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Synchronize code with specs.

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git-svn-id: https://edk2.svn.sourceforge.net/svnroot/edk2/trunk/edk2@8367 6f19259b-4bc3-4df7-8a09-765794883524
This commit is contained in:
gikidy
2009-05-21 06:11:39 +00:00
parent 534b8251cc
commit 470d0b274c
8 changed files with 738 additions and 23 deletions
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411
IntelFrameworkPkg/Include/Framework/DataHubRecords.h
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@ -137,38 +137,127 @@ typedef union _EFI_MISC_PORT_DEVICE_PATH {
//
#define EFI_STRING_TOKEN UINT16
///
/// Each data record that is a member of some subclass starts with a standard
/// header of type EFI_SUBCLASS_TYPE1_HEADER.
/// This header is only a guideline and applicable only to a data
/// subclass that is producing SMBIOS data records. A subclass can start with a
/// different header if needed.
///
typedef struct {
///
/// The version of the specification to which a specific subclass data record adheres.
///
UINT32 Version;
///
/// The size in bytes of this data class header.
///
UINT32 HeaderSize;
///
/// The instance number of the subclass with the same ProducerName. This number is
/// applicable in cases where multiple subclass instances that were produced by the same
/// driver exist in the system. This entry is 1 based; 0 means Reserved and -1 means Not
/// Applicable. All data consumer drivers should be able to handle all the possible values
/// of Instance, including Not Applicable and Reserved.
///
UINT16 Instance;
///
/// The instance number of the RecordType for the same Instance. This number is
/// applicable in cases where multiple instances of the RecordType exist for a specific
/// Instance. This entry is 1 based; 0 means Reserved and -1 means Not Applicable.
/// All data consumer drivers should be able to handle all the possible values of
/// SubInstance, including Not Applicable and Reserved.
///
UINT16 SubInstance;
///
/// The record number for the data record being specified. The numbering scheme and
/// definition is defined in the specific subclass specification.
///
UINT32 RecordType;
} EFI_SUBCLASS_TYPE1_HEADER;
///
/// This structure is used to link data records in the same subclasses. A data record is
/// defined as a link to another data record in the same subclass using this structure.
///
typedef struct {
///
/// An EFI_GUID that identifies the component that produced this data record. Type
/// EFI_GUID is defined in InstallProtocolInterface() in the EFI 1.10 Specification.
///
EFI_GUID ProducerName;
///
/// The instance number of the subclass with the same ProducerName. This number is
/// applicable in cases where multiple subclass instances that were produced by the same
/// driver exist in the system. This entry is 1 based; 0 means Reserved and -1 means Not
/// Applicable. All data consumer drivers should be able to handle all the possible values
/// of Instance, including Not Applicable and Reserved.
///
UINT16 Instance;
/// The instance number of the RecordType for the same Instance. This number is
/// applicable in cases where multiple instances of the RecordType exist for a specific
/// Instance. This entry is 1 based; 0 means Reserved and -1 means Not Applicable.
/// All data consumer drivers should be able to handle all the possible values of
/// SubInstance, including Not Applicable and Reserved.
UINT16 SubInstance;
} EFI_INTER_LINK_DATA;
//
// EXP data
//
///
/// This macro provides a calculation for base-10 representations. Value and Exponent are each
/// INT16. It is signed to cover negative values and is 16 bits wide (15 bits for data and 1 bit
/// for the sign).
///
typedef struct {
///
/// The INT16 number by which to multiply the base-10 representation.
///
UINT16 Value;
///
/// The INT16 number by which to raise the base-10 calculation.
///
UINT16 Exponent;
} EFI_EXP_BASE2_DATA;
///
/// This macro provides a calculation for base-2 representations. Value and Exponent are each
/// INT16. It is 16 bits wide and is unsigned to mean nonnegative values.
///
typedef struct {
///
/// The INT16 number by which to multiply the base-2 representation.
///
UINT16 Value;
///
/// The INT16 number by which to raise the base-2 calculation.
///
UINT16 Exponent;
} EFI_EXP_BASE10_DATA;
typedef EFI_EXP_BASE10_DATA EFI_PROCESSOR_MAX_CORE_FREQUENCY_DATA;
typedef EFI_EXP_BASE10_DATA EFI_PROCESSOR_MAX_FSB_FREQUENCY_DATA;
typedef EFI_EXP_BASE10_DATA EFI_PROCESSOR_CORE_FREQUENCY_DATA;
///
/// This data record refers to the list of frequencies that the processor core supports. The list of
/// supported frequencies is determined by the firmware based on hardware capabilities--for example,
/// it could be a common subset of all processors and the chipset. The unit of measurement of this data
/// record is in Hertz. For asynchronous processors, the content of this data record is zero.
/// The list is terminated by -1 in the Value field of the last element. A Value field of zero means
/// that the processor/driver supports automatic frequency selection.
///
typedef EFI_EXP_BASE10_DATA *EFI_PROCESSOR_CORE_FREQUENCY_LIST_DATA;
///
/// This data record refers to the list of supported frequencies of the processor external bus. The list of
/// supported frequencies is determined by the firmware based on hardware capabilities--for example,
/// it could be a common subset of all processors and the chipset. The unit of measurement of this data
/// record is in Hertz. For asynchronous processors, the content of this data record is NULL.
/// The list is terminated by -1 in the Value field of the last element. A Value field of zero means
/// that the processor/driver supports automatic frequency selection.
///
typedef EFI_EXP_BASE10_DATA *EFI_PROCESSOR_FSB_FREQUENCY_LIST_DATA;
typedef EFI_EXP_BASE10_DATA EFI_PROCESSOR_FSB_FREQUENCY_DATA;
typedef STRING_REF EFI_PROCESSOR_VERSION_DATA;
@ -228,13 +317,35 @@ typedef struct {
UINT32 ProcessorReserved4: 2;
} EFI_PROCESSOR_FEATURE_FLAGS;
///
/// This data record refers to the unique ID that identifies a set of processors. This data record is 16
/// bytes in length. The data in this structure is processor specific and reserved values can be defined
/// for future use. The consumer of this data should not make any assumption and should use this data
/// with respect to the processor family defined in the Family record number.
///
typedef struct {
///
/// Identifies the processor.
///
EFI_PROCESSOR_SIGNATURE Signature;
///
/// Provides additional processor information.
///
EFI_PROCESSOR_MISC_INFO MiscInfo;
///
/// Reserved for future use.
///
UINT32 Reserved;
///
/// Provides additional processor information.
///
EFI_PROCESSOR_FEATURE_FLAGS FeatureFlags;
} EFI_PROCESSOR_ID_DATA;
///
/// This data record refers to the general classification of the processor. This data record is 4 bytes in
/// length.
///
typedef enum {
EfiProcessorOther = 1,
EfiProcessorUnknown = 2,
@ -244,6 +355,10 @@ typedef enum {
EfiVideoProcessor = 6
} EFI_PROCESSOR_TYPE_DATA;
///
/// This data record refers to the family of the processor as defined by the DMTF.
/// This data record is 4 bytes in length.
///
typedef enum {
EfiProcessorFamilyOther = 1,
EfiProcessorFamilyUnknown = 2,
@ -281,9 +396,32 @@ typedef enum {
EfiProcessorFamilyPowerPC603 = 0x22,
EfiProcessorFamilyPowerPC603Plus = 0x23,
EfiProcessorFamilyPowerPC604 = 0x24,
EfiProcessorFamilyPowerPC620 = 0x25,
EfiProcessorFamilyPowerPC704 = 0x26,
EfiProcessorFamilyPowerPC750 = 0x27,
EfiProcessorFamilyAlpha2 = 0x30,
EfiProcessorFamilyAlpha21064 = 0x31,
EfiProcessorFamilyAlpha21066 = 0x32,
EfiProcessorFamilyAlpha21164 = 0x33,
EfiProcessorFamilyAlpha21164PC = 0x34,
EfiProcessorFamilyAlpha21164a = 0x35,
EfiProcessorFamilyAlpha21264 = 0x36,
EfiProcessorFamilyAlpha21364 = 0x37,
EfiProcessorFamilyMips = 0x40,
EfiProcessorFamilyMIPSR4000 = 0x41,
EfiProcessorFamilyMIPSR4200 = 0x42,
EfiProcessorFamilyMIPSR4400 = 0x43,
EfiProcessorFamilyMIPSR4600 = 0x44,
EfiProcessorFamilyMIPSR10000 = 0x45,
EfiProcessorFamilySparc = 0x50,
EfiProcessorFamilySuperSparc = 0x51,
EfiProcessorFamilymicroSparcII = 0x52,
EfiProcessorFamilymicroSparcIIep = 0x53,
EfiProcessorFamilyUltraSparc = 0x54,
EfiProcessorFamilyUltraSparcII = 0x55,
EfiProcessorFamilyUltraSparcIIi = 0x56,
EfiProcessorFamilyUltraSparcIII = 0x57,
EfiProcessorFamilyUltraSparcIIIi = 0x58,
EfiProcessorFamily68040 = 0x60,
EfiProcessorFamily68xxx = 0x61,
EfiProcessorFamily68000 = 0x62,
@ -291,8 +429,19 @@ typedef enum {
EfiProcessorFamily68020 = 0x64,
EfiProcessorFamily68030 = 0x65,
EfiProcessorFamilyHobbit = 0x70,
EfiProcessorFamilyCrusoeTM5000 = 0x78,
EfiProcessorFamilyCrusoeTM3000 = 0x79,
EfiProcessorFamilyWeitek = 0x80,
EfiProcessorFamilyItanium = 0x82,
EfiProcessorFamilyAmdAthlon64 = 0x83,
EfiProcessorFamilyAmdOpteron = 0x84,
EfiProcessorFamilyPARISC = 0x90,
EfiProcessorFamilyPaRisc8500 = 0x91,
EfiProcessorFamilyPaRisc8000 = 0x92,
EfiProcessorFamilyPaRisc7300LC = 0x93,
EfiProcessorFamilyPaRisc7200 = 0x94,
EfiProcessorFamilyPaRisc7100LC = 0x95,
EfiProcessorFamilyPaRisc7100 = 0x96,
EfiProcessorFamilyV30 = 0xA0,
EfiProcessorFamilyPentiumIIIXeon = 0xB0,
EfiProcessorFamilyPentiumIIISpeedStep = 0xB1,
@ -313,9 +462,28 @@ typedef enum {
EfiProcessorFamilyi960 = 0xFB
} EFI_PROCESSOR_FAMILY_DATA;
///
/// This data record refers to the core voltage of the processor being defined. The unit of measurement
/// of this data record is in volts.
///
typedef EFI_EXP_BASE10_DATA EFI_PROCESSOR_VOLTAGE_DATA;
///
/// This data record refers to the base address of the APIC of the processor being defined. This data
/// record is a physical address location.
///
typedef EFI_PHYSICAL_ADDRESS EFI_PROCESSOR_APIC_BASE_ADDRESS_DATA;
///
/// This data record refers to the ID of the APIC of the processor being defined. This data record is a
/// 4-byte entry.
///
typedef UINT32 EFI_PROCESSOR_APIC_ID_DATA;
///
/// This data record refers to the version number of the APIC of the processor being defined. This data
/// record is a 4-byte entry.
///
typedef UINT32 EFI_PROCESSOR_APIC_VERSION_NUMBER_DATA;
typedef enum {
@ -324,19 +492,32 @@ typedef enum {
EfiProcessorIpfPalBMicrocode = 3
} EFI_PROCESSOR_MICROCODE_TYPE;
///
/// This data record refers to the revision of the processor microcode that is loaded in the processor.
/// This data record is a 4-byte entry.
///
typedef struct {
///
/// Identifies what type of microcode the data is.
///
EFI_PROCESSOR_MICROCODE_TYPE ProcessorMicrocodeType;
///
/// Indicates the revision number of this microcode.
///
UINT32 ProcessorMicrocodeRevisionNumber;
} EFI_PROCESSOR_MICROCODE_REVISION_DATA;
///
/// This data record refers to the status of the processor.
///
typedef struct {
UINT32 CpuStatus :3;
UINT32 Reserved1 :3;
UINT32 SocketPopulated :1;
UINT32 Reserved2 :1;
UINT32 ApicEnable :1;
UINT32 BootApplicationProcessor :1;
UINT32 Reserved3 :22;
UINT32 CpuStatus :3; ///> Indicates the status of the processor.
UINT32 Reserved1 :3; ///> Reserved for future use. Should be set to zero.
UINT32 SocketPopulated :1; ///> Indicates if the processor is socketed or not.
UINT32 Reserved2 :1; ///> Reserved for future use. Should be set to zero.
UINT32 ApicEnable :1; ///> Indicates if the APIC is enabled or not.
UINT32 BootApplicationProcessor :1; ///> Indicates if this processor is the boot processor.
UINT32 Reserved3 :22;///> Reserved for future use. Should be set to zero.
} EFI_PROCESSOR_STATUS_DATA;
typedef enum {
@ -376,12 +557,20 @@ typedef enum {
typedef STRING_REF EFI_PROCESSOR_SOCKET_NAME_DATA;
typedef EFI_INTER_LINK_DATA EFI_CACHE_ASSOCIATION_DATA;
///
/// This data record refers to the health status of the processor.
///
typedef enum {
EfiProcessorHealthy = 1,
EfiProcessorPerfRestricted = 2,
EfiProcessorFuncRestricted = 3
EfiProcessorFuncRestricted = 3
} EFI_PROCESSOR_HEALTH_STATUS;
///
/// This data record refers to the package number of this processor. Multiple logical processors can
/// exist in a system and each logical processor can be correlated to the physical processor using this
/// record type.
///
typedef UINTN EFI_PROCESSOR_PACKAGE_NUMBER_DATA;
typedef enum {
@ -572,12 +761,41 @@ typedef enum _EFI_MEMORY_REGION_TYPE {
EfiMemoryRegionNvs = 0x04
} EFI_MEMORY_REGION_TYPE;
///
/// This data record refers to the size of a memory region. The regions that are
/// described can refer to physical memory, memory-mapped I/O, or reserved BIOS memory regions.
/// The unit of measurement of this data record is in bytes.
///
typedef struct {
///
/// A zero-based value that indicates which processor(s) can access the memory region.
/// A value of 0xFFFF indicates the region is accessible by all processors.
///
UINT32 ProcessorNumber;
///
/// A zero-based value that indicates the starting bus that can access the memory region.
///
UINT16 StartBusNumber;
///
/// A zero-based value that indicates the ending bus that can access the memory region.
/// A value of 0xFF for a PCI system indicates the region is accessible by all buses and
/// is global in scope. An example of the EndBusNumber not being 0xFF is a system
/// with two or more peer-to-host PCI bridges.
///
UINT16 EndBusNumber;
///
/// The type of memory region from the operating system<65>s point of view.
/// MemoryRegionType values are equivalent to the legacy INT 15 AX = E820 BIOS
/// command values.
///
EFI_MEMORY_REGION_TYPE MemoryRegionType;
///
/// The size of the memory region in bytes.
///
EFI_EXP_BASE2_DATA MemorySize;
///
/// The starting physical address of the memory region.
///
EFI_PHYSICAL_ADDRESS MemoryStartAddress;
} EFI_MEMORY_SIZE_DATA;
@ -621,11 +839,40 @@ typedef enum _EFI_MEMORY_ERROR_CORRECTION {
EfiMemoryErrorCorrectionCrc = 0x07
} EFI_MEMORY_ERROR_CORRECTION;
///
/// This data record refers to the physical memory array. This data record is a structure.
/// The type definition structure for EFI_MEMORY_ARRAY_LOCATION_DATA is in SMBIOS 2.3.4:
/// - Table 3.3.17.1, Type 16, Offset 0x4
/// - Table 3.3.17.2, Type 16, Offset 0x5
/// - Table 3.3.17.3, Type 16, with the following offsets:
/// -- Offset 0x6
/// -- Offset 0x7
/// -- Offset 0xB
/// -- Offset 0xD
///
typedef struct {
///
/// The physical location of the memory array.
///
EFI_MEMORY_ARRAY_LOCATION MemoryArrayLocation;
///
/// The memory array usage.
///
EFI_MEMORY_ARRAY_USE MemoryArrayUse;
///
/// The primary error correction or detection supported by this memory array.
///
EFI_MEMORY_ERROR_CORRECTION MemoryErrorCorrection;
///
/// The maximum memory capacity size in kilobytes. If capacity is unknown, then
/// values of MaximumMemoryCapacity.Value = 0x00 and
/// MaximumMemoryCapacity.Exponent = 0x8000 are used.
///
EFI_EXP_BASE2_DATA MaximumMemoryCapacity;
///
/// The number of memory slots or sockets that are available for memory devices
/// in this array.
///
UINT16 NumberMemoryDevices;
} EFI_MEMORY_ARRAY_LOCATION_DATA;
@ -700,46 +947,156 @@ typedef enum {
EfiMemoryStatePartial = 6
} EFI_MEMORY_STATE;
///
/// This data record describes a memory device. This data record is a structure.
/// The type definition structure for EFI_MEMORY_ARRAY_LINK_DATA is in SMBIOS 2.3.4.
///
typedef struct {
///
/// A string that identifies the physically labeled socket or board position where the
/// memory device is located.
///
STRING_REF MemoryDeviceLocator;
///
/// A string denoting the physically labeled bank where the memory device is located.
///
STRING_REF MemoryBankLocator;
///
/// A string denoting the memory manufacturer.
///
STRING_REF MemoryManufacturer;
///
/// A string denoting the serial number of the memory device.
///
STRING_REF MemorySerialNumber;
///
/// The asset tag of the memory device.
///
STRING_REF MemoryAssetTag;
///
/// A string denoting the part number of the memory device.
///
STRING_REF MemoryPartNumber;
///
/// A link to a memory array structure set.
///
EFI_INTER_LINK_DATA MemoryArrayLink;
///
/// A link to a memory array structure set.
///
EFI_INTER_LINK_DATA MemorySubArrayLink;
///
/// The total width in bits of this memory device. If there are no error correcting bits,
/// then the total width equals the data width. If the width is unknown, then set the field
/// to 0xFFFF.
///
UINT16 MemoryTotalWidth;
///
/// The data width in bits of the memory device. A data width of 0x00 and a total width
/// of 0x08 indicate that the device is used solely for error correction.
///
UINT16 MemoryDataWidth;
///
/// The size in bytes of the memory device. A value of 0x00 denotes that no device is
/// installed, while a value of all Fs denotes that the size is not known.
///
EFI_EXP_BASE2_DATA MemoryDeviceSize;
///
/// The form factor of the memory device.
///
EFI_MEMORY_FORM_FACTOR MemoryFormFactor;
///
/// A memory device set that must be populated with all devices of the same type and
/// size. A value of 0x00 indicates that the device is not part of any set. A value of 0xFF
/// indicates that the attribute is unknown. Any other value denotes the set number.
///
UINT8 MemoryDeviceSet;
///
/// The memory type in the socket.
///
EFI_MEMORY_ARRAY_TYPE MemoryType;
///
/// The memory type details.
///
EFI_MEMORY_TYPE_DETAIL MemoryTypeDetail;
///
/// The memory speed in megahertz (MHz). A value of 0x00 denotes that
/// the speed is unknown.
///
EFI_EXP_BASE10_DATA MemorySpeed;
///
/// The memory state.
///
EFI_MEMORY_STATE MemoryState;
} EFI_MEMORY_ARRAY_LINK_DATA;
#define EFI_MEMORY_ARRAY_START_ADDRESS_RECORD_NUMBER 0x00000004
///
/// This data record refers to a specified physical memory array associated with
/// a given memory range.
///
typedef struct {
///
/// The starting physical address in bytes of memory mapped to a specified physical
/// memory array.
///
EFI_PHYSICAL_ADDRESS MemoryArrayStartAddress;
///
/// The last physical address in bytes of memory mapped to a specified physical memory
/// array.
///
EFI_PHYSICAL_ADDRESS MemoryArrayEndAddress;
///
/// See Physical Memory Array (Type 16) for physical memory array structures.
///
EFI_INTER_LINK_DATA PhysicalMemoryArrayLink;
///
/// The number of memory devices that form a single row of memory for the address
/// partition.
///
UINT16 MemoryArrayPartitionWidth;
} EFI_MEMORY_ARRAY_START_ADDRESS_DATA;
#define EFI_MEMORY_DEVICE_START_ADDRESS_RECORD_NUMBER 0x00000005
///
/// This data record refers to a physical memory device that is associated with
/// a given memory range.
///
typedef struct {
///
/// The starting physical address that is associated with the device.
///
EFI_PHYSICAL_ADDRESS MemoryDeviceStartAddress;
///
/// The ending physical address that is associated with the device.
///
EFI_PHYSICAL_ADDRESS MemoryDeviceEndAddress;
///
/// A link to the memory device data structure.
///
EFI_INTER_LINK_DATA PhysicalMemoryDeviceLink;
///
/// A link to the memory array data structure.
///
EFI_INTER_LINK_DATA PhysicalMemoryArrayLink;
///
/// The position of the memory device in a row. A value of 0x00 is reserved and a value
/// of 0xFF indicates that the position is unknown.
///
UINT8 MemoryDevicePartitionRowPosition;
///
/// The position of the device in an interleave.
///
UINT8 MemoryDeviceInterleavePosition;
///
/// The maximum number of consecutive rows from the device that are accessed in a
/// single interleave transfer. A value of 0x00 indicates that the device is not interleaved
/// and a value of 0xFF indicates that the interleave configuration is unknown.
///
UINT8 MemoryDeviceInterleaveDataDepth;
} EFI_MEMORY_DEVICE_START_ADDRESS_DATA;
@ -757,17 +1114,53 @@ typedef enum _EFI_MEMORY_CHANNEL_TYPE {
EfiMemoryChannelTypeSyncLink = 4
} EFI_MEMORY_CHANNEL_TYPE;
///
/// This data record refers the type of memory that is associated with the channel. This data record is a
/// structure.
/// The type definition structure for EFI_MEMORY_CHANNEL_TYPE_DATA is in SMBIOS 2.3.4,
/// Table 3.3.38, Type 37, with the following offsets:
/// - Offset 0x4
/// - Offset 0x5
/// - Offset 0x6
///
typedef struct {
///
/// The type of memory that is associated with the channel.
///
EFI_MEMORY_CHANNEL_TYPE MemoryChannelType;
///
/// The maximum load that is supported by the channel.
///
UINT8 MemoryChannelMaximumLoad;
///
/// The number of memory devices on this channel.
///
UINT8 MemoryChannelDeviceCount;
} EFI_MEMORY_CHANNEL_TYPE_DATA;
#define EFI_MEMORY_CHANNEL_DEVICE_RECORD_NUMBER 0x00000007
///
/// This data record refers to the memory device that is associated with the memory channel. This data
/// record is a structure.
/// The type definition structure for EFI_MEMORY_CHANNEL_DEVICE_DATA is in SMBIOS 2.3.4,
/// Table 3.3.38, Type 37, with the following offsets:
/// - Offset 0x7
/// - Offset 0x8
///
typedef struct {
///
/// A number between one and MemoryChannelDeviceCount plus an arbitrary base.
///
UINT8 DeviceId;
///
/// The Link of the associated memory device. See Memory Device (Type 17) for
/// memory devices.
///
EFI_INTER_LINK_DATA DeviceLink;
///
/// The number of load units that this device consumes.
///
UINT8 MemoryChannelDeviceLoad;
} EFI_MEMORY_CHANNEL_DEVICE_DATA;