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/** @file
Copyright (c) 2006 - 2007, Intel Corporation
All rights reserved. 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:
DxeInit.c
Abstract:
Revision History:
**/
#include "DxeIpl.h"
#include "LegacyTable.h"
#include "HobGeneration.h"
#include "PpisNeededByDxeCore.h"
#include "Debug.h"
/*
--------------------------------------------------------
Memory Map: (XX=32,64)
--------------------------------------------------------
0x0
IVT
0x400
BDA
0x500
0x7C00
BootSector
0x10000
EfiLdr (relocate by efiXX.COM)
0x15000
Efivar.bin (Load by StartXX.COM)
0x20000
StartXX.COM (E820 table, Temporary GDT, Temporary IDT)
0x21000
EfiXX.COM (Temporary Interrupt Handler)
0x22000
EfiLdr.efi + DxeIpl.Z + DxeMain.Z + BFV.Z
0x86000
MemoryFreeUnder1M (For legacy driver DMA)
0x90000
Temporary 4G PageTable for X64 (6 page)
0x9F800
EBDA
0xA0000
VGA
0xC0000
OPROM
0xE0000
FIRMEWARE
0x100000 (1M)
Temporary Stack (1M)
0x200000
MemoryAbove1MB.PhysicalStart <-----------------------------------------------------+
... |
... |
<- Phit.EfiMemoryBottom -------------------+ |
HOB | |
<- Phit.EfiFreeMemoryBottom | |
| MemoryFreeAbove1MB.ResourceLength
<- Phit.EfiFreeMemoryTop ------+ | |
MemoryDescriptor (For ACPINVS, ACPIReclaim) | 4M = CONSUMED_MEMORY |
| | |
Permament 4G PageTable for IA32 or MemoryAllocation | |
Permament 64G PageTable for X64 | | |
<------------------------------+ | |
Permament Stack (0x20 Pages = 128K) | |
<- Phit.EfiMemoryTop ----------+-----------+---------------+
DxeCore |
DxeCore
DxeIpl |
<----------------------------------------------------------+
NvFV + FtwFV |
MMIO
BFV |
<- Top of Free Memory reported by E820 --------------------+
ACPINVS or
ACPIReclaim or
Reserved
<- Memory Top on RealMemory
0x100000000 (4G)
MemoryFreeAbove4G.Physicalstart <--------------------------------------------------+
|
|
MemoryFreeAbove4GB.ResourceLength
|
|
<--------------------------------------------------+
*/
VOID
EnterDxeMain (
IN VOID *StackTop,
IN VOID *DxeCoreEntryPoint,
IN VOID *Hob,
IN VOID *PageTable
);
VOID
DxeInit (
IN EFILDRHANDOFF *Handoff
)
/*++
Routine Description:
This is the entry point after this code has been loaded into memory.
Arguments:
Returns:
Calls into EFI Firmware
--*/
{
VOID *StackTop;
VOID *StackBottom;
VOID *PageTableBase;
VOID *MemoryTopOnDescriptor;
VOID *MemoryDescriptor;
VOID *NvStorageBase;
CHAR8 PrintBuffer[256];
ClearScreen();
PrintString("Enter DxeIpl ...\n");
/*
ClearScreen();
PrintString("handoff:\n");
PrintString("Handoff.BfvBase = ");
PrintValue64((UINT64)(UINTN)Handoff->BfvBase);
PrintString(", ");
PrintString("BfvLength = ");
PrintValue64(Handoff->BfvSize);
PrintString("\n");
PrintString("Handoff.DxeIplImageBase = ");
PrintValue64((UINT64)(UINTN)Handoff->DxeIplImageBase);
PrintString(", ");
PrintString("DxeIplImageSize = ");
PrintValue64(Handoff->DxeIplImageSize);
PrintString("\n");
PrintString("Handoff.DxeCoreImageBase = ");
PrintValue64((UINT64)(UINTN)Handoff->DxeCoreImageBase);
PrintString(", ");
PrintString("DxeCoreImageSize = ");
PrintValue64(Handoff->DxeCoreImageSize);
PrintString("\n");
*/
//
// Hob Generation Guild line:
// * Don't report FV as physical memory
// * MemoryAllocation Hob should only cover physical memory
// * Use ResourceDescriptor Hob to report physical memory or Firmware Device and they shouldn't be overlapped
PrepareHobCpu ();
//
// 1. BFV
//
PrepareHobBfv (Handoff->BfvBase, Handoff->BfvSize);
//
// 2. Updates Memory information, and get the top free address under 4GB
//
MemoryTopOnDescriptor = PrepareHobMemory (Handoff->MemDescCount, Handoff->MemDesc);
//
// 3. Put [NV], [Stack], [PageTable], [MemDesc], [HOB] just below the [top free address under 4GB]
//
// 3.1 NV data
NvStorageBase = PrepareHobNvStorage (MemoryTopOnDescriptor);
AsciiSPrint (PrintBuffer, 256, "NV Storage Base=0x%x\n", (UINTN)NvStorageBase);
PrintString (PrintBuffer);
// 3.2 Stack
StackTop = NvStorageBase;
StackBottom = PrepareHobStack (StackTop);
AsciiSPrint (PrintBuffer, 256, "Stack Top=0x%x, Stack Bottom=0x%x\n",
(UINTN)StackTop, (UINTN)StackBottom);
PrintString (PrintBuffer);
// 3.3 Page Table
PageTableBase = PreparePageTable (StackBottom, gHob->Cpu.SizeOfMemorySpace);
// 3.4 MemDesc (will be used in PlatformBds)
MemoryDescriptor = PrepareHobMemoryDescriptor (PageTableBase, Handoff->MemDescCount, Handoff->MemDesc);
// 3.5 Copy the Hob itself to EfiMemoryBottom, and update the PHIT Hob
PrepareHobPhit (StackTop, MemoryDescriptor);
//
// 4. Register the memory occupied by DxeCore and DxeIpl together as DxeCore
//
PrepareHobDxeCore (
Handoff->DxeCoreEntryPoint,
(EFI_PHYSICAL_ADDRESS)(UINTN)Handoff->DxeCoreImageBase,
(UINTN)Handoff->DxeIplImageBase + (UINTN)Handoff->DxeIplImageSize - (UINTN)Handoff->DxeCoreImageBase
);
PrepareHobLegacyTable (gHob);
PreparePpisNeededByDxeCore (gHob);
CompleteHobGeneration ();
AsciiSPrint (PrintBuffer, 256, "HobStart=0x%x\n", (UINTN)gHob);
PrintString (PrintBuffer);
AsciiSPrint (PrintBuffer, 256, "Memory Top=0x%x, Bottom=0x%x\n",
(UINTN)gHob->Phit.EfiMemoryTop, (UINTN)gHob->Phit.EfiMemoryBottom);
PrintString (PrintBuffer);
AsciiSPrint (PrintBuffer, 256, "Free Memory Top=0x%x, Bottom=0x%x\n",
(UINTN)gHob->Phit.EfiFreeMemoryTop, (UINTN)gHob->Phit.EfiFreeMemoryBottom);
PrintString (PrintBuffer);
AsciiSPrint (PrintBuffer, 256, "Nv Base=0x%x, Length=0x%x\n",
(UINTN)gHob->NvStorageFvb.FvbInfo.Entries[0].Base,
(UINTN)gHob->NvFtwFvb.FvbInfo.Entries[0].Length);
PrintString (PrintBuffer);
/*
//
// Print Hob Info
//
ClearScreen();
PrintString("Hob Info\n");
PrintString("Phit.EfiMemoryTop = ");
PrintValue64(gHob->Phit.EfiMemoryTop);
PrintString(" Phit.EfiMemoryBottom = ");
PrintValue64(gHob->Phit.EfiMemoryBottom);
PrintString("\n");
PrintString("Phit.EfiFreeMemoryTop = ");
PrintValue64(gHob->Phit.EfiFreeMemoryTop);
PrintString(" Phit.EfiFreeMemoryBottom = ");
PrintValue64(gHob->Phit.EfiFreeMemoryBottom);
PrintString("\n");
PrintString("Bfv = ");
PrintValue64(gHob->Bfv.BaseAddress);
PrintString(" BfvLength = ");
PrintValue64(gHob->Bfv.Length);
PrintString("\n");
PrintString("NvStorageFvb = ");
PrintValue64(gHob->NvStorageFvb.FvbInfo.Entries[0].Base);
PrintString(" Length = ");
PrintValue64(gHob->NvStorageFvb.FvbInfo.Entries[0].Length);
PrintString("\n");
PrintString("NvFtwFvb = ");
PrintValue64(gHob->NvFtwFvb.FvbInfo.Entries[0].Base);
PrintString(" Length = ");
PrintValue64(gHob->NvFtwFvb.FvbInfo.Entries[0].Length);
PrintString("\n");
PrintString("Stack = ");
PrintValue64(gHob->Stack.AllocDescriptor.MemoryBaseAddress);
PrintString(" StackLength = ");
PrintValue64(gHob->Stack.AllocDescriptor.MemoryLength);
PrintString("\n");
PrintString("MemoryFreeUnder1MB = ");
PrintValue64(gHob->MemoryFreeUnder1MB.PhysicalStart);
PrintString(" MemoryFreeUnder1MBLength = ");
PrintValue64(gHob->MemoryFreeUnder1MB.ResourceLength);
PrintString("\n");
PrintString("MemoryAbove1MB = ");
PrintValue64(gHob->MemoryAbove1MB.PhysicalStart);
PrintString(" MemoryAbove1MBLength = ");
PrintValue64(gHob->MemoryAbove1MB.ResourceLength);
PrintString("\n");
PrintString("MemoryAbove4GB = ");
PrintValue64(gHob->MemoryAbove4GB.PhysicalStart);
PrintString(" MemoryAbove4GBLength = ");
PrintValue64(gHob->MemoryAbove4GB.ResourceLength);
PrintString("\n");
PrintString("DxeCore = ");
PrintValue64(gHob->DxeCore.MemoryAllocationHeader.MemoryBaseAddress);
PrintString(" DxeCoreLength = ");
PrintValue64(gHob->DxeCore.MemoryAllocationHeader.MemoryLength);
PrintString("\n");
PrintString("MemoryAllocation = ");
PrintValue64(gHob->MemoryAllocation.AllocDescriptor.MemoryBaseAddress);
PrintString(" MemoryLength = ");
PrintValue64(gHob->MemoryAllocation.AllocDescriptor.MemoryLength);
PrintString("\n");
EFI_DEADLOOP();
*/
ClearScreen();
PrintString("\n\n\n\n\n\n\n\n\n\n");
PrintString(" WELCOME TO EFI WORLD!\n");
EnterDxeMain (StackTop, Handoff->DxeCoreEntryPoint, gHob, PageTableBase);
//
// Should never get here
//
CpuDeadLoop ();
}
EFI_STATUS
EFIAPI
_ModuleEntryPoint (
IN EFILDRHANDOFF *Handoff
)
{
DxeInit(Handoff);
return EFI_SUCCESS;
}
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