_rpcapi.reserve_block_device_name( context, instance, device, volume_id, disk_bus=disk_bus, device_type=device_type, tag=tag, multiattach=volume['multiattach']) return volume_bdm def _check_volume_already_attached_to_instance(self, context, instance, volume_id): """Avoid attaching the same volume to the same instance twice. As the new Cinder flow (microversion 3.44) is handling the checks differently and allows to attach the same volume to the same instance twice to enable live_migrate we are checking whether the BDM already exists for this combination for the new flow and fail if it does. """ try: objects.BlockDeviceMapping.get_by_volume_and_instance( context, volume_id, instance.uuid) msg = _("volume %s already attached") % volume_id raise exception.InvalidVolume(reason=msg) except exception.VolumeBDMNotFound: pass def _check_attach_and_reserve_volume(self, context, volume, instance, bdm, supports_multiattach=False): volume_id = volume['id'] self.volume_api.check_availability_zone(context, volume, instance=instance) # If volume.multiattach=True and the microversion to # support multiattach is not used, fail the request. if volume['multiattach'] and not supports_multiattach: raise exception.MultiattachNotSupportedOldMicroversion() if 'id' in instance: # This is a volume attach to an existing instance, so # we only care about the cell the instance is in. min_compute_version = objects.Service.get_minimum_version( context, 'nova-compute') else: # The instance is being created and we don't know which # cell it's going to land in, so check all cells. # NOTE(danms): We don't require all cells to report here since # we're really concerned about the new-ness of cells that the # instance may be scheduled into. If a cell doesn't respond here, # then it won't be a candidate for the instance and thus doesn't # matter. min_compute_version = \ objects.service.get_minimum_version_all_cells( context, ['nova-compute']) # Check to see if the computes have been upgraded to support # booting from a multiattach volume. if (volume['multiattach'] and min_compute_version < MIN_COMPUTE_MULTIATTACH): raise exception.MultiattachSupportNotYetAvailable() if min_compute_version >= CINDER_V3_ATTACH_MIN_COMPUTE_VERSION: # Attempt a new style volume attachment, but fallback to old-style # in case Cinder API 3.44 isn't available. try: attachment_id = self.volume_api.attachment_create( context, volume_id, instance.uuid)['id'] bdm.attachment_id = attachment_id # NOTE(ildikov): In case of boot from volume the BDM at this # point is not yet created in a cell database, so we can't # call save(). When attaching a volume to an existing # instance, the instance is already in a cell and the BDM has # been created in that same cell so updating here in that case # is "ok". if bdm.obj_attr_is_set('id'): bdm.save() except exception.CinderAPIVersionNotAvailable: LOG.debug('The available Cinder microversion is not high ' 'enough to create new style volume attachment.') self.volume_api.reserve_volume(context, volume_id) else: LOG.debug('The compute service version is not high enough to ' 'create a new style volume attachment.') self.volume_api.reserve_volume(context, volume_id) def _attach_volume(self, context, instance, volume, device, disk_bus, device_type, tag=None, supports_multiattach=False): """Attach an existing volume to an existing instance. This method is separated to make it possible for cells version to override it. """ volume_bdm = self._create_volume_bdm( context, instance, device, volume, disk_bus=disk_bus, device_type=device_type, tag=tag) try: self._check_attach_and_reserve_volume(context, volume, instance, volume_bdm, supports_multiattach) self._record_action_start( context, instance, instance_actions.ATTACH_VOLUME) self.compute_rpcapi.attach_volume(context, instance, volume_bdm) except Exception: with excutils.save_and_reraise_exception(): volume_bdm.destroy() return volume_bdm.device_name def _attach_volume_shelved_offloaded(self, context, instance, volume, device, disk_bus, device_type): """Attach an existing volume to an instance in shelved offloaded state. Attaching a volume for an instance in shelved offloaded state requires to perform the regular check to see if we can attach and reserve the volume then we need to call the attach method on the volume API to mark the volume as 'in-use'. The instance at this stage is not managed by a compute manager therefore the actual attachment will be performed once the instance will be unshelved. """ volume_id = volume['id'] @wrap_instance_event(prefix='api') def attach_volume(self, context, v_id, instance, dev, attachment_id): if attachment_id: # Normally we wouldn't complete an attachment without a host # connector, but we do this to make the volume status change # to "in-use" to maintain the API semantics with the old flow. # When unshelving the instance, the compute service will deal # with this disconnected attachment. self.volume_api.attachment_complete(context, attachment_id) else: self.volume_api.attach(context, v_id, instance.uuid, dev) volume_bdm = self._create_volume_bdm( context, instance, device, volume, disk_bus=disk_bus, device_type=device_type, is_local_creation=True) try: self._check_attach_and_reserve_volume(context, volume, instance, volume_bdm) self._record_action_start( context, instance, instance_actions.ATTACH_VOLUME) attach_volume(self, context, volume_id, instance, device, volume_bdm.attachment_id) except Exception: with excutils.save_and_reraise_exception(): volume_bdm.destroy() return volume_bdm.device_name @check_instance_lock @check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.PAUSED, vm_states.STOPPED, vm_states.RESIZED, vm_states.SOFT_DELETED, vm_states.SHELVED, vm_states.SHELVED_OFFLOADED]) def attach_volume(self, context, instance, volume_id, device=None, disk_bus=None, device_type=None, tag=None, supports_multiattach=False): """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) # Check to see if the computes in this cell can support new-style # volume attachments. min_compute_version = objects.Service.get_minimum_version( context, 'nova-compute') if min_compute_version >= CINDER_V3_ATTACH_MIN_COMPUTE_VERSION: try: # Check to see if Cinder is new enough to create new-style # attachments. cinder.is_microversion_supported(context, '3.44') except exception.CinderAPIVersionNotAvailable: pass else: # Make sure the volume isn't already attached to this instance # because based on the above checks, we'll use the new style # attachment flow in _check_attach_and_reserve_volume and # Cinder will allow multiple attachments between the same # volume and instance but the old flow API semantics don't # allow that so we enforce it here. self._check_volume_already_attached_to_instance(context, instance, volume_id) volume = self.volume_api.get(context, volume_id) is_shelved_offloaded = instance.vm_state == vm_states.SHELVED_OFFLOADED if is_shelved_offloaded: if tag: # NOTE(artom) Local attach (to a shelved-offload instance) # cannot support device tagging because we have no way to call # the compute manager to check that it supports device tagging. # In fact, we don't even know which computer manager the # instance will eventually end up on when it's unshelved. raise exception.VolumeTaggedAttachToShelvedNotSupported() if volume['multiattach']: # NOTE(mriedem): Similar to tagged attach, we don't support # attaching a multiattach volume to shelved offloaded instances # because we can't tell if the compute host (since there isn't # one) supports it. This could possibly be supported in the # future if the scheduler was made aware of which computes # support multiattach volumes. raise exception.MultiattachToShelvedNotSupported() return self._attach_volume_shelved_offloaded(context, instance, volume, device, disk_bus, device_type) return self._attach_volume(context, instance, volume, device, disk_bus, device_type, tag=tag, supports_multiattach=supports_multiattach) def _detach_volume(self, context, instance, volume): """Detach volume from instance. This method is separated to make it easier for cells version to override. """ try: self.volume_api.begin_detaching(context, volume['id']) except exception.InvalidInput as exc: raise exception.InvalidVolume(reason=exc.format_message()) attachments = volume.get('attachments', {}) attachment_id = None if attachments and instance.uuid in attachments: attachment_id = attachments[instance.uuid]['attachment_id'] self._record_action_start( context, instance, instance_actions.DETACH_VOLUME) self.compute_rpcapi.detach_volume(context, instance=instance, volume_id=volume['id'], attachment_id=attachment_id) def _detach_volume_shelved_offloaded(self, context, instance, volume): """Detach a volume from an instance in shelved offloaded state. If the instance is shelved offloaded we just need to cleanup volume calling the volume api detach, the volume api terminate_connection and delete the bdm record. If the volume has delete_on_termination option set then we call the volume api delete as well. """ @wrap_instance_event(prefix='api') def detach_volume(self, context, instance, bdms): self._local_cleanup_bdm_volumes(bdms, instance, context) bdms = [objects.BlockDeviceMapping.get_by_volume_id( context, volume['id'], instance.uuid)] # The begin_detaching() call only works with in-use volumes, # which will not be the case for volumes attached to a shelved # offloaded server via the attachments API since those volumes # will have `reserved` status. if not bdms[0].attachment_id: try: self.volume_api.begin_detaching(context, volume['id']) except exception.InvalidInput as exc: raise exception.InvalidVolume(reason=exc.format_message()) self._record_action_start( context, instance, instance_actions.DETACH_VOLUME) detach_volume(self, context, instance, bdms) @check_instance_lock @check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.PAUSED, vm_states.STOPPED, vm_states.RESIZED, vm_states.SOFT_DELETED, vm_states.SHELVED, vm_states.SHELVED_OFFLOADED]) def detach_volume(self, context, instance, volume): """Detach a volume from an instance.""" if instance.vm_state == vm_states.SHELVED_OFFLOADED: self._detach_volume_shelved_offloaded(context, instance, volume) else: self._detach_volume(context, instance, volume) @check_instance_lock @check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.PAUSED, vm_states.RESIZED]) def swap_volume(self, context, instance, old_volume, new_volume): """Swap volume attached to an instance.""" # The caller likely got the instance from volume['attachments'] # in the first place, but let's sanity check. if not old_volume.get('attachments', {}).get(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_availability_zone(context, new_volume, instance=instance) try: self.volume_api.begin_detaching(context, old_volume['id']) except exception.InvalidInput as exc: raise exception.InvalidVolume(reason=exc.format_message()) # Get the BDM for the attached (old) volume so we can tell if it was # attached with the new-style Cinder 3.44 API. bdm = objects.BlockDeviceMapping.get_by_volume_and_instance( context, old_volume['id'], instance.uuid) new_attachment_id = None if bdm.attachment_id is None: # This is an old-style attachment so reserve the new volume before # we cast to the compute host. self.volume_api.reserve_volume(context, new_volume['id']) else: try: self._check_volume_already_attached_to_instance( context, instance, new_volume['id']) except exception.InvalidVolume: with excutils.save_and_reraise_exception(): self.volume_api.roll_detaching(context, old_volume['id']) # This is a new-style attachment so for the volume that we are # going to swap to, create a new volume attachment. new_attachment_id = self.volume_api.attachment_create( context, new_volume['id'], instance.uuid)['id'] self._record_action_start( context, instance, instance_actions.SWAP_VOLUME) try: self.compute_rpcapi.swap_volume( context, instance=instance, old_volume_id=old_volume['id'], new_volume_id=new_volume['id'], new_attachment_id=new_attachment_id) except Exception: with excutils.save_and_reraise_exception(): self.volume_api.roll_detaching(context, old_volume['id']) if new_attachment_id is None: self.volume_api.unreserve_volume(context, new_volume['id']) else: self.volume_api.attachment_delete( context, new_attachment_id) @check_instance_lock @check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.PAUSED, vm_states.STOPPED], task_state=[None]) def attach_interface(self, context, instance, network_id, port_id, requested_ip, tag=None): """Use hotplug to add an network adapter to an instance.""" self._record_action_start( context, instance, instance_actions.ATTACH_INTERFACE) # NOTE(gibi): Checking if the requested port has resource request as # such ports are currently not supported as they would at least # need resource allocation manipulation in placement but might also # need a new scheduling if resource on this host is not available. if port_id: port = self.network_api.show_port(context, port_id) if port['port'].get('resource_request'): raise exception.AttachInterfaceWithQoSPolicyNotSupported( instance_uuid=instance.uuid) return self.compute_rpcapi.attach_interface(context, instance=instance, network_id=network_id, port_id=port_id, requested_ip=requested_ip, tag=tag) @check_instance_lock @check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.PAUSED, vm_states.STOPPED], task_state=[None]) def detach_interface(self, context, instance, port_id): """Detach an network adapter from an instance.""" self._record_action_start( context, instance, instance_actions.DETACH_INTERFACE) self.compute_rpcapi.detach_interface(context, instance=instance, port_id=port_id) def get_instance_metadata(self, context, instance): """Get all metadata associated with an instance.""" return self.db.instance_metadata_get(context, instance.uuid) @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.""" instance.delete_metadata_key(key) self.compute_rpcapi.change_instance_metadata(context, instance=instance, diff={key: ['-']}) @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 = dict(instance.metadata) if delete: _metadata = metadata else: _metadata = dict(instance.metadata) _metadata.update(metadata) self._check_metadata_properties_quota(context, _metadata) instance.metadata = _metadata instance.save() diff = _diff_dict(orig, instance.metadata) self.compute_rpcapi.change_instance_metadata(context, instance=instance, diff=diff) return _metadata @check_instance_lock @check_instance_cell @check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.PAUSED]) def live_migrate(self, context, instance, block_migration, disk_over_commit, host_name, force=None, async_=False): """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) if host_name: # Validate the specified host before changing the instance task # state. nodes = objects.ComputeNodeList.get_all_by_host(context, host_name) request_spec = objects.RequestSpec.get_by_instance_uuid( context, instance.uuid) instance.task_state = task_states.MIGRATING instance.save(expected_task_state=[None]) self._record_action_start(context, instance, instance_actions.LIVE_MIGRATION) # TODO(melwitt): In Rocky, we optionally store console authorizations # in both the consoleauth service and the database while # we convert to using the database. Remove the condition for running # this line with cells v2, when consoleauth is no longer being used by # cells v2, in Stein. if CONF.cells.enable or CONF.workarounds.enable_consoleauth: self.consoleauth_rpcapi.delete_tokens_for_instance( context, instance.uuid) # NOTE(sbauza): Force is a boolean by the new related API version if force is False and host_name: # Unset the host to make sure we call the scheduler # from the conductor LiveMigrationTask. Yes this is tightly-coupled # to behavior in conductor and not great. host_name = None # FIXME(sbauza): Since only Ironic driver uses more than one # compute per service but doesn't support live migrations, # let's provide the first one. target = nodes[0] destination = objects.Destination( host=target.host, node=target.hypervisor_hostname ) # This is essentially a hint to the scheduler to only consider # the specified host but still run it through the filters. request_spec.requested_destination = destination try: self.compute_task_api.live_migrate_instance(context, instance, host_name, block_migration=block_migration, disk_over_commit=disk_over_commit, request_spec=request_spec, async_=async_) except oslo_exceptions.MessagingTimeout as messaging_timeout: with excutils.save_and_reraise_exception(): # NOTE(pkoniszewski): It is possible that MessagingTimeout # occurs, but LM will still be in progress, so write # instance fault to database compute_utils.add_instance_fault_from_exc(context, instance, messaging_timeout) @check_instance_lock @check_instance_cell @check_instance_state(vm_state=[vm_states.ACTIVE], task_state=[task_states.MIGRATING]) def live_migrate_force_complete(self, context, instance, migration_id): """Force live migration to complete. :param context: Security context :param instance: The instance that is being migrated :param migration_id: ID of ongoing migration """ LOG.debug("Going to try to force live migration to complete", instance=instance) # NOTE(pkoniszewski): Get migration object to check if there is ongoing # live migration for particular instance. Also pass migration id to # compute to double check and avoid possible race condition. migration = objects.Migration.get_by_id_and_instance( context, migration_id, instance.uuid) if migration.status != 'running': raise exception.InvalidMigrationState(migration_id=migration_id, instance_uuid=instance.uuid, state=migration.status, method='force complete') self._record_action_start( context, instance, instance_actions.LIVE_MIGRATION_FORCE_COMPLETE) self.compute_rpcapi.live_migration_force_complete( context, instance, migration) @check_instance_lock @check_instance_cell @check_instance_state(task_state=[task_states.MIGRATING]) def live_migrate_abort(self, context, instance, migration_id, support_abort_in_queue=False): """Abort an in-progress live migration. :param context: Security context :param instance: The instance that is being migrated :param migration_id: ID of in-progress live migration :param support_abort_in_queue: Flag indicating whether we can support abort migrations in "queued" or "preparing" status. """ migration = objects.Migration.get_by_id_and_instance(context, migration_id, instance.uuid) LOG.debug("Going to cancel live migration %s", migration.id, instance=instance) # If the microversion does not support abort migration in queue, # we are only be able to abort migrations with `running` status; # if it is supported, we are able to also abort migrations in # `queued` and `preparing` status. allowed_states = ['running'] queued_states = ['queued', 'preparing'] if support_abort_in_queue: # The user requested a microversion that supports aborting a queued # or preparing live migration. But we need to check that the # compute service hosting the instance is new enough to support # aborting a queued/preparing live migration, so we check the # service version here. # TODO(Kevin_Zheng): This service version check can be removed in # Stein (at the earliest) when the API only supports Rocky or # newer computes. if migration.status in queued_states: service = objects.Service.get_by_compute_host( context, instance.host) if service.version < MIN_COMPUTE_ABORT_QUEUED_LIVE_MIGRATION: raise exception.AbortQueuedLiveMigrationNotYetSupported( migration_id=migration_id, status=migration.status) allowed_states.extend(queued_states) if migration.status not in allowed_states: raise exception.InvalidMigrationState(migration_id=migration_id, instance_uuid=instance.uuid, state=migration.status, method='abort live migration') self._record_action_start(context, instance, instance_actions.LIVE_MIGRATION_CANCEL) self.compute_rpcapi.live_migration_abort(context, instance, migration.id) @check_instance_state(vm_state=[vm_states.ACTIVE, vm_states.STOPPED, vm_states.ERROR]) def evacuate(self, context, instance, host, on_shared_storage, admin_password=None, force=None): """Running evacuate to target host. Checking vm compute host state, if the host not in expected_state, raising an exception. :param instance: The instance to evacuate :param host: Target host. if not set, the scheduler will pick up one :param on_shared_storage: True if instance files on shared storage :param admin_password: password to set on rebuilt instance :param force: Force the evacuation to the specific host target """ LOG.debug('vm evacuation scheduled', instance=instance) inst_host = instance.host service = objects.Service.get_by_compute_host(context, inst_host) if self.servicegroup_api.service_is_up(service): LOG.error('Instance compute service state on %s ' 'expected to be down, but it was up.', inst_host) raise exception.ComputeServiceInUse(host=inst_host) request_spec = objects.RequestSpec.get_by_instance_uuid( context, instance.uuid) instance.task_state = task_states.REBUILDING instance.save(expected_task_state=[None]) self._record_action_start(context, instance, instance_actions.EVACUATE) # NOTE(danms): Create this as a tombstone for the source compute # to find and cleanup. No need to pass it anywhere else. migration = objects.Migration(context, source_compute=instance.host, source_node=instance.node, instance_uuid=instance.uuid, status='accepted', migration_type='evacuation') if host: migration.dest_compute = host migration.create() compute_utils.notify_about_instance_usage( self.notifier, context, instance, "evacuate") compute_utils.notify_about_instance_action( context, instance, CONF.host, action=fields_obj.NotificationAction.EVACUATE, source=fields_obj.NotificationSource.API) # NOTE(sbauza): Force is a boolean by the new related API version # TODO(stephenfin): Any reason we can't use 'not force' here to handle # the pre-v2.29 API microversion, which wouldn't set force if force is False and host: nodes = objects.ComputeNodeList.get_all_by_host(context, host) # NOTE(sbauza): Unset the host to make sure we call the scheduler host = None # FIXME(sbauza): Since only Ironic driver uses more than one # compute per service but doesn't support evacuations, # let's provide the first one. target = nodes[0] destination = objects.Destination( host=target.host, node=target.hypervisor_hostname ) request_spec.requested_destination = destination return self.compute_task_api.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, request_spec=request_spec, ) def get_migrations(self, context, filters): """Get all migrations for the given filters.""" load_cells() migrations = [] for cell in CELLS: if cell.uuid == objects.CellMapping.CELL0_UUID: continue with nova_context.target_cell(context, cell) as cctxt: migrations.extend(objects.MigrationList.get_by_filters( cctxt, filters).objects) return objects.MigrationList(objects=migrations) def get_migrations_sorted(self, context, filters, sort_dirs=None, sort_keys=None, limit=None, marker=None): """Get all migrations for the given parameters.""" mig_objs = migration_list.get_migration_objects_sorted( context, filters, limit, marker, sort_keys, sort_dirs) return mig_objs def get_migrations_in_progress_by_instance(self, context, instance_uuid, migration_type=None): """Get all migrations of an instance in progress.""" return objects.MigrationList.get_in_progress_by_instance( context, instance_uuid, migration_type) def get_migration_by_id_and_instance(self, context, migration_id, instance_uuid): """Get the migration of an instance by id.""" return objects.Migration.get_by_id_and_instance( context, migration_id, instance_uuid) def _get_bdm_by_volume_id(self, context, volume_id, expected_attrs=None): """Retrieve a BDM without knowing its cell. .. note:: The context will be targeted to the cell in which the BDM is found, if any. :param context: The API request context. :param volume_id: The ID of the volume. :param expected_attrs: list of any additional attributes that should be joined when the BDM is loaded from the database. :raises: nova.exception.VolumeBDMNotFound if not found in any cell """ load_cells() for cell in CELLS: nova_context.set_target_cell(context, cell) try: return objects.BlockDeviceMapping.get_by_volume( context, volume_id, expected_attrs=expected_attrs) except exception.NotFound: continue raise exception.VolumeBDMNotFound(volume_id=volume_id) def volume_snapshot_create(self, context, volume_id, create_info): bdm = self._get_bdm_by_volume_id( context, volume_id, expected_attrs=['instance']) # We allow creating the snapshot in any vm_state as long as there is # no task being performed on the instance and it has a host. @check_instance_host @check_instance_state(vm_state=None) def do_volume_snapshot_create(self, context, instance): self.compute_rpcapi.volume_snapshot_create(context, instance, volume_id, create_info) snapshot = { 'snapshot': { 'id': create_info.get('id'), 'volumeId': volume_id } } return snapshot return do_volume_snapshot_create(self, context, bdm.instance) def volume_snapshot_delete(self, context, volume_id, snapshot_id, delete_info): bdm = self._get_bdm_by_volume_id( context, volume_id, expected_attrs=['instance']) # We allow deleting the snapshot in any vm_state as long as there is # no task being performed on the instance and it has a host. @check_instance_host @check_instance_state(vm_state=None) def do_volume_snapshot_delete(self, context, instance): self.compute_rpcapi.volume_snapshot_delete(context, instance, volume_id, snapshot_id, delete_info) do_volume_snapshot_delete(self, context, bdm.instance) def external_instance_event(self, api_context, instances, events): # NOTE(danms): The external API consumer just provides events, # but doesn't know where they go. We need to collate lists # by the host the affected instance is on and dispatch them # according to host instances_by_host = collections.defaultdict(list) events_by_host = collections.defaultdict(list) hosts_by_instance = collections.defaultdict(list) cell_contexts_by_host = {} for instance in instances: # instance._context is used here since it's already targeted to # the cell that the instance lives in, and we need to use that # cell context to lookup any migrations associated to the instance. for host in self._get_relevant_hosts(instance._context, instance): # NOTE(danms): All instances on a host must have the same # mapping, so just use that # NOTE(mdbooth): We don't currently support migrations between # cells, and given that the Migration record is hosted in the # cell _get_relevant_hosts will likely have to change before we # do. Consequently we can currently assume that the context for # both the source and destination hosts of a migration is the # same. if host not in cell_contexts_by_host: cell_contexts_by_host[host] = instance._context instances_by_host[host].append(instance) hosts_by_instance[instance.uuid].append(host) for event in events: if event.name == 'volume-extended': # Volume extend is a user-initiated operation starting in the # Block Storage service API. We record an instance action so # the user can monitor the operation to completion. host = hosts_by_instance[event.instance_uuid][0] cell_context = cell_contexts_by_host[host] objects.InstanceAction.action_start( cell_context, event.instance_uuid, instance_actions.EXTEND_VOLUME, want_result=False) for host in hosts_by_instance[event.instance_uuid]: events_by_host[host].append(event) for host in instances_by_host: cell_context = cell_contexts_by_host[host] # TODO(salv-orlando): Handle exceptions raised by the rpc api layer # in order to ensure that a failure in processing events on a host # will not prevent processing events on other hosts self.compute_rpcapi.external_instance_event( cell_context, instances_by_host[host], events_by_host[host], host=host) def _get_relevant_hosts(self, context, instance): hosts = set() hosts.add(instance.host) if instance.migration_context is not None: migration_id = instance.migration_context.migration_id migration = objects.Migration.get_by_id(context, migration_id) hosts.add(migration.dest_compute) hosts.add(migration.source_compute) LOG.debug('Instance %(instance)s is migrating, ' 'copying events to all relevant hosts: ' '%(hosts)s', {'instance': instance.uuid, 'hosts': hosts}) return hosts def get_instance_host_status(self, instance): if instance.host: try: service = [service for service in instance.services if service.binary == 'nova-compute'][0] if service.forced_down: host_status = fields_obj.HostStatus.DOWN elif service.disabled: host_status = fields_obj.HostStatus.MAINTENANCE else: alive = self.servicegroup_api.service_is_up(service) host_status = ((alive and fields_obj.HostStatus.UP) or fields_obj.HostStatus.UNKNOWN) except IndexError: host_status = fields_obj.HostStatus.NONE else: host_status = fields_obj.HostStatus.NONE return host_status def get_instances_host_statuses(self, instance_list): host_status_dict = dict() host_statuses = dict() for instance in instance_list: if instance.host: if instance.host not in host_status_dict: host_status = self.get_instance_host_status(instance) host_status_dict[instance.host] = host_status else: host_status = host_status_dict[instance.host] else: host_status = fields_obj.HostStatus.NONE host_statuses[instance.uuid] = host_status return host_statuses def target_host_cell(fn): """Target a host-based function to a cell. Expects to wrap a function of signature: func(self, context, host, ...) """ @functools.wraps(fn) def targeted(self, context, host, *args, **kwargs): mapping = objects.HostMapping.get_by_host(context, host) nova_context.set_target_cell(context, mapping.cell_mapping) return fn(self, context, host, *args, **kwargs) return targeted def _find_service_in_cell(context, service_id=None, service_host=None): """Find a service by id or hostname by searching all cells. If one matching service is found, return it. If none or multiple are found, raise an exception. :param context: A context.RequestContext :param service_id: If not none, the DB ID of the service to find :param service_host: If not None, the hostname of the service to find :returns: An objects.Service :raises: ServiceNotUnique if multiple matching IDs are found :raises: NotFound if no matches are found :raises: NovaException if called with neither search option """ load_cells() service = None found_in_cell = None is_uuid = False if service_id is not None: is_uuid = uuidutils.is_uuid_like(service_id) if is_uuid: lookup_fn = lambda c: objects.Service.get_by_uuid(c, service_id) else: lookup_fn = lambda c: objects.Service.get_by_id(c, service_id) elif service_host is not None: lookup_fn = lambda c: ( objects.Service.get_by_compute_host(c, service_host)) else: LOG.exception('_find_service_in_cell called with no search parameters') # This is intentionally cryptic so we don't leak implementation details # out of the API. raise exception.NovaException() for cell in CELLS: # NOTE(danms): Services can be in cell0, so don't skip it here try: with nova_context.target_cell(context, cell) as cctxt: cell_service = lookup_fn(cctxt) except exception.NotFound: # NOTE(danms): Keep looking in other cells continue if service and cell_service: raise exception.ServiceNotUnique() service = cell_service found_in_cell = cell if service and is_uuid: break if service: # NOTE(danms): Set the cell on the context so it remains # when we return to our caller nova_context.set_target_cell(context, found_in_cell) return service else: raise exception.NotFound() class HostAPI(base.Base): """Sub-set of the Compute Manager API for managing host operations.""" def __init__(self, rpcapi=None): self.rpcapi = rpcapi or compute_rpcapi.ComputeAPI() self.servicegroup_api = servicegroup.API() 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 = objects.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'] @wrap_exception() @target_host_cell 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) payload = {'host_name': host_name, 'enabled': enabled} compute_utils.notify_about_host_update(context, 'set_enabled.start', payload) result = self.rpcapi.set_host_enabled(context, enabled=enabled, host=host_name) compute_utils.notify_about_host_update(context, 'set_enabled.end', payload) return result @target_host_cell 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) @wrap_exception() @target_host_cell 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) payload = {'host_name': host_name, 'action': action} compute_utils.notify_about_host_update(context, 'power_action.start', payload) result = self.rpcapi.host_power_action(context, action=action, host=host_name) compute_utils.notify_about_host_update(context, 'power_action.end', payload) return result @wrap_exception() @target_host_cell 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) payload = {'host_name': host_name, 'mode': mode} compute_utils.notify_about_host_update(context, 'set_maintenance.start', payload) result = self.rpcapi.host_maintenance_mode(context, host_param=host_name, mode=mode, host=host_name) compute_utils.notify_about_host_update(context, 'set_maintenance.end', payload) return result def service_get_all(self, context, filters=None, set_zones=False, all_cells=False, cell_down_support=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 all_cells=True, then scan all cells and merge the results. If cell_down_support=True then return minimal service records for cells that do not respond based on what we have in the host mappings. These will have only 'binary' and 'host' set. """ if filters is None: filters = {} disabled = filters.pop('disabled', None) if 'availability_zone' in filters: set_zones = True # NOTE(danms): Eventually this all_cells nonsense should go away # and we should always iterate over the cells. However, certain # callers need the legacy behavior for now. if all_cells: services = [] service_dict = nova_context.scatter_gather_all_cells(context, objects.ServiceList.get_all, disabled, set_zones=set_zones) for cell_uuid, service in service_dict.items(): if not nova_context.is_cell_failure_sentinel(service): services.extend(service) elif cell_down_support: unavailable_services = objects.ServiceList() cid = [cm.id for cm in nova_context.CELLS if cm.uuid == cell_uuid] # We know cid[0] is in the list because we are using the # same list that scatter_gather_all_cells used hms = objects.HostMappingList.get_by_cell_id(context, cid[0]) for hm in hms: unavailable_services.objects.append(objects.Service( binary='nova-compute', host=hm.host)) LOG.warning("Cell %s is not responding and hence only " "partial results are available from this " "cell.", cell_uuid) services.extend(unavailable_services) else: LOG.warning("Cell %s is not responding and hence skipped " "from the results.", cell_uuid) else: services = objects.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_id(self, context, service_id): """Get service entry for the given service id or uuid.""" try: return _find_service_in_cell(context, service_id=service_id) except exception.NotFound: raise exception.ServiceNotFound(service_id=service_id) @target_host_cell def service_get_by_compute_host(self, context, host_name): """Get service entry for the given compute hostname.""" return objects.Service.get_by_compute_host(context, host_name) def _service_update(self, context, host_name, binary, params_to_update): """Performs the actual service update operation.""" service = objects.Service.get_by_args(context, host_name, binary) service.update(params_to_update) service.save() return service @target_host_cell 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. """ return self._service_update(context, host_name, binary, params_to_update) def _service_delete(self, context, service_id): """Performs the actual Service deletion operation.""" try: service = _find_service_in_cell(context, service_id=service_id) except exception.NotFound: raise exception.ServiceNotFound(service_id=service_id) service.destroy() # TODO(mriedem): Nothing outside of tests is using this now so we should # be able to remove it. def service_delete(self, context, service_id): """Deletes the specified service found via id or uuid.""" self._service_delete(context, service_id) @target_host_cell def instance_get_all_by_host(self, context, host_name): """Return all instances on the given host.""" return objects.InstanceList.get_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 or UUID.""" load_cells() # NOTE(danms): Unfortunately this API exposes database identifiers # which means we really can't do something efficient here is_uuid = uuidutils.is_uuid_like(compute_id) for cell in CELLS: if cell.uuid == objects.CellMapping.CELL0_UUID: continue with nova_context.target_cell(context, cell) as cctxt: try: if is_uuid: return objects.ComputeNode.get_by_uuid(cctxt, compute_id) return objects.ComputeNode.get_by_id(cctxt, int(compute_id)) except exception.ComputeHostNotFound: # NOTE(danms): Keep looking in other cells continue raise exception.ComputeHostNotFound(host=compute_id) def compute_node_get_all(self, context, limit=None, marker=None): load_cells() computes = [] uuid_marker = marker and uuidutils.is_uuid_like(marker) for cell in CELLS: if cell.uuid == objects.CellMapping.CELL0_UUID: continue with nova_context.target_cell(context, cell) as cctxt: # If we have a marker and it's a uuid, see if the compute node # is in this cell. if marker and uuid_marker: try: compute_marker = objects.ComputeNode.get_by_uuid( cctxt, marker) # we found the marker compute node, so use it's id # for the actual marker for paging in this cell's db marker = compute_marker.id except exception.ComputeHostNotFound: # The marker node isn't in this cell so keep looking. continue try: cell_computes = objects.ComputeNodeList.get_by_pagination( cctxt, limit=limit, marker=marker) except exception.MarkerNotFound: # NOTE(danms): Keep looking through cells continue computes.extend(cell_computes) # NOTE(danms): We must have found the marker, so continue on # without one marker = None if limit: limit -= len(cell_computes) if limit <= 0: break if marker is not None and len(computes) == 0: # NOTE(danms): If we did not find the marker in any cell, # mimic the db_api behavior here. raise exception.MarkerNotFound(marker=marker) return objects.ComputeNodeList(objects=computes) def compute_node_search_by_hypervisor(self, context, hypervisor_match): load_cells() computes = [] for cell in CELLS: if cell.uuid == objects.CellMapping.CELL0_UUID: continue with nova_context.target_cell(context, cell) as cctxt: cell_computes = objects.ComputeNodeList.get_by_hypervisor( cctxt, hypervisor_match) computes.extend(cell_computes) return objects.ComputeNodeList(objects=computes) def compute_node_statistics(self, context): load_cells() cell_stats = [] for cell in CELLS: if cell.uuid == objects.CellMapping.CELL0_UUID: continue with nova_context.target_cell(context, cell) as cctxt: cell_stats.append(self.db.compute_node_statistics(cctxt)) if cell_stats: keys = cell_stats[0].keys() return {k: sum(stats[k] for stats in cell_stats) for k in keys} else: return {} class InstanceActionAPI(base.Base): """Sub-set of the Compute Manager API for managing instance actions.""" def actions_get(self, context, instance, limit=None, marker=None, filters=None): return objects.InstanceActionList.get_by_instance_uuid( context, instance.uuid, limit, marker, filters) def action_get_by_request_id(self, context, instance, request_id): return objects.InstanceAction.get_by_request_id( context, instance.uuid, request_id) def action_events_get(self, context, instance, action_id): return objects.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() self.query_client = query.SchedulerQueryClient() self._placement_client = None # Lazy-load on first access. super(AggregateAPI, self).__init__(**kwargs) @property def placement_client(self): if self._placement_client is None: self._placement_client = report.SchedulerReportClient() return self._placement_client @wrap_exception() def create_aggregate(self, context, aggregate_name, availability_zone): """Creates the model for the aggregate.""" aggregate = objects.Aggregate(context=context) aggregate.name = aggregate_name if availability_zone: aggregate.metadata = {'availability_zone': availability_zone} aggregate.create() self.query_client.update_aggregates(context, [aggregate]) return aggregate def get_aggregate(self, context, aggregate_id): """Get an aggregate by id.""" return objects.Aggregate.get_by_id(context, aggregate_id) def get_aggregate_list(self, context): """Get all the aggregates.""" return objects.AggregateList.get_all(context) def get_aggregates_by_host(self, context, compute_host): """Get all the aggregates where the given host is presented.""" return objects.AggregateList.get_by_host(context, compute_host) @wrap_exception() def update_aggregate(self, context, aggregate_id, values): """Update the properties of an aggregate.""" aggregate = objects.Aggregate.get_by_id(context, aggregate_id) if 'name' in values: aggregate.name = values.pop('name') aggregate.save() self.is_safe_to_update_az(context, values, aggregate=aggregate, action_name=AGGREGATE_ACTION_UPDATE, check_no_instances_in_az=True) if values: aggregate.update_metadata(values) aggregate.updated_at = timeutils.utcnow() self.query_client.update_aggregates(context, [aggregate]) # 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 aggregate @wrap_exception() def update_aggregate_metadata(self, context, aggregate_id, metadata): """Updates the aggregate metadata.""" aggregate = objects.Aggregate.get_by_id(context, aggregate_id) self.is_safe_to_update_az(context, metadata, aggregate=aggregate, action_name=AGGREGATE_ACTION_UPDATE_META, check_no_instances_in_az=True) aggregate.update_metadata(metadata) self.query_client.update_aggregates(context, [aggregate]) # If updated metadata include availability_zones, then the cache # which stored availability_zones and host need to be reset if metadata and metadata.get('availability_zone'): availability_zones.reset_cache() aggregate.updated_at = timeutils.utcnow() 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 = objects.Aggregate.get_by_id(context, aggregate_id) compute_utils.notify_about_aggregate_action( context=context, aggregate=aggregate, action=fields_obj.NotificationAction.DELETE, phase=fields_obj.NotificationPhase.START) if len(aggregate.hosts) > 0: msg = _("Host aggregate is not empty") raise exception.InvalidAggregateActionDelete( aggregate_id=aggregate_id, reason=msg) aggregate.destroy() self.query_client.delete_aggregate(context, aggregate) compute_utils.notify_about_aggregate_update(context, "delete.end", aggregate_payload) compute_utils.notify_about_aggregate_action( context=context, aggregate=aggregate, action=fields_obj.NotificationAction.DELETE, phase=fields_obj.NotificationPhase.END) def is_safe_to_update_az(self, context, metadata, aggregate, hosts=None, action_name=AGGREGATE_ACTION_ADD, check_no_instances_in_az=False): """Determine if updates alter an aggregate's availability zone. :param context: local context :param metadata: Target metadata for updating aggregate :param aggregate: Aggregate to update :param hosts: Hosts to check. If None, aggregate.hosts is used :type hosts: list :param action_name: Calling method for logging purposes :param check_no_instances_in_az: if True, it checks there is no instances on any hosts of the aggregate """ if 'availability_zone' in metadata: if not metadata['availability_zone']: msg = _("Aggregate %s does not support empty named " "availability zone") % aggregate.name self._raise_invalid_aggregate_exc(action_name, aggregate.id, msg) _hosts = hosts or aggregate.hosts host_aggregates = objects.AggregateList.get_by_metadata_key( context, 'availability_zone', hosts=_hosts) conflicting_azs = [ agg.availability_zone for agg in host_aggregates if agg.availability_zone != metadata['availability_zone'] and agg.id != aggregate.id] if conflicting_azs: msg = _("One or more hosts already in availability zone(s) " "%s") % conflicting_azs self._raise_invalid_aggregate_exc(action_name, aggregate.id, msg) same_az_name = (aggregate.availability_zone == metadata['availability_zone']) if check_no_instances_in_az and not same_az_name: instance_count_by_cell = ( nova_context.scatter_gather_skip_cell0( context, objects.InstanceList.get_count_by_hosts, _hosts)) if any(cnt for cnt in instance_count_by_cell.values()): msg = _("One or more hosts contain instances in this zone") self._raise_invalid_aggregate_exc( action_name, aggregate.id, msg) def _raise_invalid_aggregate_exc(self, action_name, aggregate_id, reason): if action_name == AGGREGATE_ACTION_ADD: raise exception.InvalidAggregateActionAdd( aggregate_id=aggregate_id, reason=reason) elif action_name == AGGREGATE_ACTION_UPDATE: raise exception.InvalidAggregateActionUpdate( aggregate_id=aggregate_id, reason=reason) elif action_name == AGGREGATE_ACTION_UPDATE_META: raise exception.InvalidAggregateActionUpdateMeta( aggregate_id=aggregate_id, reason=reason) elif action_name == AGGREGATE_ACTION_DELETE: raise exception.InvalidAggregateActionDelete( aggregate_id=aggregate_id, reason=reason) raise exception.NovaException( _("Unexpected aggregate action %s") % action_name) def _update_az_cache_for_host(self, context, host_name, aggregate_meta): # Update the availability_zone cache to avoid getting wrong # availability_zone in cache retention time when add/remove # host to/from aggregate. if aggregate_meta and aggregate_meta.get('availability_zone'): availability_zones.update_host_availability_zone_cache(context, host_name) @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; HostMappingNotFound or ComputeHostNotFound # is raised if invalid try: mapping = objects.HostMapping.get_by_host(context, host_name) nova_context.set_target_cell(context, mapping.cell_mapping) service = objects.Service.get_by_compute_host(context, host_name) except exception.HostMappingNotFound: try: # NOTE(danms): This targets our cell service = _find_service_in_cell(context, service_host=host_name) except exception.NotFound: raise exception.ComputeHostNotFound(host=host_name) if service.host != host_name: # NOTE(danms): If we found a service but it is not an # exact match, we may have a case-insensitive backend # database (like mysql) which will end up with us # adding the host-aggregate mapping with a # non-matching hostname. raise exception.ComputeHostNotFound(host=host_name) aggregate = objects.Aggregate.get_by_id(context, aggregate_id) compute_utils.notify_about_aggregate_action( context=context, aggregate=aggregate, action=fields_obj.NotificationAction.ADD_HOST, phase=fields_obj.NotificationPhase.START) self.is_safe_to_update_az(context, aggregate.metadata, hosts=[host_name], aggregate=aggregate) aggregate.add_host(host_name) self.query_client.update_aggregates(context, [aggregate]) try: self.placement_client.aggregate_add_host( context, aggregate.uuid, host_name) except exception.PlacementAPIConnectFailure: # NOTE(jaypipes): Rocky should be able to tolerate the nova-api # service not communicating with the Placement API, so just log a # warning here. # TODO(jaypipes): Remove this in Stein, when placement must be able # to be contacted from the nova-api service. LOG.warning("Failed to associate %s with a placement " "aggregate: %s. There was a failure to communicate " "with the placement service.", host_name, aggregate.uuid) except (exception.ResourceProviderNotFound, exception.ResourceProviderAggregateRetrievalFailed, exception.ResourceProviderUpdateFailed, exception.ResourceProviderUpdateConflict) as err: # NOTE(jaypipes): We don't want a failure perform the mirroring # action in the placement service to be returned to the user (they # probably don't know anything about the placement service and # would just be confused). So, we just log a warning here, noting # that on the next run of nova-manage placement sync_aggregates # things will go back to normal LOG.warning("Failed to associate %s with a placement " "aggregate: %s. This may be corrected after running " "nova-manage placement sync_aggregates.", host_name, err) self._update_az_cache_for_host(context, host_name, aggregate.metadata) # NOTE(jogo): Send message to host to support resource pools self.compute_rpcapi.add_aggregate_host(context, aggregate=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) compute_utils.notify_about_aggregate_action( context=context, aggregate=aggregate, action=fields_obj.NotificationAction.ADD_HOST, phase=fields_obj.NotificationPhase.END) return 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; HostMappingNotFound or ComputeHostNotFound # is raised if invalid mapping = objects.HostMapping.get_by_host(context, host_name) nova_context.set_target_cell(context, mapping.cell_mapping) objects.Service.get_by_compute_host(context, host_name) aggregate = objects.Aggregate.get_by_id(context, aggregate_id) compute_utils.notify_about_aggregate_action( context=context, aggregate=aggregate, action=fields_obj.NotificationAction.REMOVE_HOST, phase=fields_obj.NotificationPhase.START) aggregate.delete_host(host_name) self.query_client.update_aggregates(context, [aggregate]) try: self.placement_client.aggregate_remove_host( context, aggregate.uuid, host_name) except exception.PlacementAPIConnectFailure: # NOTE(jaypipes): Rocky should be able to tolerate the nova-api # service not communicating with the Placement API, so just log a # warning here. # TODO(jaypipes): Remove this in Stein, when placement must be able # to be contacted from the nova-api service. LOG.warning("Failed to remove association of %s with a placement " "aggregate: %s. There was a failure to communicate " "with the placement service.", host_name, aggregate.uuid) except (exception.ResourceProviderNotFound, exception.ResourceProviderAggregateRetrievalFailed, exception.ResourceProviderUpdateFailed, exception.ResourceProviderUpdateConflict) as err: # NOTE(jaypipes): We don't want a failure perform the mirroring # action in the placement service to be returned to the user (they # probably don't know anything about the placement service and # would just be confused). So, we just log a warning here, noting # that on the next run of nova-manage placement sync_aggregates # things will go back to normal LOG.warning("Failed to remove association of %s with a placement " "aggregate: %s. This may be corrected after running " "nova-manage placement sync_aggregates.", host_name, err) self._update_az_cache_for_host(context, host_name, aggregate.metadata) self.compute_rpcapi.remove_aggregate_host(context, aggregate=aggregate, host_param=host_name, host=host_name) compute_utils.notify_about_aggregate_update(context, "removehost.end", aggregate_payload) compute_utils.notify_about_aggregate_action( context=context, aggregate=aggregate, action=fields_obj.NotificationAction.REMOVE_HOST, phase=fields_obj.NotificationPhase.END) return aggregate class KeypairAPI(base.Base): """Subset of the Compute Manager API for managing key pairs.""" get_notifier = functools.partial(rpc.get_notifier, service='api') wrap_exception = functools.partial(exception_wrapper.wrap_exception, get_notifier=get_notifier, binary='nova-api') def _notify(self, context, event_suffix, keypair_name): payload = { 'tenant_id': context.project_id, 'user_id': context.user_id, 'key_name': keypair_name, } notify = self.get_notifier() notify.info(context, 'keypair.%s' % event_suffix, payload) def _validate_new_key_pair(self, context, user_id, key_name, key_type): 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")) try: utils.check_string_length(key_name, min_length=1, max_length=255) except exception.InvalidInput: raise exception.InvalidKeypair( reason=_('Keypair name must be string and between ' '1 and 255 characters long')) try: objects.Quotas.check_deltas(context, {'key_pairs': 1}, user_id) except exception.OverQuota: raise exception.KeypairLimitExceeded() @wrap_exception() def import_key_pair(self, context, user_id, key_name, public_key, key_type=keypair_obj.KEYPAIR_TYPE_SSH): """Import a key pair using an existing public key.""" self._validate_new_key_pair(context, user_id, key_name, key_type) self._notify(context, 'import.start', key_name) keypair = objects.KeyPair(context) keypair.user_id = user_id keypair.name = key_name keypair.type = key_type keypair.fingerprint = None keypair.public_key = public_key compute_utils.notify_about_keypair_action( context=context, keypair=keypair, action=fields_obj.NotificationAction.IMPORT, phase=fields_obj.NotificationPhase.START) fingerprint = self._generate_fingerprint(public_key, key_type) keypair.fingerprint = fingerprint keypair.create() compute_utils.notify_about_keypair_action( context=context, keypair=keypair, action=fields_obj.NotificationAction.IMPORT, phase=fields_obj.NotificationPhase.END) self._notify(context, 'import.end', key_name) return keypair @wrap_exception() def create_key_pair(self, context, user_id, key_name, key_type=keypair_obj.KEYPAIR_TYPE_SSH): """Create a new key pair.""" self._validate_new_key_pair(context, user_id, key_name, key_type) keypair = objects.KeyPair(context) keypair.user_id = user_id keypair.name = key_name keypair.type = key_type keypair.fingerprint = None keypair.public_key = None self._notify(context, 'create.start', key_name) compute_utils.notify_about_keypair_action( context=context, keypair=keypair, action=fields_obj.NotificationAction.CREATE, phase=fields_obj.NotificationPhase.START) private_key, public_key, fingerprint = self._generate_key_pair( user_id, key_type) keypair.fingerprint = fingerprint keypair.public_key = public_key keypair.create() # NOTE(melwitt): We recheck the quota after creating the object to # prevent users from allocating more resources than their allowed quota # in the event of a race. This is configurable because it can be # expensive if strict quota limits are not required in a deployment. if CONF.quota.recheck_quota: try: objects.Quotas.check_deltas(context, {'key_pairs': 0}, user_id) except exception.OverQuota: keypair.destroy() raise exception.KeypairLimitExceeded() compute_utils.notify_about_keypair_action( context=context, keypair=keypair, action=fields_obj.NotificationAction.CREATE, phase=fields_obj.NotificationPhase.END) self._notify(context, 'create.end', key_name) return keypair, private_key def _generate_fingerprint(self, public_key, key_type): if key_type == keypair_obj.KEYPAIR_TYPE_SSH: return crypto.generate_fingerprint(public_key) elif key_type == keypair_obj.KEYPAIR_TYPE_X509: return crypto.generate_x509_fingerprint(public_key) def _generate_key_pair(self, user_id, key_type): if key_type == keypair_obj.KEYPAIR_TYPE_SSH: return crypto.generate_key_pair() elif key_type == keypair_obj.KEYPAIR_TYPE_X509: return crypto.generate_winrm_x509_cert(user_id) @wrap_exception() def delete_key_pair(self, context, user_id, key_name): """Delete a keypair by name.""" self._notify(context, 'delete.start', key_name) keypair = self.get_key_pair(context, user_id, key_name) compute_utils.notify_about_keypair_action( context=context, keypair=keypair, action=fields_obj.NotificationAction.DELETE, phase=fields_obj.NotificationPhase.START) objects.KeyPair.destroy_by_name(context, user_id, key_name) compute_utils.notify_about_keypair_action( context=context, keypair=keypair, action=fields_obj.NotificationAction.DELETE, phase=fields_obj.NotificationPhase.END) self._notify(context, 'delete.end', key_name) def get_key_pairs(self, context, user_id, limit=None, marker=None): """List key pairs.""" return objects.KeyPairList.get_by_user( context, user_id, limit=limit, marker=marker) def get_key_pair(self, context, user_id, key_name): """Get a keypair by name.""" return objects.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 security group api does not use a uuid for the id. id_is_uuid = False def __init__(self, **kwargs): super(SecurityGroupAPI, self).__init__(**kwargs) self.compute_rpcapi = compute_rpcapi.ComputeAPI() 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) utils.check_string_length(val, name=property, min_length=1, max_length=255) 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) 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: objects.Quotas.check_deltas(context, {'security_groups': 1}, context.project_id, user_id=context.user_id) except exception.OverQuota: msg = _("Quota exceeded, too many security groups.") self.raise_over_quota(msg) LOG.info("Create Security Group %s", name) 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) # NOTE(melwitt): We recheck the quota after creating the object to # prevent users from allocating more resources than their allowed quota # in the event of a race. This is configurable because it can be # expensive if strict quota limits are not required in a deployment. if CONF.quota.recheck_quota: try: objects.Quotas.check_deltas(context, {'security_groups': 0}, context.project_id, user_id=context.user_id) except exception.OverQuota: self.db.security_group_destroy(context, group_ref['id']) msg = _("Quota exceeded, too many security groups.") self.raise_over_quota(msg) 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) cols = ['rules'] try: if name: return self.db.security_group_get_by_name(context, context.project_id, name, columns_to_join=cols) elif id: return self.db.security_group_get(context, id, columns_to_join=cols) 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) LOG.info("Delete security group %s", security_group['name']) self.db.security_group_destroy(context, security_group['id']) 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 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']) if instance.host: self.compute_rpcapi.refresh_instance_security_rules( context, instance, instance.host) 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']) if instance.host: self.compute_rpcapi.refresh_instance_security_rules( context, instance, 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 multiple security group rules at once but the EC2 one does. Therefore, this function is written to support both. """ try: objects.Quotas.check_deltas(context, {'security_group_rules': len(vals)}, id) except exception.OverQuota: msg = _("Quota exceeded, too many security group rules.") self.raise_over_quota(msg) msg = ("Security group %(name)s added %(protocol)s ingress " "(%(from_port)s:%(to_port)s)") rules = [] for v in vals: rule = self.db.security_group_rule_create(context, v) # NOTE(melwitt): We recheck the quota after creating the object to # prevent users from allocating more resources than their allowed # quota in the event of a race. This is configurable because it can # be expensive if strict quota limits are not required in a # deployment. if CONF.quota.recheck_quota: try: objects.Quotas.check_deltas(context, {'security_group_rules': 0}, id) except exception.OverQuota: self.db.security_group_rule_destroy(context, rule['id']) msg = _("Quota exceeded, too many security group rules.") self.raise_over_quota(msg) rules.append(rule) LOG.info(msg, {'name': name, 'protocol': rule.protocol, 'from_port': rule.from_port, 'to_port': rule.to_port}) self.trigger_rules_refresh(context, id=id) return rules def remove_rules(self, context, security_group, rule_ids): msg = ("Security group %(name)s removed %(protocol)s ingress " "(%(from_port)s:%(to_port)s)") for rule_id in rule_ids: rule = self.get_rule(context, rule_id) LOG.info(msg, {'name': security_group['name'], 'protocol': rule.protocol, 'from_port': rule.from_port, 'to_port': rule.to_port}) 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): keys = ('cidr', 'from_port', 'to_port', 'protocol') for key in keys: if rule.get(key) != values.get(key): break else: 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): return self.db.security_group_default_rule_get(context, id) def validate_id(self, id): try: return int(id) except ValueError: msg = _("Security group id should be integer") self.raise_invalid_property(msg) def _refresh_instance_security_rules(self, context, instances): for instance in instances: if instance.host is not None: self.compute_rpcapi.refresh_instance_security_rules( context, instance, instance.host) def trigger_rules_refresh(self, context, id): """Called when a rule is added to or removed from a security_group.""" instances = objects.InstanceList.get_by_security_group_id(context, id) self._refresh_instance_security_rules(context, instances) 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. """ instances = objects.InstanceList.get_by_grantee_security_group_ids( context, group_ids) self._refresh_instance_security_rules(context, instances) def get_instance_security_groups(self, context, instance, detailed=False): if detailed: return self.db.security_group_get_by_instance(context, instance.uuid) return [{'name': group.name} for group in instance.security_groups]