// =================================================================== // Title: Physical Connectors 2.8 // Filename: Physical28_Connector.mof // Version: 2.8 // Release: Preliminary // Date: 07/31/2003 // =================================================================== // Copyright 1998-2003 Distributed Management Task Force, Inc. (DMTF). // All rights reserved. // DMTF is a not-for-profit association of industry members dedicated // to promoting enterprise and systems management and interoperability. // DMTF specifications and documents may be reproduced for uses // consistent with this purpose by members and non-members, // provided that correct attribution is given. // As DMTF specifications may be revised from time to time, // the particular version and release date should always be noted. // // Implementation of certain elements of this standard or proposed // standard may be subject to third party patent rights, including // provisional patent rights (herein "patent rights"). DMTF makes // no representations to users of the standard as to the existence // of such rights, and is not responsible to recognize, disclose, or // identify any or all such third party patent right, owners or // claimants, nor for any incomplete or inaccurate identification or // disclosure of such rights, owners or claimants. DMTF shall have no // liability to any party, in any manner or circumstance, under any // legal theory whatsoever, for failure to recognize, disclose, or // identify any such third party patent rights, or for such party's // reliance on the standard or incorporation thereof in its product, // protocols or testing procedures. DMTF shall have no liability to // any party implementing such standard, whether such implementation // is foreseeable or not, nor to any patent owner or claimant, and shall // have no liability or responsibility for costs or losses incurred if // a standard is withdrawn or modified after publication, and shall be // indemnified and held harmless by any party implementing the // standard from any and all claims of infringement by a patent owner // for such implementations. // // For information about patents held by third-parties which have // notified the DMTF that, in their opinion, such patent may relate to // or impact implementations of DMTF standards, visit // http://www.dmtf.org/about/policies/disclosures.php. // =================================================================== // Description: The Physical Model defines modeling concepts related // to actual boxes and packaging. This file defines the // concepts related to connectors. // // The object classes below are listed in an order that // avoids forward references. Required objects, defined // by other working groups, are omitted. // ================================================================== // Change Log for v2.8 - None // CR1093 - Add text regarding PhysicalConnector class defintion // // Change Log for v2.7 // CR623 - Fix the DMI mapping string to include the attribute number // PhysicalConnector.ConnectorType and .OtherTypeDescription. // CR676 - Deprecate Slot.Powered // CR877 - Add AGP8X enumeration to PhysicalConnector.ConnectorType // ================================================================== #pragma locale ("en_US") // ================================================================== // CIM_PhysicalConnector --- Is located in Physicalxx_Package.mof // to avoid the ConnectorPower method in CIM_Card having a // forward reference. // ================================================================== // =================================================================== // ConnectedTo // =================================================================== [Association, Version ("2.6.0"), Description ( "The ConnectedTo association indicates that two or more " "PhysicalConnectors are connected together.") ] class CIM_ConnectedTo : CIM_Dependency { [Override ("Antecedent"), Description ( "The Antecedent represents a PhysicalConnector that serves " "as one end of the connection.") ] CIM_PhysicalConnector REF Antecedent; [Override ("Dependent"), Description ( "The Dependent represents another PhysicalConnector that " "serves as the other end of the connection.") ] CIM_PhysicalConnector REF Dependent; }; // =================================================================== // Slot // =================================================================== [Version ("2.7.0"), Description ( "The Slot class represents Connectors into which Packages are " "inserted. For example, a PhysicalPackage that is a DiskDrive " "may be inserted into an SCA 'Slot'. As another example, a " "Card (subclass of PhysicalPackage) may be inserted into a 16-, " "32-, or 64-bit expansion 'Slot' on a HostingBoard. PCI or " "PCMCIA Type III Slots are examples of the latter.") ] class CIM_Slot : CIM_PhysicalConnector { [Override ("ConnectorType"), MappingStrings {"MIF.DMTF|System Slot|005.2"} ] uint16 ConnectorType[]; [Override ("PoweredOn"), MappingStrings {"MIF.DMTF|System Slot|005.13"} ] boolean PoweredOn; [Description ( "Boolean indicating whether the Slot supports hot-plug of " "adapter Cards.") ] boolean SupportsHotPlug; [Description ( "Maximum height of an adapter Card that can be inserted into " "the Slot, in inches."), Units ("Inches") ] real32 HeightAllowed; [Description ( "Maximum length of an adapter Card that can be inserted into " "the Slot, in inches."), Units ("Inches") ] real32 LengthAllowed; [Description ( "Maximum bus width of adapter Cards that can be inserted " "into this Slot, in bits. If the value is 'unknown', enter " "0. If the value is other than 8, 16, 32, 64 or 128, enter " "1."), Units ("Bits"), ValueMap {"0", "1", "8", "16", "32", "64", "128"}, MappingStrings {"MIF.DMTF|System Slot|005.3"} ] uint16 MaxDataWidth; [Description ( "An array of enumerated integers indicating the Vcc voltage " "supported by this Slot."), ValueMap {"0", "1", "2", "3"}, Values {"Unknown", "Other", "3.3V", "5V"}, MappingStrings {"MIF.DMTF|System Slot|005.9"} ] uint16 VccMixedVoltageSupport[]; [Description ( "An array of enumerated integers indicating the Vpp voltage " "supported by this Slot."), ValueMap {"0", "1", "2", "3", "4"}, Values {"Unknown", "Other", "3.3V", "5V", "12V"}, MappingStrings {"MIF.DMTF|System Slot|005.10"} ] uint16 VppMixedVoltageSupport[]; [Description ( "Maximum thermal dissipation of the Slot in milliwatts."), Units ("MilliWatts"), MappingStrings {"MIF.DMTF|System Slot|005.11"} ] uint32 ThermalRating; [Description ( "Boolean indicating that this Slot is physically unique and " "may hold special types of hardware, e.g. a graphics " "processor slot. If set to TRUE, then the property, Special " "PurposeDescription (a string), should specify the nature of " "the uniqueness or purpose of the Slot."), ModelCorrespondence {"CIM_Slot.PurposeDescription"} ] boolean SpecialPurpose; [Description ( "A free-form string describing that this Slot is physically " "unique and may hold special types of hardware. This " "property only has meaning when the corresponding boolean " "property, SpecialPurpose, is set to TRUE."), ModelCorrespondence {"CIM_Slot.SpecialPurpose"} ] string PurposeDescription; [Description ( "The Number property indicates the physical slot number, " "which can be used as an index into a system slot table, " "whether or not that slot is physically occupied."), MappingStrings {"MIF.DMTF|System Slot|005.1"} ] uint16 Number; [Deprecated {"CIM_PhysicalElement.PoweredOn"}, Description ( "A boolean indicating whether the Slot is currently powered " "(TRUE) or not (FALSE)."), MappingStrings {"MIF.DMTF|System Slot|005.13"} ] boolean Powered; [Description ( "A boolean indicating whether the switch state of the Slot " "is currently open (TRUE) or closed (FALSE). This switch " "state determines whether the contents of the Slot can be " "hot-plugged."), MappingStrings {"MIF.DMTF|System Slot|005.15"} ] boolean OpenSwitch; }; // ================================================================== // SlotInSlot // ================================================================== [Association, Version ("2.6.0"), Description ( "Slots are special types of Connectors into which adapter Cards " "are typically inserted. The SlotInSlot relationship " "represents the ability of a special adapter to extend the " "existing Slot structure to enable otherwise incompatible Cards " "to be plugged into a Frame or Hosting Board. The adapter " "effectively creates a new Slot and can be thought of " "(conceptually) as a Slot in a Slot. This enables Cards that " "would otherwise be physically and/or electrically incompatible " "with the existing Slots to be supported, by interfacing to the " "Slot provided by the adapter. This has many practical uses. " "For example, networking boards are very expensive. As new " "hardware becomes available, Chassis and even Card " "configurations change. To protect the investment of their " "customers, networking vendors will manufacture special " "adapters that enable old Cards to fit into new Chassis or " "Hosting Boards and/or new Cards to fit into old. This is done " "using a special adapter that fits over one or more existing " "Slots and presents a new Slot into which the Card can plug.") ] class CIM_SlotInSlot : CIM_ConnectedTo { [Override ("Antecedent"), Description ( "The Antecedent represents the existing Slot(s) of the " "HostingBoard, or Frame that are being adapted to " "accommodate a Card that would otherwise not be physically " "and/or electrically compatible with it.") ] CIM_Slot REF Antecedent; [Override ("Dependent"), Max (1), Description ( "The new Slot provided by the adapter board.") ] CIM_Slot REF Dependent; }; // ================================================================== // AdjacentSlots // ================================================================== [Association, Version ("2.6.0"), Description ( "AdjacentSlots describes the layout of Slots on a HostingBoard " "or adapter Card. Information like the distance between the " "Slots and whether they are 'shared' (if one is populated, then " "the other Slot can not be used), is conveyed as properties of " "the association.") ] class CIM_AdjacentSlots { [Key, Description ( "One of the adjacent Slots.") ] CIM_Slot REF SlotA; [Key, Description ( "The 'other' adjacent Slot.") ] CIM_Slot REF SlotB; [Description ( "The distance, in inches, between adjacent Slots."), Units ("Inches") ] real32 DistanceBetweenSlots; [Description ( "Slots can be located in close proximity on Hosting Boards " "or other Cards, such that if one of these Slots is " "populated by an adapter Card, the other Slot must be left " "empty. This relationship is indicated by the SharedSlots " "boolean set to TRUE.") ] boolean SharedSlots; }; // ================================================================== // PackageInConnector // ================================================================== [Association, Version ("2.6.0"), Description ( "Adapter cards and other 'packaging' are plugged into System " "Connectors for power and/or to transfer data. This " "relationship is defined by PackageInConnector. For example, " "it would be used to describe the insertion of a daughtercard " "onto another Card. Various subclasses of PackageInConnector " "are also defined. PackageInSlot and its subclass, CardInSlot, " "are two examples of subclasses.") ] class CIM_PackageInConnector : CIM_Dependency { [Override ("Antecedent"), Description ( "The Connector into which the Package is inserted.") ] CIM_PhysicalConnector REF Antecedent; [Override ("Dependent"), Max (1), Description ( "The Package in the Connector.") ] CIM_PhysicalPackage REF Dependent; }; // ================================================================== // PackageInSlot // ================================================================== [Association, Version ("2.6.0"), Description ( "Complex networking devices often are Chassis-based. These " "Chassis allow for enhancement and/or augmentation of their " "base functionality by accepting additional Chassis devices, " "similar to accepting functionality in the form of adding " "Cards. This association models this capability.") ] class CIM_PackageInSlot : CIM_PackageInConnector { [Override ("Antecedent"), Description ( "The Slot into which the PhysicalPackage is inserted.") ] CIM_Slot REF Antecedent; [Override ("Dependent"), Max (1), Description ( "The Package in the Slot.") ] CIM_PhysicalPackage REF Dependent; }; // ================================================================== // CardInSlot // ================================================================== [Association, Version ("2.6.0"), Description ( "Slots are special types of Connectors into which adapter Cards " "are inserted. This relationship of a Card in a Slot is made " "explicit using the CardInSlot association."), MappingStrings {"MIF.DMTF|System Slot|005.4"} ] class CIM_CardInSlot : CIM_PackageInSlot { [Override ("Antecedent"), Description ( "The Slot into which the Card is inserted.") ] CIM_Slot REF Antecedent; [Override ("Dependent"), Max (1), Description ( "The Card in the Slot.") ] CIM_Card REF Dependent; }; // ================================================================== // ConnectorOnPackage // ================================================================== [Association, Aggregation, Version ("2.6.0"), Description ( "PhysicalPackages contain Connectors as well as other " "PhysicalElements. The ConnectorOnPackage association makes " "explicit the containment relationship between Connectors and " "Packages.") ] class CIM_ConnectorOnPackage : CIM_Container { [Aggregate, Override ("GroupComponent"), Max (1), Description ( "The PhysicalPackage that has a Connector.") ] CIM_PhysicalPackage REF GroupComponent; [Override ("PartComponent"), Description ( "The PhysicalConnector.") ] CIM_PhysicalConnector REF PartComponent; }; // =================================================================== // end of file // ===================================================================