// Copyright (c) 2005 DMTF. All rights reserved. [Abstract, Version ( "2.10.0" ), UMLPackagePath ( "CIM::Core::Physical" ), Description ( "Subclasses of CIM_PhysicalElement define any component of a " "System that has a distinct physical identity. Instances of " "this class can be defined as an object that can be seen or " "touched. All Processes, Files, and LogicalDevices are " "considered not to be Physical Elements. For example, it is not " "possible to touch the functionality of a \'modem.\' You can " "touch only the card or package that implements the modem. The " "same card could also implement a LAN adapter. PhysicalElements " "are tangible ManagedSystemElements that have a physical " "manifestation of some sort. \n" "\n" "Note that the properties of PhysicalElement describe a " "hardware entity. Possible replacement (FRU) information is " "defined by following the ElementFRU association to one or more " "instances of the ReplacementFRU class. This definition allows " "a client to determine what hardware can be replaced (FRUed) " "and what \'spare\' parts might be required by a customer or " "engineer doing the replacement. If it can be instrumented or " "manually determined that an element actually replaced (FRUed) " "another, then this can be described in the model using the " "ElementHasBeenFRUed association." )] class CIM_PhysicalElement : CIM_ManagedSystemElement { [Key, Description ( "An arbitrary string that uniquely identifies the " "Physical Element and serves as the key of the Element. " "The Tag property can contain information such as asset " "tag or serial number data. The key for PhysicalElement " "is placed very high in the object hierarchy in order to " "independently identify the hardware or entity, " "regardless of physical placement in or on Cabinets, " "Adapters, and so on. For example, a hotswappable or " "removable component can be taken from its containing " "(scoping) Package and be temporarily unused. The object " "still continues to exist and can even be inserted into a " "different scoping container. Therefore, the key for " "Physical Element is an arbitrary string and is defined " "independently of any placement or location-oriented " "hierarchy." ), MaxLen ( 256 )] string Tag; [Override ( "Description" ), Description ( "A textual description of the PhysicalElement." ), MappingStrings { "MIF.DMTF|FRU|003.3" }] string Description; [Key, Description ( "CreationClassName indicates the name of the class or the " "subclass used in the creation of an instance. When used " "with the other key properties of this class, this " "property allows all instances of this class and its " "subclasses to be uniquely identified." ), MaxLen ( 256 )] string CreationClassName; [Override ( "ElementName" ), MappingStrings { "MIB.IETF|Entity-MIB.entPhysicalName" }] string ElementName; [Description ( "The name of the organization responsible for producing " "the PhysicalElement. This organization might be the " "entity from whom the Element is purchased, but this is " "not necessarily true. The latter information is " "contained in the Vendor property of CIM_Product." ), MaxLen ( 256 ), MappingStrings { "MIB.IETF|Entity-MIB.entPhysicalMfgName", "MIF.DMTF|FRU|003.4" }] string Manufacturer; [Description ( "The name by which the PhysicalElement is generally known." ), MaxLen ( 256 ), MappingStrings { "MIB.IETF|Entity-MIB.entPhysicalDescr", "MIF.DMTF|FRU|003.5" }] string Model; [Description ( "The stock-keeping unit number for this PhysicalElement." ), MaxLen ( 64 )] string SKU; [Description ( "A manufacturer-allocated number used to identify the " "Physical Element." ), MaxLen ( 256 ), MappingStrings { "MIB.IETF|Entity-MIB.entPhysicalSerialNum", "MIF.DMTF|FRU|003.7" }] string SerialNumber; [Description ( "A string that indicates the version of the PhysicalElement." ), MaxLen ( 64 ), MappingStrings { "MIB.IETF|Entity-MIB.entPhysicalHardwareRev", "MIF.DMTF|FRU|003.8" }] string Version; [Description ( "The part number assigned by the organization that is " "responsible for producing or manufacturing the " "PhysicalElement." ), MaxLen ( 256 ), MappingStrings { "MIB.IETF|Entity-MIB.entPhysicalModelName" }] string PartNumber; [Write, Description ( "OtherIdentifyingInfo captures data in addition to Tag " "information. This information could be used to identify " "a Physical Element. One example is bar code data " "associated with an Element that also has an asset tag. " "Note that if only bar code data is available and is " "unique or able to be used as an Element key, this " "property would be null and the bar code data would be " "used as the class key, in the Tag property." ), MappingStrings { "MIB.IETF|Entity-MIB.entPhysicalAlias" }] string OtherIdentifyingInfo; [Description ( "Boolean that indicates whether the PhysicalElement is " "powered on (TRUE) or is currently off (FALSE)." )] boolean PoweredOn; [Description ( "The date that this PhysicalElement was manufactured." )] datetime ManufactureDate; [Description ( "A vendor-specific hardware type for the PhysicalElement. " "It describes the specific equipment type for the " "element, as defined by the vendor or manufacturer." ), MappingStrings { "MIB.IETF|Entity-MIB.entPhysicalVendorType" }] string VendorEquipmentType; [Write, Description ( "User-assigned and writeable asset-tracking identifier " "for the PhysicalElement." ), MappingStrings { "MIB.IETF|Entity-MIB.entPhysicalAssetID" }] string UserTracking; [Description ( "Boolean that indicates whether this PhysicalElement can " "be FRUed (TRUE) or not (FALSE)." ), MappingStrings { "MIB.IETF|Entity-MIB.entPhysicalIsFRU" }] boolean CanBeFRUed; };