/** @file Industry Standard Definitions of SMBIOS Table Specification v3.2.0. Copyright (c) 2006 - 2018, Intel Corporation. All rights reserved.
(C) Copyright 2015-2017 Hewlett Packard Enterprise Development LP
SPDX-License-Identifier: BSD-2-Clause-Patent **/ #ifndef __SMBIOS_STANDARD_H__ #define __SMBIOS_STANDARD_H__ /// /// Reference SMBIOS 2.6, chapter 3.1.2. /// For v2.1 and later, handle values in the range 0FF00h to 0FFFFh are reserved for /// use by this specification. /// #define SMBIOS_HANDLE_RESERVED_BEGIN 0xFF00 /// /// Reference SMBIOS 2.7, chapter 6.1.2. /// The UEFI Platform Initialization Specification reserves handle number FFFEh for its /// EFI_SMBIOS_PROTOCOL.Add() function to mean "assign an unused handle number automatically." /// This number is not used for any other purpose by the SMBIOS specification. /// #define SMBIOS_HANDLE_PI_RESERVED 0xFFFE /// /// Reference SMBIOS 2.6, chapter 3.1.3. /// Each text string is limited to 64 significant characters due to system MIF limitations. /// Reference SMBIOS 2.7, chapter 6.1.3. /// It will have no limit on the length of each individual text string. /// #define SMBIOS_STRING_MAX_LENGTH 64 // // The length of the entire structure table (including all strings) must be reported // in the Structure Table Length field of the SMBIOS Structure Table Entry Point, // which is a WORD field limited to 65,535 bytes. // #define SMBIOS_TABLE_MAX_LENGTH 0xFFFF // // For SMBIOS 3.0, Structure table maximum size in Entry Point structure is DWORD field limited to 0xFFFFFFFF bytes. // #define SMBIOS_3_0_TABLE_MAX_LENGTH 0xFFFFFFFF // // SMBIOS type macros which is according to SMBIOS 2.7 specification. // #define SMBIOS_TYPE_BIOS_INFORMATION 0 #define SMBIOS_TYPE_SYSTEM_INFORMATION 1 #define SMBIOS_TYPE_BASEBOARD_INFORMATION 2 #define SMBIOS_TYPE_SYSTEM_ENCLOSURE 3 #define SMBIOS_TYPE_PROCESSOR_INFORMATION 4 #define SMBIOS_TYPE_MEMORY_CONTROLLER_INFORMATION 5 #define SMBIOS_TYPE_MEMORY_MODULE_INFORMATON 6 #define SMBIOS_TYPE_CACHE_INFORMATION 7 #define SMBIOS_TYPE_PORT_CONNECTOR_INFORMATION 8 #define SMBIOS_TYPE_SYSTEM_SLOTS 9 #define SMBIOS_TYPE_ONBOARD_DEVICE_INFORMATION 10 #define SMBIOS_TYPE_OEM_STRINGS 11 #define SMBIOS_TYPE_SYSTEM_CONFIGURATION_OPTIONS 12 #define SMBIOS_TYPE_BIOS_LANGUAGE_INFORMATION 13 #define SMBIOS_TYPE_GROUP_ASSOCIATIONS 14 #define SMBIOS_TYPE_SYSTEM_EVENT_LOG 15 #define SMBIOS_TYPE_PHYSICAL_MEMORY_ARRAY 16 #define SMBIOS_TYPE_MEMORY_DEVICE 17 #define SMBIOS_TYPE_32BIT_MEMORY_ERROR_INFORMATION 18 #define SMBIOS_TYPE_MEMORY_ARRAY_MAPPED_ADDRESS 19 #define SMBIOS_TYPE_MEMORY_DEVICE_MAPPED_ADDRESS 20 #define SMBIOS_TYPE_BUILT_IN_POINTING_DEVICE 21 #define SMBIOS_TYPE_PORTABLE_BATTERY 22 #define SMBIOS_TYPE_SYSTEM_RESET 23 #define SMBIOS_TYPE_HARDWARE_SECURITY 24 #define SMBIOS_TYPE_SYSTEM_POWER_CONTROLS 25 #define SMBIOS_TYPE_VOLTAGE_PROBE 26 #define SMBIOS_TYPE_COOLING_DEVICE 27 #define SMBIOS_TYPE_TEMPERATURE_PROBE 28 #define SMBIOS_TYPE_ELECTRICAL_CURRENT_PROBE 29 #define SMBIOS_TYPE_OUT_OF_BAND_REMOTE_ACCESS 30 #define SMBIOS_TYPE_BOOT_INTEGRITY_SERVICE 31 #define SMBIOS_TYPE_SYSTEM_BOOT_INFORMATION 32 #define SMBIOS_TYPE_64BIT_MEMORY_ERROR_INFORMATION 33 #define SMBIOS_TYPE_MANAGEMENT_DEVICE 34 #define SMBIOS_TYPE_MANAGEMENT_DEVICE_COMPONENT 35 #define SMBIOS_TYPE_MANAGEMENT_DEVICE_THRESHOLD_DATA 36 #define SMBIOS_TYPE_MEMORY_CHANNEL 37 #define SMBIOS_TYPE_IPMI_DEVICE_INFORMATION 38 #define SMBIOS_TYPE_SYSTEM_POWER_SUPPLY 39 #define SMBIOS_TYPE_ADDITIONAL_INFORMATION 40 #define SMBIOS_TYPE_ONBOARD_DEVICES_EXTENDED_INFORMATION 41 #define SMBIOS_TYPE_MANAGEMENT_CONTROLLER_HOST_INTERFACE 42 #define SMBIOS_TYPE_TPM_DEVICE 43 #define SMBIOS_TYPE_PROCESSOR_ADDITIONAL_INFORMATION 44 /// /// Inactive type is added from SMBIOS 2.2. Reference SMBIOS 2.6, chapter 3.3.43. /// Upper-level software that interprets the SMBIOS structure-table should bypass an /// Inactive structure just like a structure type that the software does not recognize. /// #define SMBIOS_TYPE_INACTIVE 0x007E /// /// End-of-table type is added from SMBIOS 2.2. Reference SMBIOS 2.6, chapter 3.3.44. /// The end-of-table indicator is used in the last physical structure in a table /// #define SMBIOS_TYPE_END_OF_TABLE 0x007F #define SMBIOS_OEM_BEGIN 128 #define SMBIOS_OEM_END 255 /// /// Types 0 through 127 (7Fh) are reserved for and defined by this /// specification. Types 128 through 256 (80h to FFh) are available for system- and OEM-specific information. /// typedef UINT8 SMBIOS_TYPE; /// /// Specifies the structure's handle, a unique 16-bit number in the range 0 to 0FFFEh (for version /// 2.0) or 0 to 0FEFFh (for version 2.1 and later). The handle can be used with the Get SMBIOS /// Structure function to retrieve a specific structure; the handle numbers are not required to be /// contiguous. For v2.1 and later, handle values in the range 0FF00h to 0FFFFh are reserved for /// use by this specification. /// If the system configuration changes, a previously assigned handle might no longer exist. /// However once a handle has been assigned by the BIOS, the BIOS cannot re-assign that handle /// number to another structure. /// typedef UINT16 SMBIOS_HANDLE; /// /// Smbios Table Entry Point Structure. /// #pragma pack(1) typedef struct { UINT8 AnchorString[4]; UINT8 EntryPointStructureChecksum; UINT8 EntryPointLength; UINT8 MajorVersion; UINT8 MinorVersion; UINT16 MaxStructureSize; UINT8 EntryPointRevision; UINT8 FormattedArea[5]; UINT8 IntermediateAnchorString[5]; UINT8 IntermediateChecksum; UINT16 TableLength; UINT32 TableAddress; UINT16 NumberOfSmbiosStructures; UINT8 SmbiosBcdRevision; } SMBIOS_TABLE_ENTRY_POINT; typedef struct { UINT8 AnchorString[5]; UINT8 EntryPointStructureChecksum; UINT8 EntryPointLength; UINT8 MajorVersion; UINT8 MinorVersion; UINT8 DocRev; UINT8 EntryPointRevision; UINT8 Reserved; UINT32 TableMaximumSize; UINT64 TableAddress; } SMBIOS_TABLE_3_0_ENTRY_POINT; /// /// The Smbios structure header. /// typedef struct { SMBIOS_TYPE Type; UINT8 Length; SMBIOS_HANDLE Handle; } SMBIOS_STRUCTURE; /// /// Text strings associated with a given SMBIOS structure are returned in the dmiStrucBuffer, appended directly after /// the formatted portion of the structure. This method of returning string information eliminates the need for /// application software to deal with pointers embedded in the SMBIOS structure. Each string is terminated with a null /// (00h) BYTE and the set of strings is terminated with an additional null (00h) BYTE. When the formatted portion of /// a SMBIOS structure references a string, it does so by specifying a non-zero string number within the structure's /// string-set. For example, if a string field contains 02h, it references the second string following the formatted portion /// of the SMBIOS structure. If a string field references no string, a null (0) is placed in that string field. If the /// formatted portion of the structure contains string-reference fields and all the string fields are set to 0 (no string /// references), the formatted section of the structure is followed by two null (00h) BYTES. /// typedef UINT8 SMBIOS_TABLE_STRING; /// /// BIOS Characteristics /// Defines which functions the BIOS supports. PCI, PCMCIA, Flash, etc. /// typedef struct { UINT32 Reserved :2; ///< Bits 0-1. UINT32 Unknown :1; UINT32 BiosCharacteristicsNotSupported :1; UINT32 IsaIsSupported :1; UINT32 McaIsSupported :1; UINT32 EisaIsSupported :1; UINT32 PciIsSupported :1; UINT32 PcmciaIsSupported :1; UINT32 PlugAndPlayIsSupported :1; UINT32 ApmIsSupported :1; UINT32 BiosIsUpgradable :1; UINT32 BiosShadowingAllowed :1; UINT32 VlVesaIsSupported :1; UINT32 EscdSupportIsAvailable :1; UINT32 BootFromCdIsSupported :1; UINT32 SelectableBootIsSupported :1; UINT32 RomBiosIsSocketed :1; UINT32 BootFromPcmciaIsSupported :1; UINT32 EDDSpecificationIsSupported :1; UINT32 JapaneseNecFloppyIsSupported :1; UINT32 JapaneseToshibaFloppyIsSupported :1; UINT32 Floppy525_360IsSupported :1; UINT32 Floppy525_12IsSupported :1; UINT32 Floppy35_720IsSupported :1; UINT32 Floppy35_288IsSupported :1; UINT32 PrintScreenIsSupported :1; UINT32 Keyboard8042IsSupported :1; UINT32 SerialIsSupported :1; UINT32 PrinterIsSupported :1; UINT32 CgaMonoIsSupported :1; UINT32 NecPc98 :1; UINT32 ReservedForVendor :32; ///< Bits 32-63. Bits 32-47 reserved for BIOS vendor ///< and bits 48-63 reserved for System Vendor. } MISC_BIOS_CHARACTERISTICS; /// /// BIOS Characteristics Extension Byte 1. /// This information, available for SMBIOS version 2.1 and later, appears at offset 12h /// within the BIOS Information structure. /// typedef struct { UINT8 AcpiIsSupported :1; UINT8 UsbLegacyIsSupported :1; UINT8 AgpIsSupported :1; UINT8 I2OBootIsSupported :1; UINT8 Ls120BootIsSupported :1; UINT8 AtapiZipDriveBootIsSupported :1; UINT8 Boot1394IsSupported :1; UINT8 SmartBatteryIsSupported :1; } MBCE_BIOS_RESERVED; /// /// BIOS Characteristics Extension Byte 2. /// This information, available for SMBIOS version 2.3 and later, appears at offset 13h /// within the BIOS Information structure. /// typedef struct { UINT8 BiosBootSpecIsSupported :1; UINT8 FunctionKeyNetworkBootIsSupported :1; UINT8 TargetContentDistributionEnabled :1; UINT8 UefiSpecificationSupported :1; UINT8 VirtualMachineSupported :1; UINT8 ExtensionByte2Reserved :3; } MBCE_SYSTEM_RESERVED; /// /// BIOS Characteristics Extension Bytes. /// typedef struct { MBCE_BIOS_RESERVED BiosReserved; MBCE_SYSTEM_RESERVED SystemReserved; } MISC_BIOS_CHARACTERISTICS_EXTENSION; /// /// Extended BIOS ROM size. /// typedef struct { UINT16 Size :14; UINT16 Unit :2; } EXTENDED_BIOS_ROM_SIZE; /// /// BIOS Information (Type 0). /// typedef struct { SMBIOS_STRUCTURE Hdr; SMBIOS_TABLE_STRING Vendor; SMBIOS_TABLE_STRING BiosVersion; UINT16 BiosSegment; SMBIOS_TABLE_STRING BiosReleaseDate; UINT8 BiosSize; MISC_BIOS_CHARACTERISTICS BiosCharacteristics; UINT8 BIOSCharacteristicsExtensionBytes[2]; UINT8 SystemBiosMajorRelease; UINT8 SystemBiosMinorRelease; UINT8 EmbeddedControllerFirmwareMajorRelease; UINT8 EmbeddedControllerFirmwareMinorRelease; // // Add for smbios 3.1.0 // EXTENDED_BIOS_ROM_SIZE ExtendedBiosSize; } SMBIOS_TABLE_TYPE0; /// /// System Wake-up Type. /// typedef enum { SystemWakeupTypeReserved = 0x00, SystemWakeupTypeOther = 0x01, SystemWakeupTypeUnknown = 0x02, SystemWakeupTypeApmTimer = 0x03, SystemWakeupTypeModemRing = 0x04, SystemWakeupTypeLanRemote = 0x05, SystemWakeupTypePowerSwitch = 0x06, SystemWakeupTypePciPme = 0x07, SystemWakeupTypeAcPowerRestored = 0x08 } MISC_SYSTEM_WAKEUP_TYPE; /// /// System Information (Type 1). /// /// The information in this structure defines attributes of the overall system and is /// intended to be associated with the Component ID group of the system's MIF. /// An SMBIOS implementation is associated with a single system instance and contains /// one and only one System Information (Type 1) structure. /// typedef struct { SMBIOS_STRUCTURE Hdr; SMBIOS_TABLE_STRING Manufacturer; SMBIOS_TABLE_STRING ProductName; SMBIOS_TABLE_STRING Version; SMBIOS_TABLE_STRING SerialNumber; GUID Uuid; UINT8 WakeUpType; ///< The enumeration value from MISC_SYSTEM_WAKEUP_TYPE. SMBIOS_TABLE_STRING SKUNumber; SMBIOS_TABLE_STRING Family; } SMBIOS_TABLE_TYPE1; /// /// Base Board - Feature Flags. /// typedef struct { UINT8 Motherboard :1; UINT8 RequiresDaughterCard :1; UINT8 Removable :1; UINT8 Replaceable :1; UINT8 HotSwappable :1; UINT8 Reserved :3; } BASE_BOARD_FEATURE_FLAGS; /// /// Base Board - Board Type. /// typedef enum { BaseBoardTypeUnknown = 0x1, BaseBoardTypeOther = 0x2, BaseBoardTypeServerBlade = 0x3, BaseBoardTypeConnectivitySwitch = 0x4, BaseBoardTypeSystemManagementModule = 0x5, BaseBoardTypeProcessorModule = 0x6, BaseBoardTypeIOModule = 0x7, BaseBoardTypeMemoryModule = 0x8, BaseBoardTypeDaughterBoard = 0x9, BaseBoardTypeMotherBoard = 0xA, BaseBoardTypeProcessorMemoryModule = 0xB, BaseBoardTypeProcessorIOModule = 0xC, BaseBoardTypeInterconnectBoard = 0xD } BASE_BOARD_TYPE; /// /// Base Board (or Module) Information (Type 2). /// /// The information in this structure defines attributes of a system baseboard - /// for example a motherboard, planar, or server blade or other standard system module. /// typedef struct { SMBIOS_STRUCTURE Hdr; SMBIOS_TABLE_STRING Manufacturer; SMBIOS_TABLE_STRING ProductName; SMBIOS_TABLE_STRING Version; SMBIOS_TABLE_STRING SerialNumber; SMBIOS_TABLE_STRING AssetTag; BASE_BOARD_FEATURE_FLAGS FeatureFlag; SMBIOS_TABLE_STRING LocationInChassis; UINT16 ChassisHandle; UINT8 BoardType; ///< The enumeration value from BASE_BOARD_TYPE. UINT8 NumberOfContainedObjectHandles; UINT16 ContainedObjectHandles[1]; } SMBIOS_TABLE_TYPE2; /// /// System Enclosure or Chassis Types /// typedef enum { MiscChassisTypeOther = 0x01, MiscChassisTypeUnknown = 0x02, MiscChassisTypeDeskTop = 0x03, MiscChassisTypeLowProfileDesktop = 0x04, MiscChassisTypePizzaBox = 0x05, MiscChassisTypeMiniTower = 0x06, MiscChassisTypeTower = 0x07, MiscChassisTypePortable = 0x08, MiscChassisTypeLapTop = 0x09, MiscChassisTypeNotebook = 0x0A, MiscChassisTypeHandHeld = 0x0B, MiscChassisTypeDockingStation = 0x0C, MiscChassisTypeAllInOne = 0x0D, MiscChassisTypeSubNotebook = 0x0E, MiscChassisTypeSpaceSaving = 0x0F, MiscChassisTypeLunchBox = 0x10, MiscChassisTypeMainServerChassis = 0x11, MiscChassisTypeExpansionChassis = 0x12, MiscChassisTypeSubChassis = 0x13, MiscChassisTypeBusExpansionChassis = 0x14, MiscChassisTypePeripheralChassis = 0x15, MiscChassisTypeRaidChassis = 0x16, MiscChassisTypeRackMountChassis = 0x17, MiscChassisTypeSealedCasePc = 0x18, MiscChassisMultiSystemChassis = 0x19, MiscChassisCompactPCI = 0x1A, MiscChassisAdvancedTCA = 0x1B, MiscChassisBlade = 0x1C, MiscChassisBladeEnclosure = 0x1D, MiscChassisTablet = 0x1E, MiscChassisConvertible = 0x1F, MiscChassisDetachable = 0x20, MiscChassisIoTGateway = 0x21, MiscChassisEmbeddedPc = 0x22, MiscChassisMiniPc = 0x23, MiscChassisStickPc = 0x24 } MISC_CHASSIS_TYPE; /// /// System Enclosure or Chassis States . /// typedef enum { ChassisStateOther = 0x01, ChassisStateUnknown = 0x02, ChassisStateSafe = 0x03, ChassisStateWarning = 0x04, ChassisStateCritical = 0x05, ChassisStateNonRecoverable = 0x06 } MISC_CHASSIS_STATE; /// /// System Enclosure or Chassis Security Status. /// typedef enum { ChassisSecurityStatusOther = 0x01, ChassisSecurityStatusUnknown = 0x02, ChassisSecurityStatusNone = 0x03, ChassisSecurityStatusExternalInterfaceLockedOut = 0x04, ChassisSecurityStatusExternalInterfaceLockedEnabled = 0x05 } MISC_CHASSIS_SECURITY_STATE; /// /// Contained Element record /// typedef struct { UINT8 ContainedElementType; UINT8 ContainedElementMinimum; UINT8 ContainedElementMaximum; } CONTAINED_ELEMENT; /// /// System Enclosure or Chassis (Type 3). /// /// The information in this structure defines attributes of the system's mechanical enclosure(s). /// For example, if a system included a separate enclosure for its peripheral devices, /// two structures would be returned: one for the main, system enclosure and the second for /// the peripheral device enclosure. The additions to this structure in v2.1 of this specification /// support the population of the CIM_Chassis class. /// typedef struct { SMBIOS_STRUCTURE Hdr; SMBIOS_TABLE_STRING Manufacturer; UINT8 Type; SMBIOS_TABLE_STRING Version; SMBIOS_TABLE_STRING SerialNumber; SMBIOS_TABLE_STRING AssetTag; UINT8 BootupState; ///< The enumeration value from MISC_CHASSIS_STATE. UINT8 PowerSupplyState; ///< The enumeration value from MISC_CHASSIS_STATE. UINT8 ThermalState; ///< The enumeration value from MISC_CHASSIS_STATE. UINT8 SecurityStatus; ///< The enumeration value from MISC_CHASSIS_SECURITY_STATE. UINT8 OemDefined[4]; UINT8 Height; UINT8 NumberofPowerCords; UINT8 ContainedElementCount; UINT8 ContainedElementRecordLength; // // Can have 0 to (ContainedElementCount * ContainedElementRecordLength) contained elements // CONTAINED_ELEMENT ContainedElements[1]; // // Add for smbios 2.7 // // Since ContainedElements has a variable number of entries, must not define SKUNumber in // the structure. Need to reference it by starting at offset 0x15 and adding // (ContainedElementCount * ContainedElementRecordLength) bytes. // // SMBIOS_TABLE_STRING SKUNumber; } SMBIOS_TABLE_TYPE3; /// /// Processor Information - Processor Type. /// typedef enum { ProcessorOther = 0x01, ProcessorUnknown = 0x02, CentralProcessor = 0x03, MathProcessor = 0x04, DspProcessor = 0x05, VideoProcessor = 0x06 } PROCESSOR_TYPE_DATA; /// /// Processor Information - Processor Family. /// typedef enum { ProcessorFamilyOther = 0x01, ProcessorFamilyUnknown = 0x02, ProcessorFamily8086 = 0x03, ProcessorFamily80286 = 0x04, ProcessorFamilyIntel386 = 0x05, ProcessorFamilyIntel486 = 0x06, ProcessorFamily8087 = 0x07, ProcessorFamily80287 = 0x08, ProcessorFamily80387 = 0x09, ProcessorFamily80487 = 0x0A, ProcessorFamilyPentium = 0x0B, ProcessorFamilyPentiumPro = 0x0C, ProcessorFamilyPentiumII = 0x0D, ProcessorFamilyPentiumMMX = 0x0E, ProcessorFamilyCeleron = 0x0F, ProcessorFamilyPentiumIIXeon = 0x10, ProcessorFamilyPentiumIII = 0x11, ProcessorFamilyM1 = 0x12, ProcessorFamilyM2 = 0x13, ProcessorFamilyIntelCeleronM = 0x14, ProcessorFamilyIntelPentium4Ht = 0x15, ProcessorFamilyAmdDuron = 0x18, ProcessorFamilyK5 = 0x19, ProcessorFamilyK6 = 0x1A, ProcessorFamilyK6_2 = 0x1B, ProcessorFamilyK6_3 = 0x1C, ProcessorFamilyAmdAthlon = 0x1D, ProcessorFamilyAmd29000 = 0x1E, ProcessorFamilyK6_2Plus = 0x1F, ProcessorFamilyPowerPC = 0x20, ProcessorFamilyPowerPC601 = 0x21, ProcessorFamilyPowerPC603 = 0x22, ProcessorFamilyPowerPC603Plus = 0x23, ProcessorFamilyPowerPC604 = 0x24, ProcessorFamilyPowerPC620 = 0x25, ProcessorFamilyPowerPCx704 = 0x26, ProcessorFamilyPowerPC750 = 0x27, ProcessorFamilyIntelCoreDuo = 0x28, ProcessorFamilyIntelCoreDuoMobile = 0x29, ProcessorFamilyIntelCoreSoloMobile = 0x2A, ProcessorFamilyIntelAtom = 0x2B, ProcessorFamilyIntelCoreM = 0x2C, ProcessorFamilyIntelCorem3 = 0x2D, ProcessorFamilyIntelCorem5 = 0x2E, ProcessorFamilyIntelCorem7 = 0x2F, ProcessorFamilyAlpha = 0x30, ProcessorFamilyAlpha21064 = 0x31, ProcessorFamilyAlpha21066 = 0x32, ProcessorFamilyAlpha21164 = 0x33, ProcessorFamilyAlpha21164PC = 0x34, ProcessorFamilyAlpha21164a = 0x35, ProcessorFamilyAlpha21264 = 0x36, ProcessorFamilyAlpha21364 = 0x37, ProcessorFamilyAmdTurionIIUltraDualCoreMobileM = 0x38, ProcessorFamilyAmdTurionIIDualCoreMobileM = 0x39, ProcessorFamilyAmdAthlonIIDualCoreM = 0x3A, ProcessorFamilyAmdOpteron6100Series = 0x3B, ProcessorFamilyAmdOpteron4100Series = 0x3C, ProcessorFamilyAmdOpteron6200Series = 0x3D, ProcessorFamilyAmdOpteron4200Series = 0x3E, ProcessorFamilyAmdFxSeries = 0x3F, ProcessorFamilyMips = 0x40, ProcessorFamilyMIPSR4000 = 0x41, ProcessorFamilyMIPSR4200 = 0x42, ProcessorFamilyMIPSR4400 = 0x43, ProcessorFamilyMIPSR4600 = 0x44, ProcessorFamilyMIPSR10000 = 0x45, ProcessorFamilyAmdCSeries = 0x46, ProcessorFamilyAmdESeries = 0x47, ProcessorFamilyAmdASeries = 0x48, ///< SMBIOS spec 2.8.0 updated the name ProcessorFamilyAmdGSeries = 0x49, ProcessorFamilyAmdZSeries = 0x4A, ProcessorFamilyAmdRSeries = 0x4B, ProcessorFamilyAmdOpteron4300 = 0x4C, ProcessorFamilyAmdOpteron6300 = 0x4D, ProcessorFamilyAmdOpteron3300 = 0x4E, ProcessorFamilyAmdFireProSeries = 0x4F, ProcessorFamilySparc = 0x50, ProcessorFamilySuperSparc = 0x51, ProcessorFamilymicroSparcII = 0x52, ProcessorFamilymicroSparcIIep = 0x53, ProcessorFamilyUltraSparc = 0x54, ProcessorFamilyUltraSparcII = 0x55, ProcessorFamilyUltraSparcIii = 0x56, ProcessorFamilyUltraSparcIII = 0x57, ProcessorFamilyUltraSparcIIIi = 0x58, ProcessorFamily68040 = 0x60, ProcessorFamily68xxx = 0x61, ProcessorFamily68000 = 0x62, ProcessorFamily68010 = 0x63, ProcessorFamily68020 = 0x64, ProcessorFamily68030 = 0x65, ProcessorFamilyAmdAthlonX4QuadCore = 0x66, ProcessorFamilyAmdOpteronX1000Series = 0x67, ProcessorFamilyAmdOpteronX2000Series = 0x68, ProcessorFamilyAmdOpteronASeries = 0x69, ProcessorFamilyAmdOpteronX3000Series = 0x6A, ProcessorFamilyAmdZen = 0x6B, ProcessorFamilyHobbit = 0x70, ProcessorFamilyCrusoeTM5000 = 0x78, ProcessorFamilyCrusoeTM3000 = 0x79, ProcessorFamilyEfficeonTM8000 = 0x7A, ProcessorFamilyWeitek = 0x80, ProcessorFamilyItanium = 0x82, ProcessorFamilyAmdAthlon64 = 0x83, ProcessorFamilyAmdOpteron = 0x84, ProcessorFamilyAmdSempron = 0x85, ProcessorFamilyAmdTurion64Mobile = 0x86, ProcessorFamilyDualCoreAmdOpteron = 0x87, ProcessorFamilyAmdAthlon64X2DualCore = 0x88, ProcessorFamilyAmdTurion64X2Mobile = 0x89, ProcessorFamilyQuadCoreAmdOpteron = 0x8A, ProcessorFamilyThirdGenerationAmdOpteron = 0x8B, ProcessorFamilyAmdPhenomFxQuadCore = 0x8C, ProcessorFamilyAmdPhenomX4QuadCore = 0x8D, ProcessorFamilyAmdPhenomX2DualCore = 0x8E, ProcessorFamilyAmdAthlonX2DualCore = 0x8F, ProcessorFamilyPARISC = 0x90, ProcessorFamilyPaRisc8500 = 0x91, ProcessorFamilyPaRisc8000 = 0x92, ProcessorFamilyPaRisc7300LC = 0x93, ProcessorFamilyPaRisc7200 = 0x94, ProcessorFamilyPaRisc7100LC = 0x95, ProcessorFamilyPaRisc7100 = 0x96, ProcessorFamilyV30 = 0xA0, ProcessorFamilyQuadCoreIntelXeon3200Series = 0xA1, ProcessorFamilyDualCoreIntelXeon3000Series = 0xA2, ProcessorFamilyQuadCoreIntelXeon5300Series = 0xA3, ProcessorFamilyDualCoreIntelXeon5100Series = 0xA4, ProcessorFamilyDualCoreIntelXeon5000Series = 0xA5, ProcessorFamilyDualCoreIntelXeonLV = 0xA6, ProcessorFamilyDualCoreIntelXeonULV = 0xA7, ProcessorFamilyDualCoreIntelXeon7100Series = 0xA8, ProcessorFamilyQuadCoreIntelXeon5400Series = 0xA9, ProcessorFamilyQuadCoreIntelXeon = 0xAA, ProcessorFamilyDualCoreIntelXeon5200Series = 0xAB, ProcessorFamilyDualCoreIntelXeon7200Series = 0xAC, ProcessorFamilyQuadCoreIntelXeon7300Series = 0xAD, ProcessorFamilyQuadCoreIntelXeon7400Series = 0xAE, ProcessorFamilyMultiCoreIntelXeon7400Series = 0xAF, ProcessorFamilyPentiumIIIXeon = 0xB0, ProcessorFamilyPentiumIIISpeedStep = 0xB1, ProcessorFamilyPentium4 = 0xB2, ProcessorFamilyIntelXeon = 0xB3, ProcessorFamilyAS400 = 0xB4, ProcessorFamilyIntelXeonMP = 0xB5, ProcessorFamilyAMDAthlonXP = 0xB6, ProcessorFamilyAMDAthlonMP = 0xB7, ProcessorFamilyIntelItanium2 = 0xB8, ProcessorFamilyIntelPentiumM = 0xB9, ProcessorFamilyIntelCeleronD = 0xBA, ProcessorFamilyIntelPentiumD = 0xBB, ProcessorFamilyIntelPentiumEx = 0xBC, ProcessorFamilyIntelCoreSolo = 0xBD, ///< SMBIOS spec 2.6 updated this value ProcessorFamilyReserved = 0xBE, ProcessorFamilyIntelCore2 = 0xBF, ProcessorFamilyIntelCore2Solo = 0xC0, ProcessorFamilyIntelCore2Extreme = 0xC1, ProcessorFamilyIntelCore2Quad = 0xC2, ProcessorFamilyIntelCore2ExtremeMobile = 0xC3, ProcessorFamilyIntelCore2DuoMobile = 0xC4, ProcessorFamilyIntelCore2SoloMobile = 0xC5, ProcessorFamilyIntelCoreI7 = 0xC6, ProcessorFamilyDualCoreIntelCeleron = 0xC7, ProcessorFamilyIBM390 = 0xC8, ProcessorFamilyG4 = 0xC9, ProcessorFamilyG5 = 0xCA, ProcessorFamilyG6 = 0xCB, ProcessorFamilyzArchitecture = 0xCC, ProcessorFamilyIntelCoreI5 = 0xCD, ProcessorFamilyIntelCoreI3 = 0xCE, ProcessorFamilyIntelCoreI9 = 0xCF, ProcessorFamilyViaC7M = 0xD2, ProcessorFamilyViaC7D = 0xD3, ProcessorFamilyViaC7 = 0xD4, ProcessorFamilyViaEden = 0xD5, ProcessorFamilyMultiCoreIntelXeon = 0xD6, ProcessorFamilyDualCoreIntelXeon3Series = 0xD7, ProcessorFamilyQuadCoreIntelXeon3Series = 0xD8, ProcessorFamilyViaNano = 0xD9, ProcessorFamilyDualCoreIntelXeon5Series = 0xDA, ProcessorFamilyQuadCoreIntelXeon5Series = 0xDB, ProcessorFamilyDualCoreIntelXeon7Series = 0xDD, ProcessorFamilyQuadCoreIntelXeon7Series = 0xDE, ProcessorFamilyMultiCoreIntelXeon7Series = 0xDF, ProcessorFamilyMultiCoreIntelXeon3400Series = 0xE0, ProcessorFamilyAmdOpteron3000Series = 0xE4, ProcessorFamilyAmdSempronII = 0xE5, ProcessorFamilyEmbeddedAmdOpteronQuadCore = 0xE6, ProcessorFamilyAmdPhenomTripleCore = 0xE7, ProcessorFamilyAmdTurionUltraDualCoreMobile = 0xE8, ProcessorFamilyAmdTurionDualCoreMobile = 0xE9, ProcessorFamilyAmdAthlonDualCore = 0xEA, ProcessorFamilyAmdSempronSI = 0xEB, ProcessorFamilyAmdPhenomII = 0xEC, ProcessorFamilyAmdAthlonII = 0xED, ProcessorFamilySixCoreAmdOpteron = 0xEE, ProcessorFamilyAmdSempronM = 0xEF, ProcessorFamilyi860 = 0xFA, ProcessorFamilyi960 = 0xFB, ProcessorFamilyIndicatorFamily2 = 0xFE, ProcessorFamilyReserved1 = 0xFF } PROCESSOR_FAMILY_DATA; /// /// Processor Information2 - Processor Family2. /// typedef enum { ProcessorFamilyARMv7 = 0x0100, ProcessorFamilyARMv8 = 0x0101, ProcessorFamilySH3 = 0x0104, ProcessorFamilySH4 = 0x0105, ProcessorFamilyARM = 0x0118, ProcessorFamilyStrongARM = 0x0119, ProcessorFamily6x86 = 0x012C, ProcessorFamilyMediaGX = 0x012D, ProcessorFamilyMII = 0x012E, ProcessorFamilyWinChip = 0x0140, ProcessorFamilyDSP = 0x015E, ProcessorFamilyVideoProcessor = 0x01F4, ProcessorFamilyRiscvRV32 = 0x0200, ProcessorFamilyRiscVRV64 = 0x0201, ProcessorFamilyRiscVRV128 = 0x0202 } PROCESSOR_FAMILY2_DATA; /// /// Processor Information - Voltage. /// typedef struct { UINT8 ProcessorVoltageCapability5V :1; UINT8 ProcessorVoltageCapability3_3V :1; UINT8 ProcessorVoltageCapability2_9V :1; UINT8 ProcessorVoltageCapabilityReserved :1; ///< Bit 3, must be zero. UINT8 ProcessorVoltageReserved :3; ///< Bits 4-6, must be zero. UINT8 ProcessorVoltageIndicateLegacy :1; } PROCESSOR_VOLTAGE; /// /// Processor Information - Processor Upgrade. /// typedef enum { ProcessorUpgradeOther = 0x01, ProcessorUpgradeUnknown = 0x02, ProcessorUpgradeDaughterBoard = 0x03, ProcessorUpgradeZIFSocket = 0x04, ProcessorUpgradePiggyBack = 0x05, ///< Replaceable. ProcessorUpgradeNone = 0x06, ProcessorUpgradeLIFSocket = 0x07, ProcessorUpgradeSlot1 = 0x08, ProcessorUpgradeSlot2 = 0x09, ProcessorUpgrade370PinSocket = 0x0A, ProcessorUpgradeSlotA = 0x0B, ProcessorUpgradeSlotM = 0x0C, ProcessorUpgradeSocket423 = 0x0D, ProcessorUpgradeSocketA = 0x0E, ///< Socket 462. ProcessorUpgradeSocket478 = 0x0F, ProcessorUpgradeSocket754 = 0x10, ProcessorUpgradeSocket940 = 0x11, ProcessorUpgradeSocket939 = 0x12, ProcessorUpgradeSocketmPGA604 = 0x13, ProcessorUpgradeSocketLGA771 = 0x14, ProcessorUpgradeSocketLGA775 = 0x15, ProcessorUpgradeSocketS1 = 0x16, ProcessorUpgradeAM2 = 0x17, ProcessorUpgradeF1207 = 0x18, ProcessorSocketLGA1366 = 0x19, ProcessorUpgradeSocketG34 = 0x1A, ProcessorUpgradeSocketAM3 = 0x1B, ProcessorUpgradeSocketC32 = 0x1C, ProcessorUpgradeSocketLGA1156 = 0x1D, ProcessorUpgradeSocketLGA1567 = 0x1E, ProcessorUpgradeSocketPGA988A = 0x1F, ProcessorUpgradeSocketBGA1288 = 0x20, ProcessorUpgradeSocketrPGA988B = 0x21, ProcessorUpgradeSocketBGA1023 = 0x22, ProcessorUpgradeSocketBGA1224 = 0x23, ProcessorUpgradeSocketLGA1155 = 0x24, ///< SMBIOS spec 2.8.0 updated the name ProcessorUpgradeSocketLGA1356 = 0x25, ProcessorUpgradeSocketLGA2011 = 0x26, ProcessorUpgradeSocketFS1 = 0x27, ProcessorUpgradeSocketFS2 = 0x28, ProcessorUpgradeSocketFM1 = 0x29, ProcessorUpgradeSocketFM2 = 0x2A, ProcessorUpgradeSocketLGA2011_3 = 0x2B, ProcessorUpgradeSocketLGA1356_3 = 0x2C, ProcessorUpgradeSocketLGA1150 = 0x2D, ProcessorUpgradeSocketBGA1168 = 0x2E, ProcessorUpgradeSocketBGA1234 = 0x2F, ProcessorUpgradeSocketBGA1364 = 0x30, ProcessorUpgradeSocketAM4 = 0x31, ProcessorUpgradeSocketLGA1151 = 0x32, ProcessorUpgradeSocketBGA1356 = 0x33, ProcessorUpgradeSocketBGA1440 = 0x34, ProcessorUpgradeSocketBGA1515 = 0x35, ProcessorUpgradeSocketLGA3647_1 = 0x36, ProcessorUpgradeSocketSP3 = 0x37, ProcessorUpgradeSocketSP3r2 = 0x38, ProcessorUpgradeSocketLGA2066 = 0x39, ProcessorUpgradeSocketBGA1392 = 0x3A, ProcessorUpgradeSocketBGA1510 = 0x3B, ProcessorUpgradeSocketBGA1528 = 0x3C } PROCESSOR_UPGRADE; /// /// Processor ID Field Description /// typedef struct { UINT32 ProcessorSteppingId:4; UINT32 ProcessorModel: 4; UINT32 ProcessorFamily: 4; UINT32 ProcessorType: 2; UINT32 ProcessorReserved1: 2; UINT32 ProcessorXModel: 4; UINT32 ProcessorXFamily: 8; UINT32 ProcessorReserved2: 4; } PROCESSOR_SIGNATURE; typedef struct { UINT32 ProcessorFpu :1; UINT32 ProcessorVme :1; UINT32 ProcessorDe :1; UINT32 ProcessorPse :1; UINT32 ProcessorTsc :1; UINT32 ProcessorMsr :1; UINT32 ProcessorPae :1; UINT32 ProcessorMce :1; UINT32 ProcessorCx8 :1; UINT32 ProcessorApic :1; UINT32 ProcessorReserved1 :1; UINT32 ProcessorSep :1; UINT32 ProcessorMtrr :1; UINT32 ProcessorPge :1; UINT32 ProcessorMca :1; UINT32 ProcessorCmov :1; UINT32 ProcessorPat :1; UINT32 ProcessorPse36 :1; UINT32 ProcessorPsn :1; UINT32 ProcessorClfsh :1; UINT32 ProcessorReserved2 :1; UINT32 ProcessorDs :1; UINT32 ProcessorAcpi :1; UINT32 ProcessorMmx :1; UINT32 ProcessorFxsr :1; UINT32 ProcessorSse :1; UINT32 ProcessorSse2 :1; UINT32 ProcessorSs :1; UINT32 ProcessorReserved3 :1; UINT32 ProcessorTm :1; UINT32 ProcessorReserved4 :2; } PROCESSOR_FEATURE_FLAGS; typedef struct { UINT16 ProcessorReserved1 :1; UINT16 ProcessorUnknown :1; UINT16 Processor64BitCapable :1; UINT16 ProcessorMultiCore :1; UINT16 ProcessorHardwareThread :1; UINT16 ProcessorExecuteProtection :1; UINT16 ProcessorEnhancedVirtualization :1; UINT16 ProcessorPowerPerformanceCtrl :1; UINT16 Processor128BitCapable :1; UINT16 ProcessorArm64SocId :1; UINT16 ProcessorReserved2 :6; } PROCESSOR_CHARACTERISTIC_FLAGS; /// /// Processor Information - Status /// typedef union { struct { UINT8 CpuStatus :3; ///< Indicates the status of the processor. UINT8 Reserved1 :3; ///< Reserved for future use. Must be set to zero. UINT8 SocketPopulated :1; ///< Indicates if the processor socket is populated or not. UINT8 Reserved2 :1; ///< Reserved for future use. Must be set to zero. } Bits; UINT8 Data; } PROCESSOR_STATUS_DATA; typedef struct { PROCESSOR_SIGNATURE Signature; PROCESSOR_FEATURE_FLAGS FeatureFlags; } PROCESSOR_ID_DATA; /// /// Processor Information (Type 4). /// /// The information in this structure defines the attributes of a single processor; /// a separate structure instance is provided for each system processor socket/slot. /// For example, a system with an IntelDX2 processor would have a single /// structure instance, while a system with an IntelSX2 processor would have a structure /// to describe the main CPU, and a second structure to describe the 80487 co-processor. /// typedef struct { SMBIOS_STRUCTURE Hdr; SMBIOS_TABLE_STRING Socket; UINT8 ProcessorType; ///< The enumeration value from PROCESSOR_TYPE_DATA. UINT8 ProcessorFamily; ///< The enumeration value from PROCESSOR_FAMILY_DATA. SMBIOS_TABLE_STRING ProcessorManufacturer; PROCESSOR_ID_DATA ProcessorId; SMBIOS_TABLE_STRING ProcessorVersion; PROCESSOR_VOLTAGE Voltage; UINT16 ExternalClock; UINT16 MaxSpeed; UINT16 CurrentSpeed; UINT8 Status; UINT8 ProcessorUpgrade; ///< The enumeration value from PROCESSOR_UPGRADE. UINT16 L1CacheHandle; UINT16 L2CacheHandle; UINT16 L3CacheHandle; SMBIOS_TABLE_STRING SerialNumber; SMBIOS_TABLE_STRING AssetTag; SMBIOS_TABLE_STRING PartNumber; // // Add for smbios 2.5 // UINT8 CoreCount; UINT8 EnabledCoreCount; UINT8 ThreadCount; UINT16 ProcessorCharacteristics; // // Add for smbios 2.6 // UINT16 ProcessorFamily2; // // Add for smbios 3.0 // UINT16 CoreCount2; UINT16 EnabledCoreCount2; UINT16 ThreadCount2; } SMBIOS_TABLE_TYPE4; /// /// Memory Controller Error Detecting Method. /// typedef enum { ErrorDetectingMethodOther = 0x01, ErrorDetectingMethodUnknown = 0x02, ErrorDetectingMethodNone = 0x03, ErrorDetectingMethodParity = 0x04, ErrorDetectingMethod32Ecc = 0x05, ErrorDetectingMethod64Ecc = 0x06, ErrorDetectingMethod128Ecc = 0x07, ErrorDetectingMethodCrc = 0x08 } MEMORY_ERROR_DETECT_METHOD; /// /// Memory Controller Error Correcting Capability. /// typedef struct { UINT8 Other :1; UINT8 Unknown :1; UINT8 None :1; UINT8 SingleBitErrorCorrect :1; UINT8 DoubleBitErrorCorrect :1; UINT8 ErrorScrubbing :1; UINT8 Reserved :2; } MEMORY_ERROR_CORRECT_CAPABILITY; /// /// Memory Controller Information - Interleave Support. /// typedef enum { MemoryInterleaveOther = 0x01, MemoryInterleaveUnknown = 0x02, MemoryInterleaveOneWay = 0x03, MemoryInterleaveTwoWay = 0x04, MemoryInterleaveFourWay = 0x05, MemoryInterleaveEightWay = 0x06, MemoryInterleaveSixteenWay = 0x07 } MEMORY_SUPPORT_INTERLEAVE_TYPE; /// /// Memory Controller Information - Memory Speeds. /// typedef struct { UINT16 Other :1; UINT16 Unknown :1; UINT16 SeventyNs:1; UINT16 SixtyNs :1; UINT16 FiftyNs :1; UINT16 Reserved :11; } MEMORY_SPEED_TYPE; /// /// Memory Controller Information (Type 5, Obsolete). /// /// The information in this structure defines the attributes of the system's memory controller(s) /// and the supported attributes of any memory-modules present in the sockets controlled by /// this controller. /// Note: This structure, and its companion Memory Module Information (Type 6, Obsolete), /// are obsolete starting with version 2.1 of this specification. The Physical Memory Array (Type 16) /// and Memory Device (Type 17) structures should be used instead. BIOS providers might /// choose to implement both memory description types to allow existing DMI browsers /// to properly display the system's memory attributes. /// typedef struct { SMBIOS_STRUCTURE Hdr; UINT8 ErrDetectMethod; ///< The enumeration value from MEMORY_ERROR_DETECT_METHOD. MEMORY_ERROR_CORRECT_CAPABILITY ErrCorrectCapability; UINT8 SupportInterleave; ///< The enumeration value from MEMORY_SUPPORT_INTERLEAVE_TYPE. UINT8 CurrentInterleave; ///< The enumeration value from MEMORY_SUPPORT_INTERLEAVE_TYPE . UINT8 MaxMemoryModuleSize; MEMORY_SPEED_TYPE SupportSpeed; UINT16 SupportMemoryType; UINT8 MemoryModuleVoltage; UINT8 AssociatedMemorySlotNum; UINT16 MemoryModuleConfigHandles[1]; } SMBIOS_TABLE_TYPE5; /// /// Memory Module Information - Memory Types /// typedef struct { UINT16 Other :1; UINT16 Unknown :1; UINT16 Standard :1; UINT16 FastPageMode:1; UINT16 Edo :1; UINT16 Parity :1; UINT16 Ecc :1; UINT16 Simm :1; UINT16 Dimm :1; UINT16 BurstEdo :1; UINT16 Sdram :1; UINT16 Reserved :5; } MEMORY_CURRENT_TYPE; /// /// Memory Module Information - Memory Size. /// typedef struct { UINT8 InstalledOrEnabledSize :7; ///< Size (n), where 2**n is the size in MB. UINT8 SingleOrDoubleBank :1; } MEMORY_INSTALLED_ENABLED_SIZE; /// /// Memory Module Information (Type 6, Obsolete) /// /// One Memory Module Information structure is included for each memory-module socket /// in the system. The structure describes the speed, type, size, and error status /// of each system memory module. The supported attributes of each module are described /// by the "owning" Memory Controller Information structure. /// Note: This structure, and its companion Memory Controller Information (Type 5, Obsolete), /// are obsolete starting with version 2.1 of this specification. The Physical Memory Array (Type 16) /// and Memory Device (Type 17) structures should be used instead. /// typedef struct { SMBIOS_STRUCTURE Hdr; SMBIOS_TABLE_STRING SocketDesignation; UINT8 BankConnections; UINT8 CurrentSpeed; MEMORY_CURRENT_TYPE CurrentMemoryType; MEMORY_INSTALLED_ENABLED_SIZE InstalledSize; MEMORY_INSTALLED_ENABLED_SIZE EnabledSize; UINT8 ErrorStatus; } SMBIOS_TABLE_TYPE6; /// /// Cache Information - SRAM Type. /// typedef struct { UINT16 Other :1; UINT16 Unknown :1; UINT16 NonBurst :1; UINT16 Burst :1; UINT16 PipelineBurst :1; UINT16 Synchronous :1; UINT16 Asynchronous :1; UINT16 Reserved :9; } CACHE_SRAM_TYPE_DATA; /// /// Cache Information - Error Correction Type. /// typedef enum { CacheErrorOther = 0x01, CacheErrorUnknown = 0x02, CacheErrorNone = 0x03, CacheErrorParity = 0x04, CacheErrorSingleBit = 0x05, ///< ECC CacheErrorMultiBit = 0x06 ///< ECC } CACHE_ERROR_TYPE_DATA; /// /// Cache Information - System Cache Type. /// typedef enum { CacheTypeOther = 0x01, CacheTypeUnknown = 0x02, CacheTypeInstruction = 0x03, CacheTypeData = 0x04, CacheTypeUnified = 0x05 } CACHE_TYPE_DATA; /// /// Cache Information - Associativity. /// typedef enum { CacheAssociativityOther = 0x01, CacheAssociativityUnknown = 0x02, CacheAssociativityDirectMapped = 0x03, CacheAssociativity2Way = 0x04, CacheAssociativity4Way = 0x05, CacheAssociativityFully = 0x06, CacheAssociativity8Way = 0x07, CacheAssociativity16Way = 0x08, CacheAssociativity12Way = 0x09, CacheAssociativity24Way = 0x0A, CacheAssociativity32Way = 0x0B, CacheAssociativity48Way = 0x0C, CacheAssociativity64Way = 0x0D, CacheAssociativity20Way = 0x0E } CACHE_ASSOCIATIVITY_DATA; /// /// Cache Information (Type 7). /// /// The information in this structure defines the attributes of CPU cache device in the system. /// One structure is specified for each such device, whether the device is internal to /// or external to the CPU module. Cache modules can be associated with a processor structure /// in one or two ways, depending on the SMBIOS version. /// typedef struct { SMBIOS_STRUCTURE Hdr; SMBIOS_TABLE_STRING SocketDesignation; UINT16 CacheConfiguration; UINT16 MaximumCacheSize; UINT16 InstalledSize; CACHE_SRAM_TYPE_DATA SupportedSRAMType; CACHE_SRAM_TYPE_DATA CurrentSRAMType; UINT8 CacheSpeed; UINT8 ErrorCorrectionType; ///< The enumeration value from CACHE_ERROR_TYPE_DATA. UINT8 SystemCacheType; ///< The enumeration value from CACHE_TYPE_DATA. UINT8 Associativity; ///< The enumeration value from CACHE_ASSOCIATIVITY_DATA. // // Add for smbios 3.1.0 // UINT32 MaximumCacheSize2; UINT32 InstalledSize2; } SMBIOS_TABLE_TYPE7; /// /// Port Connector Information - Connector Types. /// typedef enum { PortConnectorTypeNone = 0x00, PortConnectorTypeCentronics = 0x01, PortConnectorTypeMiniCentronics = 0x02, PortConnectorTypeProprietary = 0x03, PortConnectorTypeDB25Male = 0x04, PortConnectorTypeDB25Female = 0x05, PortConnectorTypeDB15Male = 0x06, PortConnectorTypeDB15Female = 0x07, PortConnectorTypeDB9Male = 0x08, PortConnectorTypeDB9Female = 0x09, PortConnectorTypeRJ11 = 0x0A, PortConnectorTypeRJ45 = 0x0B, PortConnectorType50PinMiniScsi = 0x0C, PortConnectorTypeMiniDin = 0x0D, PortConnectorTypeMicroDin = 0x0E, PortConnectorTypePS2 = 0x0F, PortConnectorTypeInfrared = 0x10, PortConnectorTypeHpHil = 0x11, PortConnectorTypeUsb = 0x12, PortConnectorTypeSsaScsi = 0x13, PortConnectorTypeCircularDin8Male = 0x14, PortConnectorTypeCircularDin8Female = 0x15, PortConnectorTypeOnboardIde = 0x16, PortConnectorTypeOnboardFloppy = 0x17, PortConnectorType9PinDualInline = 0x18, PortConnectorType25PinDualInline = 0x19, PortConnectorType50PinDualInline = 0x1A, PortConnectorType68PinDualInline = 0x1B, PortConnectorTypeOnboardSoundInput = 0x1C, PortConnectorTypeMiniCentronicsType14 = 0x1D, PortConnectorTypeMiniCentronicsType26 = 0x1E, PortConnectorTypeHeadPhoneMiniJack = 0x1F, PortConnectorTypeBNC = 0x20, PortConnectorType1394 = 0x21, PortConnectorTypeSasSata = 0x22, PortConnectorTypeUsbTypeC = 0x23, PortConnectorTypePC98 = 0xA0, PortConnectorTypePC98Hireso = 0xA1, PortConnectorTypePCH98 = 0xA2, PortConnectorTypePC98Note = 0xA3, PortConnectorTypePC98Full = 0xA4, PortConnectorTypeOther = 0xFF } MISC_PORT_CONNECTOR_TYPE; /// /// Port Connector Information - Port Types /// typedef enum { PortTypeNone = 0x00, PortTypeParallelXtAtCompatible = 0x01, PortTypeParallelPortPs2 = 0x02, PortTypeParallelPortEcp = 0x03, PortTypeParallelPortEpp = 0x04, PortTypeParallelPortEcpEpp = 0x05, PortTypeSerialXtAtCompatible = 0x06, PortTypeSerial16450Compatible = 0x07, PortTypeSerial16550Compatible = 0x08, PortTypeSerial16550ACompatible = 0x09, PortTypeScsi = 0x0A, PortTypeMidi = 0x0B, PortTypeJoyStick = 0x0C, PortTypeKeyboard = 0x0D, PortTypeMouse = 0x0E, PortTypeSsaScsi = 0x0F, PortTypeUsb = 0x10, PortTypeFireWire = 0x11, PortTypePcmciaTypeI = 0x12, PortTypePcmciaTypeII = 0x13, PortTypePcmciaTypeIII = 0x14, PortTypeCardBus = 0x15, PortTypeAccessBusPort = 0x16, PortTypeScsiII = 0x17, PortTypeScsiWide = 0x18, PortTypePC98 = 0x19, PortTypePC98Hireso = 0x1A, PortTypePCH98 = 0x1B, PortTypeVideoPort = 0x1C, PortTypeAudioPort = 0x1D, PortTypeModemPort = 0x1E, PortTypeNetworkPort = 0x1F, PortTypeSata = 0x20, PortTypeSas = 0x21, PortTypeMfdp = 0x22, ///< Multi-Function Display Port PortTypeThunderbolt = 0x23, PortType8251Compatible = 0xA0, PortType8251FifoCompatible = 0xA1, PortTypeOther = 0xFF } MISC_PORT_TYPE; /// /// Port Connector Information (Type 8). /// /// The information in this structure defines the attributes of a system port connector, /// e.g. parallel, serial, keyboard, or mouse ports. The port's type and connector information /// are provided. One structure is present for each port provided by the system. /// typedef struct { SMBIOS_STRUCTURE Hdr; SMBIOS_TABLE_STRING InternalReferenceDesignator; UINT8 InternalConnectorType; ///< The enumeration value from MISC_PORT_CONNECTOR_TYPE. SMBIOS_TABLE_STRING ExternalReferenceDesignator; UINT8 ExternalConnectorType; ///< The enumeration value from MISC_PORT_CONNECTOR_TYPE. UINT8 PortType; ///< The enumeration value from MISC_PORT_TYPE. } SMBIOS_TABLE_TYPE8; /// /// System Slots - Slot Type /// typedef enum { SlotTypeOther = 0x01, SlotTypeUnknown = 0x02, SlotTypeIsa = 0x03, SlotTypeMca = 0x04, SlotTypeEisa = 0x05, SlotTypePci = 0x06, SlotTypePcmcia = 0x07, SlotTypeVlVesa = 0x08, SlotTypeProprietary = 0x09, SlotTypeProcessorCardSlot = 0x0A, SlotTypeProprietaryMemoryCardSlot = 0x0B, SlotTypeIORiserCardSlot = 0x0C, SlotTypeNuBus = 0x0D, SlotTypePci66MhzCapable = 0x0E, SlotTypeAgp = 0x0F, SlotTypeApg2X = 0x10, SlotTypeAgp4X = 0x11, SlotTypePciX = 0x12, SlotTypeAgp8X = 0x13, SlotTypeM2Socket1_DP = 0x14, SlotTypeM2Socket1_SD = 0x15, SlotTypeM2Socket2 = 0x16, SlotTypeM2Socket3 = 0x17, SlotTypeMxmTypeI = 0x18, SlotTypeMxmTypeII = 0x19, SlotTypeMxmTypeIIIStandard = 0x1A, SlotTypeMxmTypeIIIHe = 0x1B, SlotTypeMxmTypeIV = 0x1C, SlotTypeMxm30TypeA = 0x1D, SlotTypeMxm30TypeB = 0x1E, SlotTypePciExpressGen2Sff_8639 = 0x1F, SlotTypePciExpressGen3Sff_8639 = 0x20, SlotTypePciExpressMini52pinWithBSKO = 0x21, ///< PCI Express Mini 52-pin (CEM spec. 2.0) with bottom-side keep-outs. SlotTypePciExpressMini52pinWithoutBSKO = 0x22, ///< PCI Express Mini 52-pin (CEM spec. 2.0) without bottom-side keep-outs. SlotTypePciExpressMini76pin = 0x23, ///< PCI Express Mini 76-pin (CEM spec. 2.0) Corresponds to Display-Mini card. SlotTypePC98C20 = 0xA0, SlotTypePC98C24 = 0xA1, SlotTypePC98E = 0xA2, SlotTypePC98LocalBus = 0xA3, SlotTypePC98Card = 0xA4, SlotTypePciExpress = 0xA5, SlotTypePciExpressX1 = 0xA6, SlotTypePciExpressX2 = 0xA7, SlotTypePciExpressX4 = 0xA8, SlotTypePciExpressX8 = 0xA9, SlotTypePciExpressX16 = 0xAA, SlotTypePciExpressGen2 = 0xAB, SlotTypePciExpressGen2X1 = 0xAC, SlotTypePciExpressGen2X2 = 0xAD, SlotTypePciExpressGen2X4 = 0xAE, SlotTypePciExpressGen2X8 = 0xAF, SlotTypePciExpressGen2X16 = 0xB0, SlotTypePciExpressGen3 = 0xB1, SlotTypePciExpressGen3X1 = 0xB2, SlotTypePciExpressGen3X2 = 0xB3, SlotTypePciExpressGen3X4 = 0xB4, SlotTypePciExpressGen3X8 = 0xB5, SlotTypePciExpressGen3X16 = 0xB6, SlotTypePciExpressGen4 = 0xB8, SlotTypePciExpressGen4X1 = 0xB9, SlotTypePciExpressGen4X2 = 0xBA, SlotTypePciExpressGen4X4 = 0xBB, SlotTypePciExpressGen4X8 = 0xBC, SlotTypePciExpressGen4X16 = 0xBD, MaxMiscSlotType } MISC_SLOT_TYPE; #ifdef __cplusplus static_assert(MaxMiscSlotType < MAX_UINT8, "MISC_SLOT_TYPE cannot be safely cast to uint8_t"); #endif /// /// System Slots - Slot Data Bus Width. /// typedef enum { SlotDataBusWidthOther = 0x01, SlotDataBusWidthUnknown = 0x02, SlotDataBusWidth8Bit = 0x03, SlotDataBusWidth16Bit = 0x04, SlotDataBusWidth32Bit = 0x05, SlotDataBusWidth64Bit = 0x06, SlotDataBusWidth128Bit = 0x07, SlotDataBusWidth1X = 0x08, ///< Or X1 SlotDataBusWidth2X = 0x09, ///< Or X2 SlotDataBusWidth4X = 0x0A, ///< Or X4 SlotDataBusWidth8X = 0x0B, ///< Or X8 SlotDataBusWidth12X = 0x0C, ///< Or X12 SlotDataBusWidth16X = 0x0D, ///< Or X16 SlotDataBusWidth32X = 0x0E ///< Or X32 } MISC_SLOT_DATA_BUS_WIDTH; /// /// System Slots - Current Usage. /// typedef enum { SlotUsageOther = 0x01, SlotUsageUnknown = 0x02, SlotUsageAvailable = 0x03, SlotUsageInUse = 0x04, SlotUsageUnavailable = 0x05 } MISC_SLOT_USAGE; /// /// System Slots - Slot Length. /// typedef enum { SlotLengthOther = 0x01, SlotLengthUnknown = 0x02, SlotLengthShort = 0x03, SlotLengthLong = 0x04 } MISC_SLOT_LENGTH; /// /// System Slots - Slot Characteristics 1. /// typedef struct { UINT8 CharacteristicsUnknown :1; UINT8 Provides50Volts :1; UINT8 Provides33Volts :1; UINT8 SharedSlot :1; UINT8 PcCard16Supported :1; UINT8 CardBusSupported :1; UINT8 ZoomVideoSupported :1; UINT8 ModemRingResumeSupported:1; } MISC_SLOT_CHARACTERISTICS1; /// /// System Slots - Slot Characteristics 2. /// typedef struct { UINT8 PmeSignalSupported :1; UINT8 HotPlugDevicesSupported :1; UINT8 SmbusSignalSupported :1; UINT8 BifurcationSupported :1; UINT8 Reserved :4; ///< Set to 0. } MISC_SLOT_CHARACTERISTICS2; /// /// System Slots - Peer Segment/Bus/Device/Function/Width Groups /// typedef struct { UINT16 SegmentGroupNum; UINT8 BusNum; UINT8 DevFuncNum; UINT8 DataBusWidth; } MISC_SLOT_PEER_GROUP; /// /// System Slots (Type 9) /// /// The information in this structure defines the attributes of a system slot. /// One structure is provided for each slot in the system. /// /// typedef struct { SMBIOS_STRUCTURE Hdr; SMBIOS_TABLE_STRING SlotDesignation; UINT8 SlotType; ///< The enumeration value from MISC_SLOT_TYPE. UINT8 SlotDataBusWidth; ///< The enumeration value from MISC_SLOT_DATA_BUS_WIDTH. UINT8 CurrentUsage; ///< The enumeration value from MISC_SLOT_USAGE. UINT8 SlotLength; ///< The enumeration value from MISC_SLOT_LENGTH. UINT16 SlotID; MISC_SLOT_CHARACTERISTICS1 SlotCharacteristics1; MISC_SLOT_CHARACTERISTICS2 SlotCharacteristics2; // // Add for smbios 2.6 // UINT16 SegmentGroupNum; UINT8 BusNum; UINT8 DevFuncNum; // // Add for smbios 3.2 // UINT8 DataBusWidth; UINT8 PeerGroupingCount; MISC_SLOT_PEER_GROUP PeerGroups[1]; } SMBIOS_TABLE_TYPE9; /// /// On Board Devices Information - Device Types. /// typedef enum { OnBoardDeviceTypeOther = 0x01, OnBoardDeviceTypeUnknown = 0x02, OnBoardDeviceTypeVideo = 0x03, OnBoardDeviceTypeScsiController = 0x04, OnBoardDeviceTypeEthernet = 0x05, OnBoardDeviceTypeTokenRing = 0x06, OnBoardDeviceTypeSound = 0x07, OnBoardDeviceTypePATAController = 0x08, OnBoardDeviceTypeSATAController = 0x09, OnBoardDeviceTypeSASController = 0x0A } MISC_ONBOARD_DEVICE_TYPE; /// /// Device Item Entry /// typedef struct { UINT8 DeviceType; ///< Bit [6:0] - enumeration type of device from MISC_ONBOARD_DEVICE_TYPE. ///< Bit 7 - 1 : device enabled, 0 : device disabled. SMBIOS_TABLE_STRING DescriptionString; } DEVICE_STRUCT; /// /// On Board Devices Information (Type 10, obsolete). /// /// Note: This structure is obsolete starting with version 2.6 specification; the Onboard Devices Extended /// Information (Type 41) structure should be used instead . BIOS providers can choose to implement both /// types to allow existing SMBIOS browsers to properly display the system's onboard devices information. /// The information in this structure defines the attributes of devices that are onboard (soldered onto) /// a system element, usually the baseboard. In general, an entry in this table implies that the BIOS /// has some level of control over the enabling of the associated device for use by the system. /// typedef struct { SMBIOS_STRUCTURE Hdr; DEVICE_STRUCT Device[1]; } SMBIOS_TABLE_TYPE10; /// /// OEM Strings (Type 11). /// This structure contains free form strings defined by the OEM. Examples of this are: /// Part Numbers for Reference Documents for the system, contact information for the manufacturer, etc. /// typedef struct { SMBIOS_STRUCTURE Hdr; UINT8 StringCount; } SMBIOS_TABLE_TYPE11; /// /// System Configuration Options (Type 12). /// /// This structure contains information required to configure the base board's Jumpers and Switches. /// typedef struct { SMBIOS_STRUCTURE Hdr; UINT8 StringCount; } SMBIOS_TABLE_TYPE12; /// /// BIOS Language Information (Type 13). /// /// The information in this structure defines the installable language attributes of the BIOS. /// typedef struct { SMBIOS_STRUCTURE Hdr; UINT8 InstallableLanguages; UINT8 Flags; UINT8 Reserved[15]; SMBIOS_TABLE_STRING CurrentLanguages; } SMBIOS_TABLE_TYPE13; /// /// Group Item Entry /// typedef struct { UINT8 ItemType; UINT16 ItemHandle; } GROUP_STRUCT; /// /// Group Associations (Type 14). /// /// The Group Associations structure is provided for OEMs who want to specify /// the arrangement or hierarchy of certain components (including other Group Associations) /// within the system. /// typedef struct { SMBIOS_STRUCTURE Hdr; SMBIOS_TABLE_STRING GroupName; GROUP_STRUCT Group[1]; } SMBIOS_TABLE_TYPE14; /// /// System Event Log - Event Log Types. /// typedef enum { EventLogTypeReserved = 0x00, EventLogTypeSingleBitECC = 0x01, EventLogTypeMultiBitECC = 0x02, EventLogTypeParityMemErr = 0x03, EventLogTypeBusTimeOut = 0x04, EventLogTypeIOChannelCheck = 0x05, EventLogTypeSoftwareNMI = 0x06, EventLogTypePOSTMemResize = 0x07, EventLogTypePOSTErr = 0x08, EventLogTypePCIParityErr = 0x09, EventLogTypePCISystemErr = 0x0A, EventLogTypeCPUFailure = 0x0B, EventLogTypeEISATimeOut = 0x0C, EventLogTypeMemLogDisabled = 0x0D, EventLogTypeLoggingDisabled = 0x0E, EventLogTypeSysLimitExce = 0x10, EventLogTypeAsyncHWTimer = 0x11, EventLogTypeSysConfigInfo = 0x12, EventLogTypeHDInfo = 0x13, EventLogTypeSysReconfig = 0x14, EventLogTypeUncorrectCPUErr = 0x15, EventLogTypeAreaResetAndClr = 0x16, EventLogTypeSystemBoot = 0x17, EventLogTypeUnused = 0x18, ///< 0x18 - 0x7F EventLogTypeAvailForSys = 0x80, ///< 0x80 - 0xFE EventLogTypeEndOfLog = 0xFF } EVENT_LOG_TYPE_DATA; /// /// System Event Log - Variable Data Format Types. /// typedef enum { EventLogVariableNone = 0x00, EventLogVariableHandle = 0x01, EventLogVariableMutilEvent = 0x02, EventLogVariableMutilEventHandle = 0x03, EventLogVariablePOSTResultBitmap = 0x04, EventLogVariableSysManagementType = 0x05, EventLogVariableMutliEventSysManagmentType = 0x06, EventLogVariableUnused = 0x07, EventLogVariableOEMAssigned = 0x80 } EVENT_LOG_VARIABLE_DATA; /// /// Event Log Type Descriptors /// typedef struct { UINT8 LogType; ///< The enumeration value from EVENT_LOG_TYPE_DATA. UINT8 DataFormatType; } EVENT_LOG_TYPE; /// /// System Event Log (Type 15). /// /// The presence of this structure within the SMBIOS data returned for a system indicates /// that the system supports an event log. An event log is a fixed-length area within a /// non-volatile storage element, starting with a fixed-length (and vendor-specific) header /// record, followed by one or more variable-length log records. /// typedef struct { SMBIOS_STRUCTURE Hdr; UINT16 LogAreaLength; UINT16 LogHeaderStartOffset; UINT16 LogDataStartOffset; UINT8 AccessMethod; UINT8 LogStatus; UINT32 LogChangeToken; UINT32 AccessMethodAddress; UINT8 LogHeaderFormat; UINT8 NumberOfSupportedLogTypeDescriptors; UINT8 LengthOfLogTypeDescriptor; EVENT_LOG_TYPE EventLogTypeDescriptors[1]; } SMBIOS_TABLE_TYPE15; /// /// Physical Memory Array - Location. /// typedef enum { MemoryArrayLocationOther = 0x01, MemoryArrayLocationUnknown = 0x02, MemoryArrayLocationSystemBoard = 0x03, MemoryArrayLocationIsaAddonCard = 0x04, MemoryArrayLocationEisaAddonCard = 0x05, MemoryArrayLocationPciAddonCard = 0x06, MemoryArrayLocationMcaAddonCard = 0x07, MemoryArrayLocationPcmciaAddonCard = 0x08, MemoryArrayLocationProprietaryAddonCard = 0x09, MemoryArrayLocationNuBus = 0x0A, MemoryArrayLocationPc98C20AddonCard = 0xA0, MemoryArrayLocationPc98C24AddonCard = 0xA1, MemoryArrayLocationPc98EAddonCard = 0xA2, MemoryArrayLocationPc98LocalBusAddonCard = 0xA3 } MEMORY_ARRAY_LOCATION; /// /// Physical Memory Array - Use. /// typedef enum { MemoryArrayUseOther = 0x01, MemoryArrayUseUnknown = 0x02, MemoryArrayUseSystemMemory = 0x03, MemoryArrayUseVideoMemory = 0x04, MemoryArrayUseFlashMemory = 0x05, MemoryArrayUseNonVolatileRam = 0x06, MemoryArrayUseCacheMemory = 0x07 } MEMORY_ARRAY_USE; /// /// Physical Memory Array - Error Correction Types. /// typedef enum { MemoryErrorCorrectionOther = 0x01, MemoryErrorCorrectionUnknown = 0x02, MemoryErrorCorrectionNone = 0x03, MemoryErrorCorrectionParity = 0x04, MemoryErrorCorrectionSingleBitEcc = 0x05, MemoryErrorCorrectionMultiBitEcc = 0x06, MemoryErrorCorrectionCrc = 0x07 } MEMORY_ERROR_CORRECTION; /// /// Physical Memory Array (Type 16). /// /// This structure describes a collection of memory devices that operate /// together to form a memory address space. /// typedef struct { SMBIOS_STRUCTURE Hdr; UINT8 Location; ///< The enumeration value from MEMORY_ARRAY_LOCATION. UINT8 Use; ///< The enumeration value from MEMORY_ARRAY_USE. UINT8 MemoryErrorCorrection; ///< The enumeration value from MEMORY_ERROR_CORRECTION. UINT32 MaximumCapacity; UINT16 MemoryErrorInformationHandle; UINT16 NumberOfMemoryDevices; // // Add for smbios 2.7 // UINT64 ExtendedMaximumCapacity; } SMBIOS_TABLE_TYPE16; /// /// Memory Device - Form Factor. /// typedef enum { MemoryFormFactorOther = 0x01, MemoryFormFactorUnknown = 0x02, MemoryFormFactorSimm = 0x03, MemoryFormFactorSip = 0x04, MemoryFormFactorChip = 0x05, MemoryFormFactorDip = 0x06, MemoryFormFactorZip = 0x07, MemoryFormFactorProprietaryCard = 0x08, MemoryFormFactorDimm = 0x09, MemoryFormFactorTsop = 0x0A, MemoryFormFactorRowOfChips = 0x0B, MemoryFormFactorRimm = 0x0C, MemoryFormFactorSodimm = 0x0D, MemoryFormFactorSrimm = 0x0E, MemoryFormFactorFbDimm = 0x0F } MEMORY_FORM_FACTOR; /// /// Memory Device - Type /// typedef enum { MemoryTypeOther = 0x01, MemoryTypeUnknown = 0x02, MemoryTypeDram = 0x03, MemoryTypeEdram = 0x04, MemoryTypeVram = 0x05, MemoryTypeSram = 0x06, MemoryTypeRam = 0x07, MemoryTypeRom = 0x08, MemoryTypeFlash = 0x09, MemoryTypeEeprom = 0x0A, MemoryTypeFeprom = 0x0B, MemoryTypeEprom = 0x0C, MemoryTypeCdram = 0x0D, MemoryType3Dram = 0x0E, MemoryTypeSdram = 0x0F, MemoryTypeSgram = 0x10, MemoryTypeRdram = 0x11, MemoryTypeDdr = 0x12, MemoryTypeDdr2 = 0x13, MemoryTypeDdr2FbDimm = 0x14, MemoryTypeDdr3 = 0x18, MemoryTypeFbd2 = 0x19, MemoryTypeDdr4 = 0x1A, MemoryTypeLpddr = 0x1B, MemoryTypeLpddr2 = 0x1C, MemoryTypeLpddr3 = 0x1D, MemoryTypeLpddr4 = 0x1E, MemoryTypeLogicalNonVolatileDevice = 0x1F, MemoryTypeHBM = 0x20, MemoryTypeHBM2 = 0x21, MemoryTypeDdr5 = 0x22, MemoryTypeLpddr5 = 0x23 } MEMORY_DEVICE_TYPE; /// /// Memory Device - Type Detail /// typedef struct { UINT16 Reserved :1; UINT16 Other :1; UINT16 Unknown :1; UINT16 FastPaged :1; UINT16 StaticColumn :1; UINT16 PseudoStatic :1; UINT16 Rambus :1; UINT16 Synchronous :1; UINT16 Cmos :1; UINT16 Edo :1; UINT16 WindowDram :1; UINT16 CacheDram :1; UINT16 Nonvolatile :1; UINT16 Registered :1; UINT16 Unbuffered :1; UINT16 LrDimm :1; } MEMORY_DEVICE_TYPE_DETAIL; /// /// Memory Device - Memory Technology /// typedef enum { MemoryTechnologyOther = 0x01, MemoryTechnologyUnknown = 0x02, MemoryTechnologyDram = 0x03, MemoryTechnologyNvdimmN = 0x04, MemoryTechnologyNvdimmF = 0x05, MemoryTechnologyNvdimmP = 0x06, MemoryTechnologyIntelPersistentMemory = 0x07 } MEMORY_DEVICE_TECHNOLOGY; /// /// Memory Device - Memory Operating Mode Capability /// typedef union { /// /// Individual bit fields /// struct { UINT16 Reserved :1; ///< Set to 0. UINT16 Other :1; UINT16 Unknown :1; UINT16 VolatileMemory :1; UINT16 ByteAccessiblePersistentMemory :1; UINT16 BlockAccessiblePersistentMemory :1; UINT16 Reserved2 :10; ///< Set to 0. } Bits; /// /// All bit fields as a 16-bit value /// UINT16 Uint16; } MEMORY_DEVICE_OPERATING_MODE_CAPABILITY; /// /// Memory Device (Type 17). /// /// This structure describes a single memory device that is part of /// a larger Physical Memory Array (Type 16). /// Note: If a system includes memory-device sockets, the SMBIOS implementation /// includes a Memory Device structure instance for each slot, whether or not the /// socket is currently populated. /// typedef struct { SMBIOS_STRUCTURE Hdr; UINT16 MemoryArrayHandle; UINT16 MemoryErrorInformationHandle; UINT16 TotalWidth; UINT16 DataWidth; UINT16 Size; UINT8 FormFactor; ///< The enumeration value from MEMORY_FORM_FACTOR. UINT8 DeviceSet; SMBIOS_TABLE_STRING DeviceLocator; SMBIOS_TABLE_STRING BankLocator; UINT8 MemoryType; ///< The enumeration value from MEMORY_DEVICE_TYPE. MEMORY_DEVICE_TYPE_DETAIL TypeDetail; UINT16 Speed; SMBIOS_TABLE_STRING Manufacturer; SMBIOS_TABLE_STRING SerialNumber; SMBIOS_TABLE_STRING AssetTag; SMBIOS_TABLE_STRING PartNumber; // // Add for smbios 2.6 // UINT8 Attributes; // // Add for smbios 2.7 // UINT32 ExtendedSize; // // Keep using name "ConfiguredMemoryClockSpeed" for compatibility // although this field is renamed from "Configured Memory Clock Speed" // to "Configured Memory Speed" in smbios 3.2.0. // UINT16 ConfiguredMemoryClockSpeed; // // Add for smbios 2.8.0 // UINT16 MinimumVoltage; UINT16 MaximumVoltage; UINT16 ConfiguredVoltage; // // Add for smbios 3.2.0 // UINT8 MemoryTechnology; ///< The enumeration value from MEMORY_DEVICE_TECHNOLOGY MEMORY_DEVICE_OPERATING_MODE_CAPABILITY MemoryOperatingModeCapability; SMBIOS_TABLE_STRING FirwareVersion; UINT16 ModuleManufacturerID; UINT16 ModuleProductID; UINT16 MemorySubsystemControllerManufacturerID; UINT16 MemorySubsystemControllerProductID; UINT64 NonVolatileSize; UINT64 VolatileSize; UINT64 CacheSize; UINT64 LogicalSize; } SMBIOS_TABLE_TYPE17; /// /// 32-bit Memory Error Information - Error Type. /// typedef enum { MemoryErrorOther = 0x01, MemoryErrorUnknown = 0x02, MemoryErrorOk = 0x03, MemoryErrorBadRead = 0x04, MemoryErrorParity = 0x05, MemoryErrorSigleBit = 0x06, MemoryErrorDoubleBit = 0x07, MemoryErrorMultiBit = 0x08, MemoryErrorNibble = 0x09, MemoryErrorChecksum = 0x0A, MemoryErrorCrc = 0x0B, MemoryErrorCorrectSingleBit = 0x0C, MemoryErrorCorrected = 0x0D, MemoryErrorUnCorrectable = 0x0E } MEMORY_ERROR_TYPE; /// /// 32-bit Memory Error Information - Error Granularity. /// typedef enum { MemoryGranularityOther = 0x01, MemoryGranularityOtherUnknown = 0x02, MemoryGranularityDeviceLevel = 0x03, MemoryGranularityMemPartitionLevel = 0x04 } MEMORY_ERROR_GRANULARITY; /// /// 32-bit Memory Error Information - Error Operation. /// typedef enum { MemoryErrorOperationOther = 0x01, MemoryErrorOperationUnknown = 0x02, MemoryErrorOperationRead = 0x03, MemoryErrorOperationWrite = 0x04, MemoryErrorOperationPartialWrite = 0x05 } MEMORY_ERROR_OPERATION; /// /// 32-bit Memory Error Information (Type 18). /// /// This structure identifies the specifics of an error that might be detected /// within a Physical Memory Array. /// typedef struct { SMBIOS_STRUCTURE Hdr; UINT8 ErrorType; ///< The enumeration value from MEMORY_ERROR_TYPE. UINT8 ErrorGranularity; ///< The enumeration value from MEMORY_ERROR_GRANULARITY. UINT8 ErrorOperation; ///< The enumeration value from MEMORY_ERROR_OPERATION. UINT32 VendorSyndrome; UINT32 MemoryArrayErrorAddress; UINT32 DeviceErrorAddress; UINT32 ErrorResolution; } SMBIOS_TABLE_TYPE18; /// /// Memory Array Mapped Address (Type 19). /// /// This structure provides the address mapping for a Physical Memory Array. /// One structure is present for each contiguous address range described. /// typedef struct { SMBIOS_STRUCTURE Hdr; UINT32 StartingAddress; UINT32 EndingAddress; UINT16 MemoryArrayHandle; UINT8 PartitionWidth; // // Add for smbios 2.7 // UINT64 ExtendedStartingAddress; UINT64 ExtendedEndingAddress; } SMBIOS_TABLE_TYPE19; /// /// Memory Device Mapped Address (Type 20). /// /// This structure maps memory address space usually to a device-level granularity. /// One structure is present for each contiguous address range described. /// typedef struct { SMBIOS_STRUCTURE Hdr; UINT32 StartingAddress; UINT32 EndingAddress; UINT16 MemoryDeviceHandle; UINT16 MemoryArrayMappedAddressHandle; UINT8 PartitionRowPosition; UINT8 InterleavePosition; UINT8 InterleavedDataDepth; // // Add for smbios 2.7 // UINT64 ExtendedStartingAddress; UINT64 ExtendedEndingAddress; } SMBIOS_TABLE_TYPE20; /// /// Built-in Pointing Device - Type /// typedef enum { PointingDeviceTypeOther = 0x01, PointingDeviceTypeUnknown = 0x02, PointingDeviceTypeMouse = 0x03, PointingDeviceTypeTrackBall = 0x04, PointingDeviceTypeTrackPoint = 0x05, PointingDeviceTypeGlidePoint = 0x06, PointingDeviceTouchPad = 0x07, PointingDeviceTouchScreen = 0x08, PointingDeviceOpticalSensor = 0x09 } BUILTIN_POINTING_DEVICE_TYPE; /// /// Built-in Pointing Device - Interface. /// typedef enum { PointingDeviceInterfaceOther = 0x01, PointingDeviceInterfaceUnknown = 0x02, PointingDeviceInterfaceSerial = 0x03, PointingDeviceInterfacePs2 = 0x04, PointingDeviceInterfaceInfrared = 0x05, PointingDeviceInterfaceHpHil = 0x06, PointingDeviceInterfaceBusMouse = 0x07, PointingDeviceInterfaceADB = 0x08, PointingDeviceInterfaceBusMouseDB9 = 0xA0, PointingDeviceInterfaceBusMouseMicroDin = 0xA1, PointingDeviceInterfaceUsb = 0xA2 } BUILTIN_POINTING_DEVICE_INTERFACE; /// /// Built-in Pointing Device (Type 21). /// /// This structure describes the attributes of the built-in pointing device for the /// system. The presence of this structure does not imply that the built-in /// pointing device is active for the system's use! /// typedef struct { SMBIOS_STRUCTURE Hdr; UINT8 Type; ///< The enumeration value from BUILTIN_POINTING_DEVICE_TYPE. UINT8 Interface; ///< The enumeration value from BUILTIN_POINTING_DEVICE_INTERFACE. UINT8 NumberOfButtons; } SMBIOS_TABLE_TYPE21; /// /// Portable Battery - Device Chemistry /// typedef enum { PortableBatteryDeviceChemistryOther = 0x01, PortableBatteryDeviceChemistryUnknown = 0x02, PortableBatteryDeviceChemistryLeadAcid = 0x03, PortableBatteryDeviceChemistryNickelCadmium = 0x04, PortableBatteryDeviceChemistryNickelMetalHydride = 0x05, PortableBatteryDeviceChemistryLithiumIon = 0x06, PortableBatteryDeviceChemistryZincAir = 0x07, PortableBatteryDeviceChemistryLithiumPolymer = 0x08 } PORTABLE_BATTERY_DEVICE_CHEMISTRY; /// /// Portable Battery (Type 22). /// /// This structure describes the attributes of the portable battery(s) for the system. /// The structure contains the static attributes for the group. Each structure describes /// a single battery pack's attributes. /// typedef struct { SMBIOS_STRUCTURE Hdr; SMBIOS_TABLE_STRING Location; SMBIOS_TABLE_STRING Manufacturer; SMBIOS_TABLE_STRING ManufactureDate; SMBIOS_TABLE_STRING SerialNumber; SMBIOS_TABLE_STRING DeviceName; UINT8 DeviceChemistry; ///< The enumeration value from PORTABLE_BATTERY_DEVICE_CHEMISTRY. UINT16 DeviceCapacity; UINT16 DesignVoltage; SMBIOS_TABLE_STRING SBDSVersionNumber; UINT8 MaximumErrorInBatteryData; UINT16 SBDSSerialNumber; UINT16 SBDSManufactureDate; SMBIOS_TABLE_STRING SBDSDeviceChemistry; UINT8 DesignCapacityMultiplier; UINT32 OEMSpecific; } SMBIOS_TABLE_TYPE22; /// /// System Reset (Type 23) /// /// This structure describes whether Automatic System Reset functions enabled (Status). /// If the system has a watchdog Timer and the timer is not reset (Timer Reset) /// before the Interval elapses, an automatic system reset will occur. The system will re-boot /// according to the Boot Option. This function may repeat until the Limit is reached, at which time /// the system will re-boot according to the Boot Option at Limit. /// typedef struct { SMBIOS_STRUCTURE Hdr; UINT8 Capabilities; UINT16 ResetCount; UINT16 ResetLimit; UINT16 TimerInterval; UINT16 Timeout; } SMBIOS_TABLE_TYPE23; /// /// Hardware Security (Type 24). /// /// This structure describes the system-wide hardware security settings. /// typedef struct { SMBIOS_STRUCTURE Hdr; UINT8 HardwareSecuritySettings; } SMBIOS_TABLE_TYPE24; /// /// System Power Controls (Type 25). /// /// This structure describes the attributes for controlling the main power supply to the system. /// Software that interprets this structure uses the month, day, hour, minute, and second values /// to determine the number of seconds until the next power-on of the system. The presence of /// this structure implies that a timed power-on facility is available for the system. /// typedef struct { SMBIOS_STRUCTURE Hdr; UINT8 NextScheduledPowerOnMonth; UINT8 NextScheduledPowerOnDayOfMonth; UINT8 NextScheduledPowerOnHour; UINT8 NextScheduledPowerOnMinute; UINT8 NextScheduledPowerOnSecond; } SMBIOS_TABLE_TYPE25; /// /// Voltage Probe - Location and Status. /// typedef struct { UINT8 VoltageProbeSite :5; UINT8 VoltageProbeStatus :3; } MISC_VOLTAGE_PROBE_LOCATION; /// /// Voltage Probe (Type 26) /// /// This describes the attributes for a voltage probe in the system. /// Each structure describes a single voltage probe. /// typedef struct { SMBIOS_STRUCTURE Hdr; SMBIOS_TABLE_STRING Description; MISC_VOLTAGE_PROBE_LOCATION LocationAndStatus; UINT16 MaximumValue; UINT16 MinimumValue; UINT16 Resolution; UINT16 Tolerance; UINT16 Accuracy; UINT32 OEMDefined; UINT16 NominalValue; } SMBIOS_TABLE_TYPE26; /// /// Cooling Device - Device Type and Status. /// typedef struct { UINT8 CoolingDevice :5; UINT8 CoolingDeviceStatus :3; } MISC_COOLING_DEVICE_TYPE; /// /// Cooling Device (Type 27) /// /// This structure describes the attributes for a cooling device in the system. /// Each structure describes a single cooling device. /// typedef struct { SMBIOS_STRUCTURE Hdr; UINT16 TemperatureProbeHandle; MISC_COOLING_DEVICE_TYPE DeviceTypeAndStatus; UINT8 CoolingUnitGroup; UINT32 OEMDefined; UINT16 NominalSpeed; // // Add for smbios 2.7 // SMBIOS_TABLE_STRING Description; } SMBIOS_TABLE_TYPE27; /// /// Temperature Probe - Location and Status. /// typedef struct { UINT8 TemperatureProbeSite :5; UINT8 TemperatureProbeStatus :3; } MISC_TEMPERATURE_PROBE_LOCATION; /// /// Temperature Probe (Type 28). /// /// This structure describes the attributes for a temperature probe in the system. /// Each structure describes a single temperature probe. /// typedef struct { SMBIOS_STRUCTURE Hdr; SMBIOS_TABLE_STRING Description; MISC_TEMPERATURE_PROBE_LOCATION LocationAndStatus; UINT16 MaximumValue; UINT16 MinimumValue; UINT16 Resolution; UINT16 Tolerance; UINT16 Accuracy; UINT32 OEMDefined; UINT16 NominalValue; } SMBIOS_TABLE_TYPE28; /// /// Electrical Current Probe - Location and Status. /// typedef struct { UINT8 ElectricalCurrentProbeSite :5; UINT8 ElectricalCurrentProbeStatus :3; } MISC_ELECTRICAL_CURRENT_PROBE_LOCATION; /// /// Electrical Current Probe (Type 29). /// /// This structure describes the attributes for an electrical current probe in the system. /// Each structure describes a single electrical current probe. /// typedef struct { SMBIOS_STRUCTURE Hdr; SMBIOS_TABLE_STRING Description; MISC_ELECTRICAL_CURRENT_PROBE_LOCATION LocationAndStatus; UINT16 MaximumValue; UINT16 MinimumValue; UINT16 Resolution; UINT16 Tolerance; UINT16 Accuracy; UINT32 OEMDefined; UINT16 NominalValue; } SMBIOS_TABLE_TYPE29; /// /// Out-of-Band Remote Access (Type 30). /// /// This structure describes the attributes and policy settings of a hardware facility /// that may be used to gain remote access to a hardware system when the operating system /// is not available due to power-down status, hardware failures, or boot failures. /// typedef struct { SMBIOS_STRUCTURE Hdr; SMBIOS_TABLE_STRING ManufacturerName; UINT8 Connections; } SMBIOS_TABLE_TYPE30; /// /// Boot Integrity Services (BIS) Entry Point (Type 31). /// /// Structure type 31 (decimal) is reserved for use by the Boot Integrity Services (BIS). /// typedef struct { SMBIOS_STRUCTURE Hdr; UINT8 Checksum; UINT8 Reserved1; UINT16 Reserved2; UINT32 BisEntry16; UINT32 BisEntry32; UINT64 Reserved3; UINT32 Reserved4; } SMBIOS_TABLE_TYPE31; /// /// System Boot Information - System Boot Status. /// typedef enum { BootInformationStatusNoError = 0x00, BootInformationStatusNoBootableMedia = 0x01, BootInformationStatusNormalOSFailedLoading = 0x02, BootInformationStatusFirmwareDetectedFailure = 0x03, BootInformationStatusOSDetectedFailure = 0x04, BootInformationStatusUserRequestedBoot = 0x05, BootInformationStatusSystemSecurityViolation = 0x06, BootInformationStatusPreviousRequestedImage = 0x07, BootInformationStatusWatchdogTimerExpired = 0x08, BootInformationStatusStartReserved = 0x09, BootInformationStatusStartOemSpecific = 0x80, BootInformationStatusStartProductSpecific = 0xC0 } MISC_BOOT_INFORMATION_STATUS_DATA_TYPE; /// /// System Boot Information (Type 32). /// /// The client system firmware, e.g. BIOS, communicates the System Boot Status to the /// client's Pre-boot Execution Environment (PXE) boot image or OS-present management /// application via this structure. When used in the PXE environment, for example, /// this code identifies the reason the PXE was initiated and can be used by boot-image /// software to further automate an enterprise's PXE sessions. For example, an enterprise /// could choose to automatically download a hardware-diagnostic image to a client whose /// reason code indicated either a firmware- or operating system-detected hardware failure. /// typedef struct { SMBIOS_STRUCTURE Hdr; UINT8 Reserved[6]; UINT8 BootStatus; ///< The enumeration value from MISC_BOOT_INFORMATION_STATUS_DATA_TYPE. } SMBIOS_TABLE_TYPE32; /// /// 64-bit Memory Error Information (Type 33). /// /// This structure describes an error within a Physical Memory Array, /// when the error address is above 4G (0xFFFFFFFF). /// typedef struct { SMBIOS_STRUCTURE Hdr; UINT8 ErrorType; ///< The enumeration value from MEMORY_ERROR_TYPE. UINT8 ErrorGranularity; ///< The enumeration value from MEMORY_ERROR_GRANULARITY. UINT8 ErrorOperation; ///< The enumeration value from MEMORY_ERROR_OPERATION. UINT32 VendorSyndrome; UINT64 MemoryArrayErrorAddress; UINT64 DeviceErrorAddress; UINT32 ErrorResolution; } SMBIOS_TABLE_TYPE33; /// /// Management Device - Type. /// typedef enum { ManagementDeviceTypeOther = 0x01, ManagementDeviceTypeUnknown = 0x02, ManagementDeviceTypeLm75 = 0x03, ManagementDeviceTypeLm78 = 0x04, ManagementDeviceTypeLm79 = 0x05, ManagementDeviceTypeLm80 = 0x06, ManagementDeviceTypeLm81 = 0x07, ManagementDeviceTypeAdm9240 = 0x08, ManagementDeviceTypeDs1780 = 0x09, ManagementDeviceTypeMaxim1617 = 0x0A, ManagementDeviceTypeGl518Sm = 0x0B, ManagementDeviceTypeW83781D = 0x0C, ManagementDeviceTypeHt82H791 = 0x0D } MISC_MANAGEMENT_DEVICE_TYPE; /// /// Management Device - Address Type. /// typedef enum { ManagementDeviceAddressTypeOther = 0x01, ManagementDeviceAddressTypeUnknown = 0x02, ManagementDeviceAddressTypeIOPort = 0x03, ManagementDeviceAddressTypeMemory = 0x04, ManagementDeviceAddressTypeSmbus = 0x05 } MISC_MANAGEMENT_DEVICE_ADDRESS_TYPE; /// /// Management Device (Type 34). /// /// The information in this structure defines the attributes of a Management Device. /// A Management Device might control one or more fans or voltage, current, or temperature /// probes as defined by one or more Management Device Component structures. /// typedef struct { SMBIOS_STRUCTURE Hdr; SMBIOS_TABLE_STRING Description; UINT8 Type; ///< The enumeration value from MISC_MANAGEMENT_DEVICE_TYPE. UINT32 Address; UINT8 AddressType; ///< The enumeration value from MISC_MANAGEMENT_DEVICE_ADDRESS_TYPE. } SMBIOS_TABLE_TYPE34; /// /// Management Device Component (Type 35) /// /// This structure associates a cooling device or environmental probe with structures /// that define the controlling hardware device and (optionally) the component's thresholds. /// typedef struct { SMBIOS_STRUCTURE Hdr; SMBIOS_TABLE_STRING Description; UINT16 ManagementDeviceHandle; UINT16 ComponentHandle; UINT16 ThresholdHandle; } SMBIOS_TABLE_TYPE35; /// /// Management Device Threshold Data (Type 36). /// /// The information in this structure defines threshold information for /// a component (probe or cooling-unit) contained within a Management Device. /// typedef struct { SMBIOS_STRUCTURE Hdr; UINT16 LowerThresholdNonCritical; UINT16 UpperThresholdNonCritical; UINT16 LowerThresholdCritical; UINT16 UpperThresholdCritical; UINT16 LowerThresholdNonRecoverable; UINT16 UpperThresholdNonRecoverable; } SMBIOS_TABLE_TYPE36; /// /// Memory Channel Entry. /// typedef struct { UINT8 DeviceLoad; UINT16 DeviceHandle; } MEMORY_DEVICE; /// /// Memory Channel - Channel Type. /// typedef enum { MemoryChannelTypeOther = 0x01, MemoryChannelTypeUnknown = 0x02, MemoryChannelTypeRambus = 0x03, MemoryChannelTypeSyncLink = 0x04 } MEMORY_CHANNEL_TYPE; /// /// Memory Channel (Type 37) /// /// The information in this structure provides the correlation between a Memory Channel /// and its associated Memory Devices. Each device presents one or more loads to the channel. /// The sum of all device loads cannot exceed the channel's defined maximum. /// typedef struct { SMBIOS_STRUCTURE Hdr; UINT8 ChannelType; UINT8 MaximumChannelLoad; UINT8 MemoryDeviceCount; MEMORY_DEVICE MemoryDevice[1]; } SMBIOS_TABLE_TYPE37; /// /// IPMI Device Information - BMC Interface Type /// typedef enum { IPMIDeviceInfoInterfaceTypeUnknown = 0x00, IPMIDeviceInfoInterfaceTypeKCS = 0x01, ///< The Keyboard Controller Style. IPMIDeviceInfoInterfaceTypeSMIC = 0x02, ///< The Server Management Interface Chip. IPMIDeviceInfoInterfaceTypeBT = 0x03, ///< The Block Transfer IPMIDeviceInfoInterfaceTypeSSIF = 0x04 ///< SMBus System Interface } BMC_INTERFACE_TYPE; /// /// IPMI Device Information (Type 38). /// /// The information in this structure defines the attributes of an /// Intelligent Platform Management Interface (IPMI) Baseboard Management Controller (BMC). /// /// The Type 42 structure can also be used to describe a physical management controller /// host interface and one or more protocols that share that interface. If IPMI is not /// shared with other protocols, either the Type 38 or Type 42 structures can be used. /// Providing Type 38 is recommended for backward compatibility. /// typedef struct { SMBIOS_STRUCTURE Hdr; UINT8 InterfaceType; ///< The enumeration value from BMC_INTERFACE_TYPE. UINT8 IPMISpecificationRevision; UINT8 I2CSlaveAddress; UINT8 NVStorageDeviceAddress; UINT64 BaseAddress; UINT8 BaseAddressModifier_InterruptInfo; UINT8 InterruptNumber; } SMBIOS_TABLE_TYPE38; /// /// System Power Supply - Power Supply Characteristics. /// typedef struct { UINT16 PowerSupplyHotReplaceable:1; UINT16 PowerSupplyPresent :1; UINT16 PowerSupplyUnplugged :1; UINT16 InputVoltageRangeSwitch :4; UINT16 PowerSupplyStatus :3; UINT16 PowerSupplyType :4; UINT16 Reserved :2; } SYS_POWER_SUPPLY_CHARACTERISTICS; /// /// System Power Supply (Type 39). /// /// This structure identifies attributes of a system power supply. One instance /// of this record is present for each possible power supply in a system. /// typedef struct { SMBIOS_STRUCTURE Hdr; UINT8 PowerUnitGroup; SMBIOS_TABLE_STRING Location; SMBIOS_TABLE_STRING DeviceName; SMBIOS_TABLE_STRING Manufacturer; SMBIOS_TABLE_STRING SerialNumber; SMBIOS_TABLE_STRING AssetTagNumber; SMBIOS_TABLE_STRING ModelPartNumber; SMBIOS_TABLE_STRING RevisionLevel; UINT16 MaxPowerCapacity; SYS_POWER_SUPPLY_CHARACTERISTICS PowerSupplyCharacteristics; UINT16 InputVoltageProbeHandle; UINT16 CoolingDeviceHandle; UINT16 InputCurrentProbeHandle; } SMBIOS_TABLE_TYPE39; /// /// Additional Information Entry Format. /// typedef struct { UINT8 EntryLength; UINT16 ReferencedHandle; UINT8 ReferencedOffset; SMBIOS_TABLE_STRING EntryString; UINT8 Value[1]; } ADDITIONAL_INFORMATION_ENTRY; /// /// Additional Information (Type 40). /// /// This structure is intended to provide additional information for handling unspecified /// enumerated values and interim field updates in another structure. /// typedef struct { SMBIOS_STRUCTURE Hdr; UINT8 NumberOfAdditionalInformationEntries; ADDITIONAL_INFORMATION_ENTRY AdditionalInfoEntries[1]; } SMBIOS_TABLE_TYPE40; /// /// Onboard Devices Extended Information - Onboard Device Types. /// typedef enum{ OnBoardDeviceExtendedTypeOther = 0x01, OnBoardDeviceExtendedTypeUnknown = 0x02, OnBoardDeviceExtendedTypeVideo = 0x03, OnBoardDeviceExtendedTypeScsiController = 0x04, OnBoardDeviceExtendedTypeEthernet = 0x05, OnBoardDeviceExtendedTypeTokenRing = 0x06, OnBoardDeviceExtendedTypeSound = 0x07, OnBoardDeviceExtendedTypePATAController = 0x08, OnBoardDeviceExtendedTypeSATAController = 0x09, OnBoardDeviceExtendedTypeSASController = 0x0A } ONBOARD_DEVICE_EXTENDED_INFO_TYPE; /// /// Onboard Devices Extended Information (Type 41). /// /// The information in this structure defines the attributes of devices that /// are onboard (soldered onto) a system element, usually the baseboard. /// In general, an entry in this table implies that the BIOS has some level of /// control over the enabling of the associated device for use by the system. /// typedef struct { SMBIOS_STRUCTURE Hdr; SMBIOS_TABLE_STRING ReferenceDesignation; UINT8 DeviceType; ///< The enumeration value from ONBOARD_DEVICE_EXTENDED_INFO_TYPE UINT8 DeviceTypeInstance; UINT16 SegmentGroupNum; UINT8 BusNum; UINT8 DevFuncNum; } SMBIOS_TABLE_TYPE41; /// /// Management Controller Host Interface - Interface Types. /// 00h - 3Fh: MCTP Host Interfaces /// typedef enum{ MCHostInterfaceTypeNetworkHostInterface = 0x40, MCHostInterfaceTypeOemDefined = 0xF0 } MC_HOST_INTERFACE_TYPE; /// /// Management Controller Host Interface - Protocol Types. /// typedef enum{ MCHostInterfaceProtocolTypeIPMI = 0x02, MCHostInterfaceProtocolTypeMCTP = 0x03, MCHostInterfaceProtocolTypeRedfishOverIP = 0x04, MCHostInterfaceProtocolTypeOemDefined = 0xF0 } MC_HOST_INTERFACE_PROTOCOL_TYPE; /// /// Management Controller Host Interface (Type 42). /// /// The information in this structure defines the attributes of a Management /// Controller Host Interface that is not discoverable by "Plug and Play" mechanisms. /// /// Type 42 should be used for management controller host interfaces that use protocols /// other than IPMI or that use multiple protocols on a single host interface type. /// /// This structure should also be provided if IPMI is shared with other protocols /// over the same interface hardware. If IPMI is not shared with other protocols, /// either the Type 38 or Type 42 structures can be used. Providing Type 38 is /// recommended for backward compatibility. The structures are not required to /// be mutually exclusive. Type 38 and Type 42 structures may be implemented /// simultaneously to provide backward compatibility with IPMI applications or drivers /// that do not yet recognize the Type 42 structure. /// typedef struct { SMBIOS_STRUCTURE Hdr; UINT8 InterfaceType; ///< The enumeration value from MC_HOST_INTERFACE_TYPE UINT8 InterfaceTypeSpecificDataLength; UINT8 InterfaceTypeSpecificData[4]; ///< This field has a minimum of four bytes } SMBIOS_TABLE_TYPE42; /// /// Processor Specific Block - Processor Architecture Type /// typedef enum{ ProcessorSpecificBlockArchTypeReserved = 0x00, ProcessorSpecificBlockArchTypeIa32 = 0x01, ProcessorSpecificBlockArchTypeX64 = 0x02, ProcessorSpecificBlockArchTypeItanium = 0x03, ProcessorSpecificBlockArchTypeAarch32 = 0x04, ProcessorSpecificBlockArchTypeAarch64 = 0x05, ProcessorSpecificBlockArchTypeRiscVRV32 = 0x06, ProcessorSpecificBlockArchTypeRiscVRV64 = 0x07, ProcessorSpecificBlockArchTypeRiscVRV128 = 0x08 } PROCESSOR_SPECIFIC_BLOCK_ARCH_TYPE; /// /// Processor Specific Block is the standard container of processor-specific data. /// typedef struct { UINT8 Length; UINT8 ProcessorArchType; /// /// Below followed by Processor-specific data /// /// } PROCESSOR_SPECIFIC_BLOCK; /// /// TPM Device (Type 43). /// typedef struct { SMBIOS_STRUCTURE Hdr; UINT8 VendorID[4]; UINT8 MajorSpecVersion; UINT8 MinorSpecVersion; UINT32 FirmwareVersion1; UINT32 FirmwareVersion2; SMBIOS_TABLE_STRING Description; UINT64 Characteristics; UINT32 OemDefined; } SMBIOS_TABLE_TYPE43; /// /// Processor Additional Information(Type 44). /// /// The information in this structure defines the processor additional information in case /// SMBIOS type 4 is not sufficient to describe processor characteristics. /// The SMBIOS type 44 structure has a reference handle field to link back to the related /// SMBIOS type 4 structure. There may be multiple SMBIOS type 44 structures linked to the /// same SMBIOS type 4 structure. For example, when cores are not identical in a processor, /// SMBIOS type 44 structures describe different core-specific information. /// /// SMBIOS type 44 defines the standard header for the processor-specific block, while the /// contents of processor-specific data are maintained by processor /// architecture workgroups or vendors in separate documents. /// typedef struct { SMBIOS_STRUCTURE Hdr; SMBIOS_HANDLE RefHandle; ///< This field refer to associated SMBIOS type 4 /// /// Below followed by Processor-specific block /// PROCESSOR_SPECIFIC_BLOCK ProcessorSpecificBlock; } SMBIOS_TABLE_TYPE44; /// /// Inactive (Type 126) /// typedef struct { SMBIOS_STRUCTURE Hdr; } SMBIOS_TABLE_TYPE126; /// /// End-of-Table (Type 127) /// typedef struct { SMBIOS_STRUCTURE Hdr; } SMBIOS_TABLE_TYPE127; /// /// Union of all the possible SMBIOS record types. /// typedef union { SMBIOS_STRUCTURE *Hdr; SMBIOS_TABLE_TYPE0 *Type0; SMBIOS_TABLE_TYPE1 *Type1; SMBIOS_TABLE_TYPE2 *Type2; SMBIOS_TABLE_TYPE3 *Type3; SMBIOS_TABLE_TYPE4 *Type4; SMBIOS_TABLE_TYPE5 *Type5; SMBIOS_TABLE_TYPE6 *Type6; SMBIOS_TABLE_TYPE7 *Type7; SMBIOS_TABLE_TYPE8 *Type8; SMBIOS_TABLE_TYPE9 *Type9; SMBIOS_TABLE_TYPE10 *Type10; SMBIOS_TABLE_TYPE11 *Type11; SMBIOS_TABLE_TYPE12 *Type12; SMBIOS_TABLE_TYPE13 *Type13; SMBIOS_TABLE_TYPE14 *Type14; SMBIOS_TABLE_TYPE15 *Type15; SMBIOS_TABLE_TYPE16 *Type16; SMBIOS_TABLE_TYPE17 *Type17; SMBIOS_TABLE_TYPE18 *Type18; SMBIOS_TABLE_TYPE19 *Type19; SMBIOS_TABLE_TYPE20 *Type20; SMBIOS_TABLE_TYPE21 *Type21; SMBIOS_TABLE_TYPE22 *Type22; SMBIOS_TABLE_TYPE23 *Type23; SMBIOS_TABLE_TYPE24 *Type24; SMBIOS_TABLE_TYPE25 *Type25; SMBIOS_TABLE_TYPE26 *Type26; SMBIOS_TABLE_TYPE27 *Type27; SMBIOS_TABLE_TYPE28 *Type28; SMBIOS_TABLE_TYPE29 *Type29; SMBIOS_TABLE_TYPE30 *Type30; SMBIOS_TABLE_TYPE31 *Type31; SMBIOS_TABLE_TYPE32 *Type32; SMBIOS_TABLE_TYPE33 *Type33; SMBIOS_TABLE_TYPE34 *Type34; SMBIOS_TABLE_TYPE35 *Type35; SMBIOS_TABLE_TYPE36 *Type36; SMBIOS_TABLE_TYPE37 *Type37; SMBIOS_TABLE_TYPE38 *Type38; SMBIOS_TABLE_TYPE39 *Type39; SMBIOS_TABLE_TYPE40 *Type40; SMBIOS_TABLE_TYPE41 *Type41; SMBIOS_TABLE_TYPE42 *Type42; SMBIOS_TABLE_TYPE43 *Type43; SMBIOS_TABLE_TYPE44 *Type44; SMBIOS_TABLE_TYPE126 *Type126; SMBIOS_TABLE_TYPE127 *Type127; UINT8 *Raw; } SMBIOS_STRUCTURE_POINTER; #pragma pack() #endif