# Copyright 2010 United States Government as represented by the # Administrator of the National Aeronautics and Space Administration. # 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. """ Volume manager manages creating, attaching, detaching, and persistent storage. Persistent storage volumes keep their state independent of instances. You can attach to an instance, terminate the instance, spawn a new instance (even one from a different image) and re-attach the volume with the same data intact. **Related Flags** :volume_topic: What :mod:`rpc` topic to listen to (default: `cinder-volume`). :volume_manager: The module name of a class derived from :class:`manager.Manager` (default: :class:`cinder.volume.manager.Manager`). :volume_driver: Used by :class:`Manager`. Defaults to :class:`cinder.volume.drivers.lvm.LVMVolumeDriver`. :volume_group: Name of the group that will contain exported volumes (default: `cinder-volumes`) :num_shell_tries: Number of times to attempt to run commands (default: 3) """ import time from oslo_config import cfg from oslo_log import log as logging import oslo_messaging as messaging from oslo_serialization import jsonutils from oslo_service import periodic_task from oslo_utils import excutils from oslo_utils import importutils from oslo_utils import timeutils from oslo_utils import units from oslo_utils import uuidutils profiler = importutils.try_import('osprofiler.profiler') import six from taskflow import exceptions as tfe from cinder import compute from cinder import context from cinder import exception from cinder import flow_utils from cinder.i18n import _, _LE, _LI, _LW from cinder.image import cache as image_cache from cinder.image import glance from cinder import manager from cinder import objects from cinder.objects import fields from cinder import quota from cinder import utils from cinder import volume as cinder_volume from cinder.volume import configuration as config from cinder.volume.flows.manager import create_volume from cinder.volume.flows.manager import manage_existing from cinder.volume.flows.manager import manage_existing_snapshot from cinder.volume import rpcapi as volume_rpcapi from cinder.volume import utils as vol_utils from cinder.volume import volume_types LOG = logging.getLogger(__name__) QUOTAS = quota.QUOTAS CGQUOTAS = quota.CGQUOTAS VALID_REMOVE_VOL_FROM_CG_STATUS = ('available', 'in-use',) VALID_CREATE_CG_SRC_SNAP_STATUS = ('available',) VALID_CREATE_CG_SRC_CG_STATUS = ('available',) volume_manager_opts = [ cfg.StrOpt('volume_driver', default='cinder.volume.drivers.lvm.LVMVolumeDriver', help='Driver to use for volume creation'), cfg.IntOpt('migration_create_volume_timeout_secs', default=300, help='Timeout for creating the volume to migrate to ' 'when performing volume migration (seconds)'), cfg.BoolOpt('volume_service_inithost_offload', default=False, help='Offload pending volume delete during ' 'volume service startup'), cfg.StrOpt('zoning_mode', help='FC Zoning mode configured'), cfg.StrOpt('extra_capabilities', default='{}', help='User defined capabilities, a JSON formatted string ' 'specifying key/value pairs. The key/value pairs can ' 'be used by the CapabilitiesFilter to select between ' 'backends when requests specify volume types. For ' 'example, specifying a service level or the geographical ' 'location of a backend, then creating a volume type to ' 'allow the user to select by these different ' 'properties.'), ] CONF = cfg.CONF CONF.register_opts(volume_manager_opts) MAPPING = { 'cinder.volume.drivers.huawei.huawei_18000.Huawei18000ISCSIDriver': 'cinder.volume.drivers.huawei.huawei_driver.HuaweiISCSIDriver', 'cinder.volume.drivers.huawei.huawei_driver.Huawei18000ISCSIDriver': 'cinder.volume.drivers.huawei.huawei_driver.HuaweiISCSIDriver', 'cinder.volume.drivers.huawei.huawei_18000.Huawei18000FCDriver': 'cinder.volume.drivers.huawei.huawei_driver.HuaweiFCDriver', 'cinder.volume.drivers.huawei.huawei_driver.Huawei18000FCDriver': 'cinder.volume.drivers.huawei.huawei_driver.HuaweiFCDriver', 'cinder.volume.drivers.fujitsu_eternus_dx_fc.FJDXFCDriver': 'cinder.volume.drivers.fujitsu.eternus_dx_fc.FJDXFCDriver', 'cinder.volume.drivers.fujitsu_eternus_dx_iscsi.FJDXISCSIDriver': 'cinder.volume.drivers.fujitsu.eternus_dx_iscsi.FJDXISCSIDriver', 'cinder.volume.drivers.hds.nfs.HDSNFSDriver': 'cinder.volume.drivers.hitachi.hnas_nfs.HDSNFSDriver', 'cinder.volume.drivers.hds.iscsi.HDSISCSIDriver': 'cinder.volume.drivers.hitachi.hnas_iscsi.HDSISCSIDriver', 'cinder.volume.drivers.san.hp.hp_3par_fc.HP3PARFCDriver': 'cinder.volume.drivers.hpe.hpe_3par_fc.HPE3PARFCDriver', 'cinder.volume.drivers.san.hp.hp_3par_iscsi.HP3PARISCSIDriver': 'cinder.volume.drivers.hpe.hpe_3par_iscsi.HPE3PARISCSIDriver', 'cinder.volume.drivers.san.hp.hp_lefthand_iscsi.HPLeftHandISCSIDriver': 'cinder.volume.drivers.hpe.hpe_lefthand_iscsi.HPELeftHandISCSIDriver', 'cinder.volume.drivers.san.hp.hp_xp_fc.HPXPFCDriver': 'cinder.volume.drivers.hpe.hpe_xp_fc.HPEXPFCDriver', } def locked_volume_operation(f): """Lock decorator for volume operations. Takes a named lock prior to executing the operation. The lock is named with the operation executed and the id of the volume. This lock can then be used by other operations to avoid operation conflicts on shared volumes. Example use: If a volume operation uses this decorator, it will block until the named lock is free. This is used to protect concurrent operations on the same volume e.g. delete VolA while create volume VolB from VolA is in progress. """ def lvo_inner1(inst, context, volume_id, **kwargs): @utils.synchronized("%s-%s" % (volume_id, f.__name__), external=True) def lvo_inner2(*_args, **_kwargs): return f(*_args, **_kwargs) return lvo_inner2(inst, context, volume_id, **kwargs) return lvo_inner1 def locked_detach_operation(f): """Lock decorator for volume detach operations. Takes a named lock prior to executing the detach call. The lock is named with the operation executed and the id of the volume. This lock can then be used by other operations to avoid operation conflicts on shared volumes. This locking mechanism is only for detach calls. We can't use the locked_volume_operation, because detach requires an additional attachment_id in the parameter list. """ def ldo_inner1(inst, context, volume_id, attachment_id=None, **kwargs): @utils.synchronized("%s-%s" % (volume_id, f.__name__), external=True) def ldo_inner2(*_args, **_kwargs): return f(*_args, **_kwargs) return ldo_inner2(inst, context, volume_id, attachment_id, **kwargs) return ldo_inner1 def locked_snapshot_operation(f): """Lock decorator for snapshot operations. Takes a named lock prior to executing the operation. The lock is named with the operation executed and the id of the snapshot. This lock can then be used by other operations to avoid operation conflicts on shared snapshots. Example use: If a snapshot operation uses this decorator, it will block until the named lock is free. This is used to protect concurrent operations on the same snapshot e.g. delete SnapA while create volume VolA from SnapA is in progress. """ def lso_inner1(inst, context, snapshot, **kwargs): @utils.synchronized("%s-%s" % (snapshot.id, f.__name__), external=True) def lso_inner2(*_args, **_kwargs): return f(*_args, **_kwargs) return lso_inner2(inst, context, snapshot, **kwargs) return lso_inner1 class VolumeManager(manager.SchedulerDependentManager): """Manages attachable block storage devices.""" RPC_API_VERSION = '1.37' target = messaging.Target(version=RPC_API_VERSION) def __init__(self, volume_driver=None, service_name=None, *args, **kwargs): """Load the driver from the one specified in args, or from flags.""" # update_service_capabilities needs service_name to be volume super(VolumeManager, self).__init__(service_name='volume', *args, **kwargs) self.configuration = config.Configuration(volume_manager_opts, config_group=service_name) self.stats = {} if not volume_driver: # Get from configuration, which will get the default # if its not using the multi backend volume_driver = self.configuration.volume_driver if volume_driver in MAPPING: LOG.warning(_LW("Driver path %s is deprecated, update your " "configuration to the new path."), volume_driver) volume_driver = MAPPING[volume_driver] vol_db_empty = self._set_voldb_empty_at_startup_indicator( context.get_admin_context()) LOG.debug("Cinder Volume DB check: vol_db_empty=%s", vol_db_empty) self.driver = importutils.import_object( volume_driver, configuration=self.configuration, db=self.db, host=self.host, is_vol_db_empty=vol_db_empty) if CONF.profiler.profiler_enabled and profiler is not None: self.driver = profiler.trace_cls("driver")(self.driver) try: self.extra_capabilities = jsonutils.loads( self.driver.configuration.extra_capabilities) except AttributeError: self.extra_capabilities = {} except Exception: with excutils.save_and_reraise_exception(): LOG.error(_LE("Invalid JSON: %s"), self.driver.configuration.extra_capabilities) if self.driver.configuration.safe_get( 'image_volume_cache_enabled'): max_cache_size = self.driver.configuration.safe_get( 'image_volume_cache_max_size_gb') max_cache_entries = self.driver.configuration.safe_get( 'image_volume_cache_max_count') self.image_volume_cache = image_cache.ImageVolumeCache( self.db, cinder_volume.API(), max_cache_size, max_cache_entries ) LOG.info(_LI('Image-volume cache enabled for host %(host)s.'), {'host': self.host}) else: LOG.info(_LI('Image-volume cache disabled for host %(host)s.'), {'host': self.host}) self.image_volume_cache = None def _add_to_threadpool(self, func, *args, **kwargs): self._tp.spawn_n(func, *args, **kwargs) def _count_allocated_capacity(self, ctxt, volume): pool = vol_utils.extract_host(volume['host'], 'pool') if pool is None: # No pool name encoded in host, so this is a legacy # volume created before pool is introduced, ask # driver to provide pool info if it has such # knowledge and update the DB. try: pool = self.driver.get_pool(volume) except Exception: LOG.exception(_LE('Fetch volume pool name failed.'), resource=volume) return if pool: new_host = vol_utils.append_host(volume['host'], pool) self.db.volume_update(ctxt, volume['id'], {'host': new_host}) else: # Otherwise, put them into a special fixed pool with # volume_backend_name being the pool name, if # volume_backend_name is None, use default pool name. # This is only for counting purpose, doesn't update DB. pool = (self.driver.configuration.safe_get( 'volume_backend_name') or vol_utils.extract_host( volume['host'], 'pool', True)) try: pool_stat = self.stats['pools'][pool] except KeyError: # First volume in the pool self.stats['pools'][pool] = dict( allocated_capacity_gb=0) pool_stat = self.stats['pools'][pool] pool_sum = pool_stat['allocated_capacity_gb'] pool_sum += volume['size'] self.stats['pools'][pool]['allocated_capacity_gb'] = pool_sum self.stats['allocated_capacity_gb'] += volume['size'] def _set_voldb_empty_at_startup_indicator(self, ctxt): """Determine if the Cinder volume DB is empty. A check of the volume DB is done to determine whether it is empty or not at this point. :param ctxt: our working context """ vol_entries = self.db.volume_get_all(ctxt, None, 1, filters=None) if len(vol_entries) == 0: LOG.info(_LI("Determined volume DB was empty at startup.")) return True else: LOG.info(_LI("Determined volume DB was not empty at startup.")) return False def _sync_provider_info(self, ctxt, volumes, snapshots): # NOTE(jdg): For now this just updates provider_id, we can add more # add more items to the update if theyr'e releveant but we need # to be safe in what we allow and add a list of allowed keys # things that make sense are provider_*, replication_status etc updates, snapshot_updates = self.driver.update_provider_info( volumes, snapshots) host_vols = utils.list_of_dicts_to_dict(volumes, 'id') for u in updates or []: update = {} # NOTE(JDG): Make sure returned item is in this hosts volumes if host_vols.get(u['id'], None): update['provider_id'] = u['provider_id'] if update: self.db.volume_update(ctxt, u['id'], update) # NOTE(jdg): snapshots are slighty harder, because # we do not have a host column and of course no get # all by host, so we use a get_all and bounce our # response off of it if snapshot_updates: cinder_snaps = self.db.snapshot_get_all(ctxt) for snap in cinder_snaps: # NOTE(jdg): For now we only update those that have no entry if not snap.get('provider_id', None): update = ( [updt for updt in snapshot_updates if updt['id'] == snap['id']][0]) if update: self.db.snapshot_update( ctxt, updt['id'], {'provider_id': updt['provider_id']}) def init_host(self): """Perform any required initialization.""" ctxt = context.get_admin_context() LOG.info(_LI("Starting volume driver %(driver_name)s (%(version)s)"), {'driver_name': self.driver.__class__.__name__, 'version': self.driver.get_version()}) try: self.driver.do_setup(ctxt) self.driver.check_for_setup_error() except Exception: LOG.exception(_LE("Failed to initialize driver."), resource={'type': 'driver', 'id': self.__class__.__name__}) # we don't want to continue since we failed # to initialize the driver correctly. return # Initialize backend capabilities list self.driver.init_capabilities() volumes = objects.VolumeList.get_all_by_host(ctxt, self.host) snapshots = self.db.snapshot_get_by_host(ctxt, self.host) self._sync_provider_info(ctxt, volumes, snapshots) # FIXME volume count for exporting is wrong try: self.stats['pools'] = {} self.stats.update({'allocated_capacity_gb': 0}) for volume in volumes: # available volume should also be counted into allocated if volume['status'] in ['in-use', 'available']: # calculate allocated capacity for driver self._count_allocated_capacity(ctxt, volume) try: if volume['status'] in ['in-use']: self.driver.ensure_export(ctxt, volume) except Exception: LOG.exception(_LE("Failed to re-export volume, " "setting to ERROR."), resource=volume) volume.status = 'error' volume.save() elif volume['status'] in ('downloading', 'creating'): LOG.warning(_LW("Detected volume stuck " "in %(curr_status)s " "status, setting to ERROR."), {'curr_status': volume['status']}, resource=volume) if volume['status'] == 'downloading': self.driver.clear_download(ctxt, volume) volume.status = 'error' volume.save() elif volume.status == 'uploading': # Set volume status to available or in-use. self.db.volume_update_status_based_on_attachment( ctxt, volume.id) else: pass snapshots = objects.SnapshotList.get_by_host( ctxt, self.host, {'status': 'creating'}) for snapshot in snapshots: LOG.warning(_LW("Detected snapshot stuck in creating " "status, setting to ERROR."), resource=snapshot) snapshot.status = 'error' snapshot.save() except Exception: LOG.exception(_LE("Error during re-export on driver init."), resource=volume) return self.driver.set_throttle() # at this point the driver is considered initialized. self.driver.set_initialized() for volume in volumes: if volume['status'] == 'deleting': if CONF.volume_service_inithost_offload: # Offload all the pending volume delete operations to the # threadpool to prevent the main volume service thread # from being blocked. self._add_to_threadpool(self.delete_volume, ctxt, volume['id']) else: # By default, delete volumes sequentially self.delete_volume(ctxt, volume['id']) LOG.info(_LI("Resume volume delete completed successfully."), resource=volume) # collect and publish service capabilities self.publish_service_capabilities(ctxt) # conditionally run replication status task # FIXME(jdg): This should go away or be handled differently # if/when we're ready for V2 replication stats = self.driver.get_volume_stats(refresh=True) if stats and stats.get('replication', False): @periodic_task.periodic_task def run_replication_task(self, ctxt): self._update_replication_relationship_status(ctxt) self.add_periodic_task(run_replication_task) LOG.info(_LI("Driver initialization completed successfully."), resource={'type': 'driver', 'id': self.driver.__class__.__name__}) def is_working(self): """Return if Manager is ready to accept requests. This is to inform Service class that in case of volume driver initialization failure the manager is actually down and not ready to accept any requests. """ return self.driver.initialized def create_volume(self, context, volume_id, request_spec=None, filter_properties=None, allow_reschedule=True, volume=None): """Creates the volume.""" # FIXME(thangp): Remove this in v2.0 of RPC API. if volume is None: # For older clients, mimic the old behavior and look up the volume # by its volume_id. volume = objects.Volume.get_by_id(context, volume_id) context_elevated = context.elevated() if filter_properties is None: filter_properties = {} if request_spec is None: request_spec = {} try: # NOTE(flaper87): Driver initialization is # verified by the task itself. flow_engine = create_volume.get_flow( context_elevated, self, self.db, self.driver, self.scheduler_rpcapi, self.host, volume.id, allow_reschedule, context, request_spec, filter_properties, image_volume_cache=self.image_volume_cache, ) except Exception: msg = _("Create manager volume flow failed.") LOG.exception(msg, resource={'type': 'volume', 'id': volume.id}) raise exception.CinderException(msg) snapshot_id = request_spec.get('snapshot_id') source_volid = request_spec.get('source_volid') source_replicaid = request_spec.get('source_replicaid') if snapshot_id is not None: # Make sure the snapshot is not deleted until we are done with it. locked_action = "%s-%s" % (snapshot_id, 'delete_snapshot') elif source_volid is not None: # Make sure the volume is not deleted until we are done with it. locked_action = "%s-%s" % (source_volid, 'delete_volume') elif source_replicaid is not None: # Make sure the volume is not deleted until we are done with it. locked_action = "%s-%s" % (source_replicaid, 'delete_volume') else: locked_action = None def _run_flow(): # This code executes create volume flow. If something goes wrong, # flow reverts all job that was done and reraises an exception. # Otherwise, all data that was generated by flow becomes available # in flow engine's storage. with flow_utils.DynamicLogListener(flow_engine, logger=LOG): flow_engine.run() @utils.synchronized(locked_action, external=True) def _run_flow_locked(): _run_flow() # NOTE(dulek): Flag to indicate if volume was rescheduled. Used to # decide if allocated_capacity should be incremented. rescheduled = False vol_ref = None try: if locked_action is None: _run_flow() else: _run_flow_locked() finally: try: vol_ref = flow_engine.storage.fetch('volume_ref') except tfe.NotFound: # If there's no vol_ref, then flow is reverted. Lets check out # if rescheduling occurred. try: rescheduled = flow_engine.storage.get_revert_result( create_volume.OnFailureRescheduleTask.make_name( [create_volume.ACTION])) except tfe.NotFound: pass if not rescheduled: if not vol_ref: # Flow was reverted and not rescheduled, fetching # volume_ref from the DB, because it will be needed. vol_ref = objects.Volume.get_by_id(context, volume.id) # NOTE(dulek): Volume wasn't rescheduled so we need to update # volume stats as these are decremented on delete. self._update_allocated_capacity(vol_ref) LOG.info(_LI("Created volume successfully."), resource=vol_ref) return vol_ref.id @locked_volume_operation def delete_volume(self, context, volume_id, unmanage_only=False, volume=None): """Deletes and unexports volume. 1. Delete a volume(normal case) Delete a volume and update quotas. 2. Delete a migration volume If deleting the volume in a migration, we want to skip quotas but we need database updates for the volume. """ context = context.elevated() try: # FIXME(thangp): Remove this in v2.0 of RPC API. if volume is None: volume = objects.Volume.get_by_id(context, volume_id) else: volume.refresh() except exception.VolumeNotFound: # NOTE(thingee): It could be possible for a volume to # be deleted when resuming deletes from init_host(). LOG.debug("Attempted delete of non-existent volume: %s", volume_id) return True if context.project_id != volume.project_id: project_id = volume.project_id else: project_id = context.project_id if volume['attach_status'] == "attached": # Volume is still attached, need to detach first raise exception.VolumeAttached(volume_id=volume_id) if vol_utils.extract_host(volume.host) != self.host: raise exception.InvalidVolume( reason=_("volume is not local to this node")) # The status 'deleting' is not included, because it only applies to # the source volume to be deleted after a migration. No quota # needs to be handled for it. is_migrating = volume.migration_status not in (None, 'error', 'success') is_migrating_dest = (is_migrating and volume.migration_status.startswith( 'target:')) self._notify_about_volume_usage(context, volume, "delete.start") try: # NOTE(flaper87): Verify the driver is enabled # before going forward. The exception will be caught # and the volume status updated. utils.require_driver_initialized(self.driver) self.driver.remove_export(context, volume) if unmanage_only: self.driver.unmanage(volume) else: self.driver.delete_volume(volume) except exception.VolumeIsBusy: LOG.error(_LE("Unable to delete busy volume."), resource=volume) # If this is a destination volume, we have to clear the database # record to avoid user confusion. self._clear_db(context, is_migrating_dest, volume, 'available') return True except Exception: with excutils.save_and_reraise_exception(): # If this is a destination volume, we have to clear the # database record to avoid user confusion. self._clear_db(context, is_migrating_dest, volume, 'error_deleting') # If deleting source/destination volume in a migration, we should # skip quotas. if not is_migrating: # Get reservations try: reserve_opts = {'volumes': -1, 'gigabytes': -volume.size} QUOTAS.add_volume_type_opts(context, reserve_opts, volume.volume_type_id) reservations = QUOTAS.reserve(context, project_id=project_id, **reserve_opts) except Exception: reservations = None LOG.exception(_LE("Failed to update usages deleting volume."), resource=volume) # Delete glance metadata if it exists self.db.volume_glance_metadata_delete_by_volume(context, volume_id) volume.destroy() # If deleting source/destination volume in a migration, we should # skip quotas. if not is_migrating: self._notify_about_volume_usage(context, volume, "delete.end") # Commit the reservations if reservations: QUOTAS.commit(context, reservations, project_id=project_id) pool = vol_utils.extract_host(volume.host, 'pool') if pool is None: # Legacy volume, put them into default pool pool = self.driver.configuration.safe_get( 'volume_backend_name') or vol_utils.extract_host( volume.host, 'pool', True) size = volume.size try: self.stats['pools'][pool]['allocated_capacity_gb'] -= size except KeyError: self.stats['pools'][pool] = dict( allocated_capacity_gb=-size) self.publish_service_capabilities(context) LOG.info(_LI("Deleted volume successfully."), resource=volume) return True def _clear_db(self, context, is_migrating_dest, volume_ref, status): # This method is called when driver.unmanage() or # driver.delete_volume() fails in delete_volume(), so it is already # in the exception handling part. if is_migrating_dest: volume_ref.destroy() LOG.error(_LE("Unable to delete the destination volume " "during volume migration, (NOTE: database " "record needs to be deleted)."), resource=volume_ref) else: volume_ref.status = status volume_ref.save() def create_snapshot(self, context, volume_id, snapshot): """Creates and exports the snapshot.""" context = context.elevated() self._notify_about_snapshot_usage( context, snapshot, "create.start") try: # NOTE(flaper87): Verify the driver is enabled # before going forward. The exception will be caught # and the snapshot status updated. utils.require_driver_initialized(self.driver) # Pass context so that drivers that want to use it, can, # but it is not a requirement for all drivers. snapshot.context = context model_update = self.driver.create_snapshot(snapshot) if model_update: snapshot.update(model_update) snapshot.save() except Exception: with excutils.save_and_reraise_exception(): snapshot.status = 'error' snapshot.save() vol_ref = self.db.volume_get(context, volume_id) if vol_ref.bootable: try: self.db.volume_glance_metadata_copy_to_snapshot( context, snapshot.id, volume_id) except exception.GlanceMetadataNotFound: # If volume is not created from image, No glance metadata # would be available for that volume in # volume glance metadata table pass except exception.CinderException as ex: LOG.exception(_LE("Failed updating snapshot" " metadata using the provided volumes" " %(volume_id)s metadata"), {'volume_id': volume_id}, resource=snapshot) snapshot.status = 'error' snapshot.save() raise exception.MetadataCopyFailure(reason=six.text_type(ex)) snapshot.status = 'available' snapshot.progress = '100%' snapshot.save() self._notify_about_snapshot_usage(context, snapshot, "create.end") LOG.info(_LI("Create snapshot completed successfully"), resource=snapshot) return snapshot.id @locked_snapshot_operation def delete_snapshot(self, context, snapshot, unmanage_only=False): """Deletes and unexports snapshot.""" context = context.elevated() snapshot._context = context project_id = snapshot.project_id self._notify_about_snapshot_usage( context, snapshot, "delete.start") try: # NOTE(flaper87): Verify the driver is enabled # before going forward. The exception will be caught # and the snapshot status updated. utils.require_driver_initialized(self.driver) # Pass context so that drivers that want to use it, can, # but it is not a requirement for all drivers. snapshot.context = context snapshot.save() if unmanage_only: self.driver.unmanage_snapshot(snapshot) else: self.driver.delete_snapshot(snapshot) except exception.SnapshotIsBusy: LOG.error(_LE("Delete snapshot failed, due to snapshot busy."), resource=snapshot) snapshot.status = 'available' snapshot.save() return True except Exception: with excutils.save_and_reraise_exception(): snapshot.status = 'error_deleting' snapshot.save() # Get reservations try: if CONF.no_snapshot_gb_quota: reserve_opts = {'snapshots': -1} else: reserve_opts = { 'snapshots': -1, 'gigabytes': -snapshot.volume_size, } volume_ref = self.db.volume_get(context, snapshot.volume_id) QUOTAS.add_volume_type_opts(context, reserve_opts, volume_ref.get('volume_type_id')) reservations = QUOTAS.reserve(context, project_id=project_id, **reserve_opts) except Exception: reservations = None LOG.exception(_LE("Update snapshot usages failed."), resource=snapshot) self.db.volume_glance_metadata_delete_by_snapshot(context, snapshot.id) snapshot.destroy() self._notify_about_snapshot_usage(context, snapshot, "delete.end") # Commit the reservations if reservations: QUOTAS.commit(context, reservations, project_id=project_id) LOG.info(_LI("Delete snapshot completed successfully"), resource=snapshot) return True def attach_volume(self, context, volume_id, instance_uuid, host_name, mountpoint, mode): """Updates db to show volume is attached.""" @utils.synchronized(volume_id, external=True) def do_attach(): # check the volume status before attaching volume = self.db.volume_get(context, volume_id) volume_metadata = self.db.volume_admin_metadata_get( context.elevated(), volume_id) if volume['status'] == 'attaching': if (volume_metadata.get('attached_mode') and volume_metadata.get('attached_mode') != mode): raise exception.InvalidVolume( reason=_("being attached by different mode")) if (volume['status'] == 'in-use' and not volume['multiattach'] and not volume['migration_status']): raise exception.InvalidVolume( reason=_("volume is already attached")) attachment = None host_name_sanitized = utils.sanitize_hostname( host_name) if host_name else None if instance_uuid: attachment = \ self.db.volume_attachment_get_by_instance_uuid( context, volume_id, instance_uuid) else: attachment = \ self.db.volume_attachment_get_by_host(context, volume_id, host_name_sanitized) if attachment is not None: self.db.volume_update(context, volume_id, {'status': 'in-use'}) return self._notify_about_volume_usage(context, volume, "attach.start") values = {'volume_id': volume_id, 'attach_status': 'attaching', } attachment = self.db.volume_attach(context.elevated(), values) volume_metadata = self.db.volume_admin_metadata_update( context.elevated(), volume_id, {"attached_mode": mode}, False) attachment_id = attachment['id'] if instance_uuid and not uuidutils.is_uuid_like(instance_uuid): self.db.volume_attachment_update(context, attachment_id, {'attach_status': 'error_attaching'}) raise exception.InvalidUUID(uuid=instance_uuid) volume = self.db.volume_get(context, volume_id) if volume_metadata.get('readonly') == 'True' and mode != 'ro': self.db.volume_update(context, volume_id, {'status': 'error_attaching'}) raise exception.InvalidVolumeAttachMode(mode=mode, volume_id=volume_id) try: # NOTE(flaper87): Verify the driver is enabled # before going forward. The exception will be caught # and the volume status updated. utils.require_driver_initialized(self.driver) LOG.debug('Attaching volume %(volume_id)s to instance ' '%(instance)s at mountpoint %(mount)s on host ' '%(host)s.', {'volume_id': volume_id, 'instance': instance_uuid, 'mount': mountpoint, 'host': host_name_sanitized}, resource=volume) self.driver.attach_volume(context, volume, instance_uuid, host_name_sanitized, mountpoint) except Exception: with excutils.save_and_reraise_exception(): self.db.volume_attachment_update( context, attachment_id, {'attach_status': 'error_attaching'}) volume = self.db.volume_attached(context.elevated(), attachment_id, instance_uuid, host_name_sanitized, mountpoint, mode) self._notify_about_volume_usage(context, volume, "attach.end") LOG.info(_LI("Attach volume completed successfully."), resource=volume) return self.db.volume_attachment_get(context, attachment_id) return do_attach() @locked_detach_operation def detach_volume(self, context, volume_id, attachment_id=None): """Updates db to show volume is detached.""" # TODO(vish): refactor this into a more general "unreserve" volume = self.db.volume_get(context, volume_id) attachment = None if attachment_id: try: attachment = self.db.volume_attachment_get(context, attachment_id) except exception.VolumeAttachmentNotFound: LOG.info(_LI("Volume detach called, but volume not attached."), resource=volume) # We need to make sure the volume status is set to the correct # status. It could be in detaching status now, and we don't # want to leave it there. self.db.volume_detached(context, volume_id, attachment_id) return else: # We can try and degrade gracefully here by trying to detach # a volume without the attachment_id here if the volume only has # one attachment. This is for backwards compatibility. attachments = self.db.volume_attachment_get_used_by_volume_id( context, volume_id) if len(attachments) > 1: # There are more than 1 attachments for this volume # we have to have an attachment id. msg = _("Detach volume failed: More than one attachment, " "but no attachment_id provided.") LOG.error(msg, resource=volume) raise exception.InvalidVolume(reason=msg) elif len(attachments) == 1: attachment = attachments[0] else: # there aren't any attachments for this volume. # so set the status to available and move on. LOG.info(_LI("Volume detach called, but volume not attached."), resource=volume) self.db.volume_update(context, volume_id, {'status': 'available', 'attach_status': 'detached'}) return self._notify_about_volume_usage(context, volume, "detach.start") try: # NOTE(flaper87): Verify the driver is enabled # before going forward. The exception will be caught # and the volume status updated. utils.require_driver_initialized(self.driver) LOG.debug('Detaching volume %(volume_id)s from instance ' '%(instance)s.', {'volume_id': volume_id, 'instance': attachment.get('instance_uuid')}, resource=volume) self.driver.detach_volume(context, volume, attachment) except Exception: with excutils.save_and_reraise_exception(): self.db.volume_attachment_update( context, attachment.get('id'), {'attach_status': 'error_detaching'}) self.db.volume_detached(context.elevated(), volume_id, attachment.get('id')) self.db.volume_admin_metadata_delete(context.elevated(), volume_id, 'attached_mode') # NOTE(jdg): We used to do an ensure export here to # catch upgrades while volumes were attached (E->F) # this was necessary to convert in-use volumes from # int ID's to UUID's. Don't need this any longer # We're going to remove the export here # (delete the iscsi target) volume = self.db.volume_get(context, volume_id) try: utils.require_driver_initialized(self.driver) self.driver.remove_export(context.elevated(), volume) except exception.DriverNotInitialized: with excutils.save_and_reraise_exception(): LOG.exception(_LE("Detach volume failed, due to " "uninitialized driver."), resource=volume) except Exception as ex: LOG.exception(_LE("Detach volume failed, due to " "remove-export failure."), resource=volume) raise exception.RemoveExportException(volume=volume_id, reason=six.text_type(ex)) self._notify_about_volume_usage(context, volume, "detach.end") LOG.info(_LI("Detach volume completed successfully."), resource=volume) def _create_image_cache_volume_entry(self, ctx, volume_ref, image_id, image_meta): """Create a new image-volume and cache entry for it. This assumes that the image has already been downloaded and stored in the volume described by the volume_ref. """ image_volume = None try: if not self.image_volume_cache.ensure_space( ctx, volume_ref['size'], volume_ref['host']): LOG.warning(_LW('Unable to ensure space for image-volume in' ' cache. Will skip creating entry for image' ' %(image)s on host %(host)s.'), {'image': image_id, 'host': volume_ref['host']}) return image_volume = self._clone_image_volume(ctx, volume_ref, image_meta) if not image_volume: LOG.warning(_LW('Unable to clone image_volume for image ' '%(image_id)s will not create cache entry.'), {'image_id': image_id}) return self.image_volume_cache.create_cache_entry( ctx, image_volume, image_id, image_meta ) except exception.CinderException as e: LOG.warning(_LW('Failed to create new image-volume cache entry.' ' Error: %(exception)s'), {'exception': e}) if image_volume: self.delete_volume(ctx, image_volume.id) def _clone_image_volume(self, ctx, volume, image_meta): volume_type_id = volume.get('volume_type_id') reserve_opts = {'volumes': 1, 'gigabytes': volume.size} QUOTAS.add_volume_type_opts(ctx, reserve_opts, volume_type_id) reservations = QUOTAS.reserve(ctx, **reserve_opts) try: new_vol_values = dict(volume.items()) new_vol_values.pop('id', None) new_vol_values.pop('_name_id', None) new_vol_values.pop('name_id', None) new_vol_values.pop('volume_type', None) new_vol_values.pop('name', None) new_vol_values['volume_type_id'] = volume_type_id new_vol_values['attach_status'] = 'detached' new_vol_values['status'] = 'creating' new_vol_values['project_id'] = ctx.project_id new_vol_values['display_name'] = 'image-%s' % image_meta['id'] new_vol_values['source_volid'] = volume.id LOG.debug('Creating image volume entry: %s.', new_vol_values) image_volume = objects.Volume(context=ctx, **new_vol_values) image_volume.create() except Exception as ex: LOG.exception(_LE('Create clone_image_volume: %(volume_id)s' 'for image %(image_id)s, ' 'failed (Exception: %(except)s)'), {'volume_id': volume.id, 'image_id': image_meta['id'], 'except': ex}) QUOTAS.rollback(ctx, reservations) return False QUOTAS.commit(ctx, reservations, project_id=new_vol_values['project_id']) try: self.create_volume(ctx, image_volume.id, allow_reschedule=False) image_volume = self.db.volume_get(ctx, image_volume.id) if image_volume.status != 'available': raise exception.InvalidVolume(_('Volume is not available.')) self.db.volume_admin_metadata_update(ctx.elevated(), image_volume.id, {'readonly': 'True'}, False) return image_volume except exception.CinderException: LOG.exception(_LE('Failed to clone volume %(volume_id)s for ' 'image %(image_id)s.'), {'volume_id': volume.id, 'image_id': image_meta['id']}) try: self.delete_volume(ctx, image_volume.id) except exception.CinderException: LOG.exception(_LE('Could not delete the image volume %(id)s.'), {'id': volume.id}) return False def _clone_image_volume_and_add_location(self, ctx, volume, image_service, image_meta): """Create a cloned volume and register its location to the image.""" if (image_meta['disk_format'] != 'raw' or image_meta['container_format'] != 'bare'): return False image_volume_context = ctx if self.driver.configuration.image_upload_use_internal_tenant: internal_ctx = context.get_internal_tenant_context() if internal_ctx: image_volume_context = internal_ctx image_volume = self._clone_image_volume(image_volume_context, volume, image_meta) if not image_volume: return False uri = 'cinder://%s' % image_volume.id image_registered = None try: image_registered = image_service.add_location( ctx, image_meta['id'], uri, {}) except (exception.NotAuthorized, exception.Invalid, exception.NotFound): LOG.exception(_LE('Failed to register image volume location ' '%(uri)s.'), {'uri': uri}) if not image_registered: LOG.warning(_LW('Registration of image volume URI %(uri)s ' 'to image %(image_id)s failed.'), {'uri': uri, 'image_id': image_meta['id']}) try: self.delete_volume(image_volume_context, image_volume) except exception.CinderException: LOG.exception(_LE('Could not delete failed image volume ' '%(id)s.'), {'id': image_volume.id}) return False image_volume_meta = {'glance_image_id': image_meta['id'], 'image_owner': ctx.project_id} self.db.volume_metadata_update(image_volume_context, image_volume.id, image_volume_meta, False) return True def copy_volume_to_image(self, context, volume_id, image_meta): """Uploads the specified volume to Glance. image_meta is a dictionary containing the following keys: 'id', 'container_format', 'disk_format' """ payload = {'volume_id': volume_id, 'image_id': image_meta['id']} image_service = None try: volume = self.db.volume_get(context, volume_id) # NOTE(flaper87): Verify the driver is enabled # before going forward. The exception will be caught # and the volume status updated. utils.require_driver_initialized(self.driver) image_service, image_id = \ glance.get_remote_image_service(context, image_meta['id']) if (self.driver.configuration.image_upload_use_cinder_backend and self._clone_image_volume_and_add_location( context, volume, image_service, image_meta)): LOG.debug("Registered image volume location to glance " "image-id: %(image_id)s.", {'image_id': image_meta['id']}, resource=volume) else: self.driver.copy_volume_to_image(context, volume, image_service, image_meta) LOG.debug("Uploaded volume to glance image-id: %(image_id)s.", {'image_id': image_meta['id']}, resource=volume) except Exception as error: LOG.error(_LE("Upload volume to image encountered an error " "(image-id: %(image_id)s)."), {'image_id': image_meta['id']}, resource=volume) if image_service is not None: # Deletes the image if it is in queued or saving state self._delete_image(context, image_meta['id'], image_service) with excutils.save_and_reraise_exception(): payload['message'] = six.text_type(error) finally: self.db.volume_update_status_based_on_attachment(context, volume_id) LOG.info(_LI("Copy volume to image completed successfully."), resource=volume) def _delete_image(self, context, image_id, image_service): """Deletes an image stuck in queued or saving state.""" try: image_meta = image_service.show(context, image_id) image_status = image_meta.get('status') if image_status == 'queued' or image_status == 'saving': LOG.warning(_LW("Deleting image in unexpected status: " "%(image_status)s."), {'image_status': image_status}, resource={'type': 'image', 'id': image_id}) image_service.delete(context, image_id) except Exception: LOG.warning(_LW("Image delete encountered an error."), exc_info=True, resource={'type': 'image', 'id': image_id}) def _driver_data_namespace(self): return self.driver.configuration.safe_get('driver_data_namespace') \ or self.driver.configuration.safe_get('volume_backend_name') \ or self.driver.__class__.__name__ def _get_driver_initiator_data(self, context, connector): data = None initiator = connector.get('initiator', False) if initiator: if not isinstance(initiator, six.string_types): msg = _('Invalid initiator value received') raise exception.InvalidInput(reason=msg) namespace = self._driver_data_namespace() try: data = self.db.driver_initiator_data_get( context, initiator, namespace ) except exception.CinderException: LOG.exception(_LE("Failed to get driver initiator data for" " initiator %(initiator)s and namespace" " %(namespace)s"), {'initiator': initiator, 'namespace': namespace}) raise return data def _save_driver_initiator_data(self, context, connector, model_update): if connector.get('initiator', False) and model_update: namespace = self._driver_data_namespace() try: self.db.driver_initiator_data_update(context, connector['initiator'], namespace, model_update) except exception.CinderException: LOG.exception(_LE("Failed to update initiator data for" " initiator %(initiator)s and backend" " %(backend)s"), {'initiator': connector['initiator'], 'backend': namespace}) raise def initialize_connection(self, context, volume_id, connector): """Prepare volume for connection from host represented by connector. This method calls the driver initialize_connection and returns it to the caller. The connector parameter is a dictionary with information about the host that will connect to the volume in the following format:: { 'ip': ip, 'initiator': initiator, } ip: the ip address of the connecting machine initiator: the iscsi initiator name of the connecting machine. This can be None if the connecting machine does not support iscsi connections. driver is responsible for doing any necessary security setup and returning a connection_info dictionary in the following format:: { 'driver_volume_type': driver_volume_type, 'data': data, } driver_volume_type: a string to identify the type of volume. This can be used by the calling code to determine the strategy for connecting to the volume. This could be 'iscsi', 'rbd', 'sheepdog', etc. data: this is the data that the calling code will use to connect to the volume. Keep in mind that this will be serialized to json in various places, so it should not contain any non-json data types. """ # NOTE(flaper87): Verify the driver is enabled # before going forward. The exception will be caught # and the volume status updated. utils.require_driver_initialized(self.driver) volume = self.db.volume_get(context, volume_id) model_update = None try: self.driver.validate_connector(connector) except exception.InvalidConnectorException as err: raise exception.InvalidInput(reason=six.text_type(err)) except Exception as err: err_msg = (_("Validate volume connection failed " "(error: %(err)s).") % {'err': six.text_type(err)}) LOG.error(err_msg, resource=volume) raise exception.VolumeBackendAPIException(data=err_msg) try: model_update = self.driver.create_export(context.elevated(), volume, connector) except exception.CinderException: err_msg = (_("Create export for volume failed.")) LOG.exception(err_msg, resource=volume) raise exception.VolumeBackendAPIException(data=err_msg) try: if model_update: volume = self.db.volume_update(context, volume_id, model_update) except exception.CinderException as ex: LOG.exception(_LE("Model update failed."), resource=volume) raise exception.ExportFailure(reason=six.text_type(ex)) initiator_data = self._get_driver_initiator_data(context, connector) try: if initiator_data: conn_info = self.driver.initialize_connection(volume, connector, initiator_data) else: conn_info = self.driver.initialize_connection(volume, connector) except Exception as err: err_msg = (_("Driver initialize connection failed " "(error: %(err)s).") % {'err': six.text_type(err)}) LOG.error(err_msg, resource=volume) self.driver.remove_export(context.elevated(), volume) raise exception.VolumeBackendAPIException(data=err_msg) initiator_update = conn_info.get('initiator_update', None) if initiator_update: self._save_driver_initiator_data(context, connector, initiator_update) del conn_info['initiator_update'] # Add qos_specs to connection info typeid = volume['volume_type_id'] specs = None if typeid: res = volume_types.get_volume_type_qos_specs(typeid) qos = res['qos_specs'] # only pass qos_specs that is designated to be consumed by # front-end, or both front-end and back-end. if qos and qos.get('consumer') in ['front-end', 'both']: specs = qos.get('specs') qos_spec = dict(qos_specs=specs) conn_info['data'].update(qos_spec) # Add access_mode to connection info volume_metadata = self.db.volume_admin_metadata_get(context.elevated(), volume_id) if conn_info['data'].get('access_mode') is None: access_mode = volume_metadata.get('attached_mode') if access_mode is None: # NOTE(zhiyan): client didn't call 'os-attach' before access_mode = ('ro' if volume_metadata.get('readonly') == 'True' else 'rw') conn_info['data']['access_mode'] = access_mode # Add encrypted flag to connection_info if not set in the driver. if conn_info['data'].get('encrypted') is None: encrypted = bool(volume.get('encryption_key_id')) conn_info['data']['encrypted'] = encrypted # Add discard flag to connection_info if not set in the driver and # configured to be reported. if conn_info['data'].get('discard') is None: discard_supported = (self.driver.configuration .safe_get('report_discard_supported')) if discard_supported: conn_info['data']['discard'] = True LOG.info(_LI("Initialize volume connection completed successfully."), resource=volume) return conn_info def terminate_connection(self, context, volume_id, connector, force=False): """Cleanup connection from host represented by connector. The format of connector is the same as for initialize_connection. """ # NOTE(flaper87): Verify the driver is enabled # before going forward. The exception will be caught # and the volume status updated. utils.require_driver_initialized(self.driver) volume_ref = self.db.volume_get(context, volume_id) try: self.driver.terminate_connection(volume_ref, connector, force=force) except Exception as err: err_msg = (_('Terminate volume connection failed: %(err)s') % {'err': six.text_type(err)}) LOG.error(err_msg, resource=volume_ref) raise exception.VolumeBackendAPIException(data=err_msg) LOG.info(_LI("Terminate volume connection completed successfully."), resource=volume_ref) def remove_export(self, context, volume_id): """Removes an export for a volume.""" utils.require_driver_initialized(self.driver) volume_ref = self.db.volume_get(context, volume_id) try: self.driver.remove_export(context, volume_ref) except Exception: msg = _("Remove volume export failed.") LOG.exception(msg, resource=volume_ref) raise exception.VolumeBackendAPIException(data=msg) LOG.info(_LI("Remove volume export completed successfully."), resource=volume_ref) def accept_transfer(self, context, volume_id, new_user, new_project): # NOTE(flaper87): Verify the driver is enabled # before going forward. The exception will be caught # and the volume status updated. utils.require_driver_initialized(self.driver) # NOTE(jdg): need elevated context as we haven't "given" the vol # yet volume_ref = self.db.volume_get(context.elevated(), volume_id) # NOTE(jdg): Some drivers tie provider info (CHAP) to tenant # for those that do allow them to return updated model info model_update = self.driver.accept_transfer(context, volume_ref, new_user, new_project) if model_update: try: self.db.volume_update(context.elevated(), volume_id, model_update) except exception.CinderException: with excutils.save_and_reraise_exception(): LOG.exception(_LE("Update volume model for " "transfer operation failed."), resource=volume_ref) self.db.volume_update(context.elevated(), volume_id, {'status': 'error'}) LOG.info(_LI("Transfer volume completed successfully."), resource=volume_ref) return model_update def _connect_device(self, conn): use_multipath = self.configuration.use_multipath_for_image_xfer device_scan_attempts = self.configuration.num_volume_device_scan_tries protocol = conn['driver_volume_type'] connector = utils.brick_get_connector( protocol, use_multipath=use_multipath, device_scan_attempts=device_scan_attempts, conn=conn) vol_handle = connector.connect_volume(conn['data']) root_access = True if not connector.check_valid_device(vol_handle['path'], root_access): if isinstance(vol_handle['path'], six.string_types): raise exception.DeviceUnavailable( path=vol_handle['path'], reason=(_("Unable to access the backend storage via the " "path %(path)s.") % {'path': vol_handle['path']})) else: raise exception.DeviceUnavailable( path=None, reason=(_("Unable to access the backend storage via file " "handle."))) return {'conn': conn, 'device': vol_handle, 'connector': connector} def _attach_volume(self, ctxt, volume, properties, remote=False): status = volume['status'] if remote: rpcapi = volume_rpcapi.VolumeAPI() try: conn = rpcapi.initialize_connection(ctxt, volume, properties) except Exception: with excutils.save_and_reraise_exception(): LOG.error(_LE("Failed to attach volume %(vol)s."), {'vol': volume['id']}) self.db.volume_update(ctxt, volume['id'], {'status': status}) else: conn = self.initialize_connection(ctxt, volume['id'], properties) return self._connect_device(conn) def _detach_volume(self, ctxt, attach_info, volume, properties, force=False, remote=False): connector = attach_info['connector'] connector.disconnect_volume(attach_info['conn']['data'], attach_info['device']) if remote: rpcapi = volume_rpcapi.VolumeAPI() rpcapi.terminate_connection(ctxt, volume, properties, force=force) rpcapi.remove_export(ctxt, volume) else: try: self.terminate_connection(ctxt, volume['id'], properties, force=force) self.remove_export(ctxt, volume['id']) except Exception as err: with excutils.save_and_reraise_exception(): LOG.error(_LE('Unable to terminate volume connection: ' '%(err)s.') % {'err': err}) def _copy_volume_data(self, ctxt, src_vol, dest_vol, remote=None): """Copy data from src_vol to dest_vol.""" LOG.debug('copy_data_between_volumes %(src)s -> %(dest)s.', {'src': src_vol['name'], 'dest': dest_vol['name']}) properties = utils.brick_get_connector_properties() dest_remote = remote in ['dest', 'both'] dest_attach_info = self._attach_volume(ctxt, dest_vol, properties, remote=dest_remote) try: src_remote = remote in ['src', 'both'] src_attach_info = self._attach_volume(ctxt, src_vol, properties, remote=src_remote) except Exception: with excutils.save_and_reraise_exception(): LOG.error(_LE("Failed to attach source volume for copy.")) self._detach_volume(ctxt, dest_attach_info, dest_vol, properties, remote=dest_remote) # Check the backend capabilities of migration destination host. rpcapi = volume_rpcapi.VolumeAPI() capabilities = rpcapi.get_capabilities(ctxt, dest_vol['host'], False) sparse_copy_volume = bool(capabilities and capabilities.get('sparse_copy_volume', False)) copy_error = True try: size_in_mb = int(src_vol['size']) * units.Ki # vol size is in GB vol_utils.copy_volume(src_attach_info['device']['path'], dest_attach_info['device']['path'], size_in_mb, self.configuration.volume_dd_blocksize, sparse=sparse_copy_volume) copy_error = False except Exception: with excutils.save_and_reraise_exception(): LOG.error(_LE("Failed to copy volume %(src)s to %(dest)s."), {'src': src_vol['id'], 'dest': dest_vol['id']}) finally: try: self._detach_volume(ctxt, dest_attach_info, dest_vol, properties, force=copy_error, remote=dest_remote) finally: self._detach_volume(ctxt, src_attach_info, src_vol, properties, force=copy_error, remote=src_remote) def _migrate_volume_generic(self, ctxt, volume, host, new_type_id): rpcapi = volume_rpcapi.VolumeAPI() # Create new volume on remote host skip = {'id', '_name_id', 'name_id', 'name', 'host', 'status', 'attach_status', 'migration_status', 'volume_type', 'consistencygroup', 'volume_attachment'} # We don't copy volume_type, consistencygroup and volume_attachment, # because the db sets that according to [field]_id, which we do copy. # We also skip some other values that are either set manually later or # during creation of Volume object. new_vol_values = {k: volume[k] for k in set(volume.keys()) - skip} if new_type_id: new_vol_values['volume_type_id'] = new_type_id new_volume = objects.Volume( context=ctxt, host=host['host'], status='creating', attach_status='detached', migration_status='target:%s' % volume['id'], **new_vol_values ) new_volume.create() rpcapi.create_volume(ctxt, new_volume, host['host'], None, None, allow_reschedule=False) # Wait for new_volume to become ready starttime = time.time() deadline = starttime + CONF.migration_create_volume_timeout_secs # TODO(thangp): Replace get_by_id with refresh when it is available new_volume = objects.Volume.get_by_id(ctxt, new_volume.id) tries = 0 while new_volume.status != 'available': tries += 1 now = time.time() if new_volume.status == 'error': msg = _("failed to create new_volume on destination host") self._clean_temporary_volume(ctxt, volume, new_volume, clean_db_only=True) raise exception.VolumeMigrationFailed(reason=msg) elif now > deadline: msg = _("timeout creating new_volume on destination host") self._clean_temporary_volume(ctxt, volume, new_volume, clean_db_only=True) raise exception.VolumeMigrationFailed(reason=msg) else: time.sleep(tries ** 2) # TODO(thangp): Replace get_by_id with refresh when it is # available new_volume = objects.Volume.get_by_id(ctxt, new_volume.id) # Copy the source volume to the destination volume try: attachments = volume.volume_attachment if not attachments: self._copy_volume_data(ctxt, volume, new_volume, remote='dest') # The above call is synchronous so we complete the migration self.migrate_volume_completion(ctxt, volume.id, new_volume.id, error=False) else: nova_api = compute.API() # This is an async call to Nova, which will call the completion # when it's done for attachment in attachments: instance_uuid = attachment['instance_uuid'] nova_api.update_server_volume(ctxt, instance_uuid, volume.id, new_volume.id) except Exception: with excutils.save_and_reraise_exception(): LOG.error(_LE("Failed to copy volume %(vol1)s to %(vol2)s"), {'vol1': volume.id, 'vol2': new_volume.id}) self._clean_temporary_volume(ctxt, volume, new_volume) def _clean_temporary_volume(self, ctxt, volume, new_volume, clean_db_only=False): # If we're in the migrating phase, we need to cleanup # destination volume because source volume is remaining if volume.migration_status == 'migrating': try: if clean_db_only: # The temporary volume is not created, only DB data # is created new_volume.destroy() else: # The temporary volume is already created rpcapi = volume_rpcapi.VolumeAPI() rpcapi.delete_volume(ctxt, new_volume) except exception.VolumeNotFound: LOG.info(_LI("Couldn't find the temporary volume " "%(vol)s in the database. There is no need " "to clean up this volume."), {'vol': new_volume.id}) else: # If we're in the completing phase don't delete the # destination because we may have already deleted the # source! But the migration_status in database should # be cleared to handle volume after migration failure try: new_volume.migration_status = None new_volume.save() except exception.VolumeNotFound: LOG.info(_LI("Couldn't find destination volume " "%(vol)s in the database. The entry might be " "successfully deleted during migration " "completion phase."), {'vol': new_volume.id}) LOG.warning(_LW("Failed to migrate volume. The destination " "volume %(vol)s is not deleted since the " "source volume may have been deleted."), {'vol': new_volume.id}) def migrate_volume_completion(self, ctxt, volume_id, new_volume_id, error=False, volume=None, new_volume=None): # FIXME(thangp): Remove this in v2.0 of RPC API. if volume is None or new_volume is None: # For older clients, mimic the old behavior and look up the volume # by its volume_id. volume = objects.Volume.get_by_id(ctxt, volume_id) new_volume = objects.Volume.get_by_id(ctxt, new_volume_id) try: # NOTE(flaper87): Verify the driver is enabled # before going forward. The exception will be caught # and the migration status updated. utils.require_driver_initialized(self.driver) except exception.DriverNotInitialized: with excutils.save_and_reraise_exception(): volume.migration_status = 'error' volume.save() LOG.debug("migrate_volume_completion: completing migration for " "volume %(vol1)s (temporary volume %(vol2)s", {'vol1': volume.id, 'vol2': new_volume.id}) rpcapi = volume_rpcapi.VolumeAPI() orig_volume_status = volume.previous_status if error: LOG.info(_LI("migrate_volume_completion is cleaning up an error " "for volume %(vol1)s (temporary volume %(vol2)s"), {'vol1': volume['id'], 'vol2': new_volume.id}) rpcapi.delete_volume(ctxt, new_volume) updates = {'migration_status': 'error', 'status': orig_volume_status} volume.update(updates) volume.save() return volume.id volume.migration_status = 'completing' volume.save() # Detach the source volume (if it fails, don't fail the migration) try: if orig_volume_status == 'in-use': attachments = volume.volume_attachment for attachment in attachments: self.detach_volume(ctxt, volume.id, attachment['id']) except Exception as ex: LOG.error(_LE("Detach migration source volume failed: %(err)s"), {'err': ex}, resource=volume) # Give driver (new_volume) a chance to update things as needed # after a successful migration. # Note this needs to go through rpc to the host of the new volume # the current host and driver object is for the "existing" volume. rpcapi.update_migrated_volume(ctxt, volume, new_volume, orig_volume_status) volume.refresh() new_volume.refresh() # Swap src and dest DB records so we can continue using the src id and # asynchronously delete the destination id updated_new = volume.finish_volume_migration(new_volume) updates = {'status': orig_volume_status, 'previous_status': volume.status, 'migration_status': 'success'} if orig_volume_status == 'in-use': attachments = volume.volume_attachment for attachment in attachments: rpcapi.attach_volume(ctxt, volume, attachment['instance_uuid'], attachment['attached_host'], attachment['mountpoint'], 'rw') volume.update(updates) volume.save() # Asynchronous deletion of the source volume in the back-end (now # pointed by the target volume id) try: rpcapi.delete_volume(ctxt, updated_new) except Exception as ex: LOG.error(_LE('Failed to request async delete of migration source ' 'vol %(vol)s: %(err)s'), {'vol': volume.id, 'err': ex}) LOG.info(_LI("Complete-Migrate volume completed successfully."), resource=volume) return volume.id def migrate_volume(self, ctxt, volume_id, host, force_host_copy=False, new_type_id=None, volume=None): """Migrate the volume to the specified host (called on source host).""" # FIXME(thangp): Remove this in v2.0 of RPC API. if volume is None: # For older clients, mimic the old behavior and look up the volume # by its volume_id. volume = objects.Volume.get_by_id(ctxt, volume_id) try: # NOTE(flaper87): Verify the driver is enabled # before going forward. The exception will be caught # and the migration status updated. utils.require_driver_initialized(self.driver) except exception.DriverNotInitialized: with excutils.save_and_reraise_exception(): volume.migration_status = 'error' volume.save() model_update = None moved = False status_update = None if volume.status in ('retyping', 'maintenance'): status_update = {'status': volume.previous_status} volume.migration_status = 'migrating' volume.save() if not force_host_copy and new_type_id is None: try: LOG.debug("Issue driver.migrate_volume.", resource=volume) moved, model_update = self.driver.migrate_volume(ctxt, volume, host) if moved: updates = {'host': host['host'], 'migration_status': 'success', 'previous_status': volume.status} if status_update: updates.update(status_update) if model_update: updates.update(model_update) volume.update(updates) volume.save() except Exception: with excutils.save_and_reraise_exception(): updates = {'migration_status': 'error'} if status_update: updates.update(status_update) volume.update(updates) volume.save() if not moved: try: self._migrate_volume_generic(ctxt, volume, host, new_type_id) except Exception: with excutils.save_and_reraise_exception(): updates = {'migration_status': 'error'} if status_update: updates.update(status_update) volume.update(updates) volume.save() LOG.info(_LI("Migrate volume completed successfully."), resource=volume) @periodic_task.periodic_task def _report_driver_status(self, context): if not self.driver.initialized: if self.driver.configuration.config_group is None: config_group = '' else: config_group = ('(config name %s)' % self.driver.configuration.config_group) LOG.warning(_LW("Update driver status failed: %(config_group)s " "is uninitialized."), {'config_group': config_group}, resource={'type': 'driver', 'id': self.driver.__class__.__name__}) else: volume_stats = self.driver.get_volume_stats(refresh=True) if self.extra_capabilities: volume_stats.update(self.extra_capabilities) if volume_stats: # Append volume stats with 'allocated_capacity_gb' self._append_volume_stats(volume_stats) # Append filter and goodness function if needed volume_stats = ( self._append_filter_goodness_functions(volume_stats)) # queue it to be sent to the Schedulers. self.update_service_capabilities(volume_stats) if volume_stats.get('replication_enabled', False): # replciation_status provides a concise update of # replicating volumes and any error conditions # detected by the driver. The intent is we don't # expect/worry about updates so long as nothing # changes, but if something goes wrong this is a # handy mechanism to update the manager and the db # possibly let the admin/user be notified # TODO(jdg): Refactor the check/update pieces to a # helper method we can share # We want to leverage some of the same update model # that we have in the targets update call replication_updates = ( self.driver.get_replication_updates(context)) for update in replication_updates: pass def _append_volume_stats(self, vol_stats): pools = vol_stats.get('pools', None) if pools and isinstance(pools, list): for pool in pools: pool_name = pool['pool_name'] try: pool_stats = self.stats['pools'][pool_name] except KeyError: # Pool not found in volume manager pool_stats = dict(allocated_capacity_gb=0) pool.update(pool_stats) def _append_filter_goodness_functions(self, volume_stats): """Returns volume_stats updated as needed.""" # Append filter_function if needed if 'filter_function' not in volume_stats: volume_stats['filter_function'] = ( self.driver.get_filter_function()) # Append goodness_function if needed if 'goodness_function' not in volume_stats: volume_stats['goodness_function'] = ( self.driver.get_goodness_function()) return volume_stats def publish_service_capabilities(self, context): """Collect driver status and then publish.""" self._report_driver_status(context) self._publish_service_capabilities(context) def _notify_about_volume_usage(self, context, volume, event_suffix, extra_usage_info=None): vol_utils.notify_about_volume_usage( context, volume, event_suffix, extra_usage_info=extra_usage_info, host=self.host) def _notify_about_snapshot_usage(self, context, snapshot, event_suffix, extra_usage_info=None): vol_utils.notify_about_snapshot_usage( context, snapshot, event_suffix, extra_usage_info=extra_usage_info, host=self.host) def _notify_about_consistencygroup_usage(self, context, group, event_suffix, volumes=None, extra_usage_info=None): vol_utils.notify_about_consistencygroup_usage( context, group, event_suffix, extra_usage_info=extra_usage_info, host=self.host) if not volumes: volumes = self.db.volume_get_all_by_group(context, group.id) if volumes: for volume in volumes: vol_utils.notify_about_volume_usage( context, volume, event_suffix, extra_usage_info=extra_usage_info, host=self.host) def _notify_about_cgsnapshot_usage(self, context, cgsnapshot, event_suffix, snapshots=None, extra_usage_info=None): vol_utils.notify_about_cgsnapshot_usage( context, cgsnapshot, event_suffix, extra_usage_info=extra_usage_info, host=self.host) if not snapshots: snapshots = objects.SnapshotList.get_all_for_cgsnapshot( context, cgsnapshot.id) if snapshots: for snapshot in snapshots: vol_utils.notify_about_snapshot_usage( context, snapshot, event_suffix, extra_usage_info=extra_usage_info, host=self.host) def extend_volume(self, context, volume_id, new_size, reservations, volume=None): # FIXME(thangp): Remove this in v2.0 of RPC API. if volume is None: # For older clients, mimic the old behavior and look up the volume # by its volume_id. volume = objects.Volume.get_by_id(context, volume_id) try: # NOTE(flaper87): Verify the driver is enabled # before going forward. The exception will be caught # and the volume status updated. utils.require_driver_initialized(self.driver) except exception.DriverNotInitialized: with excutils.save_and_reraise_exception(): volume.status = 'error_extending' volume.save() project_id = volume.project_id size_increase = (int(new_size)) - volume.size self._notify_about_volume_usage(context, volume, "resize.start") try: self.driver.extend_volume(volume, new_size) except Exception: LOG.exception(_LE("Extend volume failed."), resource=volume) try: self.db.volume_update(context, volume.id, {'status': 'error_extending'}) raise exception.CinderException(_("Volume %s: Error trying " "to extend volume") % volume.id) finally: QUOTAS.rollback(context, reservations, project_id=project_id) return QUOTAS.commit(context, reservations, project_id=project_id) volume.update({'size': int(new_size), 'status': 'available'}) volume.save() pool = vol_utils.extract_host(volume.host, 'pool') if pool is None: # Legacy volume, put them into default pool pool = self.driver.configuration.safe_get( 'volume_backend_name') or vol_utils.extract_host( volume.host, 'pool', True) try: self.stats['pools'][pool]['allocated_capacity_gb'] += size_increase except KeyError: self.stats['pools'][pool] = dict( allocated_capacity_gb=size_increase) self._notify_about_volume_usage( context, volume, "resize.end", extra_usage_info={'size': int(new_size)}) LOG.info(_LI("Extend volume completed successfully."), resource=volume) def retype(self, ctxt, volume_id, new_type_id, host, migration_policy='never', reservations=None, volume=None, old_reservations=None): def _retype_error(context, volume, old_reservations, new_reservations, status_update): try: volume.update(status_update) volume.save() finally: QUOTAS.rollback(context, old_reservations) QUOTAS.rollback(context, new_reservations) context = ctxt.elevated() # FIXME(thangp): Remove this in v2.0 of RPC API. if volume is None: # For older clients, mimic the old behavior and look up the volume # by its volume_id. volume = objects.Volume.get_by_id(context, volume_id) status_update = {'status': volume.previous_status} if context.project_id != volume.project_id: project_id = volume.project_id else: project_id = context.project_id try: # NOTE(flaper87): Verify the driver is enabled # before going forward. The exception will be caught # and the volume status updated. utils.require_driver_initialized(self.driver) except exception.DriverNotInitialized: with excutils.save_and_reraise_exception(): # NOTE(flaper87): Other exceptions in this method don't # set the volume status to error. Should that be done # here? Setting the volume back to it's original status # for now. volume.update(status_update) volume.save() # If old_reservations has been passed in from the API, we should # skip quotas. # TODO(ntpttr): These reservation checks are left in to be backwards # compatible with Liberty and can be removed in N. if not old_reservations: # Get old reservations try: reserve_opts = {'volumes': -1, 'gigabytes': -volume.size} QUOTAS.add_volume_type_opts(context, reserve_opts, volume.volume_type_id) # NOTE(wanghao): We don't need to reserve volumes and gigabytes # quota for retyping operation since they didn't changed, just # reserve volume_type and type gigabytes is fine. reserve_opts.pop('volumes') reserve_opts.pop('gigabytes') old_reservations = QUOTAS.reserve(context, project_id=project_id, **reserve_opts) except Exception: volume.update(status_update) volume.save() msg = _("Failed to update quota usage while retyping volume.") LOG.exception(msg, resource=volume) raise exception.CinderException(msg) # We already got the new reservations new_reservations = reservations # If volume types have the same contents, no need to do anything retyped = False diff, all_equal = volume_types.volume_types_diff( context, volume.volume_type_id, new_type_id) if all_equal: retyped = True # Call driver to try and change the type retype_model_update = None # NOTE(jdg): Check to see if the destination host is the same # as the current. If it's not don't call the driver.retype # method, otherwise drivers that implement retype may report # success, but it's invalid in the case of a migrate. # We assume that those that support pools do this internally # so we strip off the pools designation if (not retyped and vol_utils.hosts_are_equivalent(self.driver.host, host['host'])): try: new_type = volume_types.get_volume_type(context, new_type_id) ret = self.driver.retype(context, volume, new_type, diff, host) # Check if the driver retype provided a model update or # just a retype indication if type(ret) == tuple: retyped, retype_model_update = ret else: retyped = ret if retyped: LOG.info(_LI("Volume %s: retyped successfully"), volume.id) except Exception: retyped = False LOG.exception(_LE("Volume %s: driver error when trying to " "retype, falling back to generic " "mechanism."), volume.id) # We could not change the type, so we need to migrate the volume, where # the destination volume will be of the new type if not retyped: if migration_policy == 'never': _retype_error(context, volume, old_reservations, new_reservations, status_update) msg = _("Retype requires migration but is not allowed.") raise exception.VolumeMigrationFailed(reason=msg) snaps = objects.SnapshotList.get_all_for_volume(context, volume.id) if snaps: _retype_error(context, volume, old_reservations, new_reservations, status_update) msg = _("Volume must not have snapshots.") LOG.error(msg) raise exception.InvalidVolume(reason=msg) # Don't allow volume with replicas to be migrated rep_status = volume.replication_status if rep_status is not None and rep_status != 'disabled': _retype_error(context, volume, old_reservations, new_reservations, status_update) msg = _("Volume must not be replicated.") LOG.error(msg) raise exception.InvalidVolume(reason=msg) volume.migration_status = 'starting' volume.save() try: self.migrate_volume(context, volume.id, host, new_type_id=new_type_id) except Exception: with excutils.save_and_reraise_exception(): _retype_error(context, volume, old_reservations, new_reservations, status_update) else: model_update = {'volume_type_id': new_type_id, 'host': host['host'], 'status': status_update['status']} if retype_model_update: model_update.update(retype_model_update) volume.update(model_update) volume.save() if old_reservations: QUOTAS.commit(context, old_reservations, project_id=project_id) if new_reservations: QUOTAS.commit(context, new_reservations, project_id=project_id) self.publish_service_capabilities(context) LOG.info(_LI("Retype volume completed successfully."), resource=volume) def manage_existing(self, ctxt, volume_id, ref=None): try: flow_engine = manage_existing.get_flow( ctxt, self.db, self.driver, self.host, volume_id, ref) except Exception: msg = _("Failed to create manage_existing flow.") LOG.exception(msg, resource={'type': 'volume', 'id': volume_id}) raise exception.CinderException(msg) with flow_utils.DynamicLogListener(flow_engine, logger=LOG): flow_engine.run() # Fetch created volume from storage vol_ref = flow_engine.storage.fetch('volume') # Update volume stats pool = vol_utils.extract_host(vol_ref['host'], 'pool') if pool is None: # Legacy volume, put them into default pool pool = self.driver.configuration.safe_get( 'volume_backend_name') or vol_utils.extract_host( vol_ref['host'], 'pool', True) try: self.stats['pools'][pool]['allocated_capacity_gb'] \ += vol_ref['size'] except KeyError: self.stats['pools'][pool] = dict( allocated_capacity_gb=vol_ref['size']) LOG.info(_LI("Manage existing volume completed successfully."), resource=vol_ref) return vol_ref['id'] def promote_replica(self, ctxt, volume_id): """Promote volume replica secondary to be the primary volume.""" volume = self.db.volume_get(ctxt, volume_id) model_update = None try: utils.require_driver_initialized(self.driver) except exception.DriverNotInitialized: with excutils.save_and_reraise_exception(): LOG.exception(_LE("Promote volume replica failed."), resource=volume) try: model_update = self.driver.promote_replica(ctxt, volume) except exception.CinderException: err_msg = (_('Error promoting secondary volume to primary')) raise exception.ReplicationError(reason=err_msg, volume_id=volume_id) try: if model_update: volume = self.db.volume_update(ctxt, volume_id, model_update) except exception.CinderException: err_msg = (_("Failed updating model" " with driver provided model %(model)s") % {'model': model_update}) raise exception.ReplicationError(reason=err_msg, volume_id=volume_id) LOG.info(_LI("Promote volume replica completed successfully."), resource=volume) def reenable_replication(self, ctxt, volume_id): """Re-enable replication of secondary volume with primary volumes.""" volume = self.db.volume_get(ctxt, volume_id) model_update = None try: utils.require_driver_initialized(self.driver) except exception.DriverNotInitialized: with excutils.save_and_reraise_exception(): LOG.exception(_LE("Sync volume replica failed."), resource=volume) try: model_update = self.driver.reenable_replication(ctxt, volume) except exception.CinderException: err_msg = (_("Synchronizing secondary volume to primary failed.")) raise exception.ReplicationError(reason=err_msg, volume_id=volume_id) try: if model_update: volume = self.db.volume_update(ctxt, volume_id, model_update) except exception.CinderException: err_msg = (_("Failed updating model" " with driver provided model %(model)s") % {'model': model_update}) raise exception.ReplicationError(reason=err_msg, volume_id=volume_id) def _update_replication_relationship_status(self, ctxt): # Only want volumes that do not have a 'disabled' replication status filters = {'replication_status': ['active', 'copying', 'error', 'active-stopped', 'inactive']} volumes = self.db.volume_get_all_by_host(ctxt, self.host, filters=filters) for vol in volumes: model_update = None try: model_update = self.driver.get_replication_status( ctxt, vol) if model_update: self.db.volume_update(ctxt, vol['id'], model_update) except Exception: LOG.exception(_LE("Get replication status for volume failed."), resource=vol) def create_consistencygroup(self, context, group): """Creates the consistency group.""" context = context.elevated() status = fields.ConsistencyGroupStatus.AVAILABLE model_update = None self._notify_about_consistencygroup_usage( context, group, "create.start") try: utils.require_driver_initialized(self.driver) LOG.info(_LI("Consistency group %s: creating"), group.name) model_update = self.driver.create_consistencygroup(context, group) if model_update: if (model_update['status'] == fields.ConsistencyGroupStatus.ERROR): msg = (_('Create consistency group failed.')) LOG.error(msg, resource={'type': 'consistency_group', 'id': group.id}) raise exception.VolumeDriverException(message=msg) else: group.update(model_update) group.save() except Exception: with excutils.save_and_reraise_exception(): group.status = fields.ConsistencyGroupStatus.ERROR group.save() LOG.error(_LE("Consistency group %s: create failed"), group.name) group.status = status group.created_at = timeutils.utcnow() group.save() LOG.info(_LI("Consistency group %s: created successfully"), group.name) self._notify_about_consistencygroup_usage( context, group, "create.end") LOG.info(_LI("Create consistency group completed successfully."), resource={'type': 'consistency_group', 'id': group.id}) return group def create_consistencygroup_from_src(self, context, group, cgsnapshot=None, source_cg=None): """Creates the consistency group from source. The source can be a CG snapshot or a source CG. """ source_name = None snapshots = None source_vols = None try: volumes = self.db.volume_get_all_by_group(context, group.id) if cgsnapshot: try: # Check if cgsnapshot still exists cgsnapshot = objects.CGSnapshot.get_by_id( context, cgsnapshot.id) except exception.CgSnapshotNotFound: LOG.error(_LE("Create consistency group " "from snapshot-%(snap)s failed: " "SnapshotNotFound."), {'snap': cgsnapshot.id}, resource={'type': 'consistency_group', 'id': group.id}) raise source_name = _("snapshot-%s") % cgsnapshot.id snapshots = objects.SnapshotList.get_all_for_cgsnapshot( context, cgsnapshot.id) for snap in snapshots: if (snap.status not in VALID_CREATE_CG_SRC_SNAP_STATUS): msg = (_("Cannot create consistency group " "%(group)s because snapshot %(snap)s is " "not in a valid state. Valid states are: " "%(valid)s.") % {'group': group.id, 'snap': snap['id'], 'valid': VALID_CREATE_CG_SRC_SNAP_STATUS}) raise exception.InvalidConsistencyGroup(reason=msg) if source_cg: try: source_cg = objects.ConsistencyGroup.get_by_id( context, source_cg.id) except exception.ConsistencyGroupNotFound: LOG.error(_LE("Create consistency group " "from source cg-%(cg)s failed: " "ConsistencyGroupNotFound."), {'cg': source_cg.id}, resource={'type': 'consistency_group', 'id': group.id}) raise source_name = _("cg-%s") % source_cg.id source_vols = self.db.volume_get_all_by_group( context, source_cg.id) for source_vol in source_vols: if (source_vol['status'] not in VALID_CREATE_CG_SRC_CG_STATUS): msg = (_("Cannot create consistency group " "%(group)s because source volume " "%(source_vol)s is not in a valid " "state. Valid states are: " "%(valid)s.") % {'group': group.id, 'source_vol': source_vol['id'], 'valid': VALID_CREATE_CG_SRC_CG_STATUS}) raise exception.InvalidConsistencyGroup(reason=msg) # Sort source snapshots so that they are in the same order as their # corresponding target volumes. sorted_snapshots = None if cgsnapshot and snapshots: sorted_snapshots = self._sort_snapshots(volumes, snapshots) # Sort source volumes so that they are in the same order as their # corresponding target volumes. sorted_source_vols = None if source_cg and source_vols: sorted_source_vols = self._sort_source_vols(volumes, source_vols) self._notify_about_consistencygroup_usage( context, group, "create.start") utils.require_driver_initialized(self.driver) model_update, volumes_model_update = ( self.driver.create_consistencygroup_from_src( context, group, volumes, cgsnapshot, sorted_snapshots, source_cg, sorted_source_vols)) if volumes_model_update: for update in volumes_model_update: self.db.volume_update(context, update['id'], update) if model_update: group.update(model_update) group.save() except Exception: with excutils.save_and_reraise_exception(): group.status = 'error' group.save() LOG.error(_LE("Create consistency group " "from source %(source)s failed."), {'source': source_name}, resource={'type': 'consistency_group', 'id': group.id}) # Update volume status to 'error' as well. for vol in volumes: self.db.volume_update( context, vol['id'], {'status': 'error'}) now = timeutils.utcnow() status = 'available' for vol in volumes: update = {'status': status, 'created_at': now} self._update_volume_from_src(context, vol, update, group=group) self._update_allocated_capacity(vol) group.status = status group.created_at = now group.save() self._notify_about_consistencygroup_usage( context, group, "create.end") LOG.info(_LI("Create consistency group " "from source-%(source)s completed successfully."), {'source': source_name}, resource={'type': 'consistency_group', 'id': group.id}) return group def _sort_snapshots(self, volumes, snapshots): # Sort source snapshots so that they are in the same order as their # corresponding target volumes. Each source snapshot in the snapshots # list should have a corresponding target volume in the volumes list. if not volumes or not snapshots or len(volumes) != len(snapshots): msg = _("Input volumes or snapshots are invalid.") LOG.error(msg) raise exception.InvalidInput(reason=msg) sorted_snapshots = [] for vol in volumes: found_snaps = [snap for snap in snapshots if snap['id'] == vol['snapshot_id']] if not found_snaps: LOG.error(_LE("Source snapshot cannot be found for target " "volume %(volume_id)s."), {'volume_id': vol['id']}) raise exception.SnapshotNotFound( snapshot_id=vol['snapshot_id']) sorted_snapshots.extend(found_snaps) return sorted_snapshots def _sort_source_vols(self, volumes, source_vols): # Sort source volumes so that they are in the same order as their # corresponding target volumes. Each source volume in the source_vols # list should have a corresponding target volume in the volumes list. if not volumes or not source_vols or len(volumes) != len(source_vols): msg = _("Input volumes or source volumes are invalid.") LOG.error(msg) raise exception.InvalidInput(reason=msg) sorted_source_vols = [] for vol in volumes: found_source_vols = [source_vol for source_vol in source_vols if source_vol['id'] == vol['source_volid']] if not found_source_vols: LOG.error(_LE("Source volumes cannot be found for target " "volume %(volume_id)s."), {'volume_id': vol['id']}) raise exception.VolumeNotFound( volume_id=vol['source_volid']) sorted_source_vols.extend(found_source_vols) return sorted_source_vols def _update_volume_from_src(self, context, vol, update, group=None): try: snapshot_id = vol.get('snapshot_id') if snapshot_id: snapshot = objects.Snapshot.get_by_id(context, snapshot_id) orig_vref = self.db.volume_get(context, snapshot.volume_id) if orig_vref.bootable: update['bootable'] = True self.db.volume_glance_metadata_copy_to_volume( context, vol['id'], snapshot_id) except exception.SnapshotNotFound: LOG.error(_LE("Source snapshot %(snapshot_id)s cannot be found."), {'snapshot_id': vol['snapshot_id']}) self.db.volume_update(context, vol['id'], {'status': 'error'}) if group: group.status = 'error' group.save() raise except exception.VolumeNotFound: LOG.error(_LE("The source volume %(volume_id)s " "cannot be found."), {'volume_id': snapshot.volume_id}) self.db.volume_update(context, vol['id'], {'status': 'error'}) if group: group.status = 'error' group.save() raise except exception.CinderException as ex: LOG.error(_LE("Failed to update %(volume_id)s" " metadata using the provided snapshot" " %(snapshot_id)s metadata."), {'volume_id': vol['id'], 'snapshot_id': vol['snapshot_id']}) self.db.volume_update(context, vol['id'], {'status': 'error'}) if group: group.status = 'error' group.save() raise exception.MetadataCopyFailure(reason=six.text_type(ex)) self.db.volume_update(context, vol['id'], update) def _update_allocated_capacity(self, vol): # Update allocated capacity in volume stats pool = vol_utils.extract_host(vol['host'], 'pool') if pool is None: # Legacy volume, put them into default pool pool = self.driver.configuration.safe_get( 'volume_backend_name') or vol_utils.extract_host( vol['host'], 'pool', True) try: self.stats['pools'][pool]['allocated_capacity_gb'] += ( vol['size']) except KeyError: self.stats['pools'][pool] = dict( allocated_capacity_gb=vol['size']) def delete_consistencygroup(self, context, group): """Deletes consistency group and the volumes in the group.""" context = context.elevated() project_id = group.project_id if context.project_id != group.project_id: project_id = group.project_id else: project_id = context.project_id volumes = self.db.volume_get_all_by_group(context, group.id) for volume_ref in volumes: if volume_ref['attach_status'] == "attached": # Volume is still attached, need to detach first raise exception.VolumeAttached(volume_id=volume_ref['id']) # self.host is 'host@backend' # volume_ref['host'] is 'host@backend#pool' # Extract host before doing comparison if volume_ref['host']: new_host = vol_utils.extract_host(volume_ref['host']) if new_host != self.host: raise exception.InvalidVolume( reason=_("Volume is not local to this node")) self._notify_about_consistencygroup_usage( context, group, "delete.start") volumes_model_update = None model_update = None try: utils.require_driver_initialized(self.driver) model_update, volumes_model_update = ( self.driver.delete_consistencygroup(context, group, volumes)) if volumes_model_update: for volume in volumes_model_update: update = {'status': volume['status']} self.db.volume_update(context, volume['id'], update) # If we failed to delete a volume, make sure the status # for the cg is set to error as well if (volume['status'] in ['error_deleting', 'error'] and model_update['status'] not in ['error_deleting', 'error']): model_update['status'] = volume['status'] if model_update: if model_update['status'] in ['error_deleting', 'error']: msg = (_('Delete consistency group failed.')) LOG.error(msg, resource={'type': 'consistency_group', 'id': group.id}) raise exception.VolumeDriverException(message=msg) else: group.update(model_update) group.save() except Exception: with excutils.save_and_reraise_exception(): group.status = 'error' group.save() # Update volume status to 'error' if driver returns # None for volumes_model_update. if not volumes_model_update: for vol in volumes: self.db.volume_update( context, vol['id'], {'status': 'error'}) # Get reservations for group try: reserve_opts = {'consistencygroups': -1} cgreservations = CGQUOTAS.reserve(context, project_id=project_id, **reserve_opts) except Exception: cgreservations = None LOG.exception(_LE("Delete consistency group " "failed to update usages."), resource={'type': 'consistency_group', 'id': group.id}) for volume_ref in volumes: # Get reservations for volume try: volume_id = volume_ref['id'] reserve_opts = {'volumes': -1, 'gigabytes': -volume_ref['size']} QUOTAS.add_volume_type_opts(context, reserve_opts, volume_ref.get('volume_type_id')) reservations = QUOTAS.reserve(context, project_id=project_id, **reserve_opts) except Exception: reservations = None LOG.exception(_LE("Delete consistency group " "failed to update usages."), resource={'type': 'consistency_group', 'id': group.id}) # Delete glance metadata if it exists self.db.volume_glance_metadata_delete_by_volume(context, volume_id) self.db.volume_destroy(context, volume_id) # Commit the reservations if reservations: QUOTAS.commit(context, reservations, project_id=project_id) self.stats['allocated_capacity_gb'] -= volume_ref['size'] if cgreservations: CGQUOTAS.commit(context, cgreservations, project_id=project_id) group.destroy() self._notify_about_consistencygroup_usage( context, group, "delete.end", volumes) self.publish_service_capabilities(context) LOG.info(_LI("Delete consistency group " "completed successfully."), resource={'type': 'consistency_group', 'id': group.id}) return True def update_consistencygroup(self, context, group, add_volumes=None, remove_volumes=None): """Updates consistency group. Update consistency group by adding volumes to the group, or removing volumes from the group. """ add_volumes_ref = [] remove_volumes_ref = [] add_volumes_list = [] remove_volumes_list = [] if add_volumes: add_volumes_list = add_volumes.split(',') if remove_volumes: remove_volumes_list = remove_volumes.split(',') for add_vol in add_volumes_list: try: add_vol_ref = self.db.volume_get(context, add_vol) except exception.VolumeNotFound: LOG.error(_LE("Update consistency group " "failed to add volume-%(volume_id)s: " "VolumeNotFound."), {'volume_id': add_vol_ref['id']}, resource={'type': 'consistency_group', 'id': group.id}) raise if add_vol_ref['status'] not in ['in-use', 'available']: msg = (_("Cannot add volume %(volume_id)s to consistency " "group %(group_id)s because volume is in an invalid " "state: %(status)s. Valid states are: %(valid)s.") % {'volume_id': add_vol_ref['id'], 'group_id': group.id, 'status': add_vol_ref['status'], 'valid': VALID_REMOVE_VOL_FROM_CG_STATUS}) raise exception.InvalidVolume(reason=msg) # self.host is 'host@backend' # volume_ref['host'] is 'host@backend#pool' # Extract host before doing comparison new_host = vol_utils.extract_host(add_vol_ref['host']) if new_host != self.host: raise exception.InvalidVolume( reason=_("Volume is not local to this node.")) add_volumes_ref.append(add_vol_ref) for remove_vol in remove_volumes_list: try: remove_vol_ref = self.db.volume_get(context, remove_vol) except exception.VolumeNotFound: LOG.error(_LE("Update consistency group " "failed to remove volume-%(volume_id)s: " "VolumeNotFound."), {'volume_id': remove_vol_ref['id']}, resource={'type': 'consistency_group', 'id': group.id}) raise remove_volumes_ref.append(remove_vol_ref) self._notify_about_consistencygroup_usage( context, group, "update.start") try: utils.require_driver_initialized(self.driver) model_update, add_volumes_update, remove_volumes_update = ( self.driver.update_consistencygroup( context, group, add_volumes=add_volumes_ref, remove_volumes=remove_volumes_ref)) if add_volumes_update: for update in add_volumes_update: self.db.volume_update(context, update['id'], update) if remove_volumes_update: for update in remove_volumes_update: self.db.volume_update(context, update['id'], update) if model_update: if model_update['status'] in ( [fields.ConsistencyGroupStatus.ERROR]): msg = (_('Error occurred when updating consistency group ' '%s.') % group.id) LOG.error(msg) raise exception.VolumeDriverException(message=msg) group.update(model_update) group.save() except exception.VolumeDriverException: with excutils.save_and_reraise_exception(): LOG.error(_LE("Error occurred in the volume driver when " "updating consistency group %(group_id)s."), {'group_id': group.id}) group.status = 'error' group.save() for add_vol in add_volumes_ref: self.db.volume_update(context, add_vol['id'], {'status': 'error'}) for rem_vol in remove_volumes_ref: self.db.volume_update(context, rem_vol['id'], {'status': 'error'}) except Exception: with excutils.save_and_reraise_exception(): LOG.error(_LE("Error occurred when updating consistency " "group %(group_id)s."), {'group_id': group.id}) group.status = 'error' group.save() for add_vol in add_volumes_ref: self.db.volume_update(context, add_vol['id'], {'status': 'error'}) for rem_vol in remove_volumes_ref: self.db.volume_update(context, rem_vol['id'], {'status': 'error'}) now = timeutils.utcnow() group.status = 'available' group.update_at = now group.save() for add_vol in add_volumes_ref: self.db.volume_update(context, add_vol['id'], {'consistencygroup_id': group.id, 'updated_at': now}) for rem_vol in remove_volumes_ref: self.db.volume_update(context, rem_vol['id'], {'consistencygroup_id': None, 'updated_at': now}) self._notify_about_consistencygroup_usage( context, group, "update.end") LOG.info(_LI("Update consistency group " "completed successfully."), resource={'type': 'consistency_group', 'id': group.id}) return True def create_cgsnapshot(self, context, cgsnapshot): """Creates the cgsnapshot.""" caller_context = context context = context.elevated() LOG.info(_LI("Cgsnapshot %s: creating."), cgsnapshot.id) snapshots = objects.SnapshotList.get_all_for_cgsnapshot( context, cgsnapshot.id) self._notify_about_cgsnapshot_usage( context, cgsnapshot, "create.start") snapshots_model_update = None model_update = None try: utils.require_driver_initialized(self.driver) LOG.debug("Cgsnapshot %(cgsnap_id)s: creating.", {'cgsnap_id': cgsnapshot.id}) # Pass context so that drivers that want to use it, can, # but it is not a requirement for all drivers. cgsnapshot.context = caller_context for snapshot in snapshots: snapshot.context = caller_context model_update, snapshots_model_update = ( self.driver.create_cgsnapshot(context, cgsnapshot, snapshots)) if snapshots_model_update: for snap_model in snapshots_model_update: # Update db if status is error if snap_model['status'] == 'error': # NOTE(xyang): snapshots is a list of snapshot objects. # snapshots_model_update should be a list of dicts. snap = next((item for item in snapshots if item.id == snap_model['id']), None) if snap: snap.status = snap_model['status'] snap.save() if (snap_model['status'] in ['error_deleting', 'error'] and model_update['status'] not in ['error_deleting', 'error']): model_update['status'] = snap_model['status'] if model_update: if model_update['status'] == 'error': msg = (_('Error occurred when creating cgsnapshot ' '%s.') % cgsnapshot.id) LOG.error(msg) raise exception.VolumeDriverException(message=msg) except exception.CinderException: with excutils.save_and_reraise_exception(): cgsnapshot.status = 'error' cgsnapshot.save() # Update snapshot status to 'error' if driver returns # None for snapshots_model_update. if not snapshots_model_update: for snapshot in snapshots: snapshot.status = 'error' snapshot.save() for snapshot in snapshots: volume_id = snapshot['volume_id'] snapshot_id = snapshot['id'] vol_ref = self.db.volume_get(context, volume_id) if vol_ref.bootable: try: self.db.volume_glance_metadata_copy_to_snapshot( context, snapshot_id, volume_id) except exception.CinderException as ex: LOG.error(_LE("Failed updating %(snapshot_id)s" " metadata using the provided volumes" " %(volume_id)s metadata"), {'volume_id': volume_id, 'snapshot_id': snapshot_id}) # TODO(thangp): Switch over to use snapshot.update() # after cgsnapshot-objects bugs are fixed self.db.snapshot_update(context, snapshot_id, {'status': 'error'}) raise exception.MetadataCopyFailure( reason=six.text_type(ex)) self.db.snapshot_update(context, snapshot['id'], {'status': 'available', 'progress': '100%'}) cgsnapshot.status = 'available' cgsnapshot.save() LOG.info(_LI("cgsnapshot %s: created successfully"), cgsnapshot.id) self._notify_about_cgsnapshot_usage( context, cgsnapshot, "create.end") return cgsnapshot def delete_cgsnapshot(self, context, cgsnapshot): """Deletes cgsnapshot.""" caller_context = context context = context.elevated() project_id = cgsnapshot.project_id LOG.info(_LI("cgsnapshot %s: deleting"), cgsnapshot.id) snapshots = objects.SnapshotList.get_all_for_cgsnapshot( context, cgsnapshot.id) self._notify_about_cgsnapshot_usage( context, cgsnapshot, "delete.start") snapshots_model_update = None model_update = None try: utils.require_driver_initialized(self.driver) LOG.debug("cgsnapshot %(cgsnap_id)s: deleting", {'cgsnap_id': cgsnapshot.id}) # Pass context so that drivers that want to use it, can, # but it is not a requirement for all drivers. cgsnapshot.context = caller_context for snapshot in snapshots: snapshot.context = caller_context model_update, snapshots_model_update = ( self.driver.delete_cgsnapshot(context, cgsnapshot, snapshots)) if snapshots_model_update: for snap_model in snapshots_model_update: # NOTE(xyang): snapshots is a list of snapshot objects. # snapshots_model_update should be a list of dicts. snap = next((item for item in snapshots if item.id == snap_model['id']), None) if snap: snap.status = snap_model['status'] snap.save() if (snap_model['status'] in ['error_deleting', 'error'] and model_update['status'] not in ['error_deleting', 'error']): model_update['status'] = snap_model['status'] if model_update: if model_update['status'] in ['error_deleting', 'error']: msg = (_('Error occurred when deleting cgsnapshot ' '%s.') % cgsnapshot.id) LOG.error(msg) raise exception.VolumeDriverException(message=msg) else: cgsnapshot.update(model_update) cgsnapshot.save() except exception.CinderException: with excutils.save_and_reraise_exception(): cgsnapshot.status = 'error' cgsnapshot.save() # Update snapshot status to 'error' if driver returns # None for snapshots_model_update. if not snapshots_model_update: for snapshot in snapshots: snapshot.status = 'error' snapshot.save() for snapshot in snapshots: # Get reservations try: if CONF.no_snapshot_gb_quota: reserve_opts = {'snapshots': -1} else: reserve_opts = { 'snapshots': -1, 'gigabytes': -snapshot['volume_size'], } volume_ref = self.db.volume_get(context, snapshot['volume_id']) QUOTAS.add_volume_type_opts(context, reserve_opts, volume_ref.get('volume_type_id')) reservations = QUOTAS.reserve(context, project_id=project_id, **reserve_opts) except Exception: reservations = None LOG.exception(_LE("Failed to update usages deleting snapshot")) self.db.volume_glance_metadata_delete_by_snapshot(context, snapshot['id']) # TODO(thangp): Switch over to use snapshot.destroy() # after cgsnapshot-objects bugs are fixed self.db.snapshot_destroy(context, snapshot['id']) # Commit the reservations if reservations: QUOTAS.commit(context, reservations, project_id=project_id) cgsnapshot.destroy() LOG.info(_LI("cgsnapshot %s: deleted successfully"), cgsnapshot.id) self._notify_about_cgsnapshot_usage(context, cgsnapshot, "delete.end", snapshots) return True def update_migrated_volume(self, ctxt, volume, new_volume, volume_status): """Finalize migration process on backend device.""" # FIXME(thangp): Remove this in v2.0 of RPC API. if (not isinstance(volume, objects.Volume) or not isinstance(new_volume, objects.Volume)): volume = objects.Volume.get_by_id(ctxt, volume['id']) new_volume = objects.Volume.get_by_id(ctxt, new_volume['id']) model_update = None model_update_default = {'_name_id': new_volume.name_id, 'provider_location': new_volume.provider_location} try: model_update = self.driver.update_migrated_volume(ctxt, volume, new_volume, volume_status) except NotImplementedError: # If update_migrated_volume is not implemented for the driver, # _name_id and provider_location will be set with the values # from new_volume. model_update = model_update_default if model_update: model_update_default.update(model_update) # Swap keys that were changed in the source so we keep their values # in the temporary volume's DB record. # Need to convert 'metadata' and 'admin_metadata' since # they are not keys of volume, their corresponding keys are # 'volume_metadata' and 'volume_admin_metadata'. model_update_new = dict() for key in model_update: if key == 'metadata': if volume.get('volume_metadata'): model_update_new[key] = { metadata['key']: metadata['value'] for metadata in volume.volume_metadata} elif key == 'admin_metadata': model_update_new[key] = { metadata['key']: metadata['value'] for metadata in volume.volume_admin_metadata} else: model_update_new[key] = volume[key] with new_volume.obj_as_admin(): new_volume.update(model_update_new) new_volume.save() with volume.obj_as_admin(): volume.update(model_update_default) volume.save() # Replication V2 methods def enable_replication(self, context, volume): """Enable replication on a replication capable volume. If the volume was created on a replication_enabled host this method is used to enable replication for the volume. Primarily used for testing and maintenance. :param context: security context :param volume: volume object returned by DB """ try: # If the driver isn't initialized, we can't talk to the backend # so the driver can't enable replication utils.require_driver_initialized(self.driver) except exception.DriverNotInitialized: with excutils.save_and_reraise_exception(): LOG.error(_LE("Can't enable replication because the " "driver isn't initialized")) # NOTE(jdg): We're going to do fresh get from the DB and verify that # we are in an expected state ('enabling') volume = self.db.volume_get(context, volume['id']) if volume['replication_status'] != 'enabling': msg = (_("Unable to enable replication due to invalid " "replication status: %(status)s.") % {'status': volume['replication_status']}) LOG.error(msg, resource=volume) raise exception.InvalidVolume(reason=msg) try: rep_driver_data = self.driver.replication_enable(context, volume) except exception.CinderException: err_msg = (_("Enable replication for volume failed.")) LOG.exception(err_msg, resource=volume) self.db.volume_update(context, volume['id'], {'replication_status': 'error'}) raise exception.VolumeBackendAPIException(data=err_msg) except Exception: msg = _('enable_replication caused exception in driver.') LOG.exception(msg, resource=volume) self.db.volume_update(context, volume['id'], {'replication_status': 'error'}) raise exception.VolumeBackendAPIException(data=msg) try: if rep_driver_data: volume = self.db.volume_update(context, volume['id'], rep_driver_data) except exception.CinderException as ex: LOG.exception(_LE("Driver replication data update failed."), resource=volume) raise exception.VolumeBackendAPIException(reason=ex) self.db.volume_update(context, volume['id'], {'replication_status': 'enabled'}) def disable_replication(self, context, volume): """Disable replication on the specified volume. If the specified volume is currently replication enabled, this method can be used to disable the replication process on the backend. This method assumes that we checked replication status in the API layer to ensure we should send this call to the driver. :param context: security context :param volume: volume object returned by DB """ try: # If the driver isn't initialized, we can't talk to the backend # so the driver can't enable replication utils.require_driver_initialized(self.driver) except exception.DriverNotInitialized: with excutils.save_and_reraise_exception(): LOG.error(_LE("Can't disable replication because the " "driver isn't initialized")) volume = self.db.volume_get(context, volume['id']) if volume['replication_status'] != 'disabling': msg = (_("Unable to disable replication due to invalid " "replication status: %(status)s.") % {'status': volume['replication_status']}) LOG.error(msg, resource=volume) raise exception.InvalidVolume(reason=msg) try: rep_driver_data = self.driver.replication_disable(context, volume) except exception.CinderException: err_msg = (_("Disable replication for volume failed.")) LOG.exception(err_msg, resource=volume) self.db.volume_update(context, volume['id'], {'replication_status': 'error'}) raise exception.VolumeBackendAPIException(data=err_msg) except Exception: msg = _('disable_replication caused exception in driver.') LOG.exception(msg, resource=volume) self.db.volume_update(context, volume['id'], {'replication_status': 'error'}) raise exception.VolumeBackendAPIException(msg) try: if rep_driver_data: volume = self.db.volume_update(context, volume['id'], rep_driver_data) except exception.CinderException as ex: LOG.exception(_LE("Driver replication data update failed."), resource=volume) self.db.volume_update(context, volume['id'], {'replication_status': 'error'}) raise exception.VolumeBackendAPIException(reason=ex) self.db.volume_update(context, volume['id'], {'replication_status': 'disabled'}) def failover_replication(self, context, volume, secondary=None): """Force failover to a secondary replication target. Forces the failover action of a replicated volume to one of its secondary/target devices. By default the choice of target devices is left up to the driver. In particular we expect one way replication here, but are providing a mechanism for 'n' way if supported/configrued. Currently we leave it up to the driver to figure out how/what to do here. Rather than doing things like ID swaps, we instead just let the driver figure out how/where to route things. In cases where we might want to drop a volume-service node and the replication target is a configured cinder backend, we'll just update the host column for the volume. :param context: security context :param volume: volume object returned by DB :param secondary: Specifies rep target to fail over to """ # NOTE(hemna) We intentionally don't enforce the driver being # initialized here. because the primary might actually be down, # but we still want to give the driver a chance of doing some work # against the target. It's entirely up to the driver to deal with # not being able to talk to the primary array that it's configured # to manage. if volume['replication_status'] != 'enabling_secondary': msg = (_("Unable to failover replication due to invalid " "replication status: %(status)s.") % {'status': volume['replication_status']}) LOG.error(msg, resource=volume) raise exception.InvalidVolume(reason=msg) try: volume = self.db.volume_get(context, volume['id']) model_update = self.driver.replication_failover(context, volume, secondary) # model_updates is a dict containing a report of relevant # items based on the backend and how it operates or what it needs. # For example: # {'host': 'secondary-configured-cinder-backend', # 'provider_location: 'foo', # 'replication_driver_data': 'driver-specific-stuff-for-db'} # Where 'host' is a valid cinder host string like # 'foo@bar#baz' except exception.CinderException: # FIXME(jdg): We need to create a few different exceptions here # and handle each differently: # 1. I couldn't failover, but the original setup is ok so proceed # as if this were never called # 2. I ran into a problem and I have no idea what state things # are in, so set volume to error # 3. I ran into a problem and a human needs to come fix me up err_msg = (_("Replication failover for volume failed.")) LOG.exception(err_msg, resource=volume) self.db.volume_update(context, volume['id'], {'replication_status': 'error'}) raise exception.VolumeBackendAPIException(data=err_msg) except Exception: msg = _('replication_failover caused exception in driver.') LOG.exception(msg, resource=volume) self.db.volume_update(context, volume['id'], {'replication_status': 'error'}) raise exception.VolumeBackendAPIException(msg) if model_update: try: volume = self.db.volume_update( context, volume['id'], model_update) except exception.CinderException as ex: LOG.exception(_LE("Driver replication data update failed."), resource=volume) self.db.volume_update(context, volume['id'], {'replication_status': 'error'}) raise exception.VolumeBackendAPIException(reason=ex) # NOTE(jdg): We're setting replication status to failed-over # which indicates the volume is ok, things went as expected but # we're likely not replicating any longer because... well we # did a fail-over. In the case of admin bringing primary # back online he/she can use enable_replication to get this # state set back to enabled. # Also, in the case of multiple targets, the driver can update # status in the rep-status checks if it still has valid replication # targets that the volume is being replicated to. self.db.volume_update(context, volume['id'], {'replication_status': 'failed-over'}) def list_replication_targets(self, context, volume): """Provide a means to obtain replication targets for a volume. This method is used to query a backend to get the current replication config info for the specified volume. In the case of a volume that isn't being replicated, the driver should return an empty list. There is one required field for configuration of replication, (target_device_id). As such we use that for the response in list_replication_targets. Internal methods can be added to extract additional details if needed, but the only detail that should be exposed to an end user is the identifier. In the case of an Admin, (s)he can always cross check the cinder.conf file that they have configured for additional info. Example response: {'volume_id': volume['id'], 'targets':[,...]' """ # NOTE(hemna) We intentionally don't enforce the driver being # initialized here. because the primary might actually be down, # but we still want to give the driver a chance of doing some work # against the target. It's entirely up to the driver to deal with # not being able to talk to the primary array that it's configured # to manage. try: volume = self.db.volume_get(context, volume['id']) replication_targets = self.driver.list_replication_targets(context, volume) except exception.CinderException: err_msg = (_("Get replication targets failed.")) LOG.exception(err_msg) raise exception.VolumeBackendAPIException(data=err_msg) return replication_targets def manage_existing_snapshot(self, ctxt, snapshot, ref=None): LOG.debug('manage_existing_snapshot: managing %s.', ref) try: flow_engine = manage_existing_snapshot.get_flow( ctxt, self.db, self.driver, self.host, snapshot.id, ref) except Exception: msg = _LE("Failed to create manage_existing flow: " "%(object_type)s %(object_id)s.") LOG.exception(msg, {'object_type': 'snapshot', 'object_id': snapshot.id}) raise exception.CinderException( _("Failed to create manage existing flow.")) with flow_utils.DynamicLogListener(flow_engine, logger=LOG): flow_engine.run() return snapshot.id def get_capabilities(self, context, discover): """Get capabilities of backend storage.""" if discover: self.driver.init_capabilities() capabilities = self.driver.capabilities LOG.debug("Obtained capabilities list: %s.", capabilities) return capabilities