audk/MdePkg/Include/IndustryStandard/IpmiNetFnStorage.h

784 lines
24 KiB
C

/** @file
IPMI 2.0 definitions from the IPMI Specification Version 2.0, Revision 1.1.
This file contains all NetFn Storage commands, including:
FRU Inventory Commands (Chapter 34)
SDR Repository (Chapter 33)
System Event Log(SEL) Commands (Chapter 31)
SEL Record Formats (Chapter 32)
See IPMI specification, Appendix G, Command Assignments
and Appendix H, Sub-function Assignments.
Copyright (c) 1999 - 2018, Intel Corporation. All rights reserved.<BR>
SPDX-License-Identifier: BSD-2-Clause-Patent
**/
#ifndef _IPMI_NET_FN_STORAGE_H_
#define _IPMI_NET_FN_STORAGE_H_
#pragma pack(1)
//
// Net function definition for Storage command
//
#define IPMI_NETFN_STORAGE 0x0A
//
// All Storage commands and their structure definitions to follow here
//
//
// Below is Definitions for FRU Inventory Commands (Chapter 34)
//
//
// Definitions for Get Fru Inventory Area Info command
//
#define IPMI_STORAGE_GET_FRU_INVENTORY_AREAINFO 0x10
//
// Constants and Structure definitions for "Get Fru Inventory Area Info" command to follow here
//
typedef struct {
UINT8 DeviceId;
} IPMI_GET_FRU_INVENTORY_AREA_INFO_REQUEST;
typedef struct {
UINT8 CompletionCode;
UINT16 InventoryAreaSize;
UINT8 AccessType;
} IPMI_GET_FRU_INVENTORY_AREA_INFO_RESPONSE;
//
// Definitions for Read Fru Data command
//
#define IPMI_STORAGE_READ_FRU_DATA 0x11
//
// Constants and Structure definitions for "Read Fru Data" command to follow here
//
typedef struct {
UINT8 FruDeviceId;
UINT16 FruOffset;
} IPMI_FRU_COMMON_DATA;
typedef struct {
IPMI_FRU_COMMON_DATA Data;
UINT8 Count;
} IPMI_FRU_READ_COMMAND;
typedef struct {
UINT8 DeviceId;
UINT16 InventoryOffset;
UINT8 CountToRead;
} IPMI_READ_FRU_DATA_REQUEST;
typedef struct {
UINT8 CompletionCode;
UINT8 CountReturned;
UINT8 Data[0];
} IPMI_READ_FRU_DATA_RESPONSE;
//
// Definitions for Write Fru Data command
//
#define IPMI_STORAGE_WRITE_FRU_DATA 0x12
//
// Constants and Structure definitions for "Write Fru Data" command to follow here
//
typedef struct {
IPMI_FRU_COMMON_DATA Data;
UINT8 FruData[16];
} IPMI_FRU_WRITE_COMMAND;
typedef struct {
UINT8 DeviceId;
UINT16 InventoryOffset;
UINT8 Data[0];
} IPMI_WRITE_FRU_DATA_REQUEST;
typedef struct {
UINT8 CompletionCode;
UINT8 CountWritten;
} IPMI_WRITE_FRU_DATA_RESPONSE;
//
// Below is Definitions for SDR Repository (Chapter 33)
//
//
// Definitions for Get SDR Repository Info command
//
#define IPMI_STORAGE_GET_SDR_REPOSITORY_INFO 0x20
//
// Constants and Structure definitions for "Get SDR Repository Info" command to follow here
//
typedef union {
struct {
UINT8 SdrRepAllocInfoCmd : 1;
UINT8 SdrRepReserveCmd : 1;
UINT8 PartialAddSdrCmd : 1;
UINT8 DeleteSdrRepCmd : 1;
UINT8 Reserved : 1;
UINT8 SdrRepUpdateOp : 2;
UINT8 Overflow : 1;
} Bits;
UINT8 Uint8;
} IPMI_SDR_OPERATION_SUPPORT;
typedef struct {
UINT8 CompletionCode;
UINT8 Version;
UINT16 RecordCount;
UINT16 FreeSpace;
UINT32 RecentAdditionTimeStamp;
UINT32 RecentEraseTimeStamp;
IPMI_SDR_OPERATION_SUPPORT OperationSupport;
} IPMI_GET_SDR_REPOSITORY_INFO_RESPONSE;
//
// Definitions for Get SDR Repository Allocateion Info command
//
#define IPMI_STORAGE_GET_SDR_REPOSITORY_ALLOCATION_INFO 0x21
//
// Constants and Structure definitions for "Get SDR Repository Allocateion Info" command to follow here
//
//
// Definitions for Reserve SDR Repository command
//
#define IPMI_STORAGE_RESERVE_SDR_REPOSITORY 0x22
//
// Constants and Structure definitions for "Reserve SDR Repository" command to follow here
//
typedef struct {
UINT8 CompletionCode;
UINT8 ReservationId[2]; // Reservation ID. LS byte first.
} IPMI_RESERVE_SDR_REPOSITORY_RESPONSE;
//
// Definitions for Get SDR command
//
#define IPMI_STORAGE_GET_SDR 0x23
//
// Constants and Structure definitions for "Get SDR" command to follow here
//
typedef union {
struct {
UINT8 EventScanningEnabled : 1;
UINT8 EventScanningDisabled : 1;
UINT8 InitSensorType : 1;
UINT8 InitHysteresis : 1;
UINT8 InitThresholds : 1;
UINT8 InitEvent : 1;
UINT8 InitScanning : 1;
UINT8 SettableSensor : 1;
} Bits;
UINT8 Uint8;
} IPMI_SDR_RECORD_SENSOR_INIT;
typedef union {
struct {
UINT8 EventMessageControl : 2;
UINT8 ThresholdAccessSupport : 2;
UINT8 HysteresisSupport : 2;
UINT8 ReArmSupport : 1;
UINT8 IgnoreSensor : 1;
} Bits;
UINT8 Uint8;
} IPMI_SDR_RECORD_SENSOR_CAP;
typedef union {
struct {
UINT8 Linearization : 7;
UINT8 Reserved : 1;
} Bits;
UINT8 Uint8;
} IPMI_SDR_RECORD_LINEARIZATION;
typedef union {
struct {
UINT8 Toleremce : 6;
UINT8 MHi : 2;
} Bits;
UINT8 Uint8;
} IPMI_SDR_RECORD_M_TOLERANCE;
typedef union {
struct {
UINT8 AccuracyLow : 6;
UINT8 BHi : 2;
} Bits;
UINT8 Uint8;
} IPMI_SDR_RECORD_B_ACCURACY;
typedef union {
struct {
UINT8 Reserved : 2;
UINT8 AccuracyExp : 2;
UINT8 AccuracyHi : 4;
} Bits;
UINT8 Uint8;
} IPMI_SDR_RECORD_ACCURACY_SENSOR_DIR;
typedef union {
struct {
UINT8 BExp : 4;
UINT8 RExp : 4;
} Bits;
UINT8 Uint8;
} IPMI_SDR_RECORD_R_EXP_B_EXP;
typedef union {
struct {
UINT8 NominalReadingSpscified : 1;
UINT8 NominalMaxSpscified : 1;
UINT8 NominalMinSpscified : 1;
UINT8 Reserved : 5;
} Bits;
UINT8 Uint8;
} IPMI_SDR_RECORD_ANALOG_FLAGS;
typedef struct {
UINT16 RecordId; // 1
UINT8 Version; // 3
UINT8 RecordType; // 4
UINT8 RecordLength; // 5
UINT8 OwnerId; // 6
UINT8 OwnerLun; // 7
UINT8 SensorNumber; // 8
UINT8 EntityId; // 9
UINT8 EntityInstance; // 10
IPMI_SDR_RECORD_SENSOR_INIT SensorInitialization; // 11
IPMI_SDR_RECORD_SENSOR_CAP SensorCapabilities; // 12
UINT8 SensorType; // 13
UINT8 EventType; // 14
UINT8 Reserved1[7]; // 15
UINT8 UnitType; // 22
UINT8 Reserved2; // 23
IPMI_SDR_RECORD_LINEARIZATION Linearization; // 24
UINT8 MLo; // 25
IPMI_SDR_RECORD_M_TOLERANCE MHiTolerance; // 26
UINT8 BLo; // 27
IPMI_SDR_RECORD_B_ACCURACY BHiAccuracyLo; // 28
IPMI_SDR_RECORD_ACCURACY_SENSOR_DIR AccuracySensorDirection; // 29
IPMI_SDR_RECORD_R_EXP_B_EXP RExpBExp; // 30
IPMI_SDR_RECORD_ANALOG_FLAGS AnalogFlags; // 31
UINT8 NominalReading; // 32
UINT8 Reserved3[4]; // 33
UINT8 UpperNonRecoverThreshold; // 37
UINT8 UpperCriticalThreshold; // 38
UINT8 UpperNonCriticalThreshold; // 39
UINT8 LowerNonRecoverThreshold; // 40
UINT8 LowerCriticalThreshold; // 41
UINT8 LowerNonCriticalThreshold; // 42
UINT8 Reserved4[5]; // 43
UINT8 IdStringLength; // 48
UINT8 AsciiIdString[16]; // 49 - 64
} IPMI_SDR_RECORD_STRUCT_1;
typedef struct {
UINT16 RecordId; // 1
UINT8 Version; // 3
UINT8 RecordType; // 4
UINT8 RecordLength; // 5
UINT8 OwnerId; // 6
UINT8 OwnerLun; // 7
UINT8 SensorNumber; // 8
UINT8 EntityId; // 9
UINT8 EntityInstance; // 10
IPMI_SDR_RECORD_SENSOR_INIT SensorInitialization; // 11
IPMI_SDR_RECORD_SENSOR_CAP SensorCapabilities; // 12
UINT8 SensorType; // 13
UINT8 EventType; // 14
UINT8 Reserved1[7]; // 15
UINT8 UnitType; // 22
UINT8 Reserved2[9]; // 23
UINT8 IdStringLength; // 32
UINT8 AsciiIdString[16]; // 33 - 48
} IPMI_SDR_RECORD_STRUCT_2;
typedef union {
struct {
UINT8 Reserved1 : 1;
UINT8 ControllerSlaveAddress : 7;
UINT8 FruDeviceId;
UINT8 BusId : 3;
UINT8 Lun : 2;
UINT8 Reserved2 : 2;
UINT8 LogicalFruDevice : 1;
UINT8 Reserved3 : 4;
UINT8 ChannelNumber : 4;
} Bits;
UINT32 Uint32;
} IPMI_FRU_DATA_INFO;
typedef union {
struct {
UINT8 Length : 4;
UINT8 Reserved : 1;
UINT8 StringType : 3;
} Bits;
UINT8 Uint8;
} IPMI_SDR_RECORD_DEV_ID_STR_TYPE_LENGTH;
typedef struct {
UINT16 RecordId; // 1
UINT8 Version; // 3
UINT8 RecordType; // 4
UINT8 RecordLength; // 5
IPMI_FRU_DATA_INFO FruDeviceData; // 6
UINT8 Reserved; // 10
UINT8 DeviceType; // 11
UINT8 DeviceTypeModifier; // 12
UINT8 FruEntityId; // 13
UINT8 FruEntityInstance; // 14
UINT8 OemReserved; // 15
IPMI_SDR_RECORD_DEV_ID_STR_TYPE_LENGTH StringTypeLength; // 16
UINT8 String[16]; // 17
} IPMI_SDR_RECORD_STRUCT_11;
typedef struct {
UINT16 RecordId; //1
UINT8 Version; //3
UINT8 RecordType; //4
UINT8 RecordLength; //5
UINT8 ManufacturerId[3]; //6
UINT8 StringChars[20];
} IPMI_SDR_RECORD_STRUCT_C0;
typedef struct {
UINT16 RecordId; //1
UINT8 Version; //3
UINT8 RecordType; //4
UINT8 RecordLength; //5
} IPMI_SDR_RECORD_STRUCT_HEADER;
typedef union {
IPMI_SDR_RECORD_STRUCT_1 SensorType1;
IPMI_SDR_RECORD_STRUCT_2 SensorType2;
IPMI_SDR_RECORD_STRUCT_11 SensorType11;
IPMI_SDR_RECORD_STRUCT_C0 SensorTypeC0;
IPMI_SDR_RECORD_STRUCT_HEADER SensorHeader;
} IPMI_SENSOR_RECORD_STRUCT;
typedef struct {
UINT16 ReservationId;
UINT16 RecordId;
UINT8 RecordOffset;
UINT8 BytesToRead;
} IPMI_GET_SDR_REQUEST;
typedef struct {
UINT8 CompletionCode;
UINT16 NextRecordId;
IPMI_SENSOR_RECORD_STRUCT RecordData;
} IPMI_GET_SDR_RESPONSE;
//
// Definitions for Add SDR command
//
#define IPMI_STORAGE_ADD_SDR 0x24
//
// Constants and Structure definitions for "Add SDR" command to follow here
//
//
// Definitions for Partial Add SDR command
//
#define IPMI_STORAGE_PARTIAL_ADD_SDR 0x25
//
// Constants and Structure definitions for "Partial Add SDR" command to follow here
//
//
// Definitions for Delete SDR command
//
#define IPMI_STORAGE_DELETE_SDR 0x26
//
// Constants and Structure definitions for "Delete SDR" command to follow here
//
//
// Definitions for Clear SDR Repository command
//
#define IPMI_STORAGE_CLEAR_SDR 0x27
//
// Constants and Structure definitions for "Clear SDR Repository" command to follow here
//
//
// Definitions for Get SDR Repository Time command
//
#define IPMI_STORAGE_GET_SDR_REPOSITORY_TIME 0x28
//
// Constants and Structure definitions for "Get SDR Repository Time" command to follow here
//
//
// Definitions for Set SDR Repository Time command
//
#define IPMI_STORAGE_SET_SDR_REPOSITORY_TIME 0x29
//
// Constants and Structure definitions for "Set SDR Repository Time" command to follow here
//
//
// Definitions for Enter SDR Repository Update Mode command
//
#define IPMI_STORAGE_ENTER_SDR_UPDATE_MODE 0x2A
//
// Constants and Structure definitions for "Enter SDR Repository Update Mode" command to follow here
//
//
// Definitions for Exit SDR Repository Update Mode command
//
#define IPMI_STORAGE_EXIT_SDR_UPDATE_MODE 0x2B
//
// Constants and Structure definitions for "Exit SDR Repository Update Mode" command to follow here
//
//
// Definitions for Run Initialize Agent command
//
#define IPMI_STORAGE_RUN_INIT_AGENT 0x2C
//
// Constants and Structure definitions for "Run Initialize Agent" command to follow here
//
//
// Below is Definitions for System Event Log(SEL) Commands (Chapter 31)
//
//
// Definitions for Get SEL Info command
//
#define IPMI_STORAGE_GET_SEL_INFO 0x40
//
// Constants and Structure definitions for "Get SEL Info" command to follow here
//
#define IPMI_GET_SEL_INFO_OPERATION_SUPPORT_GET_SEL_ALLOCATION_INFO_CMD BIT0
#define IPMI_GET_SEL_INFO_OPERATION_SUPPORT_RESERVE_SEL_CMD BIT1
#define IPMI_GET_SEL_INFO_OPERATION_SUPPORT_PARTIAL_ADD_SEL_ENTRY_CMD BIT2
#define IPMI_GET_SEL_INFO_OPERATION_SUPPORT_DELETE_SEL_CMD BIT3
#define IPMI_GET_SEL_INFO_OPERATION_SUPPORT_OVERFLOW_FLAG BIT7
typedef struct {
UINT8 CompletionCode;
UINT8 Version; // Version of SEL
UINT16 NoOfEntries; // No of Entries in the SEL
UINT16 FreeSpace; // Free space in Bytes
UINT32 RecentAddTimeStamp; // Most Recent Addition of Time Stamp
UINT32 RecentEraseTimeStamp; // Most Recent Erasure of Time Stamp
UINT8 OperationSupport; // Operation Support
} IPMI_GET_SEL_INFO_RESPONSE;
//
// Definitions for Get SEL Allocation Info command
//
#define IPMI_STORAGE_GET_SEL_ALLOCATION_INFO 0x41
//
// Constants and Structure definitions for "Get SEL Allocation Info" command to follow here
//
//
// Definitions for Reserve SEL command
//
#define IPMI_STORAGE_RESERVE_SEL 0x42
//
// Constants and Structure definitions for "Reserve SEL" command to follow here
//
typedef struct {
UINT8 CompletionCode;
UINT8 ReservationId[2]; // Reservation ID. LS byte first.
} IPMI_RESERVE_SEL_RESPONSE;
//
// Definitions for Get SEL Entry command
//
#define IPMI_STORAGE_GET_SEL_ENTRY 0x43
//
// Constants and Structure definitions for "Get SEL Entry" command to follow here
//
//
// Below is Definitions for SEL Record Formats (Chapter 32)
//
typedef struct {
UINT16 RecordId;
UINT8 RecordType;
UINT32 TimeStamp;
UINT16 GeneratorId;
UINT8 EvMRevision;
UINT8 SensorType;
UINT8 SensorNumber;
UINT8 EventDirType;
UINT8 OEMEvData1;
UINT8 OEMEvData2;
UINT8 OEMEvData3;
} IPMI_SEL_EVENT_RECORD_DATA;
typedef struct {
UINT16 RecordId;
UINT8 RecordType; // C0h-DFh = OEM system event record
UINT32 TimeStamp;
UINT8 ManufacturerId[3];
UINT8 OEMDefined[6];
} IPMI_TIMESTAMPED_OEM_SEL_RECORD_DATA;
typedef struct {
UINT16 RecordId;
UINT8 RecordType; // E0h-FFh = OEM system event record
UINT8 OEMDefined[13];
} IPMI_NON_TIMESTAMPED_OEM_SEL_RECORD_DATA;
typedef struct {
UINT8 ReserveId[2]; // Reservation ID, LS Byte First
UINT8 SelRecID[2]; // Sel Record ID, LS Byte First
UINT8 Offset; // Offset Into Record
UINT8 BytesToRead; // Bytes to be Read, 0xFF for entire record
} IPMI_GET_SEL_ENTRY_REQUEST;
typedef struct {
UINT8 CompletionCode;
UINT16 NextSelRecordId; // Next SEL Record ID, LS Byte first
IPMI_SEL_EVENT_RECORD_DATA RecordData;
} IPMI_GET_SEL_ENTRY_RESPONSE;
//
// Definitions for Add SEL Entry command
//
#define IPMI_STORAGE_ADD_SEL_ENTRY 0x44
//
// Constants and Structure definitions for "Add SEL Entry" command to follow here
//
typedef struct {
IPMI_SEL_EVENT_RECORD_DATA RecordData;
} IPMI_ADD_SEL_ENTRY_REQUEST;
typedef struct {
UINT8 CompletionCode;
UINT16 RecordId; // Record ID for added record, LS Byte first
} IPMI_ADD_SEL_ENTRY_RESPONSE;
//
// Definitions for Partial Add SEL Entry command
//
#define IPMI_STORAGE_PARTIAL_ADD_SEL_ENTRY 0x45
//
// Constants and Structure definitions for "Partial Add SEL Entry" command to follow here
//
typedef struct {
UINT16 ReservationId;
UINT16 RecordId;
UINT8 OffsetIntoRecord;
UINT8 InProgress;
UINT8 RecordData[0];
} IPMI_PARTIAL_ADD_SEL_ENTRY_REQUEST;
typedef struct {
UINT8 CompletionCode;
UINT16 RecordId;
} IPMI_PARTIAL_ADD_SEL_ENTRY_RESPONSE;
//
// Definitions for Delete SEL Entry command
//
#define IPMI_STORAGE_DELETE_SEL_ENTRY 0x46
//
// Constants and Structure definitions for "Delete SEL Entry" command to follow here
//
typedef struct {
UINT8 ReserveId[2]; // Reservation ID, LS byte first
UINT8 RecordToDelete[2]; // Record to Delete, LS Byte First
} IPMI_DELETE_SEL_ENTRY_REQUEST;
#define IPMI_DELETE_SEL_ENTRY_RESPONSE_TYPE_UNSUPPORTED 0x80
#define IPMI_DELETE_SEL_ENTRY_RESPONSE_ERASE_IN_PROGRESS 0x81
typedef struct {
UINT8 CompletionCode;
UINT16 RecordId; // Record ID added. LS byte first
} IPMI_DELETE_SEL_ENTRY_RESPONSE;
//
// Definitions for Clear SEL command
//
#define IPMI_STORAGE_CLEAR_SEL 0x47
//
// Constants and Structure definitions for "Clear SEL" command to follow here
//
#define IPMI_CLEAR_SEL_REQUEST_C_CHAR_ASCII 0x43
#define IPMI_CLEAR_SEL_REQUEST_L_CHAR_ASCII 0x4C
#define IPMI_CLEAR_SEL_REQUEST_R_CHAR_ASCII 0x52
#define IPMI_CLEAR_SEL_REQUEST_INITIALIZE_ERASE 0xAA
#define IPMI_CLEAR_SEL_REQUEST_GET_ERASE_STATUS 0x00
typedef struct {
UINT8 Reserve[2]; // Reserve ID, LSB first
UINT8 AscC; // Ascii for 'C' (0x43)
UINT8 AscL; // Ascii for 'L' (0x4c)
UINT8 AscR; // Ascii for 'R' (0x52)
UINT8 Erase; // 0xAA, Initiate Erase, 0x00 Get Erase Status
} IPMI_CLEAR_SEL_REQUEST;
#define IPMI_CLEAR_SEL_RESPONSE_ERASURE_IN_PROGRESS 0x00
#define IPMI_CLEAR_SEL_RESPONSE_ERASURE_COMPLETED 0x01
typedef struct {
UINT8 CompletionCode;
UINT8 ErasureProgress;
} IPMI_CLEAR_SEL_RESPONSE;
//
// Definitions for Get SEL Time command
//
#define IPMI_STORAGE_GET_SEL_TIME 0x48
//
// Constants and Structure definitions for "Get SEL Time" command to follow here
//
typedef struct {
UINT8 CompletionCode;
UINT32 Timestamp; // Present Timestamp clock reading. LS byte first.
} IPMI_GET_SEL_TIME_RESPONSE;
//
// Definitions for Set SEL Time command
//
#define IPMI_STORAGE_SET_SEL_TIME 0x49
//
// Constants and Structure definitions for "Set SEL Time" command to follow here
//
typedef struct {
UINT32 Timestamp;
} IPMI_SET_SEL_TIME_REQUEST;
//
// Definitions for Get Auxillary Log Status command
//
#define IPMI_STORAGE_GET_AUXILLARY_LOG_STATUS 0x5A
//
// Constants and Structure definitions for "Get Auxillary Log Status" command to follow here
//
//
// Definitions for Set Auxillary Log Status command
//
#define IPMI_STORAGE_SET_AUXILLARY_LOG_STATUS 0x5B
//
// Constants and Structure definitions for "Set Auxillary Log Status" command to follow here
//
//
// Definitions for Get SEL Time UTC Offset command
//
#define IPMI_STORAGE_GET_SEL_TIME_UTC_OFFSET 0x5C
//
// Constants and Structure definitions for "Get SEL Time UTC Offset" command to follow here
//
typedef struct {
UINT8 CompletionCode;
//
// 16-bit, 2s-complement signed integer for the offset in minutes from UTC to SEL Time.
// LS-byte first. (ranges from -1440 to 1440)
//
INT16 UtcOffset;
} IPMI_GET_SEL_TIME_UTC_OFFSET_RESPONSE;
//
// Definitions for Set SEL Time UTC Offset command
//
#define IPMI_STORAGE_SET_SEL_TIME_UTC_OFFSET 0x5D
//
// Constants and Structure definitions for "Set SEL Time UTC Offset" command to follow here
//
#define IPMI_COMPLETE_SEL_RECORD 0xFF
#define IPMI_SEL_SYSTEM_RECORD 0x02
#define IPMI_SEL_OEM_TIME_STAMP_RECORD_START 0xC0
#define IPMI_SEL_OEM_TIME_STAMP_RECORD_END 0xDF
#define IPMI_SEL_OEM_NO_TIME_STAMP_RECORD_START 0xE0
#define IPMI_SEL_OEM_NO_TIME_STAMP_RECORD_END 0xFF
#define IPMI_SEL_EVENT_DIR(EventDirType) (EventDirType >> 7)
#define IPMI_SEL_EVENT_DIR_ASSERTION_EVENT 0x00
#define IPMI_SEL_EVENT_DIR_DEASSERTION_EVENT 0x01
#define IPMI_SEL_EVENT_TYPE(EventDirType) (EventDirType & 0x7F)
//
// Event/Reading Type Code Ranges (Chapter 42)
//
#define IPMI_SEL_EVENT_TYPE_UNSPECIFIED 0x00
#define IPMI_SEL_EVENT_TYPE_THRESHOLD 0x01
#define IPMI_SEL_EVENT_TYPE_GENERIC_START 0x02
#define IPMI_SEL_EVENT_TYPE_GENERIC_END 0x0C
#define IPMI_SEL_EVENT_TYPE_SENSOR_SPECIFIC 0x6F
#define IPMI_SEL_EVENT_TYPE_OEM_START 0x70
#define IPMI_SEL_EVENT_TYPE_OEM_END 0x7F
#define SOFTWARE_ID_FROM_GENERATOR_ID(GeneratorId) ((GeneratorId & 0xFF) >> 1)
//
// System Software IDs definitions (Section 5.5)
//
#define IPMI_SWID_BIOS_RANGE_START 0x00
#define IPMI_SWID_BIOS_RANGE_END 0x0F
#define IPMI_SWID_SMI_HANDLER_RANGE_START 0x10
#define IPMI_SWID_SMI_HANDLER_RANGE_END 0x1F
#define IPMI_SWID_SMS_RANGE_START 0x20
#define IPMI_SWID_SMS_RANGE_END 0x2F
#define IPMI_SWID_OEM_RANGE_START 0x30
#define IPMI_SWID_OEM_RANGE_END 0x3F
#define IPMI_SWID_REMOTE_CONSOLE_RANGE_START 0x40
#define IPMI_SWID_REMOTE_CONSOLE_RANGE_END 0x46
#define IPMI_SWID_TERMINAL_REMOTE_CONSOLE_ID 0x47
#define SLAVE_ADDRESS_FROM_GENERATOR_ID(GeneratorId) ((GeneratorId & 0xFF) >> 1)
#define LUN_FROM_GENERATOR_ID(GeneratorId) ((GeneratorId >> 8) & 0x03)
#define CHANNEL_NUMBER_FROM_GENERATOR_ID(GeneratorId) ((GeneratorId >> 12) & 0x0F)
#define IPMI_EVM_REVISION 0x04
#define IPMI_BIOS_ID 0x18
#define IPMI_FORMAT_REV 0x00
#define IPMI_FORMAT_REV1 0x01
#define IPMI_SOFTWARE_ID 0x01
#define IPMI_PLATFORM_VAL_ID 0x01
#define IPMI_GENERATOR_ID(i,f) ((i << 1) | (f << 1) | IPMI_SOFTWARE_ID)
#define IPMI_SENSOR_TYPE_EVENT_CODE_DISCRETE 0x6F
#define IPMI_OEM_SPECIFIC_DATA 0x02
#define IPMI_SENSOR_SPECIFIC_DATA 0x03
#pragma pack()
#endif