audk/UefiCpuPkg/Include/AcpiCpuData.h

218 lines
7.8 KiB
C

/** @file
Definitions for CPU S3 data.
Copyright (c) 2013 - 2018, 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
which 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.
**/
#ifndef _ACPI_CPU_DATA_H_
#define _ACPI_CPU_DATA_H_
//
// Register types in register table
//
typedef enum {
Msr,
ControlRegister,
MemoryMapped,
CacheControl,
//
// Semaphore type used to control the execute sequence of the Msr.
// It will be insert between two Msr which has execute dependence.
//
Semaphore,
InvalidReg
} REGISTER_TYPE;
//
// Describe the dependency type for different features.
// The value set to CPU_REGISTER_TABLE_ENTRY.Value when the REGISTER_TYPE is Semaphore.
//
typedef enum {
NoneDepType,
ThreadDepType,
CoreDepType,
PackageDepType,
InvalidDepType
} CPU_FEATURE_DEPENDENCE_TYPE;
//
// CPU information.
//
typedef struct {
//
// Record the package count in this CPU.
//
UINT32 PackageCount;
//
// Record the max core count in this CPU.
// Different packages may have different core count, this value
// save the max core count in all the packages.
//
UINT32 MaxCoreCount;
//
// Record the max thread count in this CPU.
// Different cores may have different thread count, this value
// save the max thread count in all the cores.
//
UINT32 MaxThreadCount;
//
// This field points to an array.
// This array saves valid core count (type UINT32) of each package.
// The array has PackageCount elements.
//
// If the platform does not support MSR setting at S3 resume, and
// therefore it doesn't need the dependency semaphores, it should set
// this field to 0.
//
EFI_PHYSICAL_ADDRESS ValidCoreCountPerPackage;
} CPU_STATUS_INFORMATION;
//
// Element of register table entry
//
typedef struct {
REGISTER_TYPE RegisterType; // offset 0 - 3
UINT32 Index; // offset 4 - 7
UINT8 ValidBitStart; // offset 8
UINT8 ValidBitLength; // offset 9
UINT16 Reserved; // offset 10 - 11
UINT32 HighIndex; // offset 12-15, only valid for MemoryMapped
UINT64 Value; // offset 16-23
} CPU_REGISTER_TABLE_ENTRY;
//
// Register table definition, including current table length,
// allocated size of this table, and pointer to the list of table entries.
//
typedef struct {
//
// The number of valid entries in the RegisterTableEntry buffer
//
UINT32 TableLength;
UINT32 NumberBeforeReset;
//
// The size, in bytes, of the RegisterTableEntry buffer
//
UINT32 AllocatedSize;
//
// The initial APIC ID of the CPU this register table applies to
//
UINT32 InitialApicId;
//
// Physical address of CPU_REGISTER_TABLE_ENTRY structures.
//
EFI_PHYSICAL_ADDRESS RegisterTableEntry;
} CPU_REGISTER_TABLE;
//
// Data structure that is required for ACPI S3 resume. The PCD
// PcdCpuS3DataAddress must be set to the physical address where this structure
// is allocated
//
typedef struct {
//
// Physical address of 4KB buffer allocated below 1MB from memory of type
// EfiReservedMemoryType. The buffer is not required to be initialized, but
// it is recommended that the buffer be zero-filled. This buffer is used to
// wake APs during an ACPI S3 resume.
//
EFI_PHYSICAL_ADDRESS StartupVector;
//
// Physical address of structure of type IA32_DESCRIPTOR. The
// IA32_DESCRIPTOR structure provides the base address and length of a GDT
// The GDT must be filled in with the GDT contents that are
// used during an ACPI S3 resume. This is typically the contents of the GDT
// used by the boot processor when the platform is booted.
//
EFI_PHYSICAL_ADDRESS GdtrProfile;
//
// Physical address of structure of type IA32_DESCRIPTOR. The
// IA32_DESCRIPTOR structure provides the base address and length of an IDT.
// The IDT must be filled in with the IDT contents that are
// used during an ACPI S3 resume. This is typically the contents of the IDT
// used by the boot processor when the platform is booted.
//
EFI_PHYSICAL_ADDRESS IdtrProfile;
//
// Physical address of a buffer that is used as stacks during ACPI S3 resume.
// The total size of this buffer, in bytes, is NumberOfCpus * StackSize. This
// structure must be allocated from memory of type EfiACPIMemoryNVS.
//
EFI_PHYSICAL_ADDRESS StackAddress;
//
// The size, in bytes, of the stack provided to each CPU during ACPI S3 resume.
//
UINT32 StackSize;
//
// The number of CPUs. If a platform does not support hot plug CPUs, then
// this is the number of CPUs detected when the platform is booted, regardless
// of being enabled or disabled. If a platform does support hot plug CPUs,
// then this is the maximum number of CPUs that the platform supports.
//
UINT32 NumberOfCpus;
//
// Physical address of structure of type MTRR_SETTINGS that contains a copy
// of the MTRR settings that are compatible with the MTRR settings used by
// the boot processor when the platform was booted. These MTRR settings are
// used during an ACPI S3 resume.
//
EFI_PHYSICAL_ADDRESS MtrrTable;
//
// Physical address of an array of CPU_REGISTER_TABLE structures, with
// NumberOfCpus entries. If a register table is not required, then the
// TableLength and AllocatedSize fields of CPU_REGISTER_TABLE are set to 0.
// If TableLength is > 0, then elements of RegisterTableEntry are used to
// initialize the CPU that matches InitialApicId, during an ACPI S3 resume,
// before SMBASE relocation is performed.
//
EFI_PHYSICAL_ADDRESS PreSmmInitRegisterTable;
//
// Physical address of an array of CPU_REGISTER_TABLE structures, with
// NumberOfCpus entries. If a register table is not required, then the
// TableLength and AllocatedSize fields of CPU_REGISTER_TABLE are set to 0.
// If TableLength is > 0, then elements of RegisterTableEntry are used to
// initialize the CPU that matches InitialApicId, during an ACPI S3 resume,
// after SMBASE relocation is performed.
//
EFI_PHYSICAL_ADDRESS RegisterTable;
//
// Physical address of a buffer that contains the machine check handler that
// is used during an ACPI S3 Resume. In order for this machine check
// handler to be active on an AP during an ACPI S3 resume, the machine check
// vector in the IDT provided by IdtrProfile must be initialized to transfer
// control to this physical address.
//
EFI_PHYSICAL_ADDRESS ApMachineCheckHandlerBase;
//
// The size, in bytes, of the machine check handler that is used during an
// ACPI S3 Resume. If this field is 0, then a machine check handler is not
// provided.
//
UINT32 ApMachineCheckHandlerSize;
//
// CPU information which is required when set the register table.
//
CPU_STATUS_INFORMATION CpuStatus;
//
// Location info for each AP.
// It points to an array which saves all APs location info.
// The array count is the AP count in this CPU.
//
// If the platform does not support MSR setting at S3 resume, and
// therefore it doesn't need the dependency semaphores, it should set
// this field to 0.
//
EFI_PHYSICAL_ADDRESS ApLocation;
} ACPI_CPU_DATA;
#endif