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File: [Pegasus] / pegasus / Schemas / CIM231 / DMTF / Device / CIM_Memory.mof
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Revision: 1.1, Tue Jan 24 13:50:08 2012 UTC (12 years, 5 months ago) by marek Branch: MAIN CVS Tags: preBug9676, postBug9676, TASK-TASK_PEP362_RestfulService_branch-root, TASK-TASK_PEP362_RestfulService_branch-merged_out_from_trunk, TASK-TASK_PEP362_RestfulService_branch-merged_in_to_trunk, TASK-TASK_PEP362_RestfulService_branch-merged_in_from_branch, TASK-TASK_PEP362_RestfulService_branch-branch, TASK-PEP362_RestfulService-root, TASK-PEP362_RestfulService-merged_out_to_branch, TASK-PEP362_RestfulService-merged_out_from_trunk, TASK-PEP362_RestfulService-merged_in_to_trunk, TASK-PEP362_RestfulService-merged_in_from_branch, TASK-PEP362_RestfulService-branch, TASK-PEP317_pullop-merged_out_from_trunk, TASK-PEP317_pullop-merged_in_to_trunk, RELEASE_2_14_1, RELEASE_2_14_0-RC2, RELEASE_2_14_0-RC1, RELEASE_2_14_0, RELEASE_2_14-root, RELEASE_2_14-branch, RELEASE_2_13_0-RC2, RELEASE_2_13_0-RC1, RELEASE_2_13_0-FC, RELEASE_2_13_0, RELEASE_2_13-root, RELEASE_2_13-branch, RELEASE_2_12_1-RC1, RELEASE_2_12_1, RELEASE_2_12_0-RC1, RELEASE_2_12_0-FC, RELEASE_2_12_0, RELEASE_2_12-root, RELEASE_2_12-branch, HEAD, CIMRS_WORK_20130824 Branch point for: TASK-PEP317_pullop-branch BUG#:9155 TITLE: Upgrade Pegasus to Include the CIM 2.31 Schema in CVS DESCRIPTION: |
// Copyright (c) 2005 DMTF. All rights reserved.
// <change cr="ArchCR00066.004" type="add">Add UmlPackagePath
// qualifier values to CIM Schema.</change>
// <change cr="ArchCR00089.003" type="add">Add PUnit qualifier values
// to Units qualifier values.</change>
// ==================================================================
// CIM_Memory
// ==================================================================
[Version ( "2.8.0" ),
UMLPackagePath ( "CIM::Device::Memory" ),
Description (
"Capabilities and management of Memory-related LogicalDevices." )]
class CIM_Memory : CIM_StorageExtent {
[Description (
"Volatile is a property that indicates whether this "
"memory is volatile or not." )]
boolean Volatile;
[Override ( "ErrorMethodology" ),
Description (
"ErrorMethodology for Memory is a string property that "
"indicates whether parity or CRC algorithms, ECC or other "
"mechanisms are used. Details on the algorithm can also "
"be supplied." ),
MappingStrings { "MIF.DMTF|Physical Memory Array|001.7" }]
string ErrorMethodology;
[Description (
"The beginning address, referenced by an application or "
"operating system and mapped by a memory controller, for "
"this Memory object. The starting address is specified in "
"KBytes." ),
Units ( "KiloBytes" ),
MappingStrings {
"MIF.DMTF|Memory Array Mapped Addresses|001.3",
"MIF.DMTF|Memory Device Mapped Addresses|001.4" },
PUnit ( "byte * 10^3" )]
uint64 StartingAddress;
[Description (
"The ending address, referenced by an application or "
"operating system and mapped by a memory controller, for "
"this Memory object. The ending address is specified in "
"KBytes." ),
Units ( "KiloBytes" ),
MappingStrings {
"MIF.DMTF|Memory Array Mapped Addresses|001.4",
"MIF.DMTF|Memory Device Mapped Addresses|001.5" },
PUnit ( "byte * 10^3" )]
uint64 EndingAddress;
[Deprecated { "CIM_MemoryError.ErrorInfo" },
Description (
"An integer enumeration describing the type of error that "
"occurred most recently. For example, single (value=6) or "
"double bit errors (7) can be specified using this "
"property. The values, 12-14, are undefined in the CIM "
"Schema since in DMI, they mix the semantics of the type "
"of error and whether it was correctable or not. The "
"latter is indicated in the property, CorrectableError." ),
ValueMap { "1", "2", "3", "4", "5", "6", "7", "8", "9", "10",
"11", "12", "13", "14" },
Values { "Other", "Unknown", "OK", "Bad Read",
"Parity Error", "Single-Bit Error", "Double-Bit Error",
"Multi-Bit Error", "Nibble Error", "Checksum Error",
"CRC Error", "Undefined", "Undefined", "Undefined" },
MappingStrings { "MIF.DMTF|Memory Device|005.12",
"MIF.DMTF|Physical Memory Array|001.8" },
ModelCorrespondence { "CIM_Memory.OtherErrorDescription" }]
uint16 ErrorInfo;
[Deprecated { "CIM_MemoryError.OtherErrorDescription" },
Description (
"Free form string providing more information if the Error "
"Type property is set to 1, \"Other\". If not set to 1, "
"this string has no meaning." ),
ModelCorrespondence { "CIM_Memory.ErrorInfo" }]
string OtherErrorDescription;
[Deprecated { "CIM_MemoryError.CorrectableError" },
Description (
"Boolean indicating that the most recent error was "
"correctable. If the ErrorInfo property is equal to 3, "
"\"OK\", then this property has no meaning." ),
MappingStrings { "MIF.DMTF|Physical Memory Array|001.8" }]
boolean CorrectableError;
[Deprecated { "CIM_MemoryError.ErrorTime" },
Description (
"The time that the last memory error occurred. The type "
"of error is described by the ErrorInfo property. If the "
"Error Info property is equal to 3, \"OK\", then this "
"property has no meaning." )]
datetime ErrorTime;
[Deprecated { "CIM_MemoryError.ErrorAccess" },
Description (
"An integer enumeration indicating the memory access "
"operation that caused the last error. The type of error "
"is described by the ErrorInfo property. If the ErrorInfo "
"property is equal to 3, \"OK\", then this property has "
"no meaning." ),
ValueMap { "1", "2", "3", "4", "5" },
Values { "Other", "Unknown", "Read", "Write", "Partial Write" },
MappingStrings { "MIF.DMTF|Physical Memory Array|001.10" }]
uint16 ErrorAccess;
[Deprecated { "CIM_MemoryError.ErrorTransferSize" },
Description (
"The size of the data transfer in bits that caused the "
"last error. 0 indicates no error. If the ErrorInfo "
"property is equal to 3, \"OK\", then this property "
"should be set to 0." ),
Units ( "Bits" ),
MappingStrings { "MIF.DMTF|Physical Memory Array|001.11" },
PUnit ( "bit" )]
uint32 ErrorTransferSize;
[Deprecated { "CIM_MemoryError.ErrorData" },
Description (
"Data captured during the last erroneous mebmory access. "
"The data occupies the first n octets of the array "
"necessary to hold the number of bits specified by the "
"ErrorTransferSize property. If ErrorTransferSize is 0, "
"then this property has no meaning." ),
OctetString, ArrayType ( "Indexed" ),
MappingStrings { "MIF.DMTF|Physical Memory Array|001.12" }]
uint8 ErrorData[];
[Deprecated { "CIM_MemoryError.ErrorDataOrder" },
Description (
"The ordering for data stored in the ErrorData property. "
"\"Least Significant Byte First\" (value=1) or \"Most "
"Significant Byte First\" (2) can be specified. If "
"ErrorTransferSize is 0, then this property has no "
"meaning." ),
ValueMap { "0", "1", "2" },
Values { "Unknown", "Least Significant Byte First",
"Most Significant Byte First" }]
uint16 ErrorDataOrder;
[Deprecated { "CIM_MemoryError.StartingAddress" },
Description (
"Specifies the address of the last memory error. The type "
"of error is described by the ErrorInfo property. If the "
"ErrorInfo property is equal to 3, \"OK\", then this "
"property has no meaning." ),
MappingStrings { "MIF.DMTF|Memory Device|005.19",
"MIF.DMTF|Physical Memory Array|001.14" }]
uint64 ErrorAddress;
[Deprecated { "CIM_MemoryError.SystemLevelAddress" },
Description (
"Boolean indicating whether the address information in "
"the property, ErrorAddress, is a system-level address "
"(TRUE) or a physical address (FALSE). If the ErrorInfo "
"property is equal to 3, \"OK\", then this property has "
"no meaning." )]
boolean SystemLevelAddress;
[Deprecated { "CIM_MemoryError.ErrorResolution" },
Description (
"Specifies the range, in bytes, to which the last error "
"can be resolved. For example, if error addresses are "
"resolved to bit 11 (ie, on a typical page basis), then "
"errors can be resolved to 4K boundaries and this "
"property is set to 4000. If the ErrorInfo property is "
"equal to 3, \"OK\", then this property has no meaning." ),
Units ( "Bytes" ),
MappingStrings { "MIF.DMTF|Memory Device|005.21",
"MIF.DMTF|Physical Memory Array|001.15" },
PUnit ( "byte" )]
uint64 ErrorResolution;
[Deprecated { "CIM_MemoryError.AdditionalErrorData" },
Description (
"An array of octets holding additional error information. "
"An example is ECC Syndrome or the return of the check "
"bits if a CRC-based ErrorMethodology is used. In the "
"latter case, if a single bit error is recognized and the "
"CRC algorithm is known, it is possible to determine the "
"exact bit that failed. This type of data (ECC Syndrome, "
"Check Bit or Parity Bit data, or other vendor supplied "
"information) is included in this field. If the ErrorInfo "
"property is equal to 3, \"OK\", then AdditionalErrorData "
"has no meaning." ),
OctetString, MappingStrings {
"MIF.DMTF|Memory Device|005.18",
"MIF.DMTF|Physical Memory Array|001.13" }]
uint8 AdditionalErrorData[];
};
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