mirror of https://github.com/acidanthera/audk.git
521 lines
21 KiB
C
521 lines
21 KiB
C
/** @file
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Register CPU Features Library to register and manage CPU features.
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Copyright (c) 2017, Intel Corporation. All rights reserved.<BR>
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This program and the accompanying materials
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are licensed and made available under the terms and conditions of the BSD License
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which accompanies this distribution. The full text of the license may be found at
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http://opensource.org/licenses/bsd-license.php
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THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
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WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
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**/
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#ifndef __REGISTER_CPU_FEATURES_LIB_H__
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#define __REGISTER_CPU_FEATURES_LIB_H__
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#include <AcpiCpuData.h>
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#include <Register/Cpuid.h>
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#include <Protocol/MpService.h>
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///
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/// Defines used to identify a CPU feature. The lower 16-bits are used to
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/// identify a unique CPU feature and the value represents a bit number in
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/// a bit mask. The upper 16-bits are bit mask values that are used as
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/// modifiers of a CPU feature. When used in a list, the define value
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/// CPU_FEATURE_END is used to terminate a list of CPU feature values.
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/// @{
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#define CPU_FEATURE_AESNI 0
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#define CPU_FEATURE_TURBO_MODE 1
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#define CPU_FEATURE_MWAIT 2
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#define CPU_FEATURE_ACPI 3
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#define CPU_FEATURE_EIST 4
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#define CPU_FEATURE_XD 5
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#define CPU_FEATURE_FASTSTRINGS 6
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#define CPU_FEATURE_VMX 7
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#define CPU_FEATURE_SMX 8
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#define CPU_FEATURE_LMCE 9
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#define CPU_FEATURE_LOCK_FEATURE_CONTROL_REGISTER 10
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#define CPU_FEATURE_LIMIT_CPUID_MAX_VAL 11
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#define CPU_FEATURE_MCE 12
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#define CPU_FEATURE_MCA 13
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#define CPU_FEATURE_MCG_CTL 14
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#define CPU_FEATURE_PENDING_BREAK 15
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#define CPU_FEATURE_C1E 16
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#define CPU_FEATURE_C1_AUTO_DEMOTION 17
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#define CPU_FEATURE_C3_AUTO_DEMOTION 18
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#define CPU_FEATURE_C1_UNDEMOTION 19
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#define CPU_FEATURE_C3_UNDEMOTION 20
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#define CPU_FEATURE_C_STATE 21
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#define CPU_FEATURE_TM 22
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#define CPU_FEATURE_TM2 23
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#define CPU_FEATURE_X2APIC 24
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#define CPU_FEATURE_RESERVED_25 25
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#define CPU_FEATURE_RESERVED_26 26
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#define CPU_FEATURE_RESERVED_27 27
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#define CPU_FEATURE_RESERVED_28 28
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#define CPU_FEATURE_RESERVED_29 29
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#define CPU_FEATURE_RESERVED_30 30
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#define CPU_FEATURE_RESERVED_31 31
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#define CPU_FEATURE_L2_PREFETCHER (32+0)
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#define CPU_FEATURE_L1_DATA_PREFETCHER (32+1)
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#define CPU_FEATURE_HARDWARE_PREFETCHER (32+2)
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#define CPU_FEATURE_ADJACENT_CACHE_LINE_PREFETCH (32+3)
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#define CPU_FEATURE_DCU_PREFETCHER (32+4)
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#define CPU_FEATURE_IP_PREFETCHER (32+5)
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#define CPU_FEATURE_MLC_STREAMER_PREFETCHER (32+6)
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#define CPU_FEATURE_MLC_SPATIAL_PREFETCHER (32+7)
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#define CPU_FEATURE_THREE_STRICK_COUNTER (32+8)
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#define CPU_FEATURE_APIC_TPR_UPDATE_MESSAGE (32+9)
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#define CPU_FEATURE_ENERGY_PERFORMANCE_BIAS (32+10)
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#define CPU_FEATURE_PPIN (32+11)
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#define CPU_FEATURE_PROC_TRACE (32+12)
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#define CPU_FEATURE_BEFORE_ALL BIT27
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#define CPU_FEATURE_AFTER_ALL BIT28
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#define CPU_FEATURE_BEFORE BIT29
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#define CPU_FEATURE_AFTER BIT30
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#define CPU_FEATURE_END MAX_UINT32
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/// @}
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///
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/// CPU Information passed into the SupportFunc and InitializeFunc of the
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/// RegisterCpuFeature() library function. This structure contains information
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/// that is commonly used during CPU feature detection and initialization.
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///
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typedef struct {
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///
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/// The package that the CPU resides
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///
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EFI_PROCESSOR_INFORMATION ProcessorInfo;
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///
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/// The Display Family of the CPU computed from CPUID leaf CPUID_VERSION_INFO
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///
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UINT32 DisplayFamily;
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///
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/// The Display Model of the CPU computed from CPUID leaf CPUID_VERSION_INFO
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///
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UINT32 DisplayModel;
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///
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/// The Stepping ID of the CPU computed from CPUID leaf CPUID_VERSION_INFO
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///
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UINT32 SteppingId;
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///
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/// The Processor Type of the CPU computed from CPUID leaf CPUID_VERSION_INFO
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///
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UINT32 ProcessorType;
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///
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/// Bit field structured returned in ECX from CPUID leaf CPUID_VERSION_INFO
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///
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CPUID_VERSION_INFO_ECX CpuIdVersionInfoEcx;
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///
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/// Bit field structured returned in EDX from CPUID leaf CPUID_VERSION_INFO
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///
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CPUID_VERSION_INFO_EDX CpuIdVersionInfoEdx;
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} REGISTER_CPU_FEATURE_INFORMATION;
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/**
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Determines if a CPU feature is enabled in PcdCpuFeaturesSupport bit mask.
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If a CPU feature is disabled in PcdCpuFeaturesSupport then all the code/data
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associated with that feature should be optimized away if compiler
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optimizations are enabled.
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@param[in] Feature The bit number of the CPU feature to check in the PCD
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PcdCpuFeaturesSupport.
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@retval TRUE The CPU feature is set in PcdCpuFeaturesSupport.
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@retval FALSE The CPU feature is not set in PcdCpuFeaturesSupport.
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@note This service could be called by BSP only.
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**/
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BOOLEAN
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EFIAPI
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IsCpuFeatureSupported (
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IN UINT32 Feature
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);
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/**
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Determines if a CPU feature is set in PcdCpuFeaturesSetting bit mask.
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@param[in] Feature The bit number of the CPU feature to check in the PCD
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PcdCpuFeaturesSetting.
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@retval TRUE The CPU feature is set in PcdCpuFeaturesSetting.
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@retval FALSE The CPU feature is not set in PcdCpuFeaturesSetting.
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@note This service could be called by BSP only.
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**/
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BOOLEAN
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EFIAPI
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IsCpuFeatureInSetting (
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IN UINT32 Feature
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);
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/**
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Determines if a CPU feature is set in PcdCpuFeaturesCapability bit mask.
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@param[in] Feature The bit number of the CPU feature to check in the PCD
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PcdCpuFeaturesCapability.
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@retval TRUE The CPU feature is set in PcdCpuFeaturesCapability.
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@retval FALSE The CPU feature is not set in PcdCpuFeaturesCapability.
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@note This service could be called by BSP only.
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**/
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BOOLEAN
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EFIAPI
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IsCpuFeatureCapability (
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IN UINT32 Feature
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);
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/**
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Determines if a CPU feature is set in PcdCpuFeaturesUserConfiguration bit mask.
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@param[in] Feature The bit number of the CPU feature to check in the PCD
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PcdCpuFeaturesUserConfiguration.
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@retval TRUE The CPU feature is set in PcdCpuFeaturesUserConfiguration.
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@retval FALSE The CPU feature is not set in PcdCpuFeaturesUserConfiguration.
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@note This service could be called by BSP only.
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**/
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BOOLEAN
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EFIAPI
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IsCpuFeatureUserConfiguration (
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IN UINT32 Feature
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);
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/**
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Prepares for the data used by CPU feature detection and initialization.
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@param[in] NumberOfProcessors The number of CPUs in the platform.
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@return Pointer to a buffer of CPU related configuration data.
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@note This service could be called by BSP only.
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**/
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typedef
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VOID *
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(EFIAPI *CPU_FEATURE_GET_CONFIG_DATA)(
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IN UINTN NumberOfProcessors
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);
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/**
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Detects if CPU feature supported on current processor.
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@param[in] ProcessorNumber The index of the CPU executing this function.
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@param[in] CpuInfo A pointer to the REGISTER_CPU_FEATURE_INFORMATION
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structure for the CPU executing this function.
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@param[in] ConfigData A pointer to the configuration buffer returned
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by CPU_FEATURE_GET_CONFIG_DATA. NULL if
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CPU_FEATURE_GET_CONFIG_DATA was not provided in
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RegisterCpuFeature().
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@retval TRUE CPU feature is supported.
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@retval FALSE CPU feature is not supported.
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@note This service could be called by BSP/APs.
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**/
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typedef
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BOOLEAN
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(EFIAPI *CPU_FEATURE_SUPPORT)(
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IN UINTN ProcessorNumber,
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IN REGISTER_CPU_FEATURE_INFORMATION *CpuInfo,
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IN VOID *ConfigData OPTIONAL
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);
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/**
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Initializes CPU feature to specific state.
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This service does not initialize hardware and only produces entries in the
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Register Table for specified processor. Hardware initialization on BSP/APs
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will be done in CpuFeaturesInitialize().
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@param[in] ProcessorNumber The index of the CPU executing this function.
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@param[in] CpuInfo A pointer to the REGISTER_CPU_FEATURE_INFORMATION
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structure for the CPU executing this function.
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@param[in] ConfigData A pointer to the configuration buffer returned
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by CPU_FEATURE_GET_CONFIG_DATA. NULL if
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CPU_FEATURE_GET_CONFIG_DATA was not provided in
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RegisterCpuFeature().
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@param[in] State If TRUE, then the CPU feature must be enabled.
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If FALSE, then the CPU feature must be disabled.
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@retval RETURN_SUCCESS CPU feature is initialized.
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@note This service could be called by BSP only.
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**/
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typedef
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RETURN_STATUS
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(EFIAPI *CPU_FEATURE_INITIALIZE)(
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IN UINTN ProcessorNumber,
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IN REGISTER_CPU_FEATURE_INFORMATION *CpuInfo,
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IN VOID *ConfigData, OPTIONAL
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IN BOOLEAN State
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);
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/**
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Registers a CPU Feature.
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@param[in] FeatureName A Null-terminated Ascii string indicates CPU feature
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name.
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@param[in] GetConfigDataFunc CPU feature get configuration data function. This
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is an optional parameter that may be NULL. If NULL,
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then the most recently registered function for the
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CPU feature is used. If no functions are registered
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for a CPU feature, then the CPU configuration data
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for the registered feature is NULL.
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@param[in] SupportFunc CPU feature support function. This is an optional
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parameter that may be NULL. If NULL, then the most
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recently registered function for the CPU feature is
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used. If no functions are registered for a CPU
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feature, then the CPU feature is assumed to be
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supported by all CPUs.
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@param[in] InitializeFunc CPU feature initialize function. This is an optional
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parameter that may be NULL. If NULL, then the most
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recently registered function for the CPU feature is
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used. If no functions are registered for a CPU
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feature, then the CPU feature initialization is
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skipped.
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@param[in] ... Variable argument list of UINT32 CPU feature value.
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Values with no modifiers are the features provided
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by the registered functions.
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Values with CPU_FEATURE_BEFORE modifier are features
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that must be initialized after the features provided
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by the registered functions are used.
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Values with CPU_FEATURE_AFTER modifier are features
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that must be initialized before the features provided
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by the registered functions are used.
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The last argument in this variable argument list must
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always be CPU_FEATURE_END.
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@retval RETURN_SUCCESS The CPU feature was successfully registered.
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@retval RETURN_OUT_OF_RESOURCES There are not enough resources to register
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the CPU feature.
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@retval RETURN_UNSUPPORTED Registration of the CPU feature is not
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supported due to a circular dependency between
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BEFORE and AFTER features.
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@note This service could be called by BSP only.
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**/
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RETURN_STATUS
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EFIAPI
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RegisterCpuFeature (
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IN CHAR8 *FeatureName, OPTIONAL
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IN CPU_FEATURE_GET_CONFIG_DATA GetConfigDataFunc, OPTIONAL
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IN CPU_FEATURE_SUPPORT SupportFunc, OPTIONAL
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IN CPU_FEATURE_INITIALIZE InitializeFunc, OPTIONAL
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...
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);
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/**
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Performs CPU features detection.
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This service will invoke MP service to check CPU features'
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capabilities on BSP/APs.
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@note This service could be called by BSP only.
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**/
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VOID
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EFIAPI
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CpuFeaturesDetect (
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VOID
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);
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/**
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Performs CPU features Initialization.
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This service will invoke MP service to perform CPU features
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initialization on BSP/APs per user configuration.
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@note This service could be called by BSP only.
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**/
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VOID
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EFIAPI
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CpuFeaturesInitialize (
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VOID
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);
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/**
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Switches to assigned BSP after CPU features initialization.
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@param[in] ProcessorNumber The index of the CPU executing this function.
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@note This service could be called by BSP only.
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**/
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VOID
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EFIAPI
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SwitchBspAfterFeaturesInitialize (
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IN UINTN ProcessorNumber
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);
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/**
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Adds an entry in specified register table.
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This function adds an entry in specified register table, with given register type,
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register index, bit section and value.
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@param[in] ProcessorNumber The index of the CPU to add a register table entry.
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@param[in] RegisterType Type of the register to program
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@param[in] Index Index of the register to program
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@param[in] ValueMask Mask of bits in register to write
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@param[in] Value Value to write
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@note This service could be called by BSP only.
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**/
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VOID
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EFIAPI
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CpuRegisterTableWrite (
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IN UINTN ProcessorNumber,
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IN REGISTER_TYPE RegisterType,
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IN UINT64 Index,
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IN UINT64 ValueMask,
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IN UINT64 Value
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);
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/**
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Adds an entry in specified Pre-SMM register table.
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This function adds an entry in specified register table, with given register type,
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register index, bit section and value.
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@param[in] ProcessorNumber The index of the CPU to add a register table entry.
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@param[in] RegisterType Type of the register to program
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@param[in] Index Index of the register to program
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@param[in] ValueMask Mask of bits in register to write
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@param[in] Value Value to write
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@note This service could be called by BSP only.
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**/
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VOID
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EFIAPI
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PreSmmCpuRegisterTableWrite (
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IN UINTN ProcessorNumber,
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IN REGISTER_TYPE RegisterType,
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IN UINT64 Index,
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IN UINT64 ValueMask,
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IN UINT64 Value
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);
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/**
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Adds a 32-bit register write entry in specified register table.
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This macro adds an entry in specified register table, with given register type,
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register index, and value.
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@param[in] ProcessorNumber The index of the CPU to add a register table entry.
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@param[in] RegisterType Type of the register to program
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@param[in] Index Index of the register to program
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@param[in] Value Value to write
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@note This service could be called by BSP only.
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**/
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#define CPU_REGISTER_TABLE_WRITE32(ProcessorNumber, RegisterType, Index, Value) \
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do { \
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CpuRegisterTableWrite (ProcessorNumber, RegisterType, Index, MAX_UINT32, Value); \
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} while(FALSE);
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/**
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Adds a 64-bit register write entry in specified register table.
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This macro adds an entry in specified register table, with given register type,
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register index, and value.
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@param[in] ProcessorNumber The index of the CPU to add a register table entry.
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@param[in] RegisterType Type of the register to program
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@param[in] Index Index of the register to program
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@param[in] Value Value to write
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@note This service could be called by BSP only.
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**/
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#define CPU_REGISTER_TABLE_WRITE64(ProcessorNumber, RegisterType, Index, Value) \
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do { \
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CpuRegisterTableWrite (ProcessorNumber, RegisterType, Index, MAX_UINT64, Value); \
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} while(FALSE);
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/**
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Adds a bit field write entry in specified register table.
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This macro adds an entry in specified register table, with given register type,
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register index, bit field section, and value.
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@param[in] ProcessorNumber The index of the CPU to add a register table entry.
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@param[in] RegisterType Type of the register to program.
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@param[in] Index Index of the register to program.
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@param[in] Type The data type name of a register structure.
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@param[in] Field The bit fiel name in register structure to write.
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@param[in] Value Value to write to the bit field.
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@note This service could be called by BSP only.
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**/
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#define CPU_REGISTER_TABLE_WRITE_FIELD(ProcessorNumber, RegisterType, Index, Type, Field, Value) \
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do { \
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UINT64 ValueMask; \
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ValueMask = MAX_UINT64; \
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((Type *)(&ValueMask))->Field = 0; \
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CpuRegisterTableWrite (ProcessorNumber, RegisterType, Index, ~ValueMask, Value); \
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} while(FALSE);
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/**
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Adds a 32-bit register write entry in specified register table.
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This macro adds an entry in specified register table, with given register type,
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register index, and value.
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@param[in] ProcessorNumber The index of the CPU to add a register table entry.
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@param[in] RegisterType Type of the register to program
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@param[in] Index Index of the register to program
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@param[in] Value Value to write
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@note This service could be called by BSP only.
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**/
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#define PRE_SMM_CPU_REGISTER_TABLE_WRITE32(ProcessorNumber, RegisterType, Index, Value) \
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do { \
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PreSmmCpuRegisterTableWrite (ProcessorNumber, RegisterType, Index, MAX_UINT32, Value); \
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} while(FALSE);
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/**
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Adds a 64-bit register write entry in specified register table.
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This macro adds an entry in specified register table, with given register type,
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register index, and value.
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@param[in] ProcessorNumber The index of the CPU to add a register table entry.
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@param[in] RegisterType Type of the register to program
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@param[in] Index Index of the register to program
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@param[in] Value Value to write
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@note This service could be called by BSP only.
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**/
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#define PRE_SMM_CPU_REGISTER_TABLE_WRITE64(ProcessorNumber, RegisterType, Index, Value) \
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do { \
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PreSmmCpuRegisterTableWrite (ProcessorNumber, RegisterType, Index, MAX_UINT64, Value); \
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} while(FALSE);
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/**
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Adds a bit field write entry in specified register table.
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This macro adds an entry in specified register table, with given register type,
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register index, bit field section, and value.
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@param[in] ProcessorNumber The index of the CPU to add a register table entry.
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@param[in] RegisterType Type of the register to program.
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@param[in] Index Index of the register to program.
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@param[in] Type The data type name of a register structure.
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@param[in] Field The bit fiel name in register structure to write.
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@param[in] Value Value to write to the bit field.
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@note This service could be called by BSP only.
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**/
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#define PRE_SMM_CPU_REGISTER_TABLE_WRITE_FIELD(ProcessorNumber, RegisterType, Index, Type, Field, Value) \
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do { \
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UINT64 ValueMask; \
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ValueMask = MAX_UINT64; \
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((Type *)(&ValueMask))->Field = 0; \
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PreSmmCpuRegisterTableWrite (ProcessorNumber, RegisterType, Index, ~ValueMask, Value); \
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} while(FALSE);
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#endif
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