# Copyright 2013 Intel Corporation # 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 copy from oslo_log import log as logging from oslo_serialization import jsonutils from oslo_utils import uuidutils from oslo_utils import versionutils import six from nova.db import api as db from nova import exception from nova import objects from nova.objects import base from nova.objects import fields LOG = logging.getLogger(__name__) def compare_pci_device_attributes(obj_a, obj_b): if not isinstance(obj_b, PciDevice): return False pci_ignore_fields = base.NovaPersistentObject.fields.keys() for name in obj_a.obj_fields: if name in pci_ignore_fields: continue is_set_a = obj_a.obj_attr_is_set(name) is_set_b = obj_b.obj_attr_is_set(name) if is_set_a != is_set_b: return False if is_set_a: if getattr(obj_a, name) != getattr(obj_b, name): return False return True @base.NovaObjectRegistry.register class PciDevice(base.NovaPersistentObject, base.NovaObject): """Object to represent a PCI device on a compute node. PCI devices are managed by the compute resource tracker, which discovers the devices from the hardware platform, claims, allocates and frees devices for instances. The PCI device information is permanently maintained in a database. This makes it convenient to get PCI device information, like physical function for a VF device, adjacent switch IP address for a NIC, hypervisor identification for a PCI device, etc. It also provides a convenient way to check device allocation information for administrator purposes. A device can be in available/claimed/allocated/deleted/removed state. A device is available when it is discovered.. A device is claimed prior to being allocated to an instance. Normally the transition from claimed to allocated is quick. However, during a resize operation the transition can take longer, because devices are claimed in prep_resize and allocated in finish_resize. A device becomes removed when hot removed from a node (i.e. not found in the next auto-discover) but not yet synced with the DB. A removed device should not be allocated to any instance, and once deleted from the DB, the device object is changed to deleted state and no longer synced with the DB. Filed notes:: | 'dev_id': | Hypervisor's identification for the device, the string format | is hypervisor specific | 'extra_info': | Device-specific properties like PF address, switch ip address etc. """ # Version 1.0: Initial version # Version 1.1: String attributes updated to support unicode # Version 1.2: added request_id field # Version 1.3: Added field to represent PCI device NUMA node # Version 1.4: Added parent_addr field # Version 1.5: Added 2 new device statuses: UNCLAIMABLE and UNAVAILABLE # Version 1.6: Added uuid field VERSION = '1.6' fields = { 'id': fields.IntegerField(), 'uuid': fields.UUIDField(), # Note(yjiang5): the compute_node_id may be None because the pci # device objects are created before the compute node is created in DB 'compute_node_id': fields.IntegerField(nullable=True), 'address': fields.StringField(), 'vendor_id': fields.StringField(), 'product_id': fields.StringField(), 'dev_type': fields.PciDeviceTypeField(), 'status': fields.PciDeviceStatusField(), 'dev_id': fields.StringField(nullable=True), 'label': fields.StringField(nullable=True), 'instance_uuid': fields.StringField(nullable=True), 'request_id': fields.StringField(nullable=True), 'extra_info': fields.DictOfStringsField(), 'numa_node': fields.IntegerField(nullable=True), 'parent_addr': fields.StringField(nullable=True), } def obj_make_compatible(self, primitive, target_version): target_version = versionutils.convert_version_to_tuple(target_version) if target_version < (1, 2) and 'request_id' in primitive: del primitive['request_id'] if target_version < (1, 4) and 'parent_addr' in primitive: if primitive['parent_addr'] is not None: extra_info = primitive.get('extra_info', {}) extra_info['phys_function'] = primitive['parent_addr'] del primitive['parent_addr'] if target_version < (1, 5) and 'parent_addr' in primitive: added_statuses = (fields.PciDeviceStatus.UNCLAIMABLE, fields.PciDeviceStatus.UNAVAILABLE) status = primitive['status'] if status in added_statuses: raise exception.ObjectActionError( action='obj_make_compatible', reason='status=%s not supported in version %s' % ( status, target_version)) if target_version < (1, 6) and 'uuid' in primitive: del primitive['uuid'] def update_device(self, dev_dict): """Sync the content from device dictionary to device object. The resource tracker updates the available devices periodically. To avoid meaningless syncs with the database, we update the device object only if a value changed. """ # Note(yjiang5): status/instance_uuid should only be updated by # functions like claim/allocate etc. The id is allocated by # database. The extra_info is created by the object. no_changes = ('status', 'instance_uuid', 'id', 'extra_info') for key in no_changes: dev_dict.pop(key, None) # NOTE(ndipanov): This needs to be set as it's accessed when matching dev_dict.setdefault('parent_addr') for k, v in dev_dict.items(): if k in self.fields.keys(): setattr(self, k, v) else: # NOTE(yjiang5): extra_info.update does not update # obj_what_changed, set it explicitly # NOTE(ralonsoh): list of parameters currently added to # "extra_info" dict: # - "capabilities": dict of (strings/list of strings) extra_info = self.extra_info data = (v if isinstance(v, six.string_types) else jsonutils.dumps(v)) extra_info.update({k: data}) self.extra_info = extra_info def __init__(self, *args, **kwargs): super(PciDevice, self).__init__(*args, **kwargs) self.obj_reset_changes() self.extra_info = {} # NOTE(ndipanov): These are required to build an in-memory device tree # but don't need to be proper fields (and can't easily be as they would # hold circular references) self.parent_device = None self.child_devices = [] def __eq__(self, other): return compare_pci_device_attributes(self, other) def __ne__(self, other): return not (self == other) @staticmethod def _from_db_object(context, pci_device, db_dev): for key in pci_device.fields: if key == 'uuid' and db_dev['uuid'] is None: # Older records might not have a uuid field set in the # database so we need to skip those here and auto-generate # a uuid later below. continue elif key != 'extra_info': setattr(pci_device, key, db_dev[key]) else: extra_info = db_dev.get("extra_info") pci_device.extra_info = jsonutils.loads(extra_info) pci_device._context = context pci_device.obj_reset_changes() # TODO(jaypipes): Remove in 2.0 version of object. This does an inline # migration to populate the uuid field. A similar inline migration is # performed in the save() method. if db_dev['uuid'] is None: pci_device.uuid = uuidutils.generate_uuid() pci_device.save() return pci_device @base.remotable_classmethod def get_by_dev_addr(cls, context, compute_node_id, dev_addr): db_dev = db.pci_device_get_by_addr( context, compute_node_id, dev_addr) return cls._from_db_object(context, cls(), db_dev) @base.remotable_classmethod def get_by_dev_id(cls, context, id): db_dev = db.pci_device_get_by_id(context, id) return cls._from_db_object(context, cls(), db_dev) @classmethod def create(cls, context, dev_dict): """Create a PCI device based on hypervisor information. As the device object is just created and is not synced with db yet thus we should not reset changes here for fields from dict. """ pci_device = cls() pci_device.update_device(dev_dict) pci_device.status = fields.PciDeviceStatus.AVAILABLE pci_device.uuid = uuidutils.generate_uuid() pci_device._context = context return pci_device @base.remotable def save(self): if self.status == fields.PciDeviceStatus.REMOVED: self.status = fields.PciDeviceStatus.DELETED db.pci_device_destroy(self._context, self.compute_node_id, self.address) elif self.status != fields.PciDeviceStatus.DELETED: # TODO(jaypipes): Remove in 2.0 version of object. This does an # inline migration to populate the uuid field. A similar migration # is done in the _from_db_object() method to migrate objects as # they are read from the DB. if 'uuid' not in self: self.uuid = uuidutils.generate_uuid() updates = self.obj_get_changes() if 'extra_info' in updates: updates['extra_info'] = jsonutils.dumps(updates['extra_info']) if updates: db_pci = db.pci_device_update(self._context, self.compute_node_id, self.address, updates) self._from_db_object(self._context, self, db_pci) @staticmethod def _bulk_update_status(dev_list, status): for dev in dev_list: dev.status = status def claim(self, instance_uuid): if self.status != fields.PciDeviceStatus.AVAILABLE: raise exception.PciDeviceInvalidStatus( compute_node_id=self.compute_node_id, address=self.address, status=self.status, hopestatus=[fields.PciDeviceStatus.AVAILABLE]) if self.dev_type == fields.PciDeviceType.SRIOV_PF: # Update PF status to CLAIMED if all of it dependants are free # and set their status to UNCLAIMABLE vfs_list = self.child_devices if not all([vf.is_available() for vf in vfs_list]): raise exception.PciDeviceVFInvalidStatus( compute_node_id=self.compute_node_id, address=self.address) self._bulk_update_status(vfs_list, fields.PciDeviceStatus.UNCLAIMABLE) elif self.dev_type == fields.PciDeviceType.SRIOV_VF: # Update VF status to CLAIMED if it's parent has not been # previously allocated or claimed # When claiming/allocating a VF, it's parent PF becomes # unclaimable/unavailable. Therefore, it is expected to find the # parent PF in an unclaimable/unavailable state for any following # claims to a sibling VF parent_ok_statuses = (fields.PciDeviceStatus.AVAILABLE, fields.PciDeviceStatus.UNCLAIMABLE, fields.PciDeviceStatus.UNAVAILABLE) parent = self.parent_device if parent: if parent.status not in parent_ok_statuses: raise exception.PciDevicePFInvalidStatus( compute_node_id=self.compute_node_id, address=self.parent_addr, status=self.status, vf_address=self.address, hopestatus=parent_ok_statuses) # Set PF status if parent.status == fields.PciDeviceStatus.AVAILABLE: parent.status = fields.PciDeviceStatus.UNCLAIMABLE else: LOG.debug('Physical function addr: %(pf_addr)s parent of ' 'VF addr: %(vf_addr)s was not found', {'pf_addr': self.parent_addr, 'vf_addr': self.address}) self.status = fields.PciDeviceStatus.CLAIMED self.instance_uuid = instance_uuid def allocate(self, instance): ok_statuses = (fields.PciDeviceStatus.AVAILABLE, fields.PciDeviceStatus.CLAIMED) parent_ok_statuses = (fields.PciDeviceStatus.AVAILABLE, fields.PciDeviceStatus.UNCLAIMABLE, fields.PciDeviceStatus.UNAVAILABLE) dependants_ok_statuses = (fields.PciDeviceStatus.AVAILABLE, fields.PciDeviceStatus.UNCLAIMABLE) if self.status not in ok_statuses: raise exception.PciDeviceInvalidStatus( compute_node_id=self.compute_node_id, address=self.address, status=self.status, hopestatus=ok_statuses) if (self.status == fields.PciDeviceStatus.CLAIMED and self.instance_uuid != instance['uuid']): raise exception.PciDeviceInvalidOwner( compute_node_id=self.compute_node_id, address=self.address, owner=self.instance_uuid, hopeowner=instance['uuid']) if self.dev_type == fields.PciDeviceType.SRIOV_PF: vfs_list = self.child_devices if not all([vf.status in dependants_ok_statuses for vf in vfs_list]): raise exception.PciDeviceVFInvalidStatus( compute_node_id=self.compute_node_id, address=self.address) self._bulk_update_status(vfs_list, fields.PciDeviceStatus.UNAVAILABLE) elif (self.dev_type == fields.PciDeviceType.SRIOV_VF): parent = self.parent_device if parent: if parent.status not in parent_ok_statuses: raise exception.PciDevicePFInvalidStatus( compute_node_id=self.compute_node_id, address=self.parent_addr, status=self.status, vf_address=self.address, hopestatus=parent_ok_statuses) # Set PF status parent.status = fields.PciDeviceStatus.UNAVAILABLE else: LOG.debug('Physical function addr: %(pf_addr)s parent of ' 'VF addr: %(vf_addr)s was not found', {'pf_addr': self.parent_addr, 'vf_addr': self.address}) self.status = fields.PciDeviceStatus.ALLOCATED self.instance_uuid = instance['uuid'] # Notes(yjiang5): remove this check when instance object for # compute manager is finished if isinstance(instance, dict): if 'pci_devices' not in instance: instance['pci_devices'] = [] instance['pci_devices'].append(copy.copy(self)) else: instance.pci_devices.objects.append(copy.copy(self)) def remove(self): if self.status != fields.PciDeviceStatus.AVAILABLE: raise exception.PciDeviceInvalidStatus( compute_node_id=self.compute_node_id, address=self.address, status=self.status, hopestatus=[fields.PciDeviceStatus.AVAILABLE]) self.status = fields.PciDeviceStatus.REMOVED self.instance_uuid = None self.request_id = None def free(self, instance=None): ok_statuses = (fields.PciDeviceStatus.ALLOCATED, fields.PciDeviceStatus.CLAIMED) free_devs = [] if self.status not in ok_statuses: raise exception.PciDeviceInvalidStatus( compute_node_id=self.compute_node_id, address=self.address, status=self.status, hopestatus=ok_statuses) if instance and self.instance_uuid != instance['uuid']: raise exception.PciDeviceInvalidOwner( compute_node_id=self.compute_node_id, address=self.address, owner=self.instance_uuid, hopeowner=instance['uuid']) if self.dev_type == fields.PciDeviceType.SRIOV_PF: # Set all PF dependants status to AVAILABLE vfs_list = self.child_devices self._bulk_update_status(vfs_list, fields.PciDeviceStatus.AVAILABLE) free_devs.extend(vfs_list) if self.dev_type == fields.PciDeviceType.SRIOV_VF: # Set PF status to AVAILABLE if all of it's VFs are free parent = self.parent_device if not parent: LOG.debug('Physical function addr: %(pf_addr)s parent of ' 'VF addr: %(vf_addr)s was not found', {'pf_addr': self.parent_addr, 'vf_addr': self.address}) else: vfs_list = parent.child_devices if all([vf.is_available() for vf in vfs_list if vf.id != self.id]): parent.status = fields.PciDeviceStatus.AVAILABLE free_devs.append(parent) old_status = self.status self.status = fields.PciDeviceStatus.AVAILABLE free_devs.append(self) self.instance_uuid = None self.request_id = None if old_status == fields.PciDeviceStatus.ALLOCATED and instance: # Notes(yjiang5): remove this check when instance object for # compute manager is finished existed = next((dev for dev in instance['pci_devices'] if dev.id == self.id)) if isinstance(instance, dict): instance['pci_devices'].remove(existed) else: instance.pci_devices.objects.remove(existed) return free_devs def is_available(self): return self.status == fields.PciDeviceStatus.AVAILABLE @base.NovaObjectRegistry.register class PciDeviceList(base.ObjectListBase, base.NovaObject): # Version 1.0: Initial version # PciDevice <= 1.1 # Version 1.1: PciDevice 1.2 # Version 1.2: PciDevice 1.3 # Version 1.3: Adds get_by_parent_address VERSION = '1.3' fields = { 'objects': fields.ListOfObjectsField('PciDevice'), } def __init__(self, *args, **kwargs): super(PciDeviceList, self).__init__(*args, **kwargs) if 'objects' not in kwargs: self.objects = [] self.obj_reset_changes() @base.remotable_classmethod def get_by_compute_node(cls, context, node_id): db_dev_list = db.pci_device_get_all_by_node(context, node_id) return base.obj_make_list(context, cls(context), objects.PciDevice, db_dev_list) @base.remotable_classmethod def get_by_instance_uuid(cls, context, uuid): db_dev_list = db.pci_device_get_all_by_instance_uuid(context, uuid) return base.obj_make_list(context, cls(context), objects.PciDevice, db_dev_list) @base.remotable_classmethod def get_by_parent_address(cls, context, node_id, parent_addr): db_dev_list = db.pci_device_get_all_by_parent_addr(context, node_id, parent_addr) return base.obj_make_list(context, cls(context), objects.PciDevice, db_dev_list)