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Revision: 1.2, Thu Feb 24 20:47:25 2005 UTC (19 years, 3 months ago) by a.dunfey Branch: MAIN CVS Tags: TASK-PEP362_RestfulService-merged_out_from_trunk, TASK-PEP348_SCMO-merged_out_from_trunk, TASK-PEP317_pullop-merged_out_from_trunk, TASK-PEP317_pullop-merged_in_to_trunk, TASK-PEP311_WSMan-root, TASK-PEP311_WSMan-branch, RELEASE_2_5_0-RC1, HPUX_TEST, HEAD Changes since 1.1: +0 -0 lines FILE REMOVED PEP#: 215 TITLE: Remove old schemas DESCRIPTION: Removing old, unneeded schema files from the repository: CIM 2.7 CIM 2.7.1 Preliminary CIM 2.8 Preliminary CIM 2.9 Preliminary |
// ===================================================================
// Title: Device Controller 2.7
// Filename: Device27_Contoller.mof
// Version: 2.7.1
// Release: Preliminary
// Date: November 12 2002
// ===================================================================
// Copyright 2002 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 Device Model extends the management concepts that
// are related to LogicalDevices. This file defines
// the concepts and classes for Controllers.
//
// 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 v2.7.1
// CR920 - Add missing parenthesis to the Description for PCIController.
// CacheLineSize
//
// Change Log for v2.7
// CR622 - Fix the DMI mapping string to include the attribute number
// for Controller.ProtocolSupported, .MaxNumberControlled, &
// .ProtocolDescription,
// SCSIController.MaxDataWidth & .MaxTransferRate,
// SCSIInterface.InitiatorId, .TargetId & .SCSISignal
// CR632 - Add PortController
// CR654 - Update the description for Controller
// - Add Controller.PortNumber
// - Update the Description for ControlledBy
// - Add ControlledBy.DeviceNumber
// - Add SCSILUN
// CR830 - Update the Description for ControlledBy
// - Modify type of ControlledBy.DeviceNumber from uint64 to
// a string
// - Add ControlledBy.AccessMode and ControlledBy.AccessPriority
// - Update SCSILUN.DeviceNumber to match change to ContolledBy
// CR892 - Fix the subclassing inconsistency of VideoController
// ==================================================================
#pragma locale ("en_US")
// ===================================================================
// Controller
// ===================================================================
[Abstract, Version ("2.7.0"), Description (
"Controller is a superclass for grouping the miscellaneous "
"control-related Devices that exist. Examples of Controllers "
"are SCSIControllers, USBControllers, SerialControllers, ... "
"The Controller class is an abstraction for Devices with a "
"single protocol stack, which exist to control communications "
"(data, control, and reset) with devices.") ]
class CIM_Controller : CIM_LogicalDevice {
[Experimental, Description (
"System level port or bus identification number.") ]
uint64 PortNumber;
[Description (
"Time of last reset of the Controller.") ]
datetime TimeOfLastReset;
[Description (
"The protocol used by the Controller to access 'controlled' "
"Devices."),
ValueMap {"1", "2", "3", "4", "5", "6", "7", "8", "9", "10",
"11", "12", "13", "14", "15", "16", "17", "18", "19",
"20", "21", "22", "23", "24", "25", "26", "27", "28",
"29", "30", "31", "32", "33", "34", "35", "36", "37",
"38", "39", "40", "41", "42", "43", "44", "45", "46",
"47"},
Values {"Other", "Unknown", "EISA", "ISA", "PCI", "ATA/ATAPI",
"Flexible Diskette", "1496", "SCSI Parallel Interface",
// 10
"SCSI Fibre Channel Protocol", "SCSI Serial Bus Protocol",
"SCSI Serial Bus Protocol-2 (1394)",
"SCSI Serial Storage Architecture", "VESA", "PCMCIA",
"Universal Serial Bus", "Parallel Protocol", "ESCON",
"Diagnostic",
// 20
"I2C", "Power", "HIPPI", "MultiBus", "VME",
"IPI", "IEEE-488", "RS232", "IEEE 802.3 10BASE5",
"IEEE 802.3 10BASE2",
// 30
"IEEE 802.3 1BASE5",
"IEEE 802.3 10BROAD36", "IEEE 802.3 100BASEVG",
"IEEE 802.5 Token-Ring", "ANSI X3T9.5 FDDI", "MCA",
"ESDI", "IDE", "CMD", "ST506",
// 40
"DSSI", "QIC2",
"Enhanced ATA/IDE", "AGP", "TWIRP (two-way infrared)",
"FIR (fast infrared)", "SIR (serial infrared)",
"IrBus"},
MappingStrings {"MIF.DMTF|Bus Port|004.2",
"MIF.DMTF|Disks|003.3"},
ModelCorrespondence {"CIM_Controller.ProtocolDescription"} ]
uint16 ProtocolSupported;
[Description (
"Maximum number of directly addressable entities supported "
"by this Controller. A value of 0 should be used if the "
"number is unknown or unlimited."),
MappingStrings {"MIF.DMTF|Bus Port|004.9"} ]
uint32 MaxNumberControlled;
[Description (
"A free form string providing more information related "
"to the ProtocolSupported by the Controller."),
ModelCorrespondence {"CIM_Controller.ProtocolSupported"},
MappingStrings {"MIF.DMTF|Bus Port|004.3"} ]
string ProtocolDescription;
};
// ===================================================================
// ControlledBy
// ===================================================================
[Association, Version ("2.7.0"), Description (
"The association indicates a relationship between a Storage"
"Volume exposed as a LUN through a slave SCSI Controller. "
"A new relationship is required in order to distinguish "
"between the 'Host' connection (represented by SCSIInterface) "
"and the 'Target' connection (represented by SCSILUN).") ]
class CIM_ControlledBy : CIM_DeviceConnection {
[Override ("Antecedent"),
Description ("The Controller.") ]
CIM_Controller REF Antecedent;
[Override ("Dependent"),
Description ("The controlled Device.") ]
CIM_LogicalDevice REF Dependent;
[Experimental, Description (
"Address of associated Device in context of the "
"antecedent Controller.") ]
string DeviceNumber;
[Experimental, Description (
"This property describes the accessibility of the device "
"thru the antedecent controller."),
ValueMap {"2", "3", "4"},
Values {"ReadWrite", "ReadOnly", "NoAccess"} ]
uint16 AccessMode;
[Experimental, Description (
"The property describes the priority given to accesses of "
"the device thru this controller. The highest priority path "
"will have the lowest value for this parameter.") ]
uint16 AccessPriority;
[Description (
"The State property indicates whether the Controller is "
"actively commanding or accessing the Device (value=1) or "
"not (value=2). Also, the value, \"Unknown\" (0), can be "
"defined. This information is necessary when a LogicalDevice "
"can be commanded by, or accessed through, multiple "
"Controllers."),
ValueMap {"0", "1", "2"},
Values {"Unknown", "Active", "Inactive"} ]
uint16 AccessState;
[Description (
"The time that the downstream Device was last reset by "
"the Controller.") ]
datetime TimeOfDeviceReset;
[Description (
"Number of hard resets issued by the Controller. A hard reset "
"returns the Device to its initialization or 'boot-up' state. "
"All internal Device state information and data are lost."),
Counter ]
uint32 NumberOfHardResets;
[Description (
"Number of soft resets issued by the Controller. A soft "
"reset does not completely clear current Device state and/or "
"data. Exact semantics are dependent on the Device, and on "
"the protocols and mechanisms used to communicate to it."),
Counter ]
uint32 NumberOfSoftResets;
};
// ===================================================================
// ESCONController
// ===================================================================
[Version ("2.6.0"), Description (
"Capabilities and management of an ESCONController.") ]
class CIM_ESCONController : CIM_Controller {
};
// ===================================================================
// IDEController
// ===================================================================
[Version ("2.6.0"), Description (
"Capabilities and management of an IDEController.") ]
class CIM_IDEController : CIM_Controller {
};
// ===================================================================
// InfraredController
// ===================================================================
[Version ("2.6.0"), Description (
"Capabilities and management of an InfraredController.") ]
class CIM_InfraredController : CIM_Controller {
};
// ===================================================================
// ManagementController
// ===================================================================
[Version ("2.6.0"), Description (
"Capabilities and managment of a ManagementController. An I2C "
"microcontroller is a type of ManagementController.") ]
class CIM_ManagementController : CIM_Controller {
};
// ===================================================================
// ParallelController
// ===================================================================
[Version ("2.6.0"), Description (
"Capabilities and management of the ParallelController.") ]
class CIM_ParallelController : CIM_Controller {
[Description (
"Set to true if the ParallelController supports DMA."),
MappingStrings {"MIF.DMTF|Parallel Ports|003.7"} ]
boolean DMASupport;
[Description (
"An integer enumeration indicating the capabilities of the "
"ParallelController."),
ArrayType ("Indexed"),
ValueMap {"0", "1", "2", "3", "4", "5", "6", "7", "8"},
Values {"Unknown", "Other", "XT/AT Compatible",
"PS/2 Compatible", "ECP", "EPP", "PC-98",
"PC-98-Hireso", "PC-H98"},
MappingStrings {"MIF.DMTF|Parallel Ports|003.8"},
ModelCorrespondence {
"CIM_ParallelController.CapabilityDescriptions"} ]
uint16 Capabilities[];
[Description (
"An array of free-form strings providing more detailed "
"explanations for any of the ParallelController features "
"indicated in the Capabilities array. Note, each entry of "
"this array is related to the entry in the Capabilities "
"array that is located at the same index."),
ArrayType ("Indexed"),
ModelCorrespondence {"CIM_ParallelController.Capabilities"} ]
string CapabilityDescriptions[];
[Description (
"An enumeration indicating the operational security for the "
"Controller. For example, information that the Device's "
"external interface is locked out (value=4) or \"Boot "
"Bypass\" (value=6) can be described using this property."),
ValueMap {"1", "2", "3", "4", "5", "6"},
Values {"Other", "Unknown", "None",
"External Interface Locked Out",
"External Interface Enabled", "Boot Bypass"},
MappingStrings {"MIF.DMTF|Parallel Ports|003.10"} ]
uint16 Security;
};
// ===================================================================
// PCMCIAController
// ===================================================================
[Version ("2.6.0"), Description (
"Capabilities and management of a PCMCIAController.") ]
class CIM_PCMCIAController : CIM_Controller {
};
// ==================================================================
// PortController
// ==================================================================
[Experimental, Version ("2.7.0"), Description (
"PortController is a logical device corresponding to a hardware "
"network port controller. Port controllers provide various "
"features depending on their types and versions.") ]
class CIM_PortController : CIM_Controller {
[Description (
"The type or model of the port controller. Specific "
"values will be enumerated in a later release of this "
"schema. When set to 1 (\"Other\"), the related property "
"OtherControllerType contains a string description of "
"the controller's type."),
ValueMap {"0", "1", "2", "3", "4", "5", "6", "7", "8"},
Values {"Unknown", "Other", "Ethernet", "IB", "FC",
"FDDI", "ATM", "Token Ring", "Frame Relay"},
ModelCorrespondence {
"CIM_PortController.OtherControllerType"} ]
uint16 ControllerType;
[Description (
"A string value for controller types not captured by the "
"ControllerType enumeration. This should only be used "
"when the value of the ControllerType property is "
"set to 1, \"Other\"."),
ModelCorrespondence {
"CIM_PortController.ControllerType"} ]
string OtherControllerType;
[Description (
"The revision number of the controller.") ]
uint16 ControllerVersion;
};
// ===================================================================
// SCSIController
// ===================================================================
[Version ("2.7.0"), Description (
"Capabilities and management of the SCSIController.") ]
class CIM_SCSIController : CIM_Controller {
[Description (
"An integer enumeration indicating whether or not the "
"SCSIController provides redundancy or protection against "
"device failures."),
ValueMap {"1", "2", "3", "4", "5", "6"},
Values {"Other", "Unknown", "Unprotected", "Protected",
"Protected through SCC (SCSI-3 Controller Command)",
"Protected through SCC-2 (SCSI-3 Controller Command)"},
MappingStrings {"MIF.DMTF|Storage Controller|001.3"} ]
uint16 ProtectionManagement;
[Description (
"Maximum data width (in bits) supported by the SCSI"
"Controller."),
Units ("Bits"),
MappingStrings {"MIF.DMTF|Bus Port|004.7"} ]
uint32 MaxDataWidth;
[Description (
"Maximum transfer rate (in Bits per Second) supported by the "
"SCSIController."),
Units ("Bits per Second"),
MappingStrings {"MIF.DMTF|Bus Port|004.8"} ]
uint64 MaxTransferRate;
[Description (
"Number of SCSIController timeouts that have occurred since "
"the TimeOfLastReset."),
Counter ]
uint32 ControllerTimeouts;
[Description (
"Signal capabilities that can be supported by the SCSI"
"Controller. For example, the Controller may support "
"\"Single Ended\" and \"Differential\". In this case, the "
"values 3 and 4 would be written to the Signal"
"Capabilities array."),
ValueMap {"1", "2", "3", "4", "5", "6"},
Values {"Other", "Unknown", "Single Ended", "Differential",
"Low Voltage Differential", "Optical"},
ModelCorrespondence {"CIM_SCSIInterface.SCSISignal"} ]
uint16 SignalCapabilities[];
};
// ===================================================================
// SCSIInterface
// ===================================================================
[Association, Version ("2.7.0"), Description (
"SCSIInterface is a ControlledBy relationship indicating "
"which Devices are accessed through a SCSIController and "
"the characteristics of this access.") ]
class CIM_SCSIInterface : CIM_ControlledBy {
[Override ("Antecedent"),
Description ("The SCSIController.") ]
CIM_SCSIController REF Antecedent;
[Description (
"Number of SCSI timeouts that have occurred since last hard "
"or soft reset related to the controlled Device. The time of "
"last reset is indicated in the TimeOfDeviceReset property, "
"inherited from the ControlledBy association."),
Counter ]
uint32 SCSITimeouts;
[Description (
"Number of SCSI retries that have occurred since last hard "
"or soft reset related to the controlled Device. The time of "
"last reset is indicated in the TimeOfDeviceReset property, "
"inherited from the ControlledBy association."),
Counter,
MappingStrings {"MIF.DMTF|Mass Storage Statistics|001.18"} ]
uint32 SCSIRetries;
[Description ("The SCSI Initiator ID."),
MappingStrings {"MIF.DMTF|Bus Port|004.5"} ]
uint32 InitiatorId;
[Description ("The SCSI Target ID."),
MappingStrings {"MIF.DMTF|Bus Port|004.5"} ]
uint32 TargetId;
[Description ("The SCSI Target LUN."),
MappingStrings {"MIF.DMTF|Storage Devices|001.4"} ]
uint64 TargetLUN;
[Description (
"SCSIReservation indicates the type of SCSI reservation "
"that currently exists between the source and destination."),
ValueMap {"0", "1", "2", "3"},
Values {"Unknown", "None", "Simple", "Persistent"} ]
uint16 SCSIReservation;
[Description (
"The SCSI signal characteristics being used for this "
"connection. The value listed here must also be listed in "
"the SCSIController's SignalCapabilities field."),
ValueMap {"1", "2", "3", "4", "5", "6"},
Values {"Other", "Unknown", "Single Ended", "Differential",
"Low Voltage Differential", "Optical"},
MappingStrings {"MIF.DMTF|Bus Port|004.4"},
ModelCorrespondence {"CIM_SCSIController.SignalCapabilities"} ]
uint16 SCSISignal;
[Description (
"Maximum number of Command Descriptor Blocks (CDBs) that "
"can be supported by the target. This data can not be "
"obtained under all circumstances.") ]
uint32 MaxQueueDepth;
[Description (
"The maximum number of concurrent Command Descriptor Blocks "
"(CDBs) that the initiator will send to the target. This "
"value should never be greater than MaxQueueDepth.") ]
uint32 QueueDepthLimit;
};
// ===================================================================
// SCSILUN
// ===================================================================
[Association, Experimental, Version ("2.7.0"), Description (
"The association indicates a relationship between a Storage"
"Volume exposed as a LUN through a slave SCSI Controller. "
"A new relationship is required in order to distinguish "
"between the 'Host' connection (represented by SCSIInterface) "
"and the 'Target' connection (represented by SCSILUN).") ]
class CIM_SCSILUN : CIM_ControlledBy {
[Override ("Antecedent"),
Description ("The SCSIController.") ]
CIM_SCSIController REF Antecedent;
[Override ("DeviceNumber"), Description (
"LUN Identifier assigned to the target device.") ]
string DeviceNumber;
};
// ===================================================================
// SerialController
// ===================================================================
[Version ("2.6.0"), Description (
"Capabilities and management of the SerialController.") ]
class CIM_SerialController : CIM_Controller {
[Description (
"The Capabilities property defines chip level compatibility "
"for the SerialController. Therefore, this property describes "
"the buffering and other capabilities of the SerialController, "
"that may be inherent in the chip hardware. The property is "
"an enumerated integer."),
ArrayType ("Indexed"),
ValueMap {"1", "2", "3", "4", "5", "6",
"160", "161"},
Values {"Other", "Unknown", "XT/AT Compatible",
"16450 Compatible", "16550 Compatible",
"16550A Compatible",
// 160
"8251 Compatible",
"8251FIFO Compatible"},
MappingStrings {"MIF.DMTF|Serial Ports|004.7"},
ModelCorrespondence {
"CIM_SerialController.CapabilityDescriptions"} ]
uint16 Capabilities[];
[Description (
"An array of free-form strings providing more detailed "
"explanations for any of the SerialController features "
"indicated in the Capabilities array. Note, each entry of "
"this array is related to the entry in the Capabilities "
"array that is located at the same index."),
ArrayType ("Indexed"),
ModelCorrespondence {"CIM_SerialController.Capabilities"} ]
string CapabilityDescriptions[];
[Description (
"Maximum baud rate in Bits per Second supported by the "
"SerialController."),
Units ("Bits per Second"),
MappingStrings {"MIF.DMTF|Serial Ports|004.6"} ]
uint32 MaxBaudRate;
[Description (
"An enumeration indicating the operational security for the "
"Controller. For example, information that the Device's "
"external interface is locked out (value=4) or \"Boot "
"Bypass\" (value=6) can be described using this property."),
ValueMap {"1", "2", "3", "4", "5", "6"},
Values {"Other", "Unknown", "None",
"External Interface Locked Out",
"External Interface Enabled", "Boot Bypass"},
MappingStrings {"MIF.DMTF|Serial Ports|004.9"} ]
uint16 Security;
};
// ===================================================================
// SerialInterface
// ===================================================================
[Association, Version ("2.6.0"), Description (
"SerialInterface is a ControlledBy relationship indicating "
"which Devices are accessed through the SerialController and "
"the characteristics of this access.") ]
class CIM_SerialInterface : CIM_ControlledBy {
[Override ("Antecedent"), Description (
"The SerialController.") ]
CIM_SerialController REF Antecedent;
[Override ("NegotiatedDataWidth"), Description (
"For the SerialInterface, NegotiatedDataWidth is the number "
"of data bits to be transmitted, without stop bits or parity."),
Units ("Bits") ]
uint32 NegotiatedDataWidth;
[Description ("Number of stop bits to be transmitted."),
Units ("Bits") ]
uint16 NumberOfStopBits;
[Description (
"Information on the parity setting for transmitted data. "
"No parity (value=1), even (2) or odd (3) can be specified."),
ValueMap {"0", "1", "2", "3"},
Values {"Unknown", "None", "Even", "Odd"} ]
uint16 ParityInfo;
[Description (
"An integer enumeration indicating the flow control "
"(Xon-Xoff and/or RTS/CTS) for transmitted data."),
ValueMap {"0", "1", "2", "3", "4", "5"},
Values {"Unknown", "Not Supported", "None", "XonXoff",
"RTS/CTS", "Both XonXoff and RTS/CTS"} ]
uint16 FlowControlInfo;
};
// ===================================================================
// SSAController
// ===================================================================
[Version ("2.6.0"), Description (
"Capabilities and management of an SSAController (Serial "
"Storage Architecture).") ]
class CIM_SSAController : CIM_Controller {
};
// ===================================================================
// USBController
// ===================================================================
[Version ("2.6.0"), Description (
"Capabilities and managment of a USB Host Controller.") ]
class CIM_USBController : CIM_Controller {
[Description (
"Indicates the latest USB Version supported by the Controller. "
"The property is expressed as a Binary-Coded Decimal (BCD) "
"where a decimal point is implied between the 2nd and 3rd "
"digits. For example, a value of 0x201 indicates that "
"version 2.01 is supported.") ]
uint16 USBVersion;
[Description (
"The type of interface used between the host system software "
"and the USBController."),
ValueMap {"0", "1", "2", "3"},
Values {"Unknown", "Other", "UHCI", "OHCI"},
ModelCorrespondence {"CIM_USBController.ControllerVersion"} ]
uint16 InterfaceType;
[Description (
"Indicates the version of the USB Host Controller register "
"set, specific to the InterfaceType. The property is "
"expressed as a Binary-Coded Decimal (BCD) value where a "
"decimal point is implied between the 2nd and 3rd digits. "
"For example, a value of 0x103 indicates that version "
"1.03 is supported."),
ModelCorrespondence {"CIM_USBController.InterfaceType"} ]
uint16 ControllerVersion;
};
// ===================================================================
// VideoController
// ===================================================================
[Version ("2.7.0"), Description (
"Capabilities and management of the VideoController.") ]
class CIM_VideoController : CIM_Controller {
[Override ("Description"),
MappingStrings {"MIF.DMTF|Video|004.18"} ]
string Description;
[Description (
"A free-form string describing the video "
"processor/Controller.") ]
string VideoProcessor;
[Description (
"An integer enumeration indicating the type of video memory."),
ValueMap {"1", "2", "3", "4", "5", "6", "7", "8", "9",
"10", "11", "12", "13"},
Values {"Other", "Unknown", "VRAM", "DRAM", "SRAM", "WRAM",
"EDO RAM", "Burst Synchronous DRAM",
"Pipelined Burst SRAM",
//10
"CDRAM", "3DRAM", "SDRAM", "SGRAM"},
MappingStrings {"MIF.DMTF|Video|004.6"} ]
uint16 VideoMemoryType;
[Description (
"Number of video pages supported given the current resolutions "
"and available memory.") ]
uint32 NumberOfVideoPages;
[Description ("Maximum amount of memory supported in bytes."),
Units ("Bytes") ]
uint32 MaxMemorySupported;
[Description (
"An array of integers indicating the graphics and 3D "
"capabilities of the VideoController."),
ValueMap {"0", "1", "2", "3", "4", "5", "6", "7", "8"},
Values {"Unknown", "Other", "Graphics Accelerator",
"3D Accelerator", "PCI Fast Write",
"MultiMonitor Support", "PCI Mastering",
"Second Monochrome Adapter Support",
"Large Memory Address Support"},
ModelCorrespondence {
"CIM_VideoController.CapabilityDescriptions"} ]
uint16 AcceleratorCapabilities[];
[Description (
"An array of free-form strings providing more detailed "
"explanations for any of the video Accelerator features "
"indicated in the Capabilities array. Note, each entry "
"of this array is related to the entry in the Capabilities "
"array that is located at the same index."),
ArrayType ("Indexed"),
ModelCorrespondence {
"CIM_VideoController.AcceleratorCapabilities"} ]
string CapabilityDescriptions[];
[Description ("The number of bits used to display each pixel."),
Units ("Bits"),
MappingStrings {"MIF.DMTF|Video|004.12"} ]
uint32 CurrentBitsPerPixel;
[Description ("Current number of horizontal pixels."),
Units ("Pixels"),
MappingStrings {"MIF.DMTF|Video|004.11"} ]
uint32 CurrentHorizontalResolution;
[Description ("Current number of vertical pixels."),
Units ("Pixels"),
MappingStrings {"MIF.DMTF|Video|004.10"} ]
uint32 CurrentVerticalResolution;
[Description (
"Maximum refresh rate of the VideoController in Hertz."),
Units ("Hertz"),
MappingStrings {"MIF.DMTF|Video|004.5"} ]
uint32 MaxRefreshRate;
[Description (
"Minimum refresh rate of the Video Controller in Hertz."),
Units ("Hertz"),
MappingStrings {"MIF.DMTF|Video|004.4"} ]
uint32 MinRefreshRate;
[Description ("Current refresh rate in Hertz."),
Units ("Hertz"),
MappingStrings {"MIF.DMTF|Video|004.15"} ]
uint32 CurrentRefreshRate;
[Description (
"Current scan mode. \"Interlaced\" (value=3) or "
"\"Non Interlaced\" (4) can be defined using this property."),
ValueMap {"1", "2", "3", "4"},
Values {"Other", "Unknown", "Interlaced", "Non Interlaced"},
MappingStrings {"MIF.DMTF|Video|004.8"} ]
uint16 CurrentScanMode;
[Description (
"If in character mode, number of rows for this Video"
"Controller. Otherwise, enter 0."),
MappingStrings {"MIF.DMTF|Video|004.13"} ]
uint32 CurrentNumberOfRows;
[Description (
"If in character mode, number of columns for this "
"VideoController. Otherwise, enter 0."),
MappingStrings {"MIF.DMTF|Video|004.14"} ]
uint32 CurrentNumberOfColumns;
[Description (
"Number of colors supported at the current resolutions.") ]
uint64 CurrentNumberOfColors;
};
// ===================================================================
// PCVideoController
// ===================================================================
[Version ("2.6.0"), Description (
"Capabilities and management of a PCVideoController, a subtype "
"of VideoController.") ]
class CIM_PCVideoController : CIM_VideoController {
[Description (
"The video architecture. For example, VGA (value=5) or "
"PC-98 (160) may be specified."),
ValueMap {"1", "2", "3", "4", "5", "6", "7", "8", "9",
"10", "11", "12", "160"},
Values {"Other", "Unknown", "CGA", "EGA", "VGA", "SVGA", "MDA",
"HGC", "MCGA",
// 10
"8514A", "XGA", "Linear Frame Buffer", "PC-98"},
MappingStrings {"MIF.DMTF|Video|004.2"} ]
uint16 VideoArchitecture;
[Description ("Current video mode."),
MappingStrings {"MIF.DMTF|Video|004.3"} ]
uint16 VideoMode;
[Description (
"Current number of color planes. If this value is not "
"applicable for the current video configuration, enter 0.") ]
uint16 NumberOfColorPlanes;
};
// ===================================================================
// AGPVideoController
// ===================================================================
[Version ("2.7.0"), Description (
"Capabilities and management of an AGPVideoController.") ]
class CIM_AGPVideoController: CIM_VideoController {
[Deprecated {"VideoController.AcceleratorCapabilities"},
Description (
"This property has been incorporated into the inherited "
"AcceleratorCapabilities property. "
"Capabilities of the AGP Graphics Controller. For example, "
"the Device may support multiple monitors, PCI Mastering and "
"large memory addresses. In this case, the values 3, 4 and 6 "
"would be written to the Capabilities array."),
ArrayType("Indexed"),
ValueMap {"0", "1", "2", "3", "4", "5", "6"},
Values {"Unknown", "Other", "PCI Fast Write",
"MultiMonitor Support", "PCI Mastering",
"Second Monochrome Adapter Support",
"Large Memory Address Support"},
ModelCorrespondence {
"CIM_AGPVideoController.CapabilityDescriptions"} ]
uint16 Capabilities[];
[Description (
"Size of the non-local video memory in KB."),
Units ("KiloBytes") ]
uint32 NonlocalVideoMemorySize;
[Description (
"Width of the internal bus in the graphics Controller, in "
"bits."),
Units ("Bits") ]
uint32 LocalBusWidth;
[Description (
"An integer enumeration indicating the usage model of the "
"graphics Controller. Usage model indicates how the Controller "
"does manipulations of graphics surfaces, textures, etc. in "
"memory. DMA indicates that the graphics Controller brings "
"structures from the system memory to its local memory to "
"perform needed manipulations or renderings. Execute specifies "
"that the graphics Controller can directly access a specified "
"region in main memory (called the graphics aperture) using "
"GART - Graphics Aperture Remapping Table. It then performs "
"manipulations in that range as if that whole graphics "
"aperture were part of its local memory. A value of \"Both\" "
"DMA and Execute models may also be specified."),
ValueMap {"0", "1", "2", "3", "4"},
Values {"Unknown", "Other", "Execute", "DMA", "Both"} ]
uint16 UsageModel;
[Description (
"An integer enumeration indicating the data transfer rate of "
"the graphics Controller."),
ValueMap {"0", "1", "2", "3", "4"},
Values {"Unknown", "Other", "1X", "2X", "4X"} ]
uint16 DataTransferRate;
[Description (
"An integer enumeration indicating the addressing mode of the "
"graphics Controller."),
ValueMap {"0", "1", "2", "3"},
Values {"Unknown", "Other", "Sideband", "Pipeline"} ]
uint16 AddressingMode;
[Description (
"The maximum number of AGP Transaction requests that the "
"master (AGP Graphics Controller) is allowed to enqueue into "
"the target.") ]
uint32 MaximumAGPCommandQueuePath;
[Description (
"The number of AGP Transaction that the core logic (chipset) "
"can accept into its transaction request queue from the "
"Controller.") ]
uint32 MaxNumberOfPipelinedAGPTransactions;
[Description ("Size of the graphics aperture in KB."),
Units ("KiloBytes") ]
uint32 GraphicsApertureSize;
[Description (
"A string containing the AGP specification version to which "
"this graphics Controller conforms.") ]
string AGPSpecificationVersionConformance;
};
// ===================================================================
// VideoControllerResolution
// ===================================================================
[Version ("2.6.0"), Description (
"VideoControllerResolution describes the various video modes "
"that a VideoController can support. Video modes are defined by "
"the possible horizontal and vertical resolutions, refresh "
"rate, scan mode and number of colors settings supported by a "
"Controller. The actual resolutions, etc. that are in use, are "
"the values specified in the VideoController object.") ]
class CIM_VideoControllerResolution : CIM_Setting {
[Override ("SettingID"), Key, MaxLen (256), Description (
"The inherited SettingID serves as part of the key for a "
"VideoControllerResolution instance.") ]
string SettingID;
[Description (
"Controller's horizontal resolution in Pixels."),
Units ("Pixels"),
ModelCorrespondence {
"CIM_VideoController.CurrentHorizontalResolution"},
MappingStrings {"MIF.DMTF|Monitor Resolutions|002.2"} ]
uint32 HorizontalResolution;
[Description (
"Controller's vertical resolution in Pixels."),
Units ("Pixels"),
ModelCorrespondence {
"CIM_VideoController.CurrentVerticalResolution"},
MappingStrings {"MIF.DMTF|Monitor Resolutions|002.3"} ]
uint32 VerticalResolution;
[Description (
"Refresh rate in Hertz. If a range of rates is supported, use "
"the MinRefreshRate and MaxRefreshRate properties, and set "
"RefreshRate (this property) to 0."),
Units ("Hertz"),
ModelCorrespondence {"CIM_VideoController.CurrentRefreshRate"},
MappingStrings {"MIF.DMTF|Monitor Resolutions|002.4"} ]
uint32 RefreshRate;
[Description (
"Minimum refresh rate in Hertz, when a range of rates is "
"supported at the specified resolutions."),
Units ("Hertz"),
ModelCorrespondence {"CIM_VideoController.MinRefreshRate"},
MappingStrings {"MIF.DMTF|Monitor Resolutions|002.6"} ]
uint32 MinRefreshRate;
[Description (
"Maximum refresh rate in Hertz, when a range of rates is "
"supported at the specified resolutions."),
Units ("Hertz"),
ModelCorrespondence {"CIM_VideoController.MaxRefreshRate"},
MappingStrings {"MIF.DMTF|Monitor Resolutions|002.7"} ]
uint32 MaxRefreshRate;
[Description (
"Integer indicating whether the Controller operates in "
"interlaced (value=5) or non-interlaced (4) mode."),
ValueMap {"1", "2", "3", "4", "5"},
Values {"Other", "Unknown", "Not Supported",
"Non-Interlaced Operation", "Interlaced Operation"},
ModelCorrespondence {"CIM_VideoController.CurrentScanMode"},
MappingStrings {"MIF.DMTF|Monitor Resolutions|002.5"} ]
uint16 ScanMode;
[Description (
"Number of colors supported at the current resolutions."),
ModelCorrespondence {
"CIM_VideoController.CurrentNumberOfColors"} ]
uint64 NumberOfColors;
};
// ===================================================================
// VideoSetting
// ===================================================================
[Association, Version ("2.6.0"), Description (
"VideoSetting associates the VideoControllerResolution Setting "
"with the Controller(s) to which it applies.") ]
class CIM_VideoSetting : CIM_ElementSetting {
[Override ("Element"), Description (
"The VideoController.") ]
CIM_VideoController REF Element;
[Override ("Setting"), Description (
"The resolutions, refresh rates, scan mode and number of "
"colors that can be set for the Controller.") ]
CIM_VideoControllerResolution REF Setting;
};
// ===================================================================
// PCIController
// ===================================================================
[Version ("2.6.0"), Description (
"PCIController is a superclass for the PCIBridge and PCIDevice "
"classes. These classes model adapters and bridges on a PCI "
"bus. The properties in PCIController and its subclasses are "
"defined in the various PCI Specifications published by the "
"PCI SIG.") ]
class CIM_PCIController : CIM_Controller {
[Description (
"Current contents of the register that provides basic "
"control over the device's ability to respond "
"to, and/or perform PCI accesses.") ]
uint16 CommandRegister;
[Description (
"An array of integers indicating controller capabilities. "
"Information such as \"Supports 66MHz\" (value=2) is "
"specified in this property. The data in the Capabilities "
"array is gathered from the PCI Status Register and the PCI "
"Capabilities List as defined in the PCI Specification."),
ArrayType ("Indexed"),
ValueMap {"0", "1", "2", "3", "4", "5", "6", "7", "8", "9",
"10", "11", "12"},
Values {"Unknown", "Other", "Supports 66MHz",
"Supports User Definable Features",
"Supports Fast Back-to-Back Transactions",
"PCI-X Capable", "PCI Power Management Supported",
"Message Signaled Interrupts Supported",
"Parity Error Recovery Capable",
"AGP Supported",
// 10
"Vital Product Data Supported",
"Provides Slot Identification", "Hot Swap Supported"},
ModelCorrespondence {
"CIM_PCIController.CapabilityDescriptions"} ]
uint16 Capabilities[];
[Description (
"An array of free-form strings providing more detailed "
"explanations for any of the PCIController features indicated "
"in the Capabilities array. Note, each entry of this array "
"is related to the entry in the Capabilities array that "
"is located at the same index."),
ArrayType ("Indexed"),
ModelCorrespondence {"CIM_PCIController.Capabilities"} ]
string CapabilityDescriptions[];
[Description (
"The slowest device select timing for a target device."),
ValueMap {"0", "1", "2", "3", "4", "5"},
Values {"Unknown", "Other", "Fast", "Medium", "Slow",
"Reserved"} ]
uint16 DeviceSelectTiming;
[Description (
"Register of 8 bits that identifies the basic function of the "
"PCI device. This is only the upper byte (offset 0Bh) of the "
"3 byte ClassCode field. Note that the property's ValueMap "
"array specifies the decimal representation of this "
"information."),
ValueMap {"0", "1", "2", "3", "4", "5", "6", "7", "8", "9",
"10", "11", "12", "13", "14", "15", "16", "17",
"18..254", "255"},
Values {"Pre 2.0", "Mass Storage", "Network", "Display",
"Multimedia", "Memory", "Bridge", "Simple Communications",
"Base Peripheral", "Input",
// 10
"Docking Station", "Processor",
"Serial Bus", "Wireless", "Intelligent I/O",
"Satellite Communication", "Encryption/Decryption",
"Data Acquisition and Signal Processing",
// 18 - 255
"PCI Reserved", "Other"} ]
uint8 ClassCode;
[Description (
"Specifies the system cache line size in doubleword increments "
"(e.g., a 486-based system would store the value 04h, "
"indicating a cache line size of four doublewords)."),
Units ("DoubleWords") ]
uint8 CacheLineSize;
[Description (
"Defines the minimum amount of time, in PCI clock cycles, that "
"the bus master can retain ownership of the bus."),
Units ("PCI clock cycles") ]
uint8 LatencyTimer;
[Description (
"Defines the PCI interrupt request pin (INTA# to "
"INTD#) to which a PCI functional device is connected."),
ValueMap {"0", "1", "2", "3", "4", "5"},
Values {"None", "INTA#", "INTB#", "INTC#", "INTD#", "Unknown"} ]
uint16 InterruptPin;
[Description (
"Doubleword Expansion ROM base memory address."),
Units ("DoubleWords") ]
uint32 ExpansionROMBaseAddress;
[Description (
"Reports if the PCI device can perform the self test "
"function. Returns bit 7 of the BIST register as a boolean.") ]
boolean SelfTestEnabled;
[Description (
"Method to invoke PCI device self-test. This method sets bit "
"6 of the BIST register. The return result is the lower "
"four bits of the BIST register where 0 indicates success and "
"non-zero is a device dependent failure. Support for this "
"method is optional in the PCI Specification.") ]
uint8 BISTExecution( );
};
// ===================================================================
// PCIDevice
// ===================================================================
[Version ("2.6.0"), Description (
"Capabilities and management of a PCI device controller "
"on an adapter card.") ]
class CIM_PCIDevice : CIM_PCIController {
[Description ("Array of doubleword base memory addresses.") ]
uint32 BaseAddress[6];
[Description ("Subsystem identifier code.") ]
uint16 SubsystemID;
[Description (
"Subsystem vendor ID. ID information is reported from a "
"PCIDevice via protocol-specific requests. The correct place "
"in the CIM Schema for this information is in CIM_Physical"
"Element (the Manufacturer property) for hardware, and "
"CIM_Product (the Vendor property) if the information is "
"related to Product acquisition. This data is also reported "
"here since it is part of the standard output from the "
"Device, and as an optimization.") ]
uint16 SubsystemVendorID;
[Description (
"Register indiating how long the master would like to "
"retain PCI bus ownership whenever it initiates a "
"transaction. A zero value indicates no requirement."),
Units ("250 nanoseconds") ]
uint8 MinGrantTime;
[Description (
"Register specifying how often the device needs access to "
"the PCI bus in 250ns. A zero value indicates no "
"requirement."),
Units ("250 nanoseconds") ]
uint8 MaxLatency;
};
// ===================================================================
// PCIBridge
// ===================================================================
[Version ("2.6.0"), Description (
"Capabilities and management of a PCI controller providing "
"bridge to bridge capability.") ]
class CIM_PCIBridge : CIM_PCIController {
[Description ("Array of doubleword base memory addresses.") ]
uint32 BaseAddress[2];
[Description (
"The type of bridge. Except for \"Host\" (value=0), the type "
"of bridge is PCI to <value>. For type \"Host\", the device is "
"a Host to PCI bridge."),
ValueMap {"0", "1", "2", "3", "4", "5", "6", "7", "8",
"128"},
Values {"Host", "ISA", "EISA", "Micro Channel", "PCI",
"PCMCIA", "NuBus", "CardBus", "RACEway",
// 128
"Other"} ]
uint16 BridgeType;
[Description (
"The timeslice for the secondary interface when the bridge "
"is acting as an initiator. A zero value indicates no "
"requirement."),
Units ("PCI clock cycles") ]
uint8 SecondaryLatencyTimer;
[Description (
"The number of the highest numbered bus that exists behind "
"the bridge.") ]
uint8 SubordinateBusNumber;
[Description (
"The number of the PCI bus segment to which the secondary "
"interface of the bridge is connected.") ]
uint8 SecondayBusNumber;
[Description (
"The number of the PCI bus segment to which the primary "
"interface of the bridge is connected.") ]
uint8 PrimaryBusNumber;
[Description (
"The contents of the Bridge's SecondaryStatusRegister. "
"For more information on the contents of this register, refer "
"to the PCI-to-PCI Bridge Architecture Specification.") ]
uint16 SecondaryStatusRegister;
[Description (
"The slowest device select timing for a target device on the "
"secondary bus."),
ValueMap {"0", "1", "2", "3", "4", "5"},
Values {"Unknown", "Other", "Fast", "Medium", "Slow",
"Reserved"} ]
uint16 SecondaryBusDeviceSelectTiming;
[Description (
"End address of the I/O addresses supported by the bus. The "
"upper four bits of this property specify the address bits, "
"AD[15::12], of the I/O address. The remaining 12 bits of "
"the I/O address are assumed to be all 1's.") ]
uint8 IOLimit;
[Description (
"Base address of I/O addresses supported by the bus. The "
"upper four bits of this property specify the address bits, "
"AD[15::12], of the I/O address. The remaining 12 bits of "
"the I/O address are assumed to be 0.") ]
uint8 IOBase;
[Description (
"End address of the memory supported by the bus. The "
"upper twelve bits of this property specify the address bits, "
"AD[31::20], of a 32-bit memory address. The remaining 20 "
"bits of the address are assumed to be all 1's.") ]
uint16 MemoryLimit;
[Description (
"Base address of the memory supported by the bus. The "
"upper twelve bits of this property specify the address bits, "
"AD[31::20], of a 32-bit memory address. The remaining 20 "
"bits of the address are assumed to be 0.") ]
uint16 MemoryBase;
[Description (
"End address of the memory that can be prefetched by the bus. "
"The upper twelve bits of this property specify the address "
"bits, AD[31::20], of a 32-bit memory address. The remaining "
"20 bits of the address are assumed to be all 1's.") ]
uint16 PrefetchMemoryLimit;
[Description (
"Base address of the memory that can be prefetched by the bus. "
"The upper twelve bits of this property specify the address "
"bits, AD[31::20], of a 32-bit memory address. The remaining "
"20 bits of the address are assumed to be 0.") ]
uint16 PrefetchMemoryBase;
[Description (
"Upper 32 bits of the supported prefetch end address when "
"64-bit addressing is used. The lower 32 bits are assumed to "
"be all 1's.") ]
uint32 PrefetchLimitUpper32;
[Description (
"Upper 32 bits of the supported prefetch base address when "
"64-bit addressing is used. The lower 32 bits are assumed "
"to be 0.") ]
uint32 PrefetchBaseUpper32;
[Description (
"Upper 16 bits of the supported I/O end address when 32-bit "
"I/O addressing is used. The lower 16 bits are assumed to be "
"all 1's.") ]
uint16 IOLimitUpper16;
[Description (
"Upper 16 bits of the supported I/O base address when 32-bit "
"I/O addressing is used. The lower 16 bits are assumed to be "
"0.") ]
uint16 IOBaseUpper16;
};
// ===================================================================
// end of file
// ===================================================================
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