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/**@file
Memory Detection for Virtual Machines.
Copyright (c) 2006 - 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
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.
Module Name:
MemDetect.c
**/
//
// The package level header files this module uses
//
#include <PiPei.h>
//
// The Library classes this module consumes
//
#include <Library/BaseMemoryLib.h>
#include <Library/DebugLib.h>
#include <Library/HobLib.h>
#include <Library/IoLib.h>
#include <Library/PcdLib.h>
#include <Library/PeimEntryPoint.h>
#include <Library/ResourcePublicationLib.h>
#include <Library/MtrrLib.h>
#include "Platform.h"
#include "Cmos.h"
UINT32
GetSystemMemorySizeBelow4gb (
VOID
)
{
UINT8 Cmos0x34;
UINT8 Cmos0x35;
//
// CMOS 0x34/0x35 specifies the system memory above 16 MB.
// * CMOS(0x35) is the high byte
// * CMOS(0x34) is the low byte
// * The size is specified in 64kb chunks
// * Since this is memory above 16MB, the 16MB must be added
// into the calculation to get the total memory size.
//
Cmos0x34 = (UINT8) CmosRead8 (0x34);
Cmos0x35 = (UINT8) CmosRead8 (0x35);
return (((UINTN)((Cmos0x35 << 8) + Cmos0x34) << 16) + SIZE_16MB);
}
STATIC
UINT64
GetSystemMemorySizeAbove4gb (
)
{
UINT32 Size;
UINTN CmosIndex;
//
// CMOS 0x5b-0x5d specifies the system memory above 4GB MB.
// * CMOS(0x5d) is the most significant size byte
// * CMOS(0x5c) is the middle size byte
// * CMOS(0x5b) is the least significant size byte
// * The size is specified in 64kb chunks
//
Size = 0;
for (CmosIndex = 0x5d; CmosIndex >= 0x5b; CmosIndex--) {
Size = (UINT32) (Size << 8) + (UINT32) CmosRead8 (CmosIndex);
}
return LShiftU64 (Size, 16);
}
/**
Publish PEI core memory
@return EFI_SUCCESS The PEIM initialized successfully.
**/
EFI_STATUS
PublishPeiMemory (
VOID
)
{
EFI_STATUS Status;
EFI_PHYSICAL_ADDRESS MemoryBase;
UINT64 MemorySize;
UINT64 LowerMemorySize;
if (mBootMode == BOOT_ON_S3_RESUME) {
MemoryBase = PcdGet32 (PcdS3AcpiReservedMemoryBase);
MemorySize = PcdGet32 (PcdS3AcpiReservedMemorySize);
} else {
LowerMemorySize = GetSystemMemorySizeBelow4gb ();
//
// Determine the range of memory to use during PEI
//
MemoryBase = PcdGet32 (PcdOvmfDxeMemFvBase) + PcdGet32 (PcdOvmfDxeMemFvSize);
MemorySize = LowerMemorySize - MemoryBase;
if (MemorySize > SIZE_64MB) {
MemoryBase = LowerMemorySize - SIZE_64MB;
MemorySize = SIZE_64MB;
}
}
//
// Publish this memory to the PEI Core
//
Status = PublishSystemMemory(MemoryBase, MemorySize);
ASSERT_EFI_ERROR (Status);
return Status;
}
/**
Peform Memory Detection for QEMU / KVM
**/
STATIC
VOID
QemuInitializeRam (
VOID
)
{
UINT64 LowerMemorySize;
UINT64 UpperMemorySize;
DEBUG ((EFI_D_INFO, "%a called\n", __FUNCTION__));
//
// Determine total memory size available
//
LowerMemorySize = GetSystemMemorySizeBelow4gb ();
UpperMemorySize = GetSystemMemorySizeAbove4gb ();
if (mBootMode != BOOT_ON_S3_RESUME) {
//
// Create memory HOBs
//
AddMemoryRangeHob (BASE_1MB, LowerMemorySize);
AddMemoryRangeHob (0, BASE_512KB + BASE_128KB);
}
MtrrSetMemoryAttribute (BASE_1MB, LowerMemorySize - BASE_1MB, CacheWriteBack);
MtrrSetMemoryAttribute (0, BASE_512KB + BASE_128KB, CacheWriteBack);
if (UpperMemorySize != 0) {
if (mBootMode != BOOT_ON_S3_RESUME) {
AddUntestedMemoryBaseSizeHob (BASE_4GB, UpperMemorySize);
}
MtrrSetMemoryAttribute (BASE_4GB, UpperMemorySize, CacheWriteBack);
}
}
/**
Publish system RAM and reserve memory regions
**/
VOID
InitializeRamRegions (
VOID
)
{
if (!mXen) {
QemuInitializeRam ();
} else {
XenPublishRamRegions ();
}
if (mS3Supported && mBootMode != BOOT_ON_S3_RESUME) {
//
// This is the memory range that will be used for PEI on S3 resume
//
BuildMemoryAllocationHob (
(EFI_PHYSICAL_ADDRESS)(UINTN) PcdGet32 (PcdS3AcpiReservedMemoryBase),
(UINT64)(UINTN) PcdGet32 (PcdS3AcpiReservedMemorySize),
EfiACPIMemoryNVS
);
//
// Cover the initial RAM area used as stack and temporary PEI heap.
//
// This is reserved as ACPI NVS so it can be used on S3 resume.
//
BuildMemoryAllocationHob (
PcdGet32 (PcdOvmfSecPeiTempRamBase),
PcdGet32 (PcdOvmfSecPeiTempRamSize),
EfiACPIMemoryNVS
);
//
// SEC stores its table of GUIDed section handlers here.
//
BuildMemoryAllocationHob (
PcdGet64 (PcdGuidedExtractHandlerTableAddress),
PcdGet32 (PcdGuidedExtractHandlerTableSize),
EfiACPIMemoryNVS
);
#ifdef MDE_CPU_X64
//
// Reserve the initial page tables built by the reset vector code.
//
// Since this memory range will be used by the Reset Vector on S3
// resume, it must be reserved as ACPI NVS.
//
BuildMemoryAllocationHob (
(EFI_PHYSICAL_ADDRESS)(UINTN) PcdGet32 (PcdOvmfSecPageTablesBase),
(UINT64)(UINTN) PcdGet32 (PcdOvmfSecPageTablesSize),
EfiACPIMemoryNVS
);
#endif
}
if (mBootMode != BOOT_ON_S3_RESUME) {
//
// Reserve the lock box storage area
//
// Since this memory range will be used on S3 resume, it must be
// reserved as ACPI NVS.
//
// If S3 is unsupported, then various drivers might still write to the
// LockBox area. We ought to prevent DXE from serving allocation requests
// such that they would overlap the LockBox storage.
//
ZeroMem (
(VOID*)(UINTN) PcdGet32 (PcdOvmfLockBoxStorageBase),
(UINTN) PcdGet32 (PcdOvmfLockBoxStorageSize)
);
BuildMemoryAllocationHob (
(EFI_PHYSICAL_ADDRESS)(UINTN) PcdGet32 (PcdOvmfLockBoxStorageBase),
(UINT64)(UINTN) PcdGet32 (PcdOvmfLockBoxStorageSize),
mS3Supported ? EfiACPIMemoryNVS : EfiBootServicesData
);
}
}
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