audk/Vlv2TbltDevicePkg/Include/Guid/PlatformCpuInfo.h

186 lines
8.0 KiB
C

/*++
Copyright (c) 2004 - 2014, Intel Corporation. All rights reserved.<BR>
This program and the accompanying materials are licensed and made available under
the terms and conditions of the BSD License that accompanies this distribution.
The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php.
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
Module Name:
PlatformCpuInfo.h
Abstract:
GUID used for Platform CPU Info Data entries in the HOB list.
--*/
#ifndef _PLATFORM_CPU_INFO_GUID_H_
#define _PLATFORM_CPU_INFO_GUID_H_
#include "CpuType.h"
#include <Library/CpuIA32.h>
#define EFI_PLATFORM_CPU_INFO_GUID \
{\
0xbb9c7ab7, 0xb8d9, 0x4bf3, 0x9c, 0x29, 0x9b, 0xf3, 0x41, 0xe2, 0x17, 0xbc \
}
extern EFI_GUID gEfiPlatformCpuInfoGuid;
extern CHAR16 EfiPlatformCpuInfoVariable[];
//
// Tri-state for feature capabilities and enable/disable.
// [0] clear=feature isn't capable
// [0] set =feature is capable
// [1] clear=feature is disabled
// [1] set =feature is enabled
//
#define CPU_FEATURES_CAPABLE BIT0
#define CPU_FEATURES_ENABLE BIT1
#define MAX_CACHE_DESCRIPTORS 64
#define MAXIMUM_CPU_BRAND_STRING_LENGTH 48
#pragma pack(1)
typedef struct {
UINT32 FullCpuId; // [31:0] & 0x0FFF0FFF
UINT32 FullFamilyModelId; // [31:0] & 0x0FFF0FF0
UINT8 ExtendedFamilyId; // [27:20]
UINT8 ExtendedModelId; // [19:16]
UINT8 ProcessorType; // [13:11]
UINT8 FamilyId; // [11:8]
UINT8 Model; // [7:4]
UINT8 SteppingId; // [3:0]
} EFI_CPU_VERSION_INFO; // CPUID.1.EAX
typedef struct {
UINT32 L1InstructionCacheSize;
UINT32 L1DataCacheSize;
UINT32 L2CacheSize;
UINT32 L3CacheSize;
UINT32 TraceCacheSize;
UINT8 CacheDescriptor[MAX_CACHE_DESCRIPTORS];
} EFI_CPU_CACHE_INFO; // CPUID.2.EAX
typedef struct {
UINT8 PhysicalPackages;
UINT8 LogicalProcessorsPerPhysicalPackage;
UINT8 CoresPerPhysicalPackage;
UINT8 ThreadsPerCore;
} EFI_CPU_PACKAGE_INFO; // CPUID.4.EAX
typedef struct {
UINT32 RegEdx; // CPUID.5.EAX
UINT8 MaxCState;
UINT8 C0SubCStatesMwait; // EDX [3:0]
UINT8 C1SubCStatesMwait; // EDX [7:4]
UINT8 C2SubCStatesMwait; // EDX [11:8]
UINT8 C3SubCStatesMwait; // EDX [15:12]
UINT8 C4SubCStatesMwait; // EDX [19:16]
UINT8 C5SubCStatesMwait; // EDX [23:20]
UINT8 C6SubCStatesMwait; // EDX [27:24]
UINT8 C7SubCStatesMwait; // EDX [31:28]
UINT8 MonitorMwaitSupport; // ECX [0]
UINT8 InterruptsBreakMwait; // ECX [1]
} EFI_CPU_CSTATE_INFO; // CPUID.5.EAX
typedef struct {
UINT8 Turbo; // EAX [1]
UINT8 PECI; // EAX [0]
UINT8 NumIntThresholds; // EBX [3:0]
UINT8 HwCoordinationFeedback; // ECX [0]
} EFI_CPU_POWER_MANAGEMENT; // CPUID.6.EAX
//
// IMPORTANT: Each CPU feature enabling entry is assumed a tri-state variable.
// - Keep the respective feature entry variable as default value (0x00)
// if the CPU is not capable for the feature.
// - Use the specially defined programming convention to update the variable
// to indicate capable, enable or disable.
// ie. F_CAPABLE for feature available
// F_ENABLE for feature enable
// F_DISABLE for feature disable
//
typedef struct {
EFI_CPUID_REGISTER Regs; // CPUID.1.EAX
UINT8 Xapic; // ECX [21]
UINT8 SSE4_2; // ECX [20]
UINT8 SSE4_1; // ECX [19]
UINT8 Dca; // ECX [18]
UINT8 SupSSE3; // ECX [9]
UINT8 Tm2; // ECX [8]
UINT8 Eist; // ECX [7]
UINT8 Lt; // ECX [6]
UINT8 Vt; // ECX [5]
UINT8 Mwait; // ECX [3]
UINT8 SSE3; // ECX [0]
UINT8 Tcc; // EDX [29]
UINT8 Mt; // EDX [28]
UINT8 SSE2; // EDX [26]
UINT8 SSE; // EDX [25]
UINT8 MMX; // EDX [23]
EFI_CPUID_REGISTER ExtRegs; // CPUID.80000001.EAX
UINT8 ExtLahfSahf64; // ECX [0]
UINT8 ExtIntel64; // EDX [29]
UINT8 ExtXd; // EDX [20]
UINT8 ExtSysCallRet64; // EDX [11]
UINT16 Ht; // CPUID.0B.EAX EBX [15:0]
} EFI_CPU_FEATURES; // CPUID.1.EAX, CPUID.0B.EAX, CPUID.80000001.EAX
typedef struct {
UINT8 PhysicalBits;
UINT8 VirtualBits;
} EFI_CPU_ADDRESS_BITS; // CPUID.80000008.EAX
typedef struct {
UINT8 PlatformID; // MSR 0x17 [52:50]
UINT32 MicrocodeRevision; // MSR 0x8B [63:32]
UINT8 MaxEfficiencyRatio; // MSR 0xCE [47:40]
UINT8 DdrRatioUnlockCap; // MSR 0xCE [30]
UINT8 TdcTdpLimitsTurbo; // MSR 0xCE [29]
UINT8 RatioLimitsTurbo; // MSR 0xCE [28]
UINT8 PreProduction; // MSR 0xCE [27]
UINT8 DcuModeSelect; // MSR 0xCE [26]
UINT8 MaxNonTurboRatio; // MSR 0xCE [15:8]
UINT8 Emrr; // MSR 0xFE [12]
UINT8 Smrr; // MSR 0xFE [11]
UINT8 VariableMtrrCount; // MSR 0xFE [7:0]
UINT16 PState; // MSR 0x198 [15:0]
UINT8 TccActivationTemperature; // MSR 0x1A2 [23:16]
UINT8 TemperatureControlOffset; // MSR 0x1A2 [15:8]
UINT32 PCIeBar; // MSR 0x300 [39:20]
UINT8 PCIeBarSizeMB; // MSR 0x300 [3:1]
} EFI_MSR_FEATURES;
typedef struct {
BOOLEAN IsIntelProcessor;
UINT8 BrandString[MAXIMUM_CPU_BRAND_STRING_LENGTH + 1];
UINT32 CpuidMaxInputValue;
UINT32 CpuidMaxExtInputValue;
EFI_CPU_UARCH CpuUarch;
EFI_CPU_FAMILY CpuFamily;
EFI_CPU_PLATFORM CpuPlatform;
EFI_CPU_TYPE CpuType;
EFI_CPU_VERSION_INFO CpuVersion;
EFI_CPU_CACHE_INFO CpuCache;
EFI_CPU_FEATURES CpuFeatures;
EFI_CPU_CSTATE_INFO CpuCState;
EFI_CPU_PACKAGE_INFO CpuPackage;
EFI_CPU_POWER_MANAGEMENT CpuPowerManagement;
EFI_CPU_ADDRESS_BITS CpuAddress;
EFI_MSR_FEATURES Msr;
} EFI_PLATFORM_CPU_INFO;
#pragma pack()
#endif