725 lines
20 KiB
Python
725 lines
20 KiB
Python
# Copyright 2013 Red Hat, Inc.
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#
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# Licensed under the Apache License, Version 2.0 (the "License"); you may
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# not use this file except in compliance with the License. You may obtain
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# a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
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# License for the specific language governing permissions and limitations
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# under the License.
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from collections import OrderedDict
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import netaddr
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from oslo_versionedobjects import fields
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import six
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# TODO(berrange) Temporary import for Arch class
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from nova.compute import arch
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# TODO(berrange) Temporary import for CPU* classes
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from nova.compute import cpumodel
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# TODO(berrange) Temporary import for HVType class
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from nova.compute import hv_type
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# TODO(berrange) Temporary import for VMMode class
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from nova.compute import vm_mode
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from nova import exception
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from nova.i18n import _
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from nova.network import model as network_model
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# Import field errors from oslo.versionedobjects
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KeyTypeError = fields.KeyTypeError
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ElementTypeError = fields.ElementTypeError
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# Import fields from oslo.versionedobjects
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BooleanField = fields.BooleanField
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UnspecifiedDefault = fields.UnspecifiedDefault
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IntegerField = fields.IntegerField
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UUIDField = fields.UUIDField
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FloatField = fields.FloatField
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StringField = fields.StringField
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EnumField = fields.EnumField
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DateTimeField = fields.DateTimeField
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DictOfStringsField = fields.DictOfStringsField
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DictOfNullableStringsField = fields.DictOfNullableStringsField
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DictOfIntegersField = fields.DictOfIntegersField
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ListOfStringsField = fields.ListOfStringsField
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SetOfIntegersField = fields.SetOfIntegersField
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ListOfSetsOfIntegersField = fields.ListOfSetsOfIntegersField
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ListOfDictOfNullableStringsField = fields.ListOfDictOfNullableStringsField
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DictProxyField = fields.DictProxyField
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ObjectField = fields.ObjectField
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ListOfObjectsField = fields.ListOfObjectsField
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VersionPredicateField = fields.VersionPredicateField
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FlexibleBooleanField = fields.FlexibleBooleanField
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DictOfListOfStringsField = fields.DictOfListOfStringsField
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# NOTE(danms): These are things we need to import for some of our
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# own implementations below, our tests, or other transitional
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# bits of code. These should be removable after we finish our
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# conversion
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Enum = fields.Enum
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Field = fields.Field
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FieldType = fields.FieldType
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Set = fields.Set
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Dict = fields.Dict
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List = fields.List
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Object = fields.Object
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class Architecture(Enum):
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# TODO(berrange): move all constants out of 'nova.compute.arch'
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# into fields on this class
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def __init__(self, **kwargs):
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super(Architecture, self).__init__(
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valid_values=arch.ALL, **kwargs)
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def coerce(self, obj, attr, value):
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try:
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value = arch.canonicalize(value)
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except exception.InvalidArchitectureName:
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msg = _("Architecture name '%s' is not valid") % value
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raise ValueError(msg)
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return super(Architecture, self).coerce(obj, attr, value)
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class BlockDeviceDestinationType(Enum):
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"""Represents possible destination_type values for a BlockDeviceMapping."""
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LOCAL = 'local'
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VOLUME = 'volume'
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ALL = (LOCAL, VOLUME)
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def __init__(self):
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super(BlockDeviceDestinationType, self).__init__(
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valid_values=BlockDeviceDestinationType.ALL)
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class BlockDeviceSourceType(Enum):
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"""Represents the possible source_type values for a BlockDeviceMapping."""
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BLANK = 'blank'
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IMAGE = 'image'
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SNAPSHOT = 'snapshot'
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VOLUME = 'volume'
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ALL = (BLANK, IMAGE, SNAPSHOT, VOLUME)
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def __init__(self):
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super(BlockDeviceSourceType, self).__init__(
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valid_values=BlockDeviceSourceType.ALL)
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class BlockDeviceType(Enum):
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"""Represents possible device_type values for a BlockDeviceMapping."""
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CDROM = 'cdrom'
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DISK = 'disk'
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FLOPPY = 'floppy'
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FS = 'fs'
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LUN = 'lun'
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ALL = (CDROM, DISK, FLOPPY, FS, LUN)
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def __init__(self):
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super(BlockDeviceType, self).__init__(
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valid_values=BlockDeviceType.ALL)
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class ConfigDrivePolicy(Enum):
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OPTIONAL = "optional"
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MANDATORY = "mandatory"
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ALL = (OPTIONAL, MANDATORY)
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def __init__(self):
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super(ConfigDrivePolicy, self).__init__(
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valid_values=ConfigDrivePolicy.ALL)
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class CPUAllocationPolicy(Enum):
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DEDICATED = "dedicated"
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SHARED = "shared"
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ALL = (DEDICATED, SHARED)
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def __init__(self):
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super(CPUAllocationPolicy, self).__init__(
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valid_values=CPUAllocationPolicy.ALL)
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class CPUThreadAllocationPolicy(Enum):
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# prefer (default): The host may or may not have hyperthreads. This
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# retains the legacy behavior, whereby siblings are prefered when
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# available. This is the default if no policy is specified.
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PREFER = "prefer"
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# isolate: The host may or many not have hyperthreads. If hyperthreads are
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# present, each vCPU will be placed on a different core and no vCPUs from
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# other guests will be able to be placed on the same core, i.e. one
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# thread sibling is guaranteed to always be unused. If hyperthreads are
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# not present, each vCPU will still be placed on a different core and
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# there are no thread siblings to be concerned with.
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ISOLATE = "isolate"
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# require: The host must have hyperthreads. Each vCPU will be allocated on
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# thread siblings.
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REQUIRE = "require"
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ALL = (PREFER, ISOLATE, REQUIRE)
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def __init__(self):
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super(CPUThreadAllocationPolicy, self).__init__(
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valid_values=CPUThreadAllocationPolicy.ALL)
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class CPUMode(Enum):
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# TODO(berrange): move all constants out of 'nova.compute.cpumodel'
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# into fields on this class
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def __init__(self, **kwargs):
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super(CPUMode, self).__init__(
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valid_values=cpumodel.ALL_CPUMODES, **kwargs)
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class CPUMatch(Enum):
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# TODO(berrange): move all constants out of 'nova.compute.cpumodel'
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# into fields on this class
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def __init__(self, **kwargs):
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super(CPUMatch, self).__init__(
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valid_values=cpumodel.ALL_MATCHES, **kwargs)
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class CPUFeaturePolicy(Enum):
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# TODO(berrange): move all constants out of 'nova.compute.cpumodel'
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# into fields on this class
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def __init__(self, **kwargs):
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super(CPUFeaturePolicy, self).__init__(
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valid_values=cpumodel.ALL_POLICIES, **kwargs)
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class DiskBus(Enum):
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FDC = "fdc"
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IDE = "ide"
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SATA = "sata"
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SCSI = "scsi"
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USB = "usb"
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VIRTIO = "virtio"
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XEN = "xen"
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LXC = "lxc"
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UML = "uml"
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ALL = (FDC, IDE, SATA, SCSI, USB, VIRTIO, XEN, LXC, UML)
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def __init__(self):
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super(DiskBus, self).__init__(
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valid_values=DiskBus.ALL)
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class HVType(Enum):
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# TODO(berrange): move all constants out of 'nova.compute.hv_type'
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# into fields on this class
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def __init__(self):
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super(HVType, self).__init__(
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valid_values=hv_type.ALL)
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def coerce(self, obj, attr, value):
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try:
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value = hv_type.canonicalize(value)
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except exception.InvalidHypervisorVirtType:
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msg = _("Hypervisor virt type '%s' is not valid") % value
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raise ValueError(msg)
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return super(HVType, self).coerce(obj, attr, value)
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class OSType(Enum):
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LINUX = "linux"
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WINDOWS = "windows"
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ALL = (LINUX, WINDOWS)
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def __init__(self):
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super(OSType, self).__init__(
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valid_values=OSType.ALL)
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def coerce(self, obj, attr, value):
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# Some code/docs use upper case or initial caps
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# so canonicalize to all lower case
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value = value.lower()
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return super(OSType, self).coerce(obj, attr, value)
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class RNGModel(Enum):
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VIRTIO = "virtio"
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ALL = (VIRTIO,)
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def __init__(self):
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super(RNGModel, self).__init__(
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valid_values=RNGModel.ALL)
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class SCSIModel(Enum):
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BUSLOGIC = "buslogic"
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IBMVSCSI = "ibmvscsi"
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LSILOGIC = "lsilogic"
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LSISAS1068 = "lsisas1068"
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LSISAS1078 = "lsisas1078"
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VIRTIO_SCSI = "virtio-scsi"
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VMPVSCSI = "vmpvscsi"
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ALL = (BUSLOGIC, IBMVSCSI, LSILOGIC, LSISAS1068,
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LSISAS1078, VIRTIO_SCSI, VMPVSCSI)
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def __init__(self):
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super(SCSIModel, self).__init__(
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valid_values=SCSIModel.ALL)
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def coerce(self, obj, attr, value):
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# Some compat for strings we'd see in the legacy
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# vmware_adaptertype image property
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value = value.lower()
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if value == "lsilogicsas":
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value = SCSIModel.LSISAS1068
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elif value == "paravirtual":
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value = SCSIModel.VMPVSCSI
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return super(SCSIModel, self).coerce(obj, attr, value)
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class VideoModel(Enum):
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CIRRUS = "cirrus"
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QXL = "qxl"
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VGA = "vga"
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VMVGA = "vmvga"
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XEN = "xen"
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ALL = (CIRRUS, QXL, VGA, VMVGA, XEN)
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def __init__(self):
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super(VideoModel, self).__init__(
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valid_values=VideoModel.ALL)
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class VIFModel(Enum):
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LEGACY_VALUES = {"virtuale1000":
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network_model.VIF_MODEL_E1000,
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"virtuale1000e":
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network_model.VIF_MODEL_E1000E,
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"virtualpcnet32":
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network_model.VIF_MODEL_PCNET,
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"virtualsriovethernetcard":
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network_model.VIF_MODEL_SRIOV,
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"virtualvmxnet":
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network_model.VIF_MODEL_VMXNET,
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"virtualvmxnet3":
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network_model.VIF_MODEL_VMXNET3,
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}
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def __init__(self):
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super(VIFModel, self).__init__(
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valid_values=network_model.VIF_MODEL_ALL)
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def _get_legacy(self, value):
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return value
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def coerce(self, obj, attr, value):
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# Some compat for strings we'd see in the legacy
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# hw_vif_model image property
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value = value.lower()
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value = VIFModel.LEGACY_VALUES.get(value, value)
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return super(VIFModel, self).coerce(obj, attr, value)
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class VMMode(Enum):
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# TODO(berrange): move all constants out of 'nova.compute.vm_mode'
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# into fields on this class
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def __init__(self):
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super(VMMode, self).__init__(
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valid_values=vm_mode.ALL)
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def coerce(self, obj, attr, value):
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try:
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value = vm_mode.canonicalize(value)
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except exception.InvalidVirtualMachineMode:
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msg = _("Virtual machine mode '%s' is not valid") % value
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raise ValueError(msg)
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return super(VMMode, self).coerce(obj, attr, value)
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class WatchdogAction(Enum):
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NONE = "none"
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PAUSE = "pause"
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POWEROFF = "poweroff"
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RESET = "reset"
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ALL = (NONE, PAUSE, POWEROFF, RESET)
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def __init__(self):
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super(WatchdogAction, self).__init__(
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valid_values=WatchdogAction.ALL)
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class MonitorMetricType(Enum):
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CPU_FREQUENCY = "cpu.frequency"
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CPU_USER_TIME = "cpu.user.time"
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CPU_KERNEL_TIME = "cpu.kernel.time"
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CPU_IDLE_TIME = "cpu.idle.time"
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CPU_IOWAIT_TIME = "cpu.iowait.time"
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CPU_USER_PERCENT = "cpu.user.percent"
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CPU_KERNEL_PERCENT = "cpu.kernel.percent"
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CPU_IDLE_PERCENT = "cpu.idle.percent"
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CPU_IOWAIT_PERCENT = "cpu.iowait.percent"
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CPU_PERCENT = "cpu.percent"
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NUMA_MEM_BW_MAX = "numa.membw.max"
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NUMA_MEM_BW_CURRENT = "numa.membw.current"
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ALL = (
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CPU_FREQUENCY,
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CPU_USER_TIME,
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CPU_KERNEL_TIME,
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CPU_IDLE_TIME,
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CPU_IOWAIT_TIME,
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CPU_USER_PERCENT,
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CPU_KERNEL_PERCENT,
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CPU_IDLE_PERCENT,
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CPU_IOWAIT_PERCENT,
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CPU_PERCENT,
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NUMA_MEM_BW_MAX,
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NUMA_MEM_BW_CURRENT,
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)
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def __init__(self):
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super(MonitorMetricType, self).__init__(
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valid_values=MonitorMetricType.ALL)
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class PciDeviceStatus(Enum):
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AVAILABLE = "available"
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CLAIMED = "claimed"
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ALLOCATED = "allocated"
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REMOVED = "removed" # The device has been hot-removed and not yet deleted
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DELETED = "deleted" # The device is marked not available/deleted.
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ALL = (AVAILABLE, CLAIMED, ALLOCATED, REMOVED, DELETED)
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def __init__(self):
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super(PciDeviceStatus, self).__init__(
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valid_values=PciDeviceStatus.ALL)
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class PciDeviceType(Enum):
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# NOTE(jaypipes): It's silly that the word "type-" is in these constants,
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# but alas, these were the original constant strings used...
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STANDARD = "type-PCI"
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SRIOV_PF = "type-PF"
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SRIOV_VF = "type-VF"
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ALL = (STANDARD, SRIOV_PF, SRIOV_VF)
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def __init__(self):
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super(PciDeviceType, self).__init__(
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valid_values=PciDeviceType.ALL)
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class IPAddress(FieldType):
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@staticmethod
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def coerce(obj, attr, value):
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try:
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return netaddr.IPAddress(value)
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except netaddr.AddrFormatError as e:
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raise ValueError(six.text_type(e))
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def from_primitive(self, obj, attr, value):
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return self.coerce(obj, attr, value)
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@staticmethod
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def to_primitive(obj, attr, value):
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return str(value)
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class IPV4Address(IPAddress):
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@staticmethod
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def coerce(obj, attr, value):
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result = IPAddress.coerce(obj, attr, value)
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if result.version != 4:
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raise ValueError(_('Network "%(val)s" is not valid '
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'in field %(attr)s') %
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{'val': value, 'attr': attr})
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return result
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class IPV6Address(IPAddress):
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@staticmethod
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def coerce(obj, attr, value):
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result = IPAddress.coerce(obj, attr, value)
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if result.version != 6:
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raise ValueError(_('Network "%(val)s" is not valid '
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'in field %(attr)s') %
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{'val': value, 'attr': attr})
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return result
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class IPV4AndV6Address(IPAddress):
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@staticmethod
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def coerce(obj, attr, value):
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result = IPAddress.coerce(obj, attr, value)
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if result.version != 4 and result.version != 6:
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raise ValueError(_('Network "%(val)s" is not valid '
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'in field %(attr)s') %
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{'val': value, 'attr': attr})
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return result
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class IPNetwork(IPAddress):
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@staticmethod
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def coerce(obj, attr, value):
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try:
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return netaddr.IPNetwork(value)
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except netaddr.AddrFormatError as e:
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raise ValueError(six.text_type(e))
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class IPV4Network(IPNetwork):
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@staticmethod
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def coerce(obj, attr, value):
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try:
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return netaddr.IPNetwork(value, version=4)
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except netaddr.AddrFormatError as e:
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raise ValueError(six.text_type(e))
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class IPV6Network(IPNetwork):
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@staticmethod
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def coerce(obj, attr, value):
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try:
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return netaddr.IPNetwork(value, version=6)
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except netaddr.AddrFormatError as e:
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raise ValueError(six.text_type(e))
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class NetworkModel(FieldType):
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@staticmethod
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def coerce(obj, attr, value):
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if isinstance(value, network_model.NetworkInfo):
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return value
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elif isinstance(value, six.string_types):
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# Hmm, do we need this?
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return network_model.NetworkInfo.hydrate(value)
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else:
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raise ValueError(_('A NetworkModel is required in field %s') %
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attr)
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@staticmethod
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def to_primitive(obj, attr, value):
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return value.json()
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@staticmethod
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def from_primitive(obj, attr, value):
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return network_model.NetworkInfo.hydrate(value)
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def stringify(self, value):
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return 'NetworkModel(%s)' % (
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','.join([str(vif['id']) for vif in value]))
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class NonNegativeFloat(FieldType):
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@staticmethod
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def coerce(obj, attr, value):
|
|
v = float(value)
|
|
if v < 0:
|
|
raise ValueError(_('Value must be >= 0 for field %s') % attr)
|
|
return v
|
|
|
|
|
|
class NonNegativeInteger(FieldType):
|
|
@staticmethod
|
|
def coerce(obj, attr, value):
|
|
v = int(value)
|
|
if v < 0:
|
|
raise ValueError(_('Value must be >= 0 for field %s') % attr)
|
|
return v
|
|
|
|
|
|
class AutoTypedField(fields.Field):
|
|
AUTO_TYPE = None
|
|
|
|
def __init__(self, **kwargs):
|
|
super(AutoTypedField, self).__init__(self.AUTO_TYPE, **kwargs)
|
|
|
|
|
|
# FIXME(danms): Remove this after oslo.versionedobjects gets it
|
|
class BaseEnumField(AutoTypedField):
|
|
'''This class should not be directly instantiated. Instead
|
|
subclass it and set AUTO_TYPE to be a SomeEnum()
|
|
where SomeEnum is a subclass of Enum.
|
|
'''
|
|
def __init__(self, **kwargs):
|
|
if self.AUTO_TYPE is None:
|
|
raise exception.EnumFieldUnset(
|
|
fieldname=self.__class__.__name__)
|
|
|
|
if not isinstance(self.AUTO_TYPE, Enum):
|
|
raise exception.EnumFieldInvalid(
|
|
typename=self.AUTO_TYPE.__class__.__name,
|
|
fieldname=self.__class__.__name__)
|
|
|
|
super(BaseEnumField, self).__init__(**kwargs)
|
|
|
|
def __repr__(self):
|
|
valid_values = self._type._valid_values
|
|
args = {
|
|
'nullable': self._nullable,
|
|
'default': self._default,
|
|
}
|
|
if valid_values:
|
|
args.update({'valid_values': valid_values})
|
|
args = OrderedDict(sorted(args.items()))
|
|
return '%s(%s)' % (self._type.__class__.__name__,
|
|
','.join(['%s=%s' % (k, v)
|
|
for k, v in args.items()]))
|
|
|
|
|
|
class ArchitectureField(BaseEnumField):
|
|
AUTO_TYPE = Architecture()
|
|
|
|
|
|
class BlockDeviceDestinationTypeField(BaseEnumField):
|
|
AUTO_TYPE = BlockDeviceDestinationType()
|
|
|
|
|
|
class BlockDeviceSourceTypeField(BaseEnumField):
|
|
AUTO_TYPE = BlockDeviceSourceType()
|
|
|
|
|
|
class BlockDeviceTypeField(BaseEnumField):
|
|
AUTO_TYPE = BlockDeviceType()
|
|
|
|
|
|
class ConfigDrivePolicyField(BaseEnumField):
|
|
AUTO_TYPE = ConfigDrivePolicy()
|
|
|
|
|
|
class CPUAllocationPolicyField(BaseEnumField):
|
|
AUTO_TYPE = CPUAllocationPolicy()
|
|
|
|
|
|
class CPUThreadAllocationPolicyField(BaseEnumField):
|
|
AUTO_TYPE = CPUThreadAllocationPolicy()
|
|
|
|
|
|
class CPUModeField(BaseEnumField):
|
|
AUTO_TYPE = CPUMode()
|
|
|
|
|
|
class CPUMatchField(BaseEnumField):
|
|
AUTO_TYPE = CPUMatch()
|
|
|
|
|
|
class CPUFeaturePolicyField(BaseEnumField):
|
|
AUTO_TYPE = CPUFeaturePolicy()
|
|
|
|
|
|
class DiskBusField(BaseEnumField):
|
|
AUTO_TYPE = DiskBus()
|
|
|
|
|
|
class HVTypeField(BaseEnumField):
|
|
AUTO_TYPE = HVType()
|
|
|
|
|
|
class OSTypeField(BaseEnumField):
|
|
AUTO_TYPE = OSType()
|
|
|
|
|
|
class RNGModelField(BaseEnumField):
|
|
AUTO_TYPE = RNGModel()
|
|
|
|
|
|
class SCSIModelField(BaseEnumField):
|
|
AUTO_TYPE = SCSIModel()
|
|
|
|
|
|
class VideoModelField(BaseEnumField):
|
|
AUTO_TYPE = VideoModel()
|
|
|
|
|
|
class VIFModelField(BaseEnumField):
|
|
AUTO_TYPE = VIFModel()
|
|
|
|
|
|
class VMModeField(BaseEnumField):
|
|
AUTO_TYPE = VMMode()
|
|
|
|
|
|
class WatchdogActionField(BaseEnumField):
|
|
AUTO_TYPE = WatchdogAction()
|
|
|
|
|
|
class MonitorMetricTypeField(BaseEnumField):
|
|
AUTO_TYPE = MonitorMetricType()
|
|
|
|
|
|
class PciDeviceStatusField(BaseEnumField):
|
|
AUTO_TYPE = PciDeviceStatus()
|
|
|
|
|
|
class PciDeviceTypeField(BaseEnumField):
|
|
AUTO_TYPE = PciDeviceType()
|
|
|
|
|
|
class IPAddressField(AutoTypedField):
|
|
AUTO_TYPE = IPAddress()
|
|
|
|
|
|
class IPV4AddressField(AutoTypedField):
|
|
AUTO_TYPE = IPV4Address()
|
|
|
|
|
|
class IPV6AddressField(AutoTypedField):
|
|
AUTO_TYPE = IPV6Address()
|
|
|
|
|
|
class IPV4AndV6AddressField(AutoTypedField):
|
|
AUTO_TYPE = IPV4AndV6Address()
|
|
|
|
|
|
class IPNetworkField(AutoTypedField):
|
|
AUTO_TYPE = IPNetwork()
|
|
|
|
|
|
class IPV4NetworkField(AutoTypedField):
|
|
AUTO_TYPE = IPV4Network()
|
|
|
|
|
|
class IPV6NetworkField(AutoTypedField):
|
|
AUTO_TYPE = IPV6Network()
|
|
|
|
|
|
class ListOfIntegersField(AutoTypedField):
|
|
AUTO_TYPE = List(fields.Integer())
|
|
|
|
|
|
class NonNegativeFloatField(AutoTypedField):
|
|
AUTO_TYPE = NonNegativeFloat()
|
|
|
|
|
|
class NonNegativeIntegerField(AutoTypedField):
|
|
AUTO_TYPE = NonNegativeInteger()
|