# 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. import functools import operator from oslo_serialization import jsonutils from oslo_utils import excutils from nova import block_device from nova.i18n import _ from nova.i18n import _LE from nova.i18n import _LI from nova import objects from nova.objects import base as obj_base from nova.openstack.common import log as logging from nova.volume import encryptors LOG = logging.getLogger(__name__) class _NotTransformable(Exception): pass class _InvalidType(_NotTransformable): pass class _NoLegacy(Exception): pass def update_db(method): @functools.wraps(method) def wrapped(obj, context, *args, **kwargs): ret_val = method(obj, context, *args, **kwargs) obj.save() return ret_val return wrapped class DriverBlockDevice(dict): """A dict subclass that represents block devices used by the virt layer. Uses block device objects internally to do the database access. _fields and _legacy_fields class attributes present a set of fields that are expected on a certain DriverBlockDevice type. We may have more legacy versions in the future. If an attribute access is attempted for a name that is found in the _proxy_as_attr set, it will be proxied to the underlying object. This allows us to access stuff that is not part of the data model that all drivers understand. The save() method allows us to update the database using the underlying object. _update_on_save class attribute dictionary keeps the following mapping: {'object field name': 'driver dict field name (or None if same)'} These fields will be updated on the internal object, from the values in the dict, before the actual database update is done. """ _fields = set() _legacy_fields = set() _proxy_as_attr = set() _update_on_save = {'disk_bus': None, 'device_name': None, 'device_type': None} def __init__(self, bdm): # TODO(ndipanov): Remove this check when we have all the rpc methods # use objects for block devices. if isinstance(bdm, obj_base.NovaObject): self.__dict__['_bdm_obj'] = bdm else: self.__dict__['_bdm_obj'] = objects.BlockDeviceMapping() self._bdm_obj.update(block_device.BlockDeviceDict(bdm)) self._bdm_obj.obj_reset_changes() if self._bdm_obj.no_device: raise _NotTransformable() self.update({field: None for field in self._fields}) self._transform() def __getattr__(self, name): if name in self._proxy_as_attr: return getattr(self._bdm_obj, name) else: super(DriverBlockDevice, self).__getattr__(name) def __setattr__(self, name, value): if name in self._proxy_as_attr: return setattr(self._bdm_obj, name, value) else: super(DriverBlockDevice, self).__setattr__(name, value) def _transform(self): """Transform bdm to the format that is passed to drivers.""" raise NotImplementedError() def legacy(self): """Basic legacy transformation. Basic method will just drop the fields that are not in _legacy_fields set. Override this in subclass if needed. """ return {key: self.get(key) for key in self._legacy_fields} def attach(self, **kwargs): """Make the device available to be used by VMs. To be overridden in subclasses with the connecting logic for the type of device the subclass represents. """ raise NotImplementedError() def save(self): for attr_name, key_name in self._update_on_save.iteritems(): setattr(self._bdm_obj, attr_name, self[key_name or attr_name]) self._bdm_obj.save() class DriverSwapBlockDevice(DriverBlockDevice): _fields = set(['device_name', 'swap_size', 'disk_bus']) _legacy_fields = _fields - set(['disk_bus']) _update_on_save = {'disk_bus': None, 'device_name': None} def _transform(self): if not block_device.new_format_is_swap(self._bdm_obj): raise _InvalidType self.update({ 'device_name': self._bdm_obj.device_name, 'swap_size': self._bdm_obj.volume_size or 0, 'disk_bus': self._bdm_obj.disk_bus }) class DriverEphemeralBlockDevice(DriverBlockDevice): _new_only_fields = set(['disk_bus', 'device_type', 'guest_format']) _fields = set(['device_name', 'size']) | _new_only_fields _legacy_fields = (_fields - _new_only_fields | set(['num', 'virtual_name'])) def _transform(self): if not block_device.new_format_is_ephemeral(self._bdm_obj): raise _InvalidType self.update({ 'device_name': self._bdm_obj.device_name, 'size': self._bdm_obj.volume_size or 0, 'disk_bus': self._bdm_obj.disk_bus, 'device_type': self._bdm_obj.device_type, 'guest_format': self._bdm_obj.guest_format }) def legacy(self, num=0): legacy_bdm = super(DriverEphemeralBlockDevice, self).legacy() legacy_bdm['num'] = num legacy_bdm['virtual_name'] = 'ephemeral' + str(num) return legacy_bdm class DriverVolumeBlockDevice(DriverBlockDevice): _legacy_fields = set(['connection_info', 'mount_device', 'delete_on_termination']) _new_fields = set(['guest_format', 'device_type', 'disk_bus', 'boot_index']) _fields = _legacy_fields | _new_fields _valid_source = 'volume' _valid_destination = 'volume' _proxy_as_attr = set(['volume_size', 'volume_id']) _update_on_save = {'disk_bus': None, 'device_name': 'mount_device', 'device_type': None} def _transform(self): if (not self._bdm_obj.source_type == self._valid_source or not self._bdm_obj.destination_type == self._valid_destination): raise _InvalidType self.update( {k: v for k, v in self._bdm_obj.iteritems() if k in self._new_fields | set(['delete_on_termination'])} ) self['mount_device'] = self._bdm_obj.device_name try: self['connection_info'] = jsonutils.loads( self._bdm_obj.connection_info) except TypeError: self['connection_info'] = None def _preserve_multipath_id(self, connection_info): if self['connection_info'] and 'data' in self['connection_info']: if 'multipath_id' in self['connection_info']['data']: connection_info['data']['multipath_id'] =\ self['connection_info']['data']['multipath_id'] LOG.info(_LI('preserve multipath_id %s'), connection_info['data']['multipath_id']) @update_db def attach(self, context, instance, volume_api, virt_driver, do_check_attach=True, do_driver_attach=False): volume = volume_api.get(context, self.volume_id) if do_check_attach: volume_api.check_attach(context, volume, instance=instance) volume_id = volume['id'] context = context.elevated() connector = virt_driver.get_volume_connector(instance) connection_info = volume_api.initialize_connection(context, volume_id, connector) if 'serial' not in connection_info: connection_info['serial'] = self.volume_id self._preserve_multipath_id(connection_info) # If do_driver_attach is False, we will attach a volume to an instance # at boot time. So actual attach is done by instance creation code. if do_driver_attach: encryption = encryptors.get_encryption_metadata( context, volume_api, volume_id, connection_info) try: virt_driver.attach_volume( context, connection_info, instance, self['mount_device'], disk_bus=self['disk_bus'], device_type=self['device_type'], encryption=encryption) except Exception: with excutils.save_and_reraise_exception(): LOG.exception(_LE("Driver failed to attach volume " "%(volume_id)s at %(mountpoint)s"), {'volume_id': volume_id, 'mountpoint': self['mount_device']}, context=context, instance=instance) volume_api.terminate_connection(context, volume_id, connector) self['connection_info'] = connection_info mode = 'rw' if 'data' in connection_info: mode = connection_info['data'].get('access_mode', 'rw') if volume['attach_status'] == "detached": volume_api.attach(context, volume_id, instance.uuid, self['mount_device'], mode=mode) @update_db def refresh_connection_info(self, context, instance, volume_api, virt_driver): # NOTE (ndipanov): A no-op if there is no connection info already if not self['connection_info']: return connector = virt_driver.get_volume_connector(instance) connection_info = volume_api.initialize_connection(context, self.volume_id, connector) if 'serial' not in connection_info: connection_info['serial'] = self.volume_id self._preserve_multipath_id(connection_info) self['connection_info'] = connection_info def save(self): # NOTE(ndipanov): we might want to generalize this by adding it to the # _update_on_save and adding a transformation function. try: self._bdm_obj.connection_info = jsonutils.dumps( self.get('connection_info')) except TypeError: pass super(DriverVolumeBlockDevice, self).save() class DriverSnapshotBlockDevice(DriverVolumeBlockDevice): _valid_source = 'snapshot' _proxy_as_attr = set(['volume_size', 'volume_id', 'snapshot_id']) def attach(self, context, instance, volume_api, virt_driver, wait_func=None, do_check_attach=True): if not self.volume_id: av_zone = instance.availability_zone snapshot = volume_api.get_snapshot(context, self.snapshot_id) vol = volume_api.create(context, self.volume_size, '', '', snapshot, availability_zone=av_zone) if wait_func: wait_func(context, vol['id']) self.volume_id = vol['id'] # Call the volume attach now super(DriverSnapshotBlockDevice, self).attach( context, instance, volume_api, virt_driver, do_check_attach=do_check_attach) class DriverImageBlockDevice(DriverVolumeBlockDevice): _valid_source = 'image' _proxy_as_attr = set(['volume_size', 'volume_id', 'image_id']) def attach(self, context, instance, volume_api, virt_driver, wait_func=None, do_check_attach=True): if not self.volume_id: av_zone = instance.availability_zone vol = volume_api.create(context, self.volume_size, '', '', image_id=self.image_id, availability_zone=av_zone) if wait_func: wait_func(context, vol['id']) self.volume_id = vol['id'] super(DriverImageBlockDevice, self).attach( context, instance, volume_api, virt_driver, do_check_attach=do_check_attach) class DriverBlankBlockDevice(DriverVolumeBlockDevice): _valid_source = 'blank' _proxy_as_attr = set(['volume_size', 'volume_id', 'image_id']) def attach(self, context, instance, volume_api, virt_driver, wait_func=None, do_check_attach=True): if not self.volume_id: vol_name = instance.uuid + '-blank-vol' av_zone = instance.availability_zone vol = volume_api.create(context, self.volume_size, vol_name, '', availability_zone=av_zone) if wait_func: wait_func(context, vol['id']) self.volume_id = vol['id'] super(DriverBlankBlockDevice, self).attach( context, instance, volume_api, virt_driver, do_check_attach=do_check_attach) def _convert_block_devices(device_type, block_device_mapping): devices = [] for bdm in block_device_mapping: try: devices.append(device_type(bdm)) except _NotTransformable: pass return devices convert_swap = functools.partial(_convert_block_devices, DriverSwapBlockDevice) convert_ephemerals = functools.partial(_convert_block_devices, DriverEphemeralBlockDevice) convert_volumes = functools.partial(_convert_block_devices, DriverVolumeBlockDevice) convert_snapshots = functools.partial(_convert_block_devices, DriverSnapshotBlockDevice) convert_images = functools.partial(_convert_block_devices, DriverImageBlockDevice) convert_blanks = functools.partial(_convert_block_devices, DriverBlankBlockDevice) def attach_block_devices(block_device_mapping, *attach_args, **attach_kwargs): def _log_and_attach(bdm): context = attach_args[0] instance = attach_args[1] LOG.audit(_('Booting with volume %(volume_id)s at %(mountpoint)s'), {'volume_id': bdm.volume_id, 'mountpoint': bdm['mount_device']}, context=context, instance=instance) bdm.attach(*attach_args, **attach_kwargs) map(_log_and_attach, block_device_mapping) return block_device_mapping def refresh_conn_infos(block_device_mapping, *refresh_args, **refresh_kwargs): map(operator.methodcaller('refresh_connection_info', *refresh_args, **refresh_kwargs), block_device_mapping) return block_device_mapping def legacy_block_devices(block_device_mapping): def _has_legacy(bdm): try: bdm.legacy() except _NoLegacy: return False return True bdms = [bdm.legacy() for bdm in block_device_mapping if _has_legacy(bdm)] # Re-enumerate ephemeral devices if all(isinstance(bdm, DriverEphemeralBlockDevice) for bdm in block_device_mapping): for i, dev in enumerate(bdms): dev['virtual_name'] = dev['virtual_name'][:-1] + str(i) dev['num'] = i return bdms def get_swap(transformed_list): """Get the swap device out of the list context. The block_device_info needs swap to be a single device, not a list - otherwise this is a no-op. """ if not all(isinstance(device, DriverSwapBlockDevice) or 'swap_size' in device for device in transformed_list): return None try: return transformed_list.pop() except IndexError: return None _IMPLEMENTED_CLASSES = (DriverSwapBlockDevice, DriverEphemeralBlockDevice, DriverVolumeBlockDevice, DriverSnapshotBlockDevice, DriverImageBlockDevice, DriverBlankBlockDevice) def is_implemented(bdm): for cls in _IMPLEMENTED_CLASSES: try: cls(bdm) return True except _NotTransformable: pass return False def is_block_device_mapping(bdm): return (bdm.source_type in ('image', 'volume', 'snapshot', 'blank') and bdm.destination_type == 'volume' and is_implemented(bdm))